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JP6202437B2 - Container branching apparatus and method - Google Patents
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JP6202437B2 - Container branching apparatus and method - Google Patents

Container branching apparatus and method Download PDF

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JP6202437B2
JP6202437B2 JP2013227021A JP2013227021A JP6202437B2 JP 6202437 B2 JP6202437 B2 JP 6202437B2 JP 2013227021 A JP2013227021 A JP 2013227021A JP 2013227021 A JP2013227021 A JP 2013227021A JP 6202437 B2 JP6202437 B2 JP 6202437B2
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conveyor
container
capacity
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conveyance
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JP2015086052A (en
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安行 平野
安行 平野
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Mitsubishi Heavy Industries Machinery Systems Co Ltd
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Mitsubishi Heavy Industries Mechatronics Systems Ltd
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Description

本発明は、上流から多列状態で搬送されてくる容器を下流側の2列のラインへ容器搬送量が均等になるように分岐する容器分岐装置および方法に関する。   The present invention relates to a container branching apparatus and method for branching a container transported in a multi-row state from the upstream to two downstream lines so that the container transport amount is even.

飲料の充填包装ラインでは、容器に内容物を充填する充填装置で充填された容器が、その下流の検査装置を経て、さらに下流側の包装装置へ搬送される容器搬送ラインにおいて、前記充填装置が高能力である場合に、容器が検査能力の関係から2ラインのコンベヤに分岐されて2台の検査装置で検査された後で一端1ラインのコンベヤに集合されてから、搬送コンベヤ上で1ラインから2ラインへ分岐される容器分岐装置を介して、2ラインのパックマシンへ均等な容器供給量で搬送することが必要となる場合がある。   In a beverage filling and packaging line, a container filled with a filling device for filling a container with contents is passed through a downstream inspection device and further conveyed to a downstream packaging device. In the case of high capacity, the container is branched into a two-line conveyor due to the inspection capability, inspected by two inspection devices, and then assembled into a one-line conveyor, and then one line on the conveyor. In some cases, it is necessary to transport to a two-line pack machine with a uniform container supply amount via a container branching device that branches from two lines.

従来、2ラインのコンベヤへの容器分岐装置については、2ラインで搬送されてきた容器が1ラインのコンベヤに集合される集積コンベヤから、さらにそれぞれ搬送速度を制御した2ラインのコンベヤを経て、案内部材(容器分岐ガイド)で分岐された後に搬送速度制御をした下流側の2ラインのコンベヤへ搬送され、前記下流側の2ラインのコンベヤでの容器搬送量を制御される容器分岐装置が公知となっている。(特許文献1)   Conventionally, with regard to the container branching device to a two-line conveyor, guidance is provided from a stacking conveyor in which containers transported in two lines are gathered in a one-line conveyor, and further through a two-line conveyor each controlling the transport speed. There is a known container branching device that is branched by a member (container branching guide) and then transported to a downstream two-line conveyor whose transport speed is controlled, and the container transport amount in the downstream two-line conveyor is controlled. It has become. (Patent Document 1)

また、2ラインのコンベヤへの容器分岐装置について、上流から搬送されてきた容器を搬送コンベヤの幅方向の片側に寄せ、この搬送コンベヤの容器が寄せられている側の側部に設けた揺動ガイドを前記幅方向に往復揺動させて、前記容器を前記搬送コンベヤの幅方向に分散させ、下流側の分岐ガイドによって2ラインの排出コンベヤにほぼ均等に送り込む容器搬送量制御を備えた容器分岐装置も公知となっている。(特許文献2)   Also, for the container branching device to the two-line conveyor, the container transported from the upstream is moved to one side in the width direction of the transport conveyor, and the swing provided on the side of the transport conveyor where the container is transported A container branch having a container transport amount control in which the guide is reciprocally swung in the width direction, the containers are dispersed in the width direction of the transport conveyor, and sent to the discharge conveyor of two lines almost evenly by the downstream branch guide. Devices are also known. (Patent Document 2)

特開2000−302232号公報(図2)JP 2000-302232 A (FIG. 2) 特開2007−217105号公報(図1、図2)JP 2007-217105 A (FIGS. 1 and 2)

前記特許文献1では、下流側の2ラインのコンベヤへの容器搬送量の振分けは、集積コンベヤ上での容器の溜まり状態と案内部材との位置関係に依存し、特に、上流側からの容器供給量にばらつきがあるときには均等に振分け制御することは難しいという恐れがある。   In Patent Document 1, the distribution of container transport amounts to the two-line conveyor on the downstream side depends on the positional relationship between the reservoir state of the containers on the accumulation conveyor and the guide member, and in particular, the container supply from the upstream side When there is a variation in the amount, there is a fear that it is difficult to control the distribution evenly.

また、前記特許文献2では、搬送ラインで幅方向に往復揺動させる揺動ガイドを設け、その動作により第1排出コンベヤと第2排出コンベヤにほぼ均等に容器搬送量を振分けるとしているが、これも上流側からの容器供給量にばらつきがあるときには揺動ガイドの往復制御が難しいという恐れがある。   Further, in Patent Document 2, a swing guide that reciprocally swings in the width direction in the transport line is provided, and the container transport amount is distributed substantially evenly between the first discharge conveyor and the second discharge conveyor by the operation. Again, when there is a variation in the amount of container supplied from the upstream side, there is a risk that reciprocating control of the swing guide is difficult.

本発明は、上述の事情に鑑み、容器搬送ラインでの搬送容器2分岐において、搬送速度制御を行うコンベヤの箇所を少なくして制御が簡素で、2分岐後の2つの搬送ラインでの容器搬送量を効率的に均等にする容器分岐装置および方法を提供することを目的としている。   In view of the above-described circumstances, the present invention reduces the number of conveyors for carrying speed control in the branching of the transporting container 2 in the container transporting line, and the control is simple. Container transporting in the two transporting lines after the branching It is an object to provide a vessel branching apparatus and method for efficiently equalizing the amount.

前記の課題に対し、本発明は以下の手段により解決を図る。
(1)第1の手段の容器分岐装置は、密集状態で容器を能力搬送する能力搬送コンベヤ(C3)と、前記能力搬送コンベヤ(C3)の下流側に接続して搬送速度制御により容器搬送の密集度を適宜に変化させることが可能でその搬送幅が前記能力搬送コンベヤ(C3)と同等或いは大きめの能力調整コンベヤ(C4)と、各コンベヤの搬送速度制御を行う搬送制御装置と、前記能力調整コンベヤ(C4)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力調整コンベヤ(C4)と同等或いは大きめで、前記能力調整コンベヤ(C4)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の搬送コンベヤ(5A)および幅狭の搬送コンベヤ(5B)と、前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の境界に分岐先端部を有して容器搬送を2分岐する容器分岐ガイドと、前記幅広の搬送コンベヤ(5A)および前記幅狭の搬送コンベヤ(5B)のそれぞれに接続して前記2分岐された容器を搬送するそれぞれに搬送容器溜まり量検知センサーを備えた下流側の第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)とから成り、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の下流側に接続して密集状態で容器を後工程へ能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように、前記搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする。
The present invention solves the above problems by the following means.
(1) The container branching device of the first means is connected to the capacity conveying conveyor (C3) that conveys containers in a dense state, and downstream of the capacity conveying conveyor (C3), and is used for conveying containers by controlling the conveying speed. and its transport width can be varied density appropriately said capability conveyor (C3) and equal to or larger capacity adjusting conveyor (C4), a transfer control unit for the conveying speed control of the conveyor, the ability Connected in the direction perpendicular to the downstream side of the adjustment conveyor (C4), the conveyance width of the parallel arrangement of the respective conveyance widths is equal to or larger than that of the capacity adjustment conveyor (C4), and is perpendicular to the capacity adjustment conveyor (C4). wide to receive a container which is conveyed while being guided by the respective inner loop and outer loop to inward turning and for outer loop container guide having an appropriate curvature with the vessel conveying path direction A conveyor (5A) and narrow conveyor (5B), 2 branches the container transport have a branch tip to the boundary of the wide conveyor (5A) and said narrow conveyor (5B) A downstream of the container branching guide and a transport container pool amount detection sensor connected to each of the wide conveyor (5A) and the narrow conveyor (5B) for transporting the bifurcated containers. A first downstream transport conveyor (6A) and a second downstream transport conveyor (6B), connected to the downstream side of the first downstream transport conveyor (6A) and the second downstream transport conveyor (6B), and in a dense state In the capacity transport conveyor (7A) and capacity transport conveyor (7B) for transporting the containers to the subsequent process, the transport container pool amount detection sensor so that the container transport amount is uniform. Characterized by being configured to perform the conveying speed control of the capacity adjusting conveyor (C4) by said conveyance control device based on the detection signal.

(2)第2の手段の容器分岐装置は、前記第1の手段の容器分岐装置において、前記幅広の搬送コンベヤ(5A)および前記幅狭の搬送コンベヤ(5B)での容器搬送を密集状態でなく、隙間を持たせた状態の搬送とするように前記搬送制御装置を構成したことを特徴とする。 (2) The container branching device of the second means is the container branching device of the first means, in which the container transport on the wide transport conveyor (5A) and the narrow transport conveyor (5B) is performed in a dense state. However, the conveyance control device is configured to perform conveyance in a state having a gap.

(3)第3の手段の容器分岐装置は、前記第1および第2の手段の容器分岐装置において、前記能力調整コンベヤ(C4)の搬送速度制御に加えて、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の搬送速度制御を行うように前記搬送制御装置を構成したことを特徴とする。 (3) The container branching device of the third means is the container branching device of the first and second means, in addition to the transport speed control of the capacity adjusting conveyor (C4), the first downstream transport conveyor (6A). ) And the second downstream transfer conveyor (6B), the transfer control device is configured to control the transfer speed.

(4)第4の手段の容器分岐装置は、前記第1から第3の手段の容器分岐装置において、前記第一下流搬送コンベヤ(6A)と前記能力搬送コンベヤ(7A)を一体に、および、前記第二下流搬送コンベヤ(6B)と前記能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)として、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)での容器搬送量が均等になるように、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする。 (4) The container branching device of the fourth means is the container branching device of the first to third means, wherein the first downstream transfer conveyor (6A) and the capacity transfer conveyor (7A) are integrated, and The second downstream transfer conveyor (6B) and the capacity transfer conveyor (7B) are integrated, and the capacity transfer conveyor (A1) and the capacity transfer conveyor (B1) are respectively referred to as the capacity transfer conveyor (A1) and the capacity transfer conveyor (B1). ) In accordance with the detection signals of the transfer container accumulation amount detection sensors provided on the capacity transfer conveyor (A1) and the capacity transfer conveyor (B1), respectively, so that the container transfer amount in the The conveyance speed control of the adjustment conveyor (C4) is performed.

(5)第5の手段の容器分岐装置は、前記第4の手段の容器分岐装置において、前記幅広の搬送コンベヤ(5A)と前記能力搬送コンベヤ(A1)を一体に、および、前記幅狭の搬送コンベヤ(5B)と前記能力搬送コンベヤ(B1)を一体にし、それぞれ能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)として、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)での容器搬送量が均等になるように、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする。 (5) The container branching device of the fifth means is the container branching device of the fourth means, wherein the wide conveying conveyor (5A) and the capacity conveying conveyor (A1) are integrated with each other and the narrow conveying conveyor (A1) . The conveyance conveyor (5B) and the capacity conveyance conveyor (B1) are integrated, and the capacity conveyance conveyor (A2) and the capacity conveyance conveyor (B2) are containers as the capacity conveyance conveyor (A2) and the capacity conveyance conveyor (B2), respectively. Based on the detection signal of the transfer container pool amount detection sensor provided on each of the capacity transport conveyor (A2) and the capacity transport conveyor (B2), the capacity control conveyor (C4) ) Transport speed control is performed.

(6)第6の手段の容器分岐装置は、密集状態で容器を能力搬送する能力搬送コンベヤ(C14)と、前記能力搬送コンベヤ(C14)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力搬送コンベヤ(C14)より大きめで、それぞれに搬送速度制御され、前記能力搬送コンベヤ(C14)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の能力調整コンベヤ(15A)および幅狭の能力調整コンベヤ(15B)と、各コンベヤの搬送速度制御を行う搬送制御装置と、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の境界に分岐先端部を有して容器搬送を2分岐する容器分岐ガイドと、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)のそれぞれに接続して前記2分岐された容器を搬送するそれぞれに搬送容器溜まり量検知センサーを備えた下流側の第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)とから成り、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)の下流側に接続して密集状態で容器を後工程へ能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように、前記搬送容器溜まり量検知センサーが検出したそれぞれの搬送容器溜まり量の差が所定値よりも大きくなると、前記搬送制御装置により前記それぞれの幅広の能力調整コンベヤ(15A)と幅狭の能力調整コンベヤ(15B)の搬送速度制御を行うように構成したことを特徴とする。 (6) The container branching device of the sixth means is connected in a perpendicular direction on the downstream side of the capacity conveying conveyor (C14) and the capacity conveying conveyor (C14) for conveying the capacity in a dense state. The inner width having a suitable curve provided in the container conveying passage perpendicular to the capacity conveying conveyor (C14), the conveying width of the parallel arrangement combined with each other is larger than that of the capacity conveying conveyor (C14), and the conveying speed is controlled respectively. performing a wide capacity adjustment conveyor until use and outer loop container guide being guided by the respective inner loop and outer loop receiving the container which is conveyed (15A) and narrow capability adjustment conveyor (15B), the conveying speed control of the conveyor a transfer controller, a branch tip to the boundary of the wide capacity adjusting conveyor (15A) and said narrow capability adjustment conveyor (15B) A container branching guide to 2 branches the vessel conveying, transport container, respectively for transporting the containers the two branches connected to each of the wide capacity adjusting conveyor (15A) and said narrow capability adjustment conveyor (15B) The first downstream transport conveyor (16A) and the second downstream transport conveyor (16B) on the downstream side provided with the accumulation amount detection sensor, and the first downstream transport conveyor (16A) and the second downstream transport conveyor (16B) The transport container pool amount detection sensor is connected to the downstream side so that the container transport amount on the capacity transport conveyor (7A) and the capacity transport conveyor (7B) that transport the containers to the subsequent process in a dense state is equalized. If the difference between the detected respective transport container reservoir amount becomes larger than a predetermined value, it said respective wide capacity adjusting conveyor by said conveyance control device ( Characterized by being configured to perform the conveying speed control of 5A) and narrow capability adjustment conveyor (15B).

