Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JPH0318843B2 - - Google Patents
[go: Go Back, main page]

JPH0318843B2 - - Google Patents

Info

Publication number
JPH0318843B2
JPH0318843B2 JP15996787A JP15996787A JPH0318843B2 JP H0318843 B2 JPH0318843 B2 JP H0318843B2 JP 15996787 A JP15996787 A JP 15996787A JP 15996787 A JP15996787 A JP 15996787A JP H0318843 B2 JPH0318843 B2 JP H0318843B2
Authority
JP
Japan
Prior art keywords
string
pipe
gas injection
outlet
supply path
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
JP15996787A
Other languages
Japanese (ja)
Other versions
JPS6322319A (en
Inventor
Harumichi Makizono
Shinichi Hamada
Hideto Matsufuji
Takeshi Kawai
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kubota Corp
Original Assignee
Kubota Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kubota Corp filed Critical Kubota Corp
Priority to JP15996787A priority Critical patent/JPS6322319A/en
Publication of JPS6322319A publication Critical patent/JPS6322319A/en
Publication of JPH0318843B2 publication Critical patent/JPH0318843B2/ja
Granted legal-status Critical Current

Links

Landscapes

  • Binders And Loading Units For Sheaves (AREA)
  • Basic Packing Technique (AREA)

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、主として農用に利用する結束装置の
紐通し機構に関する。
DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a string threading mechanism of a binding device mainly used for agricultural purposes.

〔従来の技術〕 結束装置においては、巻紐から導き出した紐を
所定の紐供給路に沿つて走行させる必要がある
が、この紐供給路は機械装置の内部に位置した
り、屈曲している等のために人手による紐通し作
業が甚だ煩わしいものであり、又、誤つた径路で
紐を通してしまうこともあつた。
[Prior art] In a tying device, it is necessary to run the string led out from the winding string along a predetermined string supply path, but this string supply path is located inside a mechanical device or is bent. For this reason, manual threading of the string was extremely troublesome, and there were cases where the string was threaded in the wrong direction.

そこで、紐を所通の紐供給路に誤りなく、か
つ、比較的簡単に通すことができるようにする手
段として、例えば実開昭53−130152号公報で示さ
れるように、巻紐収納部の付近から結束装置の紐
供給用ニードルの付近に亘る紐供給路をパイプで
形成するとともに、このパイプにループ状の紐移
動案内具を挿通装備し、巻紐から繰出された紐の
端部を前記移動案内具に保持させたのち移動案内
具を回動操作して紐をパイプの入口から出口に通
すようにした手段や、特開昭56−32206号公報で
示されるように、紐供給路を紐ガイドローラ及び
パイプで形成するとともに、紐供給路の始端部に
紐送りローラを駆動自在に設け、巻紐から繰出し
た紐を駆動ローラで強制的に送り出して紐供給路
に通すように構成した手段が提案されている。
Therefore, as a means to allow the string to be passed through the normal string supply path without error and relatively easily, for example, as shown in Japanese Utility Model Application No. 53-130152, a winding string storage section has been proposed. A string supply path extending from the vicinity to the vicinity of the string supply needle of the tying device is formed by a pipe, and a loop-shaped string movement guide is inserted through this pipe, and the end of the string unwound from the winding string is passed through the pipe. There is a method in which the string is held in a moving guide and then rotated to pass the string from the inlet to the outlet of the pipe, or as shown in Japanese Patent Application Laid-Open No. 56-32206, the string supply path is In addition to being formed by a string guide roller and a pipe, a string feed roller is freely drivable at the starting end of the string supply path, and the string fed out from the wound string is forcibly sent out by the driving roller and passed through the string supply path. Measures have been proposed.

〔発明が解決しようとする問題点〕[Problem that the invention seeks to solve]

しかし、紐移動案内具を用いる前者の手段で
は、紐の先端を紐移動案内具に取付けるための操
作、移動案内具を回動させるための操作、およ
び、パイプに通した紐を移動案内具から取外す操
作が必要であり、通しまちがいの発生は無くなる
が、まだ紐通しのための手間は相当かかるもので
あつた。
However, in the former method using a string movement guide, it is necessary to perform an operation to attach the tip of the string to the string movement guide, an operation to rotate the movement guide, and an operation to remove the string passed through the pipe from the movement guide. Although a removal operation is required and the occurrence of threading errors is eliminated, it still takes considerable effort to thread the string.

