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JPS644942B2 - - Google Patents
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JPS644942B2 - - Google Patents

Info

Publication number
JPS644942B2
JPS644942B2 JP12167683A JP12167683A JPS644942B2 JP S644942 B2 JPS644942 B2 JP S644942B2 JP 12167683 A JP12167683 A JP 12167683A JP 12167683 A JP12167683 A JP 12167683A JP S644942 B2 JPS644942 B2 JP S644942B2
Authority
JP
Japan
Prior art keywords
powder
plate
shaped
mountain
chamber box
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
JP12167683A
Other languages
Japanese (ja)
Other versions
JPS6015234A (en
Inventor
Masaki Hori
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.)
JIDOSHA SEIKO KK
Original Assignee
JIDOSHA SEIKO KK
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 JIDOSHA SEIKO KK filed Critical JIDOSHA SEIKO KK
Priority to JP12167683A priority Critical patent/JPS6015234A/en
Publication of JPS6015234A publication Critical patent/JPS6015234A/en
Publication of JPS644942B2 publication Critical patent/JPS644942B2/ja
Granted legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P1/00Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
    • B60P1/40Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading using screw conveyors thereon
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P1/00Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
    • B60P1/56Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading the load-transporting element having bottom discharging openings

Landscapes

  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)
  • Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)

Description

【発明の詳細な説明】 産業上の利用分野 本発明は粉粒体運搬車の粉粒体流下制御装置に
係るものであつて、粉粒体運搬車に区画して積載
した異種の飼料等の粉粒体を、スクリユコンベ
ヤ、にて移送中に混配合して搬出させることを目
的とするものである。
[Detailed Description of the Invention] Industrial Application Field The present invention relates to a powder flow control device for a powder transport vehicle, and the present invention relates to a powder flow control device for a powder transport vehicle, and the invention relates to a powder flow control device for a powder transport vehicle. The purpose of this system is to mix and mix powder and granular materials while they are being transported on a screw conveyor and then transport the mixture.

従来の技術 一般に、家畜用配合飼料は、飼料工場で混合し
たものを飼料運搬車で需要家へ配達するか、需要
家が目的に応じて所謂自家配合することが行なわ
れている。前者にあつては、需要者が自家で飼育
中の家畜に最適の飼料を形成する事ができず、ま
た自家配合は手作業で行なわれている為に、時
間、労力の無駄を生じる欠点を有していた。
BACKGROUND OF THE INVENTION In general, compound feed for livestock is mixed at a feed factory and delivered to a consumer using a feed truck, or the consumer mixes the feed in-house according to the purpose. In the case of the former, the consumer cannot formulate the optimal feed for the livestock they are raising on their own, and the in-house mixing is done by hand, which has the disadvantage of wasting time and labor. had.

発明が解決しようとする問題点 本発明は上述のごとき問題点を解決しようとす
るものであつて、従来手作業で行なわれていた飼
料の混合を、需要者の好みに応じて、粉粒体運搬
車の中で行ない、手数を要する事がなく簡易に最
適な自家配合を可能にしようとするものである。
Problems to be Solved by the Invention The present invention attempts to solve the above-mentioned problems. This is done in a transport vehicle and is intended to make it possible to easily and easily create the optimal in-house blend without requiring any time and effort.