(7)第7の手段の容器分岐装置は、前記第6の手段の容器分岐装置において、前記第一下流搬送コンベヤ(16A)と前記能力搬送コンベヤ(7A)を一体に、および、前記第二下流搬送コンベヤ(16B)と前記能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)として、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)での容器搬送量が均等になるように、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記それぞれの幅広の能力調整コンベヤ(15A)と幅狭の能力調整コンベヤ(15B)の搬送速度制御を行うように構成したことを特徴とする。 (7) The container branching device of the seventh means is the container branching device of the sixth means, wherein the first downstream transport conveyor (16A) and the capacity transport conveyor (7A) are integrated with each other and the second The downstream transfer conveyor (16B) and the capacity transfer conveyor (7B) are integrated into a capacity transfer conveyor (A3) and a capacity transfer conveyor (B3), respectively, as the capacity transfer conveyor (A3) and the capacity transfer conveyor (B3). Based on the detection signal of the transfer container accumulation amount detection sensor provided in each of the capacity transfer conveyor (A3) and the capacity transfer conveyor (B3) so that the container transfer amount becomes uniform, the transfer control device controls the wide width of each of them . The present invention is characterized in that the conveyance speed control of the capacity adjustment conveyor (15A) and the narrow capacity adjustment conveyor (15B) is performed.

(8)第8の手段の容器分岐方法は、上流の能力搬送コンベヤ(C3)により密集状態で能力搬送されてくる容器を、下流側に接続したその搬送幅が前記能力搬送コンベヤ(C3)と同等或いは大きめの能力調整コンベヤ(C4)に搬送して、前記能力調整コンベヤ(C4)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力調整コンベヤ(C4)と同等或いは大きめで、前記能力調整コンベヤ(C4)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドにそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の搬送コンベヤ(5A)および幅狭の搬送コンベヤ(5B)へ前記容器を搬送する際に、前記能力調整コンベヤ(C4)で搬送制御装置からの指令により搬送速度制御をすることによって容器搬送の密集度を適宜変化させ、該搬送速度制御による搬送容器の密集度に応じ、容器搬送経路の外回り側の容器搬送の密集度が一定の密の状態で、前記容器搬送経路の内回り側の容器搬送の密集度に粗密の変化が生じることによって、容器搬送量が前記幅狭の搬送コンベヤ(5B)側は一定前記幅広の搬送コンベヤ(5A)側は粗密の変化を生じさせて、前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の境界に分岐先端部を有した容器分岐ガイドによって前記能力調整コンベヤ(C4)側からの密集度を変化させた状態の搬送容器を2分岐し、該2分岐に対応して前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の下流側にそれぞれ接続した第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)へ搬送させ、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記能力調整コンベヤ(C4)の搬送速度制御を行うことにより、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように制御することを特徴とする。 (8) The container branching method of the eighth means is such that the container whose capacity is conveyed in a dense state by the upstream capacity conveying conveyor (C3) is connected to the downstream side and its conveying width is the capacity conveying conveyor (C3). It is transported to an equal or larger capacity adjustment conveyor (C4) and connected at a right angle on the downstream side of the capacity adjustment conveyor (C4). C4) is equal to or larger than the capacity adjustment conveyor (C4), and is guided and conveyed inwardly and outwardly by an inwardly and outwardly directed container guide having an appropriate curvature provided in a container conveying path in a perpendicular direction. When the containers are transported to the wide transport conveyor (5A) and the narrow transport conveyor (5B) that receive the containers, the transport is controlled by the capacity adjustment conveyor (C4). Appropriately varying the density of container transport by the laid et conveying speed controlled by command, depending on the density of the transport container by conveyance speed control, the container carrying the outer-side of the container transport path density is constant In a dense state, a change in the density of container conveyance on the inner circumference side of the container conveyance path causes a change in density, so that the conveyance conveyor (5B) having a small container conveyance amount is constant and the wide conveyance conveyor ( 5A) causes a change in density, and the capacity adjusting conveyor (C4) is provided by a container branching guide having a branching tip at the boundary between the wide conveyor (5A) and the narrow conveyor (5B). the transport container of the state of changing the density from the side 2 branches, the two respectively connected downstream of the branch to correspond the wide conveyor (5A) and said narrow conveyor (5B) First downstream conveyor (6A) and is transported first to a second downstream conveyor (6B), said first downstream conveyor (6A) and the transport container reservoir amount detection sensor provided respectively on the second downstream conveyor (6B) was By controlling the conveying speed of the capacity adjusting conveyor (C4) based on the detection signal of the container, the containers are connected in a dense state connected to the downstream side of the first downstream conveying conveyor (6A) and the second downstream conveying conveyor (6B). It is characterized by controlling so that the container conveyance amount in the capability conveyance conveyor (7A) and capability conveyance conveyor (7B) which carry out capability conveyance becomes equal.

(9)第9の手段の容器分岐方法は、上流の能力搬送コンベヤ(C14)により密集状態で搬送されてくる容器を、下流側で直角方向に接続してそれぞれの搬送幅を合せた並列配置の搬送幅が前記能力搬送コンベヤ(C14)より大きめで、前記能力搬送コンベヤ(C14)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて幅広の搬送コンベヤ(15A)および幅狭の搬送コンベヤ(15B)へ搬送する際に、前記外回り側の容器搬送の密集度が一定の密の状態で、前記内回り側の容器搬送の密集度が一定の粗の状態で搬送させて、次いで、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の境界に分岐先端部を有した容器分岐ガイドによって前記能力搬送コンベヤ(C14)側からの搬送容器を2分岐し、該2分岐に対応して前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の下流側にそれぞれ接続した第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)へ搬送させて、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)に設けた搬送容器溜まり量検知センサーが検出したそれぞれの搬送容器溜まり量の差が所定値よりも大きくなると、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の搬送速度制御をすることにより、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(17A)および能力搬送コンベヤ(17B)での容器搬送量が均等になるように搬送制御するようにしたことを特徴とする。 (9) The container branching method of the ninth means is a parallel arrangement in which containers transported in a dense state by the upstream capacity transport conveyor (C14) are connected at a right angle on the downstream side and the transport widths are matched. the conveyance width larger than the capacity conveyor (C14), respectively inward turning and outer loop to inward turning and for outer loop container guide having an appropriate curvature with the perpendicular direction of the container transport path from the ability conveyor (C14) When transported to the wide transport conveyor (15A) and the narrow transport conveyor (15B), the container transport density on the inner circumference side is dense in a state where the density of the container transport on the outer circumference side is constant. degrees is thereby conveyed in a state of constant rough, then have a branch tip to the boundary of the wide capacity adjusting conveyor (15A) and said narrow capability adjustment conveyor (15B) Vessel branches guided by two branches carrying container from the ability conveyor (C14) side, downstream of the wide capacity adjusting conveyor in response to said second branch (15A) and said narrow capability adjustment conveyor (15B) Transport containers provided on the first downstream transport conveyor (16A) and the second downstream transport conveyor (16B) by being transported to the first downstream transport conveyor (16A) and the second downstream transport conveyor (16B) respectively connected to the side When the difference between the respective accumulation amounts of the conveyance containers detected by the accumulation amount detection sensor becomes larger than a predetermined value, the conveyance speed control of the wide capacity adjustment conveyor (15A) and the narrow capacity adjustment conveyor (15B) is performed. Accordingly, the ability of the container in a dense state of being connected to the downstream side of the first downstream conveyor (16A) and the second downstream conveyor (16B) Wherein the container transporting amount in the ability conveyor for transporting (17A) and capacity conveyor (17B) is to convey controlled to be equal.

請求項1および8に係わる本発明は、容器分岐装置および方法を、上流の能力搬送コンベヤ(C3)により密集状態で能力搬送されてくる容器を、下流側に接続したその搬送幅が能力搬送コンベヤ(C3)と同等或いは大きめの能力調整コンベヤ(C4)に搬送して、能力調整コンベヤ(C4)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が能力調整コンベヤ(C4)と同等或いは大きめで、能力調整コンベヤ(C4)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドにそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の搬送コンベヤ(5A)および幅狭の搬送コンベヤ(5B)へ容器を搬送する際に、能力調整コンベヤ(C4)で搬送制御装置からの指令により搬送速度制御をすることによって容器搬送の密集度(列数)を適宜変化させ、該搬送速度制御による搬送容器の密集度(列数)に応じ、容器搬送経路の外回り側の容器搬送の密集度がほぼ一定の密の状態で、容器搬送経路の内回り側の容器搬送の密集度に粗密の変化が生じることによって、容器搬送量が搬送コンベヤ(5B)側はほぼ一定で搬送コンベヤ(5A)側は粗密の変化を生じさせて、搬送コンベヤ(5A)と搬送コンベヤ(5B)の境界に分岐先端部を有した容器分岐ガイドによって能力調整コンベヤ(C4)側からの列数を変化させた状態の搬送容器を2分岐し、該2分岐に対応して搬送コンベヤ(5A)と搬送コンベヤ(5B)の下流側にそれぞれ接続した搬送コンベヤ(6A)および搬送コンベヤ(6B)へ搬送させ、搬送コンベヤ(6A)および搬送コンベヤ(6B)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて能力調整コンベヤ(C4)の搬送速度制御を行うことにより、搬送コンベヤ(6A)および搬送コンベヤ(6B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように制御する容器分岐装置および方法としたことにより、搬送コンベヤの搬送速度制御を行う箇所が少なく、2分岐後の2ラインの搬送ラインでの容器搬送量を効率よく均等にできるという効果を有する。   The present invention according to claim 1 and claim 8 is a container branching apparatus and method in which a container having capacity transported in a dense state by an upstream capacity transport conveyor (C3) is connected to the downstream side, and the transport width is the capacity transport conveyor. Transfer to the capacity adjustment conveyor (C4) that is equal to or larger than (C3) and connect in the direction perpendicular to the downstream side of the capacity adjustment conveyor (C4). It is equal to or larger than the conveyor (C4), and is guided and transported from the capacity adjustment conveyor (C4) to the inner and outer container guides having appropriate curves provided in the container transport passage in the perpendicular direction, respectively. When transporting containers to the wide conveyor (5A) and narrow conveyor (5B) that receive the containers, the capacity is controlled by the capacity adjustment conveyor (C4). By controlling the conveyance speed in accordance with a command from the apparatus, the density (number of rows) of container conveyance is changed as appropriate, and according to the density (number of rows) of the conveyance containers by the conveyance speed control, Container density is almost constant on the transport conveyor (5B) side due to the change in density of container transport on the inner circumference side of the container transport path in a dense state where the density of container transport is almost constant. The conveyor (5A) side causes a change in density, and the number of rows from the capacity adjustment conveyor (C4) side is determined by a container branch guide having a branch tip at the boundary between the transport conveyor (5A) and the transport conveyor (5B). The transport container in the changed state is branched into two, and the transport conveyor (6A) and the transport conveyor (each connected to the downstream side of the transport conveyor (5A) and the transport conveyor (5B) corresponding to the two branches ( B), and the conveyance speed of the capacity adjustment conveyor (C4) is controlled based on the detection signal of the conveyance container accumulation amount detection sensor provided on each of the conveyance conveyor (6A) and the conveyance conveyor (6B). (6A) and the container which controls the container conveyance amount in the capacity conveyance conveyor (7A) and the capacity conveyance conveyor (7B) which are capable of conveying the containers in a dense state connected to the downstream side of the conveyance conveyor (6B) so as to be uniform. By using the branching device and method, there are few places where the transport speed of the transport conveyor is controlled, and the container transport amount in the two transport lines after the two branches can be efficiently and evenly provided.

請求項2に係わる本発明は、請求項1に記載する容器分岐装置において、搬送コンベヤ(5A)および搬送コンベヤ(5B)での容器搬送を密集状態でなく、隙間を持たせた状態の搬送とするように搬送制御装置を構成したことにより、容器搬送を2分岐する容器分岐ガイドの分岐先端部で搬送容器が密集状態でないので、搬送容器が前記容器分岐ガイドの分岐先端部に強い力で衝突することがなく、容器の傷付き、変形を防ぐことができるという効果を有する。   According to a second aspect of the present invention, there is provided the container branching device according to the first aspect, in which the container transport on the transport conveyor (5A) and the transport conveyor (5B) is not in a dense state but transported with a gap. Since the transport control device is configured so that the transport container is not in a dense state at the branch tip of the container branch guide that branches the container transport in two, the transport container collides with the branch tip of the container branch guide with a strong force. This has the effect of preventing the container from being damaged and deformed.

請求項3に係わる本発明は、請求項1および2に記載する容器分岐装置において、能力調整コンベヤ(C4)の搬送速度制御に加えて、搬送コンベヤ(6A)および搬送コンベヤ(6B)の搬送速度制御を行うように搬送制御装置を構成したことにより、能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量の均等化をスムーズに行うことができるという効果を有する。   The present invention according to claim 3 is the container branching device according to claims 1 and 2, in addition to the transport speed control of the capacity adjustment conveyor (C4), the transport speed of the transport conveyor (6A) and the transport conveyor (6B). By configuring the conveyance control device so as to perform the control, the container conveyance amount can be smoothly equalized on the capacity conveyance conveyor (7A) and the capacity conveyance conveyor (7B).

請求項4に係わる本発明は、請求項1から3に記載する容器分岐装置において、搬送コンベヤ(6A)と能力搬送コンベヤ(7A)を一体に、および、搬送コンベヤ(6B)と能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)として、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)での容器搬送量が均等になるように、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて搬送制御装置により能力調整コンベヤ(C4)の搬送速度制御を行う構成としたことにより、容器の種類、容器搬送能力によっては容器分岐装置のコンベヤを簡素化できるという効果を有する。   According to a fourth aspect of the present invention, in the container branching device according to the first to third aspects, the transport conveyor (6A) and the capacity transport conveyor (7A) are integrally formed, and the transport conveyor (6B) and the capacity transport conveyor ( 7B) are integrated into the capacity conveying conveyor (A1) and the capacity conveying conveyor (B1), respectively, so that the container conveying amounts on the capacity conveying conveyor (A1) and the capacity conveying conveyor (B1) are equalized. By having a configuration in which the conveyance speed control of the capacity adjustment conveyor (C4) is performed by the conveyance control device based on the detection signal of the conveyance container accumulation amount detection sensor provided in each of the conveyance conveyor (A1) and the capability conveyance conveyor (B1), Depending on the type of container and the container transport capability, the conveyor of the container branching device can be simplified.