又、駆動式の紐送りローラを用いる後者の手段
では、前者のように紐移動案内具への紐の着脱操
作や紐移動案内具の回動操作は不要で、紐通し自
体の手間はあまりかからないが、現在市場で使用
しているジエート、床、樹脂等の紐の腰が弱い軟
弱なものである場合には紐の途中が屈曲して紐送
りローラの送り力が紐先端まで伝わらず、特に紐
供給路が屈曲している場合には紐の移動抵抗が大
きくなつて上記現象が一層顕著に表れ、紐通しが
不能になるもので実用的方法ではなかつた。
Furthermore, with the latter method using a driven string feed roller, unlike the former method, there is no need to attach or detach the string to the string movement guide or to rotate the string movement guide, and threading the string itself does not require much effort. However, if the strings currently in use on the market are made of gelatin, floor, resin, etc., and are weak and have a weak elasticity, the middle of the string may bend and the feeding force of the string feed roller will not be transmitted to the tip of the string. If the string supply path is bent, the resistance to movement of the string increases and the above phenomenon becomes even more pronounced, making it impossible to thread the string through, which is not a practical method.

以上のように、紐通しの省力化を図る手段は提
案されてはいるが、いずれも操作面、又は性能面
で未だ難点があつて実用化には至つておらず、旧
来通り全てを手作業によつて煩わしい紐通しを行
つているのが実情である。
As mentioned above, methods have been proposed to save labor when threading strings, but none of them have yet been put to practical use because they still have difficulties in terms of operation or performance. The reality is that people are having to thread the string through the cables, which is a hassle.

本発明は、かかる実情に着目してなされたもの
であつて、第1発明の目的は、簡単な操作で、確
実かつ迅速に所定の紐供給路に紐を通すことがで
きる紐通し機構を提供することにあり、又、台2
発明の目的は、上記目的に加えて、紐通し作業全
体の省力化を更に促進することにある。
The present invention has been made in view of the above circumstances, and a first object of the present invention is to provide a lace threading mechanism that can reliably and quickly pass a lace through a predetermined lace supply path with a simple operation. There is also a platform 2
In addition to the above-mentioned object, an object of the invention is to further promote labor saving in the entire stringing operation.

〔問題点を解決するための手段〕[Means for solving problems]

本第1発明に係る紐通し機構が特徴とするとこ
ろは、紐供給路をパイプで構成するとともに、気
体噴射装置を設け、この気体噴射装置によつて前
記パイプ内に圧力気体を噴射供給して、パイプ内
に出口側に向かう高速気流を発生させるようにし
た点にあり、 又、第2発明に係る紐通し機構が特徴とすると
ころは上記第1発明の特徴構成に加えて、前記パ
イプの出口を後退停止位置にある紐供給路ニード
ルの先端の紐通し孔に臨ませて設けた点にある。
The lace threading mechanism according to the first invention is characterized in that the lace supply path is composed of a pipe, and a gas injection device is provided, and the gas injection device injects and supplies pressurized gas into the pipe. , the string passing mechanism according to the second invention is characterized in that a high-speed airflow is generated in the pipe toward the outlet side, and in addition to the characteristic structure of the first invention, the string passing mechanism according to the second invention is characterized by: The outlet is provided so as to face the string passing hole at the tip of the string supply path needle which is in the retraction stop position.

〔作用〕[Effect]

上記第1発明の特徴構成によると、巻紐などか
ら繰出した紐の先端部をパイプの入口に挿入した
上で、気体噴射装置によつて圧力気体をパイプ内
に噴射供給すると、パイプ内には出口側に向かう
高速気流が発生し、紐はこの高速気流により送ら
れてパイプ出口に至り、気流と共に飛び出る。
According to the characteristic configuration of the first invention, when the tip of the cord drawn out from a winding cord or the like is inserted into the entrance of the pipe, and pressurized gas is injected into the pipe by the gas injection device, the inside of the pipe is A high-speed airflow toward the outlet is generated, and the string is sent by this high-speed airflow to the pipe outlet, where it flies out along with the airflow.