問題点を解決するための手段 本発明は上述のごとき問題点を解決するため、
粉粒体装入室箱の下部に、逆八字型の下部両側傾
斜板と、この下部両側傾斜板の長さ方向の両端を
閉止連結する前後鏡板とにより、運搬車に固定さ
れる底部粉粒体排出室箱を形成し、この底部粉粒
体排出室箱の下底の長さ方向に、移送および混合
用の底部スクリユコンベヤを形成し、この底部ス
クリユコンベヤに流下した粉粒体を排出口まで混
合移送する粉粒体流下制御機構に於いて、底部ス
クリユコンベヤの上面に臨ませて山形の山形状ダ
ンパープレートを、両端を前後鏡板に摺動自在に
接続して設け、この山形状ダンパープレートを、
底部粉粒体排出室箱の外部に設けた操作杆に連杆
を介して接続することにより、外部からの操作で
上下動可能とし、底部粉粒体排出室箱の上部と底
部スクリユコンベヤとの連通を、常時は遮断する
とともに上昇時には下部両側傾斜板との間に粉粒
体の流通路を形成し、この山形状ダンパープレー
トの上部を、山形状ダンパープレートの上下動距
離を介して山形状傾斜制御板にて被覆し、この山
形状傾斜制御板の上部に仕切り板を位置すること
により、粉粒体装入室箱を、山形状傾斜制御板の
上部で、2つの粉粒体の装入室に区画して成るも
のである。
Means for Solving the Problems The present invention solves the above problems by:
At the bottom of the powder charging chamber box, there is an inverted 8-shaped lower sloped plate on both sides, and a front and rear mirror plate that connects both ends of the lower sloped plate in the longitudinal direction to close and connect the bottom part of the powder charging chamber to the transport vehicle. A bottom screw conveyor for transporting and mixing is formed in the length direction of the lower bottom of this bottom powder discharge chamber box, and the powder and granules flowing down to this bottom screw conveyor are In the powder flow control mechanism that mixes and transports powder and granules to the discharge port, a chevron-shaped damper plate is provided facing the top surface of the bottom screw conveyor, and both ends are slidably connected to the front and rear mirror plates. shape damper plate,
By connecting the bottom particulate matter discharge chamber box with an operating rod provided outside the box via a connecting rod, it can be moved up and down by external operation, and the upper part of the bottom particulate matter discharge chamber box and the bottom screw conveyor can be moved up and down by external operation. At the same time as normally blocking the communication between the two sides of the ridge-shaped damper plate, a flow path for powder and granular material is formed between the lower and both side inclined plates when rising, and the upper part of the ridge-shaped damper plate is connected to the ridge through the vertical movement distance of the ridge-shaped damper plate. By covering the powder with a slope control plate and placing a partition plate above the slope control plate, the powder charging chamber box can be separated between two powders at the top of the slope control plate. It is divided into charging chambers.

作 用 本発明は上述のごとく構成したものであるか
ら、粉粒体運搬車の粉粒体装入室箱内は、その長
手方向に設けた上下方向の仕切り板にて、異種の
粉粒体を充填するための2個の装入室に区画さ
れ、この2個の装入室に、異種の飼料である粉粒
体を充填すれば、仕切り板の下側に設けられた、
山形状傾斜制御板の下端縁と、下部両側傾斜板と
の間を介して、山形状ダンパープレートの上面に
粉粒体が落下する。次に粉粒体装入室箱の外部に
位置する操作杆を操作し、山形状ダンパープレー
トを上昇させれば、下部両側傾斜板との間に、粉
粒体の排出間隔が形成され、底部スクリユコンベ
ヤ内に落下排出され、この底部スクリユコンベヤ
内にて、2種の異なる粉粒体が混合されて目的の
排出口まで移送される。
Function Since the present invention is constructed as described above, the inside of the powder/granular material charging chamber box of the powder/granular material transport vehicle is separated by vertical partition plates provided in the longitudinal direction of the powder/granular material transport vehicle. The two charging chambers are divided into two charging chambers for filling with different types of feed, and when the powder and granules of different types of feed are filled, the
Powder falls onto the upper surface of the chevron-shaped damper plate via between the lower edge of the chevron-shaped tilt control plate and the lower both-side tilted plates. Next, by operating the operating rod located outside the powder charging chamber box and raising the chevron-shaped damper plate, a gap for discharging the powder and the granular material is formed between it and the bottom sloped plate on both sides. The powder is discharged by falling into a screw conveyor, and two different types of powder and granular materials are mixed in the bottom screw conveyor and transported to a target discharge port.