請求項5に係わる本発明は、請求項4に記載する容器分岐装置において、搬送コンベヤ(5A)と能力搬送コンベヤ(A1)を一体に、および、搬送コンベヤ(5B)と能力搬送コンベヤ(B1)を一体にし、それぞれ能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)として、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)での容器搬送量が均等になるように、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて搬送制御装置により能力調整コンベヤ(C4)の搬送速度制御を行う構成としたことにより、容器の種類、容器搬送能力によっては容器分岐装置のコンベヤをさらに簡素化できるという効果を有する。   The present invention according to claim 5 is the container branching device according to claim 4, wherein the transport conveyor (5A) and the capacity transport conveyor (A1) are integrated, and the transport conveyor (5B) and the capacity transport conveyor (B1). , And the capacity conveying conveyor (A2) and the capacity conveying conveyor (B2), respectively, so that the container conveying amounts in the capacity conveying conveyor (A2) and the capacity conveying conveyor (B2) are equalized. (A2) and the capacity conveying conveyor (B2) are configured to perform the conveying speed control of the capacity adjusting conveyor (C4) by the conveying control device based on the detection signal of the conveying container accumulation amount detection sensor provided on each of the conveying containers (B2). Depending on the type and container transport capability, the conveyor of the container branching device can be further simplified.

請求項6および9に係わる本発明は、容器分岐装置および方法を、上流の能力搬送コンベヤ(C14)により密集状態で搬送されてくる容器を、下流側で直角方向に接続してそれぞれの搬送幅を合せた並列配置の搬送幅が能力調整コンベヤ(C14)よりやや大きめで、能力搬送コンベヤ(C14)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドにそれぞれ内回りおよび外回りで案内されて幅広の搬送コンベヤ(15A)および幅狭の搬送コンベヤ(15B)へ搬送する際に、外回り側の容器搬送の密集度がほぼ一定の密の状態で、内回り側の容器搬送の密集度がほぼ一定の粗の状態で搬送させて、次いで、能力調整コンベヤ(15A)と能力調整コンベヤ(15B)の境界に分岐先端部を有した容器分岐ガイドによって能力搬送コンベヤ(C14)側からの搬送容器を2分岐し、該2分岐に対応して能力調整コンベヤ(15A)と能力調整コンベヤ(15B)の下流側にそれぞれ接続した搬送コンベヤ(16A)および搬送コンベヤ(16B)へ搬送させて、搬送コンベヤ(16A)および搬送コンベヤ(16B)に設けた搬送容器溜まり量検知センサーの検知信号に基づいて能力調整コンベヤ(15A)と能力調整コンベヤ(15B)の搬送速度制御をすることにより、搬送コンベヤ(16A)および搬送コンベヤ(16B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(17A)および能力搬送コンベヤ(17B)での容器搬送量が均等になるように搬送制御する容器分岐装置および方法としたことにより、搬送コンベヤの搬送速度制御を行う箇所が少なく、2分岐後の2ラインの搬送ラインでの容器搬送量を効率よく均等にできるという効果を有する。   The present invention according to claims 6 and 9 includes a container branching device and a method in which containers conveyed in a dense state by an upstream capacity conveying conveyor (C14) are connected in a perpendicular direction on the downstream side, and each conveying width is The inner and outer container guides having an appropriate curve provided in the container conveying passage in the direction perpendicular to the capacity conveying conveyor (C14), with the conveying width of the parallel arrangement combined with each other being slightly larger than the capacity adjusting conveyor (C14). When transported to the wide conveyor (15A) and the narrow conveyor (15B) guided inward and outward, the container on the inner side is in a dense state where the density of container transport on the outer side is almost constant. It is transported in a rough state where the transport density is almost constant, and then has a branching tip at the boundary between the capacity adjusting conveyor (15A) and the capacity adjusting conveyor (15B). The container branch guide divides the conveyance container from the capacity conveyance conveyor (C14) side into two, and the conveyance conveyors (15A) and the conveyance conveyors (15B) respectively connected to the downstream side of the capacity adjustment conveyor (15B) corresponding to the two branches. 16A) and the transfer conveyor (16B), and the capacity adjustment conveyor (15A) and the capacity adjustment conveyor (15A) are detected based on the detection signal of the transfer container accumulation amount detection sensor provided on the transfer conveyor (16A) and the transfer conveyor (16B). 15B) by carrying speed control of the conveyance conveyor (16A) and the capacity conveyance conveyor (17A) and the capacity conveyance conveyor (17B) that convey containers in a dense state connected to the downstream side of the conveyance conveyor (16B). The container branching device and method for controlling the transportation so that the container transportation amount of the , Less portion to which the conveying speed control of the conveyor, has the effect that the container transport amount in the two lines transfer line after 2 branches can be efficiently uniformly.

請求項7に係わる本発明は、請求項6に記載する容器分岐装置において、搬送コンベヤ(16A)と能力搬送コンベヤ(7A)を一体に、および、搬送コンベヤ(16B)と能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)として、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)での容器搬送量が均等になるように、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて搬送制御装置によりそれぞれの能力調整コンベヤ(15A)と能力調整コンベヤ(15B)の搬送速度制御を行うように構成したことにより、容器の種類、容器搬送能力によっては容器分岐装置のコンベヤを簡素化できるという効果を有する。   The present invention according to claim 7 is the container branching device according to claim 6, wherein the transport conveyor (16A) and the capacity transport conveyor (7A) are integrated, and the transport conveyor (16B) and the capacity transport conveyor (7B). , And the capacity conveying conveyor (A3) and the capacity conveying conveyor (B3), respectively, so that the amount of containers conveyed on the capacity conveying conveyor (A3) and the capacity conveying conveyor (B3) is equalized. (A3) and the conveyance speed control of the capacity adjustment conveyor (15A) and the capacity adjustment conveyor (15B) are controlled by the conveyance control device based on the detection signal of the conveyance container accumulation amount detection sensor provided in each of the capacity conveyance conveyor (B3). By configuring it so that the conveyor of the container branching device can be simplified depending on the type of container and the container transport capacity. It has the effect of that.

本発明の第1の実施の形態に係わる容器分岐装置を摸式的に示した平面図である。It is the top view which showed typically the container branch apparatus concerning the 1st Embodiment of this invention. 図1の容器分岐装置の容器分岐前後の容器搬送制御を説明する図である。It is a figure explaining the container conveyance control before and behind the container branch of the container branch apparatus of FIG. 図1の容器分岐装置の容器分岐前後の容器搬送制御の一つの形態を説明する図である。It is a figure explaining one form of the container conveyance control before and behind the container branch of the container branching apparatus of FIG. 図1の容器分岐装置の容器分岐前後の容器搬送制御の他の一つの形態を説明する図である。It is a figure explaining another one form of container conveyance control before and after the container branch of the container branching apparatus of FIG. 図1の容器分岐装置の容器分岐前後の容器搬送制御のもう一つの形態を説明する図である。It is a figure explaining another form of the container conveyance control before and after the container branch of the container branch apparatus of FIG. 本発明の第2の実施の形態に係わる容器分岐装置を摸式的に示した平面図である。It is the top view which showed typically the container branch apparatus concerning the 2nd Embodiment of this invention. 図6の容器分岐装置の容器分岐前後の容器搬送制御を説明する図である。It is a figure explaining the container conveyance control before and behind the container branch of the container branch apparatus of FIG.

以下、この発明の実施の形態につき図面を参照しつつ詳細に説明する。なお、この実施の形態によりこの発明が限定されるものではない。また、下記実施の形態における構成要素には、当業者が容易に想定できるもの、あるいは実質的に同一のものが含まれる。   Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments. In addition, constituent elements in the following embodiments include those that can be easily assumed by those skilled in the art or those that are substantially the same.

(本発明の第1の実施の形態)
本発明の第1の実施の形態を図1から図5に基づいて説明する。
図1は、本発明の第1の実施の形態に係わる容器分岐装置を摸式的に示した平面図である。
図2は、図1の容器分岐装置の容器分岐前後の容器搬送制御を説明する図である。
図3は、図1の容器分岐装置の容器分岐前後の容器搬送制御の一つの形態を説明する図である。
図4は、図1の容器分岐装置の容器分岐前後の容器搬送制御の他の一つの形態を説明する図である。
図5は、図1の容器分岐装置の容器分岐前後の容器搬送制御のもう一つの形態を説明する図である。
図1において、容器分岐装置1は、駆動ユニット3Mによって駆動され、密集状態で容器Pを能力搬送する能力搬送コンベヤ(C3)3(以下、能力搬送コンベヤ(C3)3を能力搬送コンベヤ3とも称する)と、能力搬送コンベヤ3の下流側で隣接して接続され、駆動ユニット4Mによって駆動される搬送幅が前記能力搬送コンベヤ3より大きめの能力調整コンベヤ(C4)4(以下、能力調整コンベヤ(C4)4を能力調整コンベヤ4とも称する)と、能力調整コンベヤ4の下流側で該能力調整コンベヤ4と直角方向に接続されて、それぞれの搬送幅W5AとW5Bを合せた搬送幅が前記能力調整コンベヤ4と同等で、それぞれ駆動ユニット5AMおよび駆動ユニット5BMによって駆動される搬送コンベヤ(5A)5A(以下、搬送コンベヤ(5A)5Aを搬送コンベヤ5Aとも称する)および搬送コンベヤ(5B)5B(以下、搬送コンベヤ(5B)5Bを搬送整コンベヤ5Bとも称する)と、能力調整コンベヤ4から搬送コンベヤ5Aと搬送コンベヤ5Bへ容器Pを案内する外回り用容器ガイド4G1および内回り用容器ガイド4G2と、搬送コンベヤ5Aと搬送コンベヤ5Bの境界に分岐先端部8Sを有して容器搬送を2分岐する容器分岐ガイド8と、搬送コンベヤ5Aと搬送コンベヤ5Bに接続して前記2分岐された容器を搬送し、それぞれに搬送容器溜まり量を検知する搬送容器溜まり量検知センサー6ASおよび6BSを備え、それぞれ駆動ユニット6AMおよび6BMで駆動される搬送コンベヤ(6A)6A(以下、搬送コンベヤ(6A)6Aを搬送コンベヤ6Aとも称する)および搬送コンベヤ(6B)6B(以下、搬送コンベヤ(6B)6Bを搬送コンベヤ6Bとも称する)と、搬送コンベヤ6Aおよび搬送コンベヤ6Bの下流側で接続して密集状態で容器を能力搬送するそれぞれ図示しない駆動ユニットで駆動される能力搬送コンベヤ(7A)7A(以下、能力搬送コンベヤ(7A)7Aを能力搬送コンベヤ7Aとも称する)および能力搬送コンベヤ(7B)7B(以下、能力搬送コンベヤ(7B)7Bを能力搬送コンベヤ7Bとも称する)と、前記搬送容器溜まり量検知センサー6ASおよび6BSの検知信号に基づいて前記能力調整コンベヤ4等の搬送速度制御を行う搬送制御装置10によって主に構成されている。
なお、能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bからそれぞれ図示FAおよびFBの方向の後工程へ搬送される容器は、下流側の図示しないそれぞれのパックマシンで包装されるようになっている。
(First embodiment of the present invention)
A first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a plan view schematically showing a container branching apparatus according to the first embodiment of the present invention.
FIG. 2 is a view for explaining container transport control before and after the container branching of the container branching apparatus of FIG.
FIG. 3 is a view for explaining one form of container transport control before and after the container branching of the container branching apparatus of FIG.
FIG. 4 is a diagram for explaining another form of container transport control before and after the container branching of the container branching apparatus of FIG.
FIG. 5 is a diagram for explaining another form of container transport control before and after the container branching of the container branching apparatus of FIG.
In FIG. 1, a container branching device 1 is driven by a drive unit 3M and is capable of conveying containers P in capacity in a dense state (C3) 3 (hereinafter, capacity conveying conveyor (C3) 3 is also referred to as capacity conveying conveyor 3). ) And a capacity adjustment conveyor (C4) 4 (hereinafter referred to as a capacity adjustment conveyor (C4), which is connected adjacently on the downstream side of the capacity conveyance conveyor 3 and has a conveyance width driven by the drive unit 4M larger than that of the capacity conveyance conveyor 3. ) 4 is also referred to as the capacity adjustment conveyor 4), and the capacity adjustment conveyor 4 is connected to the capacity adjustment conveyor 4 in the direction perpendicular to the downstream of the capacity adjustment conveyor 4, and the combined conveyance widths of the respective conveyance widths W5A and W5B are 4 and a conveyor conveyer (5A) 5A (hereinafter referred to as a conveyor conveyor) driven by a drive unit 5AM and a drive unit 5BM, respectively. The carrier (5A) 5A is also referred to as a transfer conveyor 5A) and the transfer conveyor (5B) 5B (hereinafter, the transfer conveyor (5B) 5B is also referred to as a transfer adjusting conveyor 5B), the capacity adjusting conveyor 4 to the transfer conveyor 5A and the transfer conveyor 5B. A container guide 4G1 and an inner container guide 4G2 for guiding the container P, a container branch guide 8 having a branch tip 8S at the boundary between the transport conveyor 5A and the transport conveyor 5B, and branching the container into two branches, It is connected to the conveyor 5A and the conveyor 5B and transports the bifurcated containers, and each of them is provided with transport container pool amount detection sensors 6AS and 6BS for detecting the transport container pool amount, and is driven by drive units 6AM and 6BM, respectively. Conveyor (6A) 6A (hereinafter referred to as Conveyor (6A) 6A) A) and a transfer conveyor (6B) 6B (hereinafter, the transfer conveyor (6B) 6B is also referred to as a transfer conveyor 6B) are connected downstream of the transfer conveyor 6A and the transfer conveyor 6B, and the containers are transported in a dense state. A capacity conveyor (7A) 7A (hereinafter also referred to as capacity conveyor 7A) and a capacity conveyor (7B) 7B (hereinafter referred to as capacity conveyor) 7B) and 7B is also referred to as a capacity transfer conveyor 7B), and is mainly configured by a transfer control device 10 that controls the transfer speed of the capacity adjustment conveyor 4 and the like based on detection signals of the transfer container accumulation amount detection sensors 6AS and 6BS. ing.
The containers conveyed from the capacity conveying conveyor 7A and the capacity conveying conveyor 7B to the subsequent processes in the directions of FA and FB, respectively, are packaged by respective pack machines (not illustrated) on the downstream side.