ここにあつて、第2発明の特徴機構として、パ
イプ出口を紐供給用ニードルの紐通し孔に臨設し
ておくと、パイプ出口から高速気流と共に飛び出
した紐は、そのままニードルの紐通し孔に挿通さ
れる。
In this case, as a characteristic feature of the second invention, when the pipe outlet is provided directly in the string passing hole of the string supply needle, the string that flies out from the pipe outlet along with the high-speed airflow is directly inserted into the string passing hole of the needle. be done.

〔発明の効果〕〔Effect of the invention〕

以上説明したように、本第1発明によれば、パ
イプ内の紐はパイプ内を流れる高速気流により出
口側に送られるので、腰が弱い柔軟な紐でも、
又、紐供給路が屈曲していても、紐を迅速にパイ
プ内を通して所定の出口から導き出すことができ
るようになつた。
As explained above, according to the first invention, the string inside the pipe is sent to the outlet side by the high-speed airflow flowing inside the pipe, so even a weak and flexible string can be
Furthermore, even if the string supply path is bent, the string can now be quickly guided through the pipe and guided out from a predetermined outlet.

しかも、その操作は、パイプの入口に紐の先端
部を挿入して、気体噴射装置から圧力気体を噴射
させるだけの簡単なもので済み、紐通し作業が簡
使迅速に行えるようになつた。
Moreover, the operation is as simple as inserting the tip of the string into the entrance of the pipe and injecting pressurized gas from the gas injection device, making threading the string easy and quick.

又、本第2発明によれば、パイプ出口から高速
気流と共に出た紐を、そのままニードルの紐通し
孔に挿通させるので、ニードルへの煩わしい紐通
しも不要となり、紐通し作業全体の一層の省力化
を図ることができるようになつた。従つて、例え
ば結束作業途中での紐消費に伴つて紐通しを行う
ようなときに、紐通しを簡単かつ短時間で終了で
き、結束作業を能率よく行う上で有効となる。
Furthermore, according to the second invention, since the string that comes out from the pipe outlet along with the high-speed airflow is directly inserted into the string passing hole of the needle, there is no need for the troublesome string passing through the needle, which further saves labor in the entire string threading operation. Now it is possible to make changes. Therefore, for example, when threading the string as the string is consumed during the tying operation, the lace threading can be completed easily and in a short time, which is effective in performing the tying operation efficiently.

〔実施例〕〔Example〕

第2図に、結束装置を備えた農作業機の一例と
してのバインダーが示されている。
FIG. 2 shows a binder as an example of an agricultural machine equipped with a binding device.

このバインダーは、植立茎稈を刈取り対象物と
非刈取り対象物とに分ける分草具1、この分草具
1からの刈取り対象茎稈に対する引起し装置2、
引起し茎稈に対する刈取り装置3、刈取り茎稈を
機体横一側方に搬送する装置4、この搬送装置4
からの茎稈を設定量ずつ結束して機体横外側に放
出する結束装置5、左右一対の車輪6,6、エン
ジン7及び操縦ハンドル8等を有し、前記エンジ
ン7からの伝動力によつて駆動するように構成し
てある。
This binder includes a weeding tool 1 that separates planted stem culms into objects to be reaped and objects not to be reaped, a lifting device 2 for moving the stem culms from this weeding tool 1 to the stem culms to be reaped,
A reaping device 3 for raising the stem culm, a device 4 for conveying the cut stem culm to one side of the machine body, and this conveying device 4
It has a binding device 5 that binds a set amount of stem culms from the plant and releases them to the outside of the aircraft body, a pair of left and right wheels 6, 6, an engine 7, a control handle 8, etc. It is configured to be driven.

走行機体前部には第1図に示すように、収束空
間11の前側に結節機構を構成するビル12及び
紐ホルダー13を配備するとともに、収束空間1
1の後側に結束用の紐を前記結節機構に供給する
ためのニードル14を配設して結束部15を構成
してある。
As shown in FIG. 1, at the front of the traveling machine, a building 12 and a string holder 13 that constitute a knotting mechanism are provided in front of the convergence space 11, and the convergence space 1
A needle 14 for supplying a tying string to the tying mechanism is disposed on the rear side of the tying mechanism 1 to form a tying section 15.

走行機体の搬送装置4の背部には、巻紐9の載
置収納部10を設けてあり、この巻紐9から繰出
した紐9aを前記結束部15に導くための紐供給
路を構成するパイプ16を設けてある。そして、
前記パイプ16の紐挿通用の入口16aを先拡が
りのラツパ形に構成するとともに、パイプ16の
出口16bを、前記収束空間11の後方における
停止位置に待機しているニードル14の先端に設
けた紐通し孔14aに臨ませて設けてある。
A storage section 10 for storing a winding cord 9 is provided on the back of the transport device 4 of the traveling machine, and a pipe constitutes a cord supply path for guiding the cord 9a fed out from the winding cord 9 to the binding section 15. 16 are provided. and,
The inlet 16a of the pipe 16 through which the string is inserted is configured in a flared shape, and the outlet 16b of the pipe 16 is a string provided at the tip of the needle 14 waiting at a stop position at the rear of the convergence space 11. It is provided facing the through hole 14a.

又、前記パイプ16の入口16aには、前記エ
ンジン7のシリンダヘツド部7aから開閉弁18
を介して導いた爆発ガスをパイプ16内に向けて
噴射供給するガス噴射流路17を臨設して、パイ
プ16に高圧気体を噴射供給する気体噴射装置3
0を構成してある。前記開閉弁18はスプリング
19によつて閉じ付勢してあり、操作レバー20
をスプリング19に抗して揺動操作している間だ
け爆発ガスをガス噴射流路17に導出することが
できるようになつている。
Further, an on-off valve 18 is connected to the inlet 16a of the pipe 16 from the cylinder head 7a of the engine 7.
A gas injection device 3 that injects high-pressure gas into the pipe 16 by providing a gas injection channel 17 that injects the explosive gas guided through the pipe 16 into the pipe 16.
0 is configured. The on-off valve 18 is biased closed by a spring 19, and the operating lever 20
Explosive gas can be led out to the gas injection channel 17 only while being swung against the spring 19.

次に上記構成を用いての紐通し作動について説
明する。
Next, the string threading operation using the above configuration will be explained.

まず、巻紐9から繰出した紐9aを、紐ブレー
キ21及びたわみ取り杆22を作用させない状態
でその先端部を適当量だけパイプ16の入口16
aに挿入する。次に、操作レバー20を用いて開
閉弁18を開放し、ガス噴射流路17からエンジ
ン爆発ガスをパイプ16の入口16aに噴射供給
する。この高圧の爆発ガスの噴射供給に伴つてパ
イプ16内には出口16b側に向かう高速気流が
発生し、紐9aは高速気流により送られパイプ1
6に沿つて移動し、出口16bから気流と共に飛
び出し、後退停止位置にあるニードル14の紐通
し孔14aを貫通する。このように所定の供給路
に沿つて通された紐9aに紐ブレーキ21及びた
わみ取り杆22を作用させ、所定の結束作業供給
状態にセツトするのである。
First, the string 9a let out from the winding string 9 is inserted into the inlet 16 of the pipe 16 by an appropriate amount without applying the string brake 21 and the deflection lever 22.
Insert into a. Next, the operating lever 20 is used to open the on-off valve 18, and engine explosion gas is injected and supplied from the gas injection flow path 17 to the inlet 16a of the pipe 16. As this high-pressure explosive gas is injected and supplied, a high-speed airflow is generated within the pipe 16 toward the outlet 16b, and the string 9a is sent by the high-speed airflow to the pipe 16.
6, jumps out along with the airflow from the outlet 16b, and passes through the string passage hole 14a of the needle 14 at the retracted stop position. In this way, the string brake 21 and the deflection lever 22 are applied to the string 9a passed along the predetermined supply path to set it in a predetermined binding operation supply state.