なお、図示しない充填装置により液体を充填されて上流から矢印Fの方向に搬送される容器Pは、駆動ユニット2Mによって駆動される能力調整コンベヤ2を経由し、ガイド2G1および2G2の案内を介して、能力調整コンベヤ2の下流側で隣接して接続された前記能力搬送コンベヤ3へ送り出されるようになっており、前記能力搬送コンベヤ3上で容器Pが密集状態で能力搬送となるように前記能力調整コンベヤ2が搬送速度調整されて搬送されるようになっている。   The container P filled with liquid by a filling device (not shown) and conveyed from the upstream in the direction of the arrow F passes through the capacity adjustment conveyor 2 driven by the drive unit 2M, and through the guides of the guides 2G1 and 2G2. The capacity adjustment conveyor 2 is connected to the capacity conveyance conveyor 3 connected adjacently on the downstream side of the capacity adjustment conveyor 2, and the capacity P is conveyed on the capacity conveyance conveyor 3 in a dense state. The adjustment conveyor 2 is conveyed by adjusting the conveyance speed.

また、容器Pは、前記能力搬送コンベヤ3から能力調整コンベヤ4へはガイド3G1および3G2に案内され、さらに、前記下流側コンベヤ6Aおよび下流側コンベヤ6Bから能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bへはそれぞれガイド6AG1および6BG1並びにガイド6AG2および6BG2に案内されて搬送されるようになっているが、詳細な説明は省略する。   The containers P are guided by the guides 3G1 and 3G2 from the capacity conveying conveyor 3 to the capacity adjusting conveyor 4, and further from the downstream conveyor 6A and the downstream conveyor 6B to the capacity conveying conveyor 7A and the capacity conveying conveyor 7B. The guides 6AG1 and 6BG1 and the guides 6AG2 and 6BG2 are guided and conveyed, respectively, but detailed description thereof is omitted.

前記容器ガイド4G1および容器ガイド4G2は、図3から図5に示すように、容器Pが能力調整コンベヤ4上での搬送に伴って容器ガイド4G1側へ押し付けられようとすることに伴い容器ガイド4G1側(外回り側)の容器Pの搬送密度が密になり、容器ガイド4G2側(内回り側)の容器Pの搬送密度は、前記能力調整コンベヤ4での容器搬送が粗である場合には粗に、前記能力調整コンベヤ4での容器搬送が密である場合には密に、さらに、前記能力調整コンベヤ4での容器搬送が前記密と粗の中間状態である場合には前記密と粗の中間状態になるようにガイド形状が形成されている。
即ち、容器ガイド4G1側(外回り側)は、能力調整コンベヤ4での容器搬送が密の場合でも粗の場合でもほぼ一定の密の状態で容器Pが案内されて搬送コンベヤ5B側へ送り出され、容器ガイド4G2側(内回り側)は、能力調整コンベヤ4での容器搬送が密の場合は密の状態で、粗の場合は粗の状態で、粗と密の中間状態の場合は中間状態で容器Pが案内されて搬送コンベヤ5A側へ送り出されるようになっている。
As shown in FIGS. 3 to 5, the container guide 4G1 and the container guide 4G2 are adapted to be pressed against the container guide 4G1 as the container P is transported on the capacity adjusting conveyor 4. The conveyance density of the container P on the side (outer circumference side) becomes dense, and the conveyance density of the container P on the container guide 4G2 side (inner circumference side) is coarse when the container conveyance on the capacity adjusting conveyor 4 is coarse. When the container transport on the capacity adjusting conveyor 4 is dense, the container is transported densely, and when the container transport on the capacity adjusting conveyor 4 is in the intermediate state between the dense and rough, A guide shape is formed so as to be in a state.
That is, on the container guide 4G1 side (outward rotation side), the container P is guided in a substantially constant dense state regardless of whether the container conveyance on the capacity adjustment conveyor 4 is dense or rough, and is sent to the conveyance conveyor 5B side. The container guide 4G2 side (inner side) is in a dense state when the container is transported on the capacity adjusting conveyor 4 in a dense state, in a coarse state in a rough state, and in an intermediate state in a rough and dense intermediate state. P is guided and sent to the conveyor 5A side.

なお、能力調整コンベヤ4での容器搬送密度が密と粗の中間状態の場合を図3で示し、粗である場合を図4で示し、密である場合を図5で示している。
また、前記搬送コンベヤ5Aおよび搬送コンベヤ5Bの搬送速度は、容器Pが密集状態でなく、隙間をもって搬送されるように、搬送制御装置10により制御されている。
In addition, the case where the container conveyance density in the capacity adjustment conveyor 4 is between the dense and coarse states is shown in FIG. 3, the coarse case is shown in FIG. 4, and the dense case is shown in FIG.
Moreover, the conveyance speed of the said conveyance conveyor 5A and the conveyance conveyor 5B is controlled by the conveyance control apparatus 10 so that the container P may be conveyed with a clearance gap instead of a dense state.

前記搬送コンベヤ6Aには、搬送容器Pの溜まり量を検知する搬送容器溜まり量検知センサー6ASが設けられていて、搬送される容器Pの溜まり量検知信号を搬送制御装置10へ送り込むようになっており、同様に、搬送コンベヤ6Bには、搬送容器の溜まり量を検知する搬送容器溜まり量検知センサー6BSが設けられており、搬送される容器Pの溜まり量検知信号を搬送制御装置10へ送り込むようになっている。   The transfer conveyor 6A is provided with a transfer container accumulation amount detection sensor 6AS for detecting the accumulation amount of the transfer container P, and sends the accumulation amount detection signal of the conveyed container P to the transfer control device 10. Similarly, the transfer conveyor 6B is provided with a transfer container accumulation amount detection sensor 6BS for detecting the accumulation amount of the transfer container so that the accumulation amount detection signal of the conveyed container P is sent to the transfer control device 10. It has become.

前記能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量の均等バランスが崩れて、例えば能力搬送コンベヤ7Aの容器搬送量が能力搬送コンベヤ7Bの容器搬送量よりも多くなった場合、前記搬送容器溜まり量検知センサー6ASおよび6BSにより、能力調整コンベヤ6Aでの搬送容器Pの溜まり量が能力調整コンベヤ6Bでの搬送容器Pの溜まり量より多くなったと検知されて、その差が所定値よりも大きくなると、搬送制御装置10からの指令によって、前記搬送コンベヤ6Aの搬送速度を搬送コンベヤ6Bの搬送速度よりも小さくして容器搬送量がより均等になるように調整(能力調整)される構成となっている。   When the equal balance of the container transport amounts of the capacity transport conveyor 7A and the capacity transport conveyor 7B is lost, for example, when the container transport amount of the capacity transport conveyor 7A is larger than the container transport amount of the capacity transport conveyor 7B, the transport container pool When the amount detection sensors 6AS and 6BS detect that the accumulation amount of the conveyance container P on the capacity adjustment conveyor 6A is larger than the accumulation amount of the conveyance container P on the capacity adjustment conveyor 6B, the difference becomes larger than a predetermined value. In accordance with a command from the transport control device 10, the transport speed of the transport conveyor 6A is made smaller than the transport speed of the transport conveyor 6B so that the container transport amount is adjusted (capacity adjustment). Yes.

同様に、例えば前記搬送コンベヤ7Aの容器搬送量が搬送コンベヤ7Bの容器搬送量よりも少なくなった場合、前記搬送容器溜まり量検知センサー6ASおよび6BSにより、搬送コンベヤ6Aでの容器Pの溜まり量が搬送コンベヤ6Bでの容器Pの溜まり量より少なくなったと検知されて、その差が所定値よりも大きくなると、搬送制御装置10からの指令によって、前記搬送コンベヤ6Aの搬送速度を搬送コンベヤ6Bの搬送速度よりも大きくして容器搬送量がより均等になるように調整(能力調整)されるようになっている。   Similarly, for example, when the container transport amount of the transport conveyor 7A is smaller than the container transport amount of the transport conveyor 7B, the transport container pool amount detection sensors 6AS and 6BS cause the transport amount of the containers P on the transport conveyor 6A to be reduced. When it is detected that the accumulation amount of the containers P on the conveyor 6B is less than the predetermined value, and the difference becomes larger than a predetermined value, the conveyor speed of the conveyor 6A is controlled by the instruction from the conveyor controller 10 It is adjusted (capacity adjustment) so that the container conveyance amount becomes more uniform by making it larger than the speed.

前記搬送コンベヤ6A並びに搬送コンベヤ6Bの搬送調整に伴って、後述するように、上流の能力調整コンベヤ4の容器搬送速度制御も搬送制御装置10によって行われる構成となっていて、能力調整コンベヤ4から容器ガイド4G1および容器ガイド4G2に案内されながら搬送コンベヤ5A並びに搬送コンベヤ5Bへ、搬送コンベヤ5A並びに搬送コンベヤ5Bから搬送コンベヤ6A並びに搬送コンベヤ6Bへの容器搬送量制御が行われるようになっている。   With the conveyance adjustment of the conveyance conveyor 6A and the conveyance conveyor 6B, the container conveyance speed control of the upstream capacity adjustment conveyor 4 is also performed by the conveyance control device 10 as described later. While being guided by the container guide 4G1 and the container guide 4G2, the transport amount of the containers from the transport conveyor 5A and the transport conveyor 5B to the transport conveyor 6A and the transport conveyor 6B is controlled.

前記能力調整コンベヤ4の搬送速度制御(容器搬送の密集度の制御)、並びに、搬送コンベヤ6Aおよび搬送コンベヤ6Bの搬送速度制御(容器搬送量の制御)について、図2に基づいてさらに詳しく説明する。
図2(a)は、能力搬送コンベヤ3(図2では能力搬送コンベヤ3をコンベヤ3或いはCo.3と略して記載)と能力調整コンベヤ4(図2では能力調整コンベヤ4をコンベヤ4或いはCo.4と略して記載)での容器Pの搬送状態(搬送の密集度状態)を説明する図であり、容器Pの搬送状態(密集度)を説明の便宜上容器Pの搬送列数として表示している。即ち、Co.3の密集状態での搬送能力(規定搬送能力)を例えば8列として、Co.4の搬送速度がCo.3の搬送速度と同じ場合は、Co.4の搬送状態が8列となり、Co.4の搬送速度がCo.3の搬送速度よりも速い場合は、Co.4の搬送状態が7列となり、Co.4の搬送速度がCo.3の搬送速度よりも遅い場合は、Co.4の搬送状態が9列になるとして摸式的に示している。
The conveyance speed control (control of the density of container conveyance) of the capacity adjustment conveyor 4 and the conveyance speed control (control of the container conveyance amount) of the conveyance conveyor 6A and the conveyance conveyor 6B will be described in more detail with reference to FIG. .
2A shows a capacity conveying conveyor 3 (in FIG. 2, the capacity conveying conveyor 3 is abbreviated as conveyor 3 or Co. 3) and a capacity adjusting conveyor 4 (in FIG. 2, the capacity adjusting conveyor 4 is replaced with the conveyor 4 or Co. 3). FIG. 4 is a diagram for explaining the conveyance state (concentration state of conveyance) of the container P in FIG. 4 and displaying the conveyance state (concentration degree) of the container P as the number of conveyance columns of the container P for convenience of explanation. Yes. That is, Co. No. 3 in the dense state (regular carrying capacity) is set to 8 rows, for example. 4 is the Co. 3 is the same as the transport speed of Co. 4 is 8 rows, and Co. 4 is the Co. 3 is faster than the conveyance speed of Co.3. 4 is 7 rows, and Co. 4 is the Co. 3 is slower than the conveyance speed of Co. 4 schematically shows that the transport state of 4 is 9 rows.

図2(b)は、搬送コンベヤ6A(図2ではラインAと略して記載)、および、搬送コンベヤ6B(図2ではラインBと略して記載)の容器搬送量制御を説明する図であり、説明の便宜上容器搬送量を列数分で表示している。即ち、搬送制御装置10からの指令により、ラインAとラインBの容器搬送量がほぼ均等であれば、ラインAとラインBへの容器搬送量はそれぞれ4列分となるように搬送コンベヤ6Aと搬送コンベヤ6Bの搬送速度が調整され、ラインAの容器搬送量がラインBの容器搬送量より多ければラインAの搬送容器溜まり量が多くなるので、ラインAへの容器搬送量を減らすように搬送コンベヤ6Aの搬送速度が調整(4列分→3列分に)され、逆に、ラインAの容器搬送量がラインBの容器搬送量より少なければラインBの搬送容器溜まり量が多くなるので、ラインAへの容器搬送量を増やすように搬送コンベヤ6Aの搬送速度を調整(4列分→5列分に)されるように構成されている。   FIG. 2B is a diagram for explaining the container conveyance amount control of the conveyor 6A (abbreviated as line A in FIG. 2) and the conveyor 6B (abbreviated as line B in FIG. 2). For convenience of explanation, the container transport amount is displayed in the number of rows. That is, according to a command from the transport control device 10, if the container transport amount of the line A and the line B is substantially equal, the transport amount of the container to the line A and the line B is set to 4 rows, respectively. If the transport speed of the transport conveyor 6B is adjusted and the container transport amount of the line A is larger than the container transport amount of the line B, the transport container pool amount of the line A increases, so that the transport amount of the container to the line A is reduced. The conveyor speed of the conveyor 6A is adjusted (from 4 rows to 3 rows). On the contrary, if the container transport amount of the line A is less than the container transport amount of the line B, the transport container pool amount of the line B increases. The transport speed of the transport conveyor 6A is adjusted so that the container transport amount to the line A is increased (from four rows to five rows).

ここで、前記搬送コンベヤ5Aの搬送幅W5Aは搬送コンベヤ6Aでの前記多い容器搬送量に対応した5列幅となっており、前記搬送コンベヤ5Bの搬送幅W5Bは、搬送コンベヤ6Bでの容器搬送量に対応した4列幅となるように、即ち、前記搬送コンベヤ5Aの搬送幅W5Aは、前記搬送コンベヤ5Bの搬送幅W5Bよりも大きくなるように構成され、搬送幅W5Aと搬送幅W5Bを合せて能力調整コンベヤ4の搬送幅W4と同等になるように構成されている。   Here, the transport width W5A of the transport conveyor 5A is a five-row width corresponding to the large container transport amount on the transport conveyor 6A, and the transport width W5B of the transport conveyor 5B is a container transport on the transport conveyor 6B. The transfer width W5A of the transfer conveyor 5A is configured to be larger than the transfer width W5B of the transfer conveyor 5B, and the transfer width W5A and the transfer width W5B are combined. The capacity adjustment conveyor 4 is configured to be equivalent to the transport width W4.

前記搬送コンベヤ6Aと搬送コンベヤ6Bの容器搬送量制御を行うに当って、上流の能力調整コンベヤ4は、搬送制御装置10からの指令により、図2(a)に示すように、前記ラインAおよびラインBをそれぞれ4列分と4列分で搬送する場合には8列の搬送量となるように搬送速度制御が行われ、前記ラインAおよびラインBをそれぞれ4列分と3列分で搬送する場合には7列の搬送量となるように搬送速度制御が行われ、前記ラインAおよびラインBをそれぞれ4列分と5列分で搬送する場合には9列の搬送量となるように搬送速度制御が行われる構成となっている。   In performing the container transport amount control of the transport conveyor 6A and the transport conveyor 6B, the upstream capacity adjustment conveyor 4 is controlled by the command from the transport control device 10 as shown in FIG. When the line B is transported by 4 rows and 4 rows, the transport speed is controlled so that the transport amount is 8 rows, and the lines A and B are transported by 4 rows and 3 rows, respectively. In this case, the transport speed control is performed so that the transport amount is 7 rows, and when the line A and the line B are transported by 4 rows and 5 rows, respectively, the transport amount is 9 rows. The conveyance speed control is performed.

次に、本発明の第1の実施の形態に係わる容器分岐装置1の作用を説明する。
図1に示すように、能力搬送コンベヤ3によって密集状態で能力搬送される容器Pは、搬送速度を調整(制御)可能な能力調整コンベヤ4を介して外回り用容器ガイド4G1および内回り用容器ガイド4G2に案内されて搬送コンベヤ5Aおよび搬送コンベヤ5Bへ搬送され、搬送コンベヤ5Aおよび搬送コンベヤ5Bでは搬送速度制御により密集でない状態で搬送されながら容器分岐ガイド8によって2分岐されて、2分岐された容器群がそれぞれ搬送コンベヤ6Aと搬送コンベヤ6Bに搬送され、次いで、下流側のそれぞれの能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bへ搬送される。
Next, the operation of the container branching apparatus 1 according to the first embodiment of the present invention will be described.
As shown in FIG. 1, containers P that are capacity-conveyed by the capacity-conveying conveyor 3 in a dense state are provided with an outer container guide 4G1 and an inner container guide 4G2 via a capacity-adjusting conveyor 4 that can adjust (control) the conveying speed. To the transport conveyor 5A and the transport conveyor 5B. The transport conveyor 5A and the transport conveyor 5B are bifurcated by the container branching guide 8 while being transported in a non-congested state by the transport speed control, and the two-branched container group Are transported to the transport conveyor 6A and the transport conveyor 6B, respectively, and then transported to the respective downstream capacity transport conveyors 7A and 7B.

前記能力調整コンベヤ4上での容器Pの搬送は、搬送制御装置10からの指令に基づいて、駆動ユニット4Mの搬送速度制御により、図2(a)に示すように、前記能力搬送コンベヤ3の搬送速度と対比して、同じ場合には列数8列で、より速い場合は列数7列で、より遅い場合は列数9列で搬送される。   As shown in FIG. 2A, the conveyance of the containers P on the capacity adjustment conveyor 4 is controlled by the conveyance speed control of the drive unit 4M on the basis of a command from the conveyance control device 10. In contrast to the conveyance speed, the number of columns is 8 in the case of the same, the number of columns is 7 in the case of faster, and the number of columns is 9 in the case of slower.

前記能力調整コンベヤ4から搬送コンベヤ5Aおよび搬送コンベヤ5Bへの容器Pの搬送は、前記能力調整コンベヤ4の搬送速度が7列の場合は、図4に示すように、能力調整コンベヤ4上で矢印F4方向に搬送される7列の容器Pが、容器ガイド4G1および4G2に案内されて搬送方向を搬送コンベヤ5Aおよび搬送コンベヤ5Bの矢印F5Aおよび矢印F5Bの方向へ変えられる際に、容器ガイド4G1側(外回り側)は密(4列)に、容器ガイド4G2側(内回り側)は粗(3列)になって搬送され、前記能力調整コンベヤ4の搬送速度が9列の場合は、図5に示すように、能力調整コンベヤ4上で矢印F4方向に搬送される容器Pが、容器ガイド4G1および4G2に案内されて搬送方向を搬送コンベヤ5Aおよび搬送コンベヤ5Bの矢印F5Aおよび矢印F5Bの方向へ変えられる際に、容器ガイド4G1側は密(4列)に、容器ガイド4G2側も密(5列)になって搬送され、前記能力調整コンベヤ4の搬送速度が8列の場合は、図3に示すように、能力調整コンベヤ4上で矢印F4方向に搬送される容器Pが、容器ガイド4G1および4G2に案内されて搬送方向を搬送コンベヤ5Aおよび搬送コンベヤ5Bの矢印F5Aおよび矢印F5Bの方向へ変えられる際に、容器ガイド4G1側は密(4列)に、容器ガイド4G2側は粗と密の中間の状態(4列)で搬送される。   As shown in FIG. 4, the transfer of containers P from the capacity adjustment conveyor 4 to the transfer conveyor 5A and the transfer conveyor 5B is performed on the capacity adjustment conveyor 4 as shown in FIG. 4 when the transfer speed of the capacity adjustment conveyor 4 is seven rows. When the seven rows of containers P transported in the F4 direction are guided by the container guides 4G1 and 4G2 and the transport direction is changed to the directions of the arrows F5A and F5B of the transport conveyor 5A and the transport conveyor 5B, the container guide 4G1 side When the outer side is transported densely (four rows) and the container guide 4G2 side (inner side) is rough (three rows), and the transport speed of the capacity adjusting conveyor 4 is nine rows, FIG. As shown, the containers P transported in the direction of arrow F4 on the capacity adjustment conveyor 4 are guided by the container guides 4G1 and 4G2 to change the transport direction to the transport conveyors 5A and 5G. The container guide 4G1 side is conveyed densely (4 rows) and the container guide 4G2 side is densely (5 rows) when being changed in the directions of arrows F5A and F5B. Is 8 rows, as shown in FIG. 3, the containers P transported in the direction of the arrow F4 on the capacity adjusting conveyor 4 are guided by the container guides 4G1 and 4G2, and the transport directions are the transport conveyors 5A and 5B. When the direction is changed in the direction of arrows F5A and F5B, the container guide 4G1 side is conveyed densely (four rows), and the container guide 4G2 side is conveyed in an intermediate state (four rows) between coarse and dense.

搬送コンベヤ5Aおよび搬送コンベヤ5B上でも、容器Pは、前記説明のように、それぞれ4列分および4列分、3列分および4列分、5列分および4列分の状態のまま搬送されていく。
また、前記7列の場合には、4列分が搬送コンベヤ6Bに搬送されていき、残りの3列分が搬送コンベヤ6Aに搬送されるように分岐され、前記9列の場合には、4列分が搬送コンベヤ6Bに搬送されていき、残りの5列分が搬送コンベヤ6Aに搬送されるように容器分岐ガイド8によって分岐される。
Also on the conveyor 5A and the conveyor 5B, the containers P are transported in the state of 4 rows, 4 rows, 3 rows and 4 rows, 5 rows and 4 rows, respectively, as described above. To go.
Further, in the case of the seven rows, four rows are conveyed to the transfer conveyor 6B, and the remaining three columns are branched so as to be transferred to the transfer conveyor 6A. The row is conveyed to the transfer conveyor 6B, and the remaining five rows are branched by the container branch guide 8 so as to be transferred to the transfer conveyor 6A.

なお、前記搬送コンベヤ5Aおよび搬送コンベヤ5B上で容器Pが密集でない状態で矢印F5Aおよび5Bの方向に搬送されるので、前記分岐コンベヤ8の分岐先端部8Sによって容器Pの搬送が2分岐される際、前記容器ガイド4G1および4G2による容器列数を保ったまま2分岐されるので、前記分岐先端部8Sに容器Pが衝突(接触)しても容器Pが凹み等の損傷を受けることはない。   In addition, since the containers P are transported in the directions of arrows F5A and 5B on the transport conveyor 5A and the transport conveyor 5B without being densely packed, the transport of the containers P is bifurcated by the branch tip 8S of the branch conveyor 8. At this time, since the container guides 4G1 and 4G2 are bifurcated while maintaining the number of container rows, even if the container P collides (contacts) with the branch tip 8S, the container P is not damaged such as a dent. .

ここで、能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量がほぼ均等で搬送されている状態から、所定のばらつきを超えて搬送される状態になった場合、即ち、搬送容器溜まり量検知センサー6AS並びに6BSによって検知されるそれぞれの搬送容器溜まり量の差が、搬送制御装置10によって所定量を超えたと判断された場合に、搬送制御装置10からの指令によって、搬送コンベヤ6A並びに搬送コンベヤ6Bの搬送速度が前記能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量のばらつきを是正するように制御される。   Here, when the container transport amount of the capacity transport conveyor 7A and the capacity transport conveyor 7B is transported substantially evenly, the transport capacity exceeds a predetermined variation, that is, the transport container pool amount detection sensor. When it is determined by the transfer control device 10 that the difference between the respective transfer container accumulation amounts detected by the 6AS and the 6BS exceeds a predetermined amount, the transfer control device 10 instructs the transfer conveyor 6A and the transfer conveyor 6B. The transport speed is controlled so as to correct the variation in the container transport amount between the capacity transport conveyor 7A and the capacity transport conveyor 7B.

即ち、図2(b)に示すように、ラインA(搬送コンベヤ6A側)の容器搬送量がラインB(搬送コンベヤ6B側)の容器搬送量よりも少なくて、相対的にラインAの容器搬送量を増やす必要がある場合には、ラインBの列数4列分に対してラインAの列数を5列分にするように調整することによって、ラインAとラインBの容器搬送量が均等になるように制御される。   That is, as shown in FIG. 2B, the container transport amount on line A (conveying conveyor 6A side) is smaller than the container transport amount on line B (conveying conveyor 6B side), and the container transport on line A is relatively When it is necessary to increase the amount, the container transport amount of line A and line B is equalized by adjusting the number of columns of line A to be 5 columns with respect to the number of columns of line B of 4 columns. It is controlled to become.

一方、ラインBの容器搬送量がラインAの容器搬送量よりも少なくて、相対的にラインAの容器搬送量を減らす必要がある場合には、ラインBの列数4列に対してラインAの列数を3列にするように調整することによって、ラインAとラインBの容器搬送量が均等になるように制御される。   On the other hand, when the container transport amount of line B is smaller than the container transport amount of line A and the container transport amount of line A needs to be relatively reduced, By adjusting the number of lines to be three, the container transport amount of line A and line B is controlled to be equal.

また、搬送容器溜まり量の差が、搬送制御装置10によって所定量を超えたと判断された場合に、搬送制御装置10からの指令によって、前記能力調整コンベヤ4の搬送速度が、前記搬送コンベヤ6A並びに搬送コンベヤ6Bの搬送速度制御と同様に、前記能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量のばらつきを是正する(均等にする)ように制御され、前記容器搬送量のばらつきの是正が効率的になされる。   Further, when it is determined by the transfer control device 10 that the difference in the transfer container accumulation amount has exceeded a predetermined amount, the transfer speed of the capacity adjusting conveyor 4 is changed according to the command from the transfer control device 10 to the transfer conveyor 6A and Similar to the transfer speed control of the transfer conveyor 6B, it is controlled so as to correct (equalize) the variation in the container transfer amount between the capacity transfer conveyor 7A and the capacity transfer conveyor 7B, and the correction of the variation in the container transfer amount is efficient. Made.

前記説明では、能力調整コンベヤ4の搬送幅を能力搬送コンベヤ3の搬送幅よりも大きめにした場合について説明したが、能力調整コンベヤ4の搬送幅は能力搬送コンベヤ3の搬送幅と同等として、能力搬送コンベヤ3の前記説明の列数を9列とし、能力調整コンベヤ4の列数を9列、8列、7列に調整するとしてもよいが、本発明の趣旨と同様の内容となるので、重複する説明は省略する。   In the above description, the case where the conveyance width of the capacity adjustment conveyor 4 is made larger than the conveyance width of the capacity conveyance conveyor 3 has been described. The number of rows in the description of the transport conveyor 3 may be 9 rows, and the number of rows of the capacity adjustment conveyor 4 may be adjusted to 9 rows, 8 rows, and 7 rows, but the content is the same as the spirit of the present invention. A duplicate description is omitted.

また、前記説明では、容器分岐ガイド8によって2分岐された容器Pが搬送コンベヤ6Aと搬送コンベヤ6Bに搬送されて、搬送速度を制御可能とした場合を説明したが、前記搬送コンベヤ6Aおよび搬送コンベヤ6Bをそれぞれ能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bと合体させた能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)として、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)に設けた搬送容器溜まり量検知センサーによって検知されるそれぞれの搬送容器溜まり量の差が、搬送制御装置10によって所定量を超えたと判断された場合に、搬送制御装置10からの指令によって能力調整コンベヤ4の搬送速度が前記能力搬送コンベヤ(A1)と能力搬送コンベヤ(B1)の容器搬送量のばらつきを是正するように制御されるとしてもよい。
この場合、能力搬送コンベヤ(A1)と能力搬送コンベヤ(B1)の容器搬送量のばらつき是正が収斂するまでの時間が少し長くなるが、前記搬送コンベヤ6Aおよび搬送コンベヤ6Bで行っていた前記説明の能力調整が省略できて簡素な構成の構造および制御となる。
In the above description, the case where the containers P branched into two by the container branch guide 8 are transported to the transport conveyor 6A and the transport conveyor 6B and the transport speed can be controlled has been described. However, the transport conveyor 6A and the transport conveyor 6B as a capacity transport conveyor (A1) and a capacity transport conveyor (B1), which are combined with the capacity transport conveyor 7A and the capacity transport conveyor 7B, respectively, and a transport container provided in the capacity transport conveyor (A1) and the capacity transport conveyor (B1) When the difference between the respective storage container storage amounts detected by the storage amount detection sensor is determined by the transfer control device 10 to exceed a predetermined amount, the transfer speed of the capacity adjustment conveyor 4 is set according to a command from the transfer control device 10. Variations in container transport amount between the capacity conveyor (A1) and capacity conveyor (B1) It may be controlled so as to correct.
In this case, the time until the correction of the variation in the container transport amount between the capacity transport conveyor (A1) and the capacity transport conveyor (B1) is a little longer, but the explanation of the explanation that has been performed by the transport conveyor 6A and the transport conveyor 6B is made. The ability adjustment can be omitted, and the structure and control have a simple configuration.