尚、前記操作レバー20に、検出スイツチ23
を操作レバー20の操作位置に基いて前記開閉弁
18が開放操作された事を検出するように連係さ
せると共に、前記検出スイツチ23をタイマー回
路24を介してブザー等の警報装置25の操作回
路26に連係してある。そして、前記タイマー回
路24を開閉弁18が開操作されると作動開始す
るように、かつ、開閉弁18が閉操作されるとリ
セツト作動するように検出スイツチ23からの情
報に基いて自動的に作動するように構成すると共
に、前記操作回路26を、開閉弁18が開放に維
持されている時間が設定時間になると警報装置2
5を作動させるようにタイマー回路24からの情
報に基いて自動作動するように構成してあり、パ
イプ16への爆発ガス供給が設定時間継続して行
われると、紐のガス熱による損傷を避けるよう警
報されるようにしてある。
Incidentally, a detection switch 23 is attached to the operating lever 20.
is linked to detect that the opening/closing valve 18 is opened based on the operating position of the operating lever 20, and the detection switch 23 is connected to an operating circuit 26 of an alarm device 25 such as a buzzer via a timer circuit 24. It is linked to. The timer circuit 24 is automatically activated based on information from the detection switch 23 so that it starts operating when the on-off valve 18 is opened, and resets when the on-off valve 18 is closed. In addition, the operating circuit 26 is configured to activate the alarm device 2 when the time during which the on-off valve 18 is maintained open reaches a set time.
5 is configured to operate automatically based on information from the timer circuit 24, and if explosive gas is continuously supplied to the pipe 16 for a set period of time, the string is prevented from being damaged by gas heat. I'm trying to warn you.

〔別実施例〕[Another example]

第3図に示す紐通し構成にあつては、ガス噴射
流路17を、爆発ガス蓄積用の蓄圧タンク27を
備えさせて、このタンク27を介してパイプ16
にガスを供給するように気体噴射装置30を構成
してあり、エンジン7が排気量の少ない小型であ
つても、紐通しに必要な量のガスを短時間でパイ
プ16に供給できるようにしてある。又、パイプ
16の巻紐収納部側に該箇所の温度を検出するセ
ンサー28を設けると共に、警報装置25の操作
回路26を前記センサー28による検出温度が設
定値になると警報装置25を自動的に作動させる
ように構成してあり、紐のガス熱による損傷防止
のための警報を温度検出に基いて行わせるように
してある。
In the configuration shown in FIG. 3, the gas injection flow path 17 is provided with a pressure accumulation tank 27 for accumulating explosive gas, and the pipe 16
The gas injection device 30 is configured to supply gas to the pipe 16, so that even if the engine 7 is small with a small displacement, the amount of gas necessary for threading the string can be supplied to the pipe 16 in a short time. be. Further, a sensor 28 is provided on the side of the winding cord storage section of the pipe 16 to detect the temperature at that point, and the operating circuit 26 of the alarm device 25 is configured to automatically turn on the alarm device 25 when the temperature detected by the sensor 28 reaches a set value. It is configured to be activated, and an alarm is issued based on temperature detection to prevent damage to the string due to gas heat.

本発明を実施するに当り、エヤーコンプレツサ
ーをエンジン7によつて駆動されるように、か
つ、圧縮空気をパイプ16に噴射供給できるよう
に気体噴射装置30を構成して実施することもで
きる。
In carrying out the present invention, the air compressor may be driven by the engine 7, and the gas injection device 30 may be configured to inject and supply compressed air to the pipe 16. .

【図面の簡単な説明】[Brief explanation of drawings]

図面は本発明に係る結束装置の紐通し機構の実
施例を示し、第1図は紐通し機構の断面図、第2
図はバインダーの全体側面図、第3図は紐通し機
構の別実施例を示す断面図である。 9a……紐、14……ニードル、14a……紐
通し孔、16……パイプ、16a……入口、16
b……出口、30……気体噴射装置。
The drawings show an embodiment of the string passing mechanism of the binding device according to the present invention, and FIG. 1 is a sectional view of the string passing mechanism, and FIG.
The figure is an overall side view of the binder, and FIG. 3 is a sectional view showing another embodiment of the string threading mechanism. 9a... String, 14... Needle, 14a... String hole, 16... Pipe, 16a... Inlet, 16
b...Exit, 30...Gas injection device.