さらに、また、前記説明では、前記搬送コンベヤ6Aおよび搬送コンベヤ6Bをそれぞれ能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bと合体させた能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)とした場合を説明したが、前記搬送コンベヤ5Aおよび搬送コンベヤ5Bをそれぞれ前記能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)と合体させた能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)として、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)に設けた搬送容器溜まり量検知センサーによって検知されるそれぞれの搬送容器溜まり量の差が、搬送制御装置10によって所定量を超えたと判断された場合に、搬送制御装置10からの指令によって能力調整コンベヤ4の搬送速度が前記能力搬送コンベヤ(A2)と能力搬送コンベヤ(B2)の容器搬送量のばらつきを是正するように制御されるとしてもよく、本発明による趣旨は前記説明と同様であるので、詳細説明は省略する。   Furthermore, in the above description, the case has been described in which the transport conveyor 6A and the transport conveyor 6B are the capacity transport conveyor (A1) and the capacity transport conveyor (B1) combined with the capacity transport conveyor 7A and the capacity transport conveyor 7B, respectively. However, as the capacity conveyor (A2) and the capacity conveyor (B2) in which the conveyor 5A and the conveyor 5B are combined with the capacity conveyor (A1) and the capacity conveyor (B1), respectively, the capacity conveyor (B2) A2) and the conveyance control when the difference between the respective conveyance container accumulation amounts detected by the conveyance container accumulation amount detection sensor provided in the capacity conveyance conveyor (B2) exceeds the predetermined amount by the conveyance control device 10. The conveyance speed of the capacity adjustment conveyor 4 is controlled by a command from the apparatus 10. It may be controlled so as to correct the variation in the container conveyance amount between the capacity conveying conveyor (A2) and the capacity conveying conveyor (B2), and the gist of the present invention is the same as the above description, and thus the detailed description is omitted. .

(第2の実施の形態)
次に、本発明の第2の実施の形態について、図6および図7を基に説明する。
図6は、本発明の第2の実施の形態に係わる容器分岐装置を摸式的に示した平面図である。
図7は、図6の容器分岐装置の容器分岐前後の容器搬送制御を説明する図である。
図6において、先に説明した図1と同じ構造のものは同じ記号を付して、重複する説明は省略する。
図6において、容器分岐装置11は、駆動ユニット14Mによって駆動され、密集状態で容器Pを能力搬送する能力搬送コンベヤ(C14)14(以下、能力搬送コンベヤ(C14)14を能力搬送コンベヤ14とも称する)と、能力搬送コンベヤ14の下流側で前記能力搬送コンベヤ14と直角方向に接続されて、それぞれの搬送幅W15AとW15Bを合せた搬送幅が前記能力搬送コンベヤ14の搬送幅W14よりやや大きめで、それぞれ駆動ユニット15AMおよび駆動ユニット15BMによって駆動される能力調整コンベヤ(15A)15A(以下、能力調整コンベヤ(15A)15Aを能力調整コンベヤ15Aとも称する)および能力調整コンベヤ(15B)15B(以下、能力調整コンベヤ(15B)15Bを能力調整コンベヤ15Bとも称する)と、能力搬送コンベヤ14から前記能力調整コンベヤ15Aおよび能力調整コンベヤ15Bへ容器Pを案内する容器ガイド14G1および14G2と、能力調整コンベヤ15Aと能力調整コンベヤ15Bの境界に分岐先端部8Sを有して容器搬送を2分岐する容器分岐ガイド8と、能力調整コンベヤ15Aと能力調整コンベヤ15Bに接続して前記2分岐された容器を搬送し、それぞれに搬送容器溜まり量を検知する搬送容器溜まり量検知センサー16ASおよび16BSを備え、それぞれ駆動ユニット16AMおよび16BMで駆動される搬送コンベヤ(16A)16A(以下、搬送コンベヤ(16A)16Aを搬送コンベヤ16Aとも称する)および搬送コンベヤ(16B)16B(以下、搬送コンベヤ(16B)16Bを搬送コンベヤ16Bとも称する)とから成り、搬送コンベヤ16Aおよび搬送コンベヤ16Bの下流側に接続して密集状態で容器を後工程へ能力搬送するそれぞれ図示しない駆動ユニットで駆動される能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bと、前記搬送容器溜まり量検知センサー16ASおよび16BSの検知信号に基づいて能力調整コンベヤ15Aと能力調整コンベヤ15B等の搬送速度制御を行う搬送制御装置20によって主に構成されている。
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS.
FIG. 6 is a plan view schematically showing a container branching apparatus according to the second embodiment of the present invention.
FIG. 7 is a view for explaining container transport control before and after the container branching of the container branching apparatus of FIG.
In FIG. 6, the same structure as that of FIG. 1 described above is denoted by the same symbol, and redundant description is omitted.
In FIG. 6, the container branching device 11 is driven by a drive unit 14 </ b> M and is capable of conveying the containers P in a dense state. The capacity conveying conveyor (C <b> 14) 14 (hereinafter, the capacity conveying conveyor (C <b> 14) 14 is also referred to as the capability conveying conveyor 14). ), And connected to the capability conveyance conveyor 14 in the direction perpendicular to the downstream of the capability conveyance conveyor 14, and the total conveyance width of the conveyance widths W15A and W15B is slightly larger than the conveyance width W14 of the capability conveyance conveyor 14. The capacity adjustment conveyor (15A) 15A (hereinafter, the capacity adjustment conveyor (15A) 15A is also referred to as the capacity adjustment conveyor 15A) and the capacity adjustment conveyor (15B) 15B (hereinafter referred to as the capacity) driven by the drive unit 15AM and the drive unit 15BM, respectively. Adjusting conveyor (15B) 15B capacity adjusting conveyor 5B), container guides 14G1 and 14G2 for guiding the containers P from the capacity conveying conveyor 14 to the capacity adjusting conveyor 15A and the capacity adjusting conveyor 15B, and a branching tip 8S at the boundary between the capacity adjusting conveyor 15A and the capacity adjusting conveyor 15B. A container branching guide 8 that divides the container conveyance into two, and a conveyance container that is connected to the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B to convey the two-branched containers, and to detect the amount of accumulation of the conveyance containers respectively. Conveying conveyors (16A) 16A (hereinafter referred to as conveying conveyor (16A) 16A) and conveying conveyors (16B) 16B (hereinafter also referred to as conveying conveyors 16A) provided with accumulation amount detection sensors 16AS and 16BS and driven by drive units 16AM and 16BM, respectively. Hereinafter, conveyor 1 (16B) 1 B is also referred to as a transport conveyor 16B), and is connected to the downstream side of the transport conveyor 16A and the transport conveyor 16B, and is transported by a drive unit (not shown) that transports containers to a subsequent process in a dense state. And the capacity transfer conveyor 7B, and the transfer control device 20 that controls the transfer speed of the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B based on the detection signals of the transfer container accumulation amount detection sensors 16AS and 16BS. .

なお、図示しない充填装置により液体を充填されて上流から矢印Fの方向に搬送される容器Pは、駆動ユニット13Mによって駆動される能力調整コンベ13を経由し、容器ガイド13G1および13G2の案内を介して、能力調整コンベヤ13の下流側で隣接して接続された前記能力搬送コンベヤ14へ送り出されるようになっており、前記能力搬送コンベヤ14上で容器Pを密集状態で能力搬送するように、前記能力調整コンベヤ13が搬送速度調整をされるようになっている。   The container P filled with liquid by a filling device (not shown) and conveyed from the upstream in the direction of the arrow F passes through the capacity adjustment conveyor 13 driven by the drive unit 13M and is guided by the container guides 13G1 and 13G2. The capacity adjusting conveyor 13 is sent to the capacity conveying conveyor 14 connected adjacently on the downstream side of the capacity adjusting conveyor 13, and the containers P are capacity-conveyed on the capacity conveying conveyor 14 in a dense state. The capacity adjustment conveyor 13 is adapted to adjust the conveyance speed.

ここで、前記能力搬送コンベヤ14、能力調整コンベヤ15Aおよび能力調整コンベヤ15Bでの容器Pの搬送状態(密集度)を、先に説明の第1の実施の形態の場合と同様に、説明の便宜上容器Pの搬送列数として表示し、容器Pは能力搬送コンベヤ14上で8列の密集状態で搬送されるとすると、前記容器ガイド14G1および14G2に案内されて、能力調整コンベヤ15Bへは4列で、能力調整コンベヤ15Aへは最大5列で送り込まれる。即ち、能力調整コンベヤ15Aおよび能力調整コンベヤ15Bの搬送幅W15AおよびW15Bは、それぞれ5列と4列になるように構成されていて、能力調整コンベヤ15Aの搬送幅W15Aが能力調整コンベヤ15Bの搬送幅W15Bよりも大きめで、搬送幅W15Aと搬送幅W15Bを合せて能力搬送コンベヤ14の搬送幅W14よりやや大きめになるように構成されている。   Here, as in the case of the first embodiment described above, the conveyance state (concentration) of the containers P on the capacity conveying conveyor 14, the capacity adjusting conveyor 15A, and the capacity adjusting conveyor 15B is described for convenience of explanation. It is displayed as the number of transport rows of containers P, and if the containers P are transported in a dense state of 8 rows on the capacity transport conveyor 14, they are guided by the container guides 14G1 and 14G2 and 4 rows to the capacity adjustment conveyor 15B. Thus, the capacity adjustment conveyor 15A is fed in a maximum of 5 rows. That is, the conveyance widths W15A and W15B of the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B are configured to be 5 rows and 4 rows, respectively, and the conveyance width W15A of the capacity adjustment conveyor 15A is the conveyance width of the capacity adjustment conveyor 15B. It is larger than W15B and is configured to be slightly larger than the transport width W14 of the capacity transport conveyor 14 by combining the transport width W15A and the transport width W15B.

なお、前記能力調整コンベヤ15Aおよび能力調整コンベヤ15Bの搬送速度は、容器Pが密集状態でなく、隙間をもって搬送されるように、搬送制御装置20からの指令により制御されている。   The conveyance speeds of the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B are controlled by a command from the conveyance control device 20 so that the containers P are conveyed in a gap rather than in a dense state.

また、前記搬送コンベヤ16Aおよび搬送コンベヤ16Bに設けられた搬送容器溜まり量検知センサー16ASおよび16BSの検知信号は、搬送制御装置20へ送り込まれるようになっており、前記能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量の均等バランスが崩れて、例えば前記能力搬送コンベヤ7Aの容器搬送量が能力搬送コンベヤ7Bの容器搬送量よりも多い場合、前記搬送コンベヤ16Aでの搬送容器Pの溜まり量が搬送コンベヤ16Bでの搬送容器Pの溜まり量より多くなっていると検知されて、その差が所定値よりも大きくなると、搬送制御装置20からの指令によって、前記能力調整コンベヤ15Aの搬送速度を能力調整コンベヤ15Bの搬送速度よりも小さくして容器搬送量がより均等になるように調整(能力調整)される構成となっている。   The detection signals of the transfer container accumulation detection sensors 16AS and 16BS provided on the transfer conveyor 16A and the transfer conveyor 16B are sent to the transfer control device 20, and the capacity transfer conveyor 7A and the capacity transfer conveyor When the uniform balance of the container transport amount of 7B is lost, for example, the container transport amount of the capacity transport conveyor 7A is larger than the container transport amount of the capacity transport conveyor 7B, the amount of accumulation of the transport containers P on the transport conveyor 16A is transported When it is detected that the accumulation amount of the transport container P on the conveyor 16B is larger and the difference becomes larger than a predetermined value, the transport speed of the capacity adjusting conveyor 15A is adjusted by the command from the transport control device 20 Adjust so that the container transport amount becomes more even by making it lower than the transport speed of the conveyor 15B ( It has become a force adjustment) Configurations.

同様に、例えば能力搬送コンベヤ7Aの容器搬送量が能力搬送コンベヤ7Bの容器搬送量よりも少ない場合、前記搬送コンベヤ16Aでの搬送容器Pの溜まり量が搬送コンベヤ16Bでの搬送容器Pの溜まり量より少なくなっていると検知されて、その差が所定値よりも大きくなると、搬送制御装置20からの指令によって、前記能力調整コンベヤ15Aの搬送速度を能力調整コンベヤ15Bの搬送速度よりも大きくして容器搬送量がより均等になるように調整(能力調整)される構成となっている。   Similarly, for example, when the container conveyance amount of the capacity conveyance conveyor 7A is smaller than the container conveyance amount of the capacity conveyance conveyor 7B, the accumulation amount of the conveyance container P in the conveyance conveyor 16A is the accumulation amount of the conveyance container P in the conveyance conveyor 16B. When it is detected that the difference is smaller and the difference becomes larger than a predetermined value, the conveyance speed of the capacity adjustment conveyor 15A is made larger than the conveyance speed of the capacity adjustment conveyor 15B by a command from the conveyance control device 20. It is the structure adjusted (capacity adjustment) so that a container conveyance amount may become more equal.