Claims (1)

【特許請求の範囲】 1 紐供給路をパイプ16で構成するとともに気
体噴射装置30を設け、この気体噴射装置30に
よつて前記パイプ16内に圧力気体を噴射供給し
て、パイプ16内に出口16b側に向かう高速気
流を発生させるようにしてある結束装置の紐通し
機構。 2 紐供給路をパイプ16で構成するとともに気
体噴射装置30を設け、この気体噴射装置30に
よつて前記パイプ16内に圧力気体を噴射供給し
て、パイプ16内に出口16b側に向かう高速気
流を発生させ、かつ、前記パイプ16の出口16
bを、後退停止位置にある紐供給用ニードル14
の先端の紐通し孔14aに臨ませて設けてある結
束装置の紐通し機構。
[Scope of Claims] 1. The string supply path is constituted by a pipe 16 and a gas injection device 30 is provided, and the gas injection device 30 injects and supplies pressurized gas into the pipe 16 to create an outlet in the pipe 16. The string passing mechanism of the binding device is designed to generate a high-speed airflow toward the 16b side. 2. The string supply path is constituted by the pipe 16, and a gas injection device 30 is provided, and the gas injection device 30 injects and supplies pressurized gas into the pipe 16 to create a high-speed airflow inside the pipe 16 toward the outlet 16b side. and the outlet 16 of the pipe 16
b is the string supply needle 14 in the backward stop position.
The string passing mechanism of the binding device is provided facing the string passing hole 14a at the tip of the tying device.
JP15996787A 1987-06-26 1987-06-26 Stabbing mechanism of bundling device Granted JPS6322319A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15996787A JPS6322319A (en) 1987-06-26 1987-06-26 Stabbing mechanism of bundling device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15996787A JPS6322319A (en) 1987-06-26 1987-06-26 Stabbing mechanism of bundling device

Publications (2)

Publication Number Publication Date
JPS6322319A JPS6322319A (en) 1988-01-29
JPH0318843B2 true JPH0318843B2 (en) 1991-03-13

Family

ID=15705083

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15996787A Granted JPS6322319A (en) 1987-06-26 1987-06-26 Stabbing mechanism of bundling device

Country Status (1)

Country Link
JP (1) JPS6322319A (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0713793B2 (en) * 1990-03-20 1995-02-15 ヤマハ株式会社 Musical sound generator

Also Published As

Publication number Publication date
JPS6322319A (en) 1988-01-29

Similar Documents

Publication Publication Date Title
US20030057248A1 (en) Automatic washer feeder for automatic nailer
US11337410B2 (en) Fish hook apparatus
EP0035368A1 (en) Flexible ties
JPH0226924B2 (en)
JPH0318843B2 (en)
US5374034A (en) Apparatus for installing a line through conduits
JPH0468203B2 (en)
EP2695514B1 (en) A combination of a tag application device and a cartridge
US7240382B2 (en) Method and tool for securing together two or more layers of a mattress using a plastic fastener
US3385619A (en) Fly line and method and means for joining a leader thereto
JPH049286Y2 (en)
JPS58500246A (en) automatic knot gun
JPH0343308A (en) String through device for banding device
JPH036045B2 (en)
JPH0629935Y2 (en) Strapping device for binding machine
JPH049287Y2 (en)
US2795074A (en) Pull-actuated trap-hook
KR20010002177A (en) A fish-hook and its binding method
JPS63163127U (en)
JPH0117987Y2 (en)
KR100398051B1 (en) Fishing gear
JPH0440437Y2 (en)
JPH06183408A (en) Strapping device for binding device
JPS61127413A (en) Binding device for agricultural machinery
KR930002298B1 (en) Strap-through mechanism of binding device