前記搬送コンベヤ16Aと搬送コンベヤ16Bの容器搬送量制御を行うに当って、上流の能力調整コンベヤ15Aおよび能力調整コンベヤ15Bは、搬送制御装置20からの指令により、図7に示すように、ラインA(能力搬送コンベヤ7A側)およびラインB(能力搬送コンベヤ7B側)の容器搬送量がほぼ均等である場合には、能力調整コンベヤ15Aを該能力調整コンベヤ15Aの基準搬送速度V15Aで、能力調整コンベヤ15Bを該能力調整コンベヤ15Aの基準搬送速度V15B即ち能力搬送コンベヤ14の能力搬送速度V14とほぼ同じ搬送速度で搬送され、ラインAの容器搬送量がラインBよりも多くなっている場合には、能力調整コンベヤ15Aを基準搬送速度V15A―αで、能力調整コンベヤ15Bを基準搬送速度V15B+αで、ラインAの容器搬送量がラインBよりも少なくなっている場合には、能力調整コンベヤ15Aを基準搬送速度V15A+αで、能力調整コンベヤ15Bを基準搬送速度V15B―αで搬送するようになっている。   In carrying out the container conveyance amount control of the conveyance conveyor 16A and the conveyance conveyor 16B, the upstream capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B, as shown in FIG. When the container conveyance amount on the (capacity conveyor 7A side) and line B (capacity conveyor 7B side) is substantially equal, the capacity adjustment conveyor 15A is used at the reference conveyance speed V15A of the capacity adjustment conveyor 15A. 15B is transported at the same transport speed as the reference transport speed V15B of the capacity adjustment conveyor 15A, that is, the capacity transport speed V14 of the capacity transport conveyor 14, and the container transport amount of the line A is larger than the line B, The capacity adjustment conveyor 15A is set at the reference transfer speed V15A-α, and the capacity adjustment conveyor 15B is set at the reference transfer speed V. When the container transport amount of line A is smaller than that of line B at 5B + α, the capacity adjustment conveyor 15A is transported at the reference transport speed V15A + α and the capacity adjustment conveyor 15B is transported at the reference transport speed V15B-α. ing.

次に、本発明の第2の実施の形態に係わる容器分岐装置2の作用を説明する。
能力搬送コンベヤ14によって密集状態で能力搬送される容器Pは、容器ガイド14G1および14G2に案内されて能力調整コンベヤ15Aおよび能力調整コンベヤ15Bへ搬送される際に、容器ガイド14G1側(外回り側)は密の状態で、容器ガイド14G2側(内回り側)は粗の状態になって搬送される。
これに伴って、その搬送幅W15Bが4列である能力調整コンベヤ15B側は密集度が密の状態のまま4列で搬送され、その搬送幅W15Aが5列である能力調整コンベヤ15A側は密集度が粗であるので必ずしも5列とはならず、図6に示すように、4列で搬送される等変化する。
能力調整コンベヤ15Aおよび能力調整コンベヤ15Bへ搬送された容器は、容器分岐ガイド8によって分岐され、それぞれ搬送コンベヤ16Aおよび搬送コンベヤ16Bを経て下流側の能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bへ搬送されて、能力搬送コンベヤ7Aおよび能力搬送コンベヤ7B上では密集状態で後工程へ能力搬送されていく。
Next, the operation of the container branching device 2 according to the second embodiment of the present invention will be described.
When the containers P that are transported in a dense state by the capacity transport conveyor 14 are guided by the container guides 14G1 and 14G2 and transported to the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B, the container guide 14G1 side (outward rotation side) In the dense state, the container guide 14G2 side (inner side) is conveyed in a rough state.
Along with this, the capacity adjustment conveyor 15B side with the conveyance width W15B of 4 rows is conveyed in 4 rows while the density is dense, and the capacity adjustment conveyor 15A side with the conveyance width W15A of 5 rows is dense. Since the degree is coarse, it does not necessarily have 5 rows, and as shown in FIG.
The containers conveyed to the capacity adjusting conveyor 15A and the capacity adjusting conveyor 15B are branched by the container branching guide 8, and are conveyed to the downstream capacity conveying conveyor 7A and the capacity conveying conveyor 7B via the conveying conveyor 16A and the conveying conveyor 16B, respectively. On the capacity conveying conveyor 7A and the capacity conveying conveyor 7B, the capacity is conveyed to a subsequent process in a dense state.

ここで、能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量がほぼ均等に搬送されている状態から、能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量が所定のばらつきを超えて搬送される状態になった場合、即ち、搬送容器溜まり量検知センサー16AS並びに16BSによって検知されるそれぞれの搬送容器溜まり量の差が、搬送制御装置20によって所定量を超えたと判断された場合に、搬送制御装置20からの指令によって、搬送コンベヤ16A並びに搬送コンベヤ16Bの搬送速度が前記能力搬送コンベヤ7Aと能力搬送コンベヤ7Bの容器搬送量のばらつきを是正するように制御される。   Here, from the state in which the container transport amounts of the capacity transport conveyor 7A and the capacity transport conveyor 7B are transported almost evenly, the container transport amounts of the capacity transport conveyor 7A and the capacity transport conveyor 7B are transported exceeding a predetermined variation. In this case, that is, when it is determined by the transfer control device 20 that the difference between the transfer container pool amount detection sensors 16AS and 16BS has exceeded a predetermined amount, the transfer control device 20, the transfer speeds of the transfer conveyor 16 </ b> A and the transfer conveyor 16 </ b> B are controlled so as to correct variations in the container transfer amounts of the capacity transfer conveyor 7 </ b> A and the capacity transfer conveyor 7 </ b> B.

即ち、図7に示すように、ラインAの容器搬送量がラインBの容器搬送量よりも少なくなっていて、相対的にラインAの容器搬送量を増やす必要がある場合には、能力調整コンベヤ15Aの搬送速度をV15A+αとし、能力調整コンベヤ15Bの搬送速度をV15B―αとするように調整することによって、ラインAとラインBの容器搬送量が均等になるように制御される。   That is, as shown in FIG. 7, when the container transport amount of line A is smaller than the container transport amount of line B, and it is necessary to relatively increase the container transport amount of line A, the capacity adjustment conveyor By adjusting the conveyance speed of 15A to V15A + α and the conveyance speed of the capacity adjusting conveyor 15B to V15B−α, the container conveyance amounts of line A and line B are controlled to be equal.

一方、ラインBの容器搬送量がラインAの容器搬送量よりも少なくなっていて、相対的にラインAの容器搬送量を減らす必要がある場合には、能力調整コンベヤ15Aの搬送速度を15A―αとし、能力調整コンベヤ15Bの搬送速度をV15B+αとするように調整することによって、ラインAとラインBの容器搬送量が均等になるように制御される。
また、ラインAの容器搬送量がラインBの容器搬送量とほぼ均等である場合には、能力調整コンベヤ15Aの搬送速度を該能力調整コンベヤ15Aの基準搬送速度V15Aで、能力調整コンベヤ15Bの搬送速度を該能力調整コンベヤ15Bの基準搬送速度V15B(能力搬送コンベヤ14の能力搬送速度V14とほぼ同じ)で搬送される。
On the other hand, when the container transport amount of line B is smaller than the container transport amount of line A and the container transport amount of line A needs to be relatively reduced, the transport speed of the capacity adjustment conveyor 15A is set to 15A- By adjusting α and adjusting the conveyance speed of the capacity adjustment conveyor 15B to V15B + α, the container conveyance amounts of the lines A and B are controlled to be equal.
When the container transport amount of line A is substantially equal to the container transport amount of line B, the transport speed of the capacity adjustment conveyor 15A is set to the reference transport speed V15A of the capacity adjustment conveyor 15A, and the transport speed of the capacity adjustment conveyor 15B is The speed is transported at the reference transport speed V15B of the capacity adjustment conveyor 15B (substantially the same as the capacity transport speed V14 of the capacity transport conveyor 14).

なお、前記能力調整コンベヤ15Aおよび能力調整コンベヤ15B上で容器Pがそれぞれ4列或いは5列および4列で矢印F15AおよびF15Bの方向に搬送され、また、容器Pと容器Pの間が非密集状態で搬送されるので、前記分岐先端部8Sに容器Pが衝突(接触)しても容器Pが凹み等の損傷を受けることはない。   The containers P are transported in the directions of arrows F15A and F15B in four rows, five rows, and four rows on the capacity adjusting conveyor 15A and the capacity adjusting conveyor 15B, respectively. Therefore, even if the container P collides (contacts) with the branch tip 8S, the container P is not damaged such as a dent.

また、前記説明では、容器分岐ガイド8によって2分岐された容器Pが搬送コンベヤ16Aと搬送コンベヤ16Bに搬送されて、搬送速度を制御可能とした場合を説明したが、前記能力調整コンベヤ16Aおよび能力調整コンベヤ16Bをそれぞれ下流側の能力搬送コンベヤ7Aおよび能力搬送コンベヤ7Bと合体させた能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)として、それぞれの搬送容器溜まり量検知センサーによって検知されるそれぞれの搬送容器溜まり量の差が、搬送制御装置20によって所定量を超えたと判断された場合に、搬送制御装置20からの指令によって能力調整コンベヤ15Aおよび能力調整コンベヤ15Bの搬送速度が前記能力搬送コンベヤ(A3)と能力搬送コンベヤ(B3)の容器搬送量のばらつきを是正するように制御されるとしてもよい。
この場合、能力搬送コンベヤ(A3)と能力搬送コンベヤ(B3)の容器搬送量のばらつき是正が収斂するまでの時間が少し長くなるが、前記搬送コンベヤ16Aおよび搬送コンベヤ16Bで行っていた前記説明の能力調整が省略できて簡素な構成の構造および制御となる。
In the above description, the case where the containers P branched into two by the container branching guide 8 are transported to the transport conveyor 16A and the transport conveyor 16B and the transport speed can be controlled has been described. As the capacity conveying conveyor (A3) and the capacity conveying conveyor (B3) in which the adjusting conveyor 16B is combined with the downstream capacity conveying conveyor 7A and the capacity conveying conveyor 7B, respectively, each of the conveyance container accumulation amount detection sensors detects each of them. When it is determined by the transfer control device 20 that the difference in the amount of the storage container pool has exceeded a predetermined amount, the transfer speed of the capacity adjustment conveyor 15A and the capacity adjustment conveyor 15B is set to the capacity transfer conveyor ( A3) and capacity transfer of conveyor (B3) It may be controlled so as to correct the can.
In this case, the time until the correction of the variation in the container transport amount between the capacity transport conveyor (A3) and the capacity transport conveyor (B3) is a little longer, but the explanation of the above explanation that was performed by the transport conveyor 16A and the transport conveyor 16B was made. The ability adjustment can be omitted, and the structure and control have a simple configuration.

1、2 容器分岐装置
3 能力搬送コンベヤ(C3)
4 能力調整コンベヤ(C4)
4G1、4G2 容器ガイド
5A 搬送コンベヤ(5A)
5B 搬送コンベヤ(5B)
6A 搬送コンベヤ(6A)
6B 搬送コンベヤ(6B)
6AS、6BS 搬送容器溜まり量検知センサー
7A、7B (下流側の)能力搬送コンベヤ
8 分岐ガイド
10 搬送制御装置
14 能力搬送コンベヤ(C14)
14G1、14G2 容器ガイド
15A 能力調整コンベヤ(15A)
15B 能力調整コンベヤ(15B)
16A 搬送コンベヤ(16A)
16B 搬送コンベヤ(16B)
16AS、16BS 搬送容器溜まり量検知センサー
20 搬送制御装置
1, 2 Container branching device 3 Capacity conveyor (C3)
4 Capacity adjustment conveyor (C4)
4G1, 4G2 Container Guide 5A Conveyor (5A)
5B Conveyor (5B)
6A Conveyor (6A)
6B Conveyor (6B)
6AS, 6BS Carrying container accumulation amount detection sensors 7A, 7B (downstream) capacity conveyor 8 branch guide 10 transport controller 14 capacity conveyor (C14)
14G1, 14G2 Container Guide 15A Capacity Adjustment Conveyor (15A)
15B Capacity adjustment conveyor (15B)
16A Conveyor (16A)
16B Conveyor (16B)
16AS, 16BS Transport container accumulation amount detection sensor 20 Transport control device

Claims (9)

密集状態で容器を能力搬送する能力搬送コンベヤ(C3)と、前記能力搬送コンベヤ(C3)の下流側に接続して搬送速度制御により容器搬送の密集度を適宜に変化させることが可能でその搬送幅が前記能力搬送コンベヤ(C3)と同等或いは大きめの能力調整コンベヤ(C4)と、各コンベヤの搬送速度制御を行う搬送制御装置と、前記能力調整コンベヤ(C4)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力調整コンベヤ(C4)と同等或いは大きめで、前記能力調整コンベヤ(C4)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の搬送コンベヤ(5A)および幅狭の搬送コンベヤ(5B)と、前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の境界に分岐先端部を有して容器搬送を2分岐する容器分岐ガイドと、前記幅広の搬送コンベヤ(5A)および前記幅狭の搬送コンベヤ(5B)のそれぞれに接続して前記2分岐された容器を搬送するそれぞれに搬送容器溜まり量検知センサーを備えた下流側の第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)とから成り、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の下流側に接続して密集状態で容器を後工程へ能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように、前記搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする容器分岐装置。 Capability conveying conveyor (C3) that conveys containers in a dense state, and connected to the downstream side of the capability conveying conveyor (C3), it is possible to appropriately change the density of container conveyance by conveying speed control A width adjustment conveyor (C4) having a width equal to or larger than the capacity transfer conveyor (C3), a transfer control device for controlling the transfer speed of each conveyor, and a right angle connection on the downstream side of the capacity adjustment conveyor (C4) In addition, the conveyance width of the parallel arrangement in which the respective conveyance widths are combined is equal to or larger than that of the capacity adjustment conveyor (C4), and has an appropriate curve provided in the container conveyance path perpendicular to the capacity adjustment conveyor (C4). wide conveyor for receiving the container inner loop and for up to around the outside container guides conveyed are guided respectively inward turning and outer loop (5A) and a width of the narrow A feed conveyor (5B), a container branching guide to 2 branches the container transport have a branch tip to the boundary of the wide conveyor (5A) and said narrow conveyor (5B), transport of the wide A first downstream transport conveyor (6A) on the downstream side, which is connected to each of the conveyor (5A) and the narrow transport conveyor (5B), and transports the bifurcated containers, each having a transport container accumulation amount detection sensor. ) And a second downstream transfer conveyor (6B), connected to the downstream side of the first downstream transfer conveyor (6A) and the second downstream transfer conveyor (6B) and capable of carrying the capacity of the container to the subsequent process in a dense state. The conveyance control based on the detection signal of the conveyance container accumulation amount detection sensor so that the container conveyance amounts on the capability conveyance conveyor (7A) and the capability conveyance conveyor (7B) are equalized. Vessel branching device being characterized in that configured to perform the conveying speed control of the capacity adjusting conveyor (C4) by location. 請求項1に記載する容器分岐装置において、前記幅広の搬送コンベヤ(5A)および前記幅狭の搬送コンベヤ(5B)での容器搬送を密集状態でなく、隙間を持たせた状態の搬送とするように前記搬送制御装置を構成したことを特徴とする容器分岐装置。 2. The container branching apparatus according to claim 1, wherein the container transport on the wide transport conveyor (5A) and the narrow transport conveyor (5B) is transported in a state having a gap, not a dense state. A container branching device comprising the transfer control device. 請求項1または2に記載する容器分岐装置において、前記能力調整コンベヤ(C4)の搬送速度制御に加えて、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の搬送速度制御を行うように前記搬送制御装置を構成したことを特徴とする容器分岐装置。 The container branching device according to claim 1 or 2, wherein, in addition to the transport speed control of the capacity adjusting conveyor (C4), the transport speed control of the first downstream transport conveyor (6A) and the second downstream transport conveyor (6B). A container branching device characterized in that the conveyance control device is configured to perform the above. 請求項1から3の何れか一項に記載する容器分岐装置において、前記第一下流搬送コンベヤ(6A)と前記能力搬送コンベヤ(7A)を一体に、および、前記第二下流搬送コンベヤ(6B)と前記能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)として、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)での容器搬送量が均等になるように、該能力搬送コンベヤ(A1)および能力搬送コンベヤ(B1)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする容器分岐装置。 4. The container branching device according to claim 1, wherein the first downstream transport conveyor (6 </ b> A) and the capacity transport conveyor (7 </ b> A) are integrally formed and the second downstream transport conveyor (6 </ b> B). And the capacity transfer conveyor (7B) are integrated into the capacity transfer conveyor (A1) and the capacity transfer conveyor (B1), respectively, so that the container transfer amount in the capacity transfer conveyor (A1) and the capacity transfer conveyor (B1) is equal. As described above, the conveyance speed control of the capacity adjustment conveyor (C4) is performed by the conveyance control device based on the detection signals of the conveyance container accumulation amount detection sensors provided on the capacity conveyance conveyor (A1) and the capacity conveyance conveyor (B1), respectively. A container branching device configured to perform the above. 請求項4に記載する容器分岐装置において、前記幅広の搬送コンベヤ(5A)と前記能力搬送コンベヤ(A1)を一体に、および、前記幅狭の搬送コンベヤ(5B)と前記能力搬送コンベヤ(B1)を一体にし、それぞれ能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)として、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)での容器搬送量が均等になるように、該能力搬送コンベヤ(A2)および能力搬送コンベヤ(B2)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記能力調整コンベヤ(C4)の搬送速度制御を行うように構成したことを特徴とする容器分岐装置。 5. The container branching device according to claim 4, wherein the wide conveyor (5A) and the capacity conveyor (A1) are integrated, and the narrow conveyor (5B) and the capacity conveyor (B1). , And the capacity conveying conveyor (A2) and the capacity conveying conveyor (B2), respectively, so that the container conveying amounts in the capacity conveying conveyor (A2) and the capacity conveying conveyor (B2) are equalized. (A2) and based on the detection signal of the conveyance container accumulation | storage amount detection sensor each provided in the capability conveyance conveyor (B2), having comprised so that the conveyance speed control of the said capacity adjustment conveyor (C4) might be performed by the said conveyance control apparatus. A container branching device. 密集状態で容器を能力搬送する能力搬送コンベヤ(C14)と、前記能力搬送コンベヤ(C14)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力搬送コンベヤ(C14)より大きめで、それぞれに搬送速度制御され、前記能力搬送コンベヤ(C14)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の能力調整コンベヤ(15A)および幅狭の能力調整コンベヤ(15B)と、各コンベヤの搬送速度制御を行う搬送制御装置と、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の境界に分岐先端部を有して容器搬送を2分岐する容器分岐ガイドと、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)のそれぞれに接続して前記2分岐された容器を搬送するそれぞれに搬送容器溜まり量検知センサーを備えた下流側の第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)とから成り、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)の下流側に接続して密集状態で容器を後工程へ能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように、前記搬送容器溜まり量検知センサーが検出したそれぞれの搬送容器溜まり量の差が所定値よりも大きくなると、前記搬送制御装置により前記それぞれの幅広の能力調整コンベヤ(15A)と幅狭の能力調整コンベヤ(15B)の搬送速度制御を行うように構成したことを特徴とする容器分岐装置。 A capacity conveying conveyor (C14) for conveying containers in a dense state, and a conveying width in a parallel arrangement in which the respective conveying widths are connected in a perpendicular direction on the downstream side of the capacity conveying conveyor (C14) are the capacity conveying conveyor. (C14) is from larger, is conveyed speed control, respectively, guided by each inner loop and outer loop to inward turning and for outer loop container guide having an appropriate curvature with the perpendicular direction of the container transport path from the ability conveyor (C14) The wide capacity adjusting conveyor (15A) and the narrow capacity adjusting conveyor (15B) for receiving the containers being conveyed, the transfer control device for controlling the transfer speed of each conveyor, and the wide capacity adjusting conveyor (15A). ) to 2 branches the container transport have a branch tip to the boundary of the narrow capability adjustment conveyor (15B) vessel branching guide , The downstream side having a conveying container reservoir amount detecting sensors respectively for transporting the containers the two branches connected to each of the wide capacity adjusting conveyor (15A) and said narrow capability adjustment conveyor (15B) It becomes from a first downstream conveyor (16A) and the second downstream conveyor (16B), container confluency connected downstream of the first downstream conveyor (16A) and the second downstream conveyor (16B) Difference of the respective transport container accumulation amounts detected by the transport container accumulation amount detection sensor so that the container conveyance amounts on the ability conveyance conveyor (7A) and the ability conveyance conveyor (7B) that convey the ability to the subsequent process are equalized. When There is larger than a predetermined value, it said respective wide capacity adjusting conveyor (15A) and narrow capacity adjusting conveyor by said conveyance control device ( Vessel branching device being characterized in that configured to perform the conveying speed control of the 5B). 請求項6に記載する容器分岐装置において、前記第一下流搬送コンベヤ(16A)と前記能力搬送コンベヤ(7A)を一体に、および、前記第二下流搬送コンベヤ(16B)と前記能力搬送コンベヤ(7B)を一体にし、それぞれ能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)として、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)での容器搬送量が均等になるように、該能力搬送コンベヤ(A3)および能力搬送コンベヤ(B3)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記搬送制御装置により前記それぞれの幅広の能力調整コンベヤ(15A)と幅狭の能力調整コンベヤ(15B)の搬送速度制御を行うように構成したことを特徴とする容器分岐装置。 The container branching device according to claim 6, wherein the first downstream conveyor (16A) and the capacity conveyor (7A) are integrated, and the second downstream conveyor (16B) and the capacity conveyor (7B). ) Are integrated into the capacity conveying conveyor (A3) and the capacity conveying conveyor (B3), respectively, so that the container conveying amounts on the capacity conveying conveyor (A3) and the capacity conveying conveyor (B3) are equalized. Each of the wide capacity adjusting conveyor (15A) and the narrow capacity adjusting conveyor are controlled by the transfer control device based on detection signals of transfer container accumulation amount detection sensors provided on the conveyor (A3) and the capacity conveying conveyor (B3), respectively. (15B) A container branching device configured to perform the conveyance speed control. 上流の能力搬送コンベヤ(C3)により密集状態で能力搬送されてくる容器を、下流側に接続したその搬送幅が前記能力搬送コンベヤ(C3)と同等或いは大きめの能力調整コンベヤ(C4)に搬送して、前記能力調整コンベヤ(C4)の下流側で直角方向に接続し、それぞれの搬送幅を合せた並列配置の搬送幅が前記能力調整コンベヤ(C4)と同等或いは大きめで、前記能力調整コンベヤ(C4)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドにそれぞれ内回りおよび外回りで案内されて搬送されてくる容器を受ける幅広の搬送コンベヤ(5A)および幅狭の搬送コンベヤ(5B)へ前記容器を搬送する際に、前記能力調整コンベヤ(C4)で搬送制御装置からの指令により搬送速度制御をすることによって容器搬送の密集度を適宜変化させ、該搬送速度制御による搬送容器の密集度に応じ、容器搬送経路の外回り側の容器搬送の密集度が一定の密の状態で、前記容器搬送経路の内回り側の容器搬送の密集度に粗密の変化が生じることによって、容器搬送量が前記幅狭の搬送コンベヤ(5B)側は一定前記幅広の搬送コンベヤ(5A)側は粗密の変化を生じさせて、前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の境界に分岐先端部を有した容器分岐ガイドによって前記能力調整コンベヤ(C4)側からの密集度を変化させた状態の搬送容器を2分岐し、該2分岐に対応して前記幅広の搬送コンベヤ(5A)と前記幅狭の搬送コンベヤ(5B)の下流側にそれぞれ接続した第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)へ搬送させ、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)にそれぞれ設けた搬送容器溜まり量検知センサーの検知信号に基づいて前記能力調整コンベヤ(C4)の搬送速度制御を行うことにより、前記第一下流搬送コンベヤ(6A)および第二下流搬送コンベヤ(6B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(7A)および能力搬送コンベヤ(7B)での容器搬送量が均等になるように制御することを特徴とする容器分岐方法。 Containers that are transported in a dense state by the upstream capacity transport conveyor (C3) are transported to a capacity adjustment conveyor (C4) whose transport width connected to the downstream side is equal to or larger than that of the capacity transport conveyor (C3). The capacity adjustment conveyor (C4) is connected in the direction perpendicular to the downstream side, and the conveyance width of the parallel arrangement of the respective conveyance widths is equal to or larger than that of the capacity adjustment conveyor (C4). A wide conveyor (5A) and a narrow conveyor for receiving containers that are guided inwardly and outwardly by the inner and outer container guides having an appropriate curve provided in the container conveying passage in a perpendicular direction from C4) When the container is transported to the transport conveyor (5B), the transport speed is controlled by a command from the transport control device on the capacity adjustment conveyor (C4). Rukoto appropriately varying the density of the container transported by, depending on the density of the transport container by conveyance speed control, the density of the outer-side of the container transport container transport path at a constant tight state, the container transport path As the density of container conveyance on the inner circumference side changes, the container conveyance amount is constant on the side of the narrow conveyor (5B) and changes on the side of the wide conveyor (5A). Then, the density from the capacity adjusting conveyor (C4) side was changed by a container branching guide having a branching tip at the boundary between the wide conveyor (5A) and the narrow conveyor (5B). the transport container of the state 2 branches, the two first downstream conveyor that is connected downstream of the branch to correspond the wide conveyor (5A) and said narrow conveyor (5B) (6A) Contact Beauty is transported first to a second downstream conveyor (6B), the capacity adjustment on the basis of the detection signal of the carrying container reservoir amount detection sensor provided respectively on the first downstream conveyor (6A) and the second downstream conveyor (6B) Capability transport conveyor (7A) that transports containers in a dense state connected to the downstream side of the first downstream transport conveyor (6A) and the second downstream transport conveyor (6B) by controlling the transport speed of the conveyor (C4) ) And the capacity conveying conveyor (7B), the container conveying method is controlled so as to be equalized. 上流の能力搬送コンベヤ(C14)により密集状態で搬送されてくる容器を、下流側で直角方向に接続してそれぞれの搬送幅を合せた並列配置の搬送幅が前記能力搬送コンベヤ(C14)より大きめで、前記能力搬送コンベヤ(C14)から直角方向の容器搬送通路に備えた適宜の湾曲を有する内回り用および外回り用容器ガイドまでそれぞれ内回りおよび外回りで案内されて幅広の搬送コンベヤ(15A)および幅狭の搬送コンベヤ(15B)へ搬送する際に、前記外回り側の容器搬送の密集度が一定の密の状態で、前記内回り側の容器搬送の密集度が一定の粗の状態で搬送させて、次いで、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の境界に分岐先端部を有した容器分岐ガイドによって前記能力搬送コンベヤ(C14)側からの搬送容器を2分岐し、該2分岐に対応して前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の下流側にそれぞれ接続した第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)へ搬送させて、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)に設けた搬送容器溜まり量検知センサーが検出したそれぞれの搬送容器溜まり量の差が所定値よりも大きくなると、前記幅広の能力調整コンベヤ(15A)と前記幅狭の能力調整コンベヤ(15B)の搬送速度制御をすることにより、前記第一下流搬送コンベヤ(16A)および第二下流搬送コンベヤ(16B)の下流側に接続した密集状態で容器を能力搬送する能力搬送コンベヤ(17A)および能力搬送コンベヤ(17B)での容器搬送量が均等になるように搬送制御するようにしたことを特徴とする容器分岐方法。 Larger containers conveyed by dense state by upstream capacity conveyor (C14), than the conveying width of the parallel arrangement of the combined respective conveying width connected at a right angle on the downstream side capability conveyor (C14) in the ability conveyor (C14) from being guided by the respective inner loop and outer loop to inward turning and for outer loop container guide having an appropriate curvature with the perpendicular direction of the container transport path wide conveyor (15A) and narrow When transporting to the transport conveyor (15B), the density of the container transport on the outer circumference side is constant , and the density of the container transport on the inner circumference side is transported with a constant roughness, the ability transportable by container branching guide having a branch tip to the boundary of the wide capacity adjusting conveyor (15A) and said narrow capability adjustment conveyor (15B) The transport container from the conveyor (C14) side 2 branches, the first connected respectively to the downstream side of the wide capacity adjusting conveyor in response to said second branch (15A) and said narrow capability adjustment conveyor (15B) by conveyed to the downstream conveyor (16A) and the second downstream conveyor (16B), said transport container reservoir amount detection sensor provided in the first downstream conveyor (16A) and the second downstream conveyor (16B) detects When the difference between the respective storage container reservoir amounts becomes larger than a predetermined value , the first downstream transport is performed by controlling the transport speed of the wide capacity adjusting conveyor (15A) and the narrow capacity adjusting conveyor (15B). conveyor (16A) and the second downstream conveyor (16B) ability conveyor to capacity transporting the container with dense while connected to a downstream side of the (17A And vessel branches wherein the container transport amount in the capacity conveyor (17B) is to convey controlled to be equal.
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