そしてこの2種の粉粒体の配合比率は、種々の
条件を組み合わせて決定することができる。例え
ば、一方の装入室にトウモロコシ粒等の粘度の低
い飼料を充填し、他方の装入室に大豆粉等の粘度
の高い飼料を充填して、これらを混合する場合に
は、山形状傾斜制御板と下部両側傾斜板との間隔
が同一で有れば、単位時間当たりの流量の多いト
ウモロコシが多く配合されるものとなる。また、
このトウモロコシ粒等の粘度の低い飼料と、大豆
粉等の粘度の高い飼料の、混合飼料の配合比率を
同一とするのであれば、山形状傾斜制御板と下部
両側傾斜板との間隔を、粘度の低い方を小さく、
粘度の高い方を大きく形成すれば良く、またこの
間隔は、山形状傾斜制御板の長さを予め異なるも
のに形成しておいても良いし、異なる種々飼料を
混合しようとするのであれば、山形状傾斜制御板
に調節板等を接続し、これを進退することによ
り、任意に決定することができる。
The blending ratio of these two types of powder and granular materials can be determined by combining various conditions. For example, when filling one charging chamber with feed with low viscosity such as corn grains and filling the other charging chamber with feed with high viscosity such as soybean flour, and mixing them, it is necessary to If the distance between the control plate and the lower both side inclined plates is the same, a large amount of corn with a high flow rate per unit time will be blended. Also,
If the blending ratio of the mixed feed is the same between feed with low viscosity such as corn grains and feed with high viscosity such as soybean flour, the distance between the mountain-shaped slope control plate and the lower both sides slope plate should be Decrease the lower one of
The one with higher viscosity should be made larger, and the length of the mountain-shaped slope control plate may be made different in advance. By connecting an adjustment plate or the like to the mountain-shaped inclination control plate and moving it forward or backward, it is possible to arbitrarily determine the angle.

実施例 以下本発明の一実施例を図面に於いて説明すれ
ば、長手方向に平行して直立した上部両側板11
2にて、第1図に於いて前後方向に長い上下開
放の直筒箱状の粉粒体装入室箱2を形成し、この
粉粒体装入室箱2の下部3に接続し、逆八字型に
設けた下部両側傾斜板41,42にて、断面漏斗状
の底部粉粒体排出室箱5を構成し、この底部粉粒
体排出室箱5と上部粉粒体装入室箱2の前後を、
鏡板61,62にて封塞するとともに鏡板61,62
の間隔を、横向き仕切り板45,46にて分割す
ることにより、荷箱本体7を形成し、粉粒体の収
納を可能にするとともに運搬車13に積載可能と
している。そして、底部粉粒体排出室箱5の下底
部長さ方向に、底部スクリユコンベヤ10を設置
し、この底部スクリユコンベヤ10を、直立およ
び上部スクリユコンベヤ11,12に接続し、排
出口まで粉粒体を混合しながら、移送し得るもの
としている。また、底部スクリユコンベヤ10の
上面に臨ませて、山形の山形状ダンパープレート
9を位置し、この山形状ダンパープレート9の両
端を、前後鏡板61,62に固定形成したガイドレ
ール等に、摺動自在に接続して設け、この山形状
ダンパープレート9を、底部粉粒体排出室箱5の
外部に設けた操作杆8に、上端の突縁42、枢軸
40、連杆43を介して接続することにより、外
部からの操作で枢軸41を支点として、山形状ダ
ンパープレート9を上下動可能とし、底部粉粒体
排出室箱5の上部と、底部スクリユコンベヤ10
との連通を、常時は遮断するとともに山形状ダン
パープレート9の上昇時には、下部両側傾斜板4
,42との間に粉粒体の流通路を形成する。この
山形状ダンパープレート9の上部を、山形状ダン
パープレート9の上下動距離を介して山形状傾斜
制御板16にて被覆し、この山形状傾斜制御板1
6の下端縁17と下部両側傾斜板41,42との間
隔に、粉粒体の流通口を形成している。また山形
状傾斜制御板16の上部に、仕切り板14の下側
縁を固定位置することにより、粉粒体装入室箱2
を、山形状傾斜制御板16の上部で、2つの粉粒
体の装入室15に区画している。
Embodiment An embodiment of the present invention will be described below with reference to the drawings .
1 2 , form a powder charging chamber box 2 in the shape of a straight cylindrical box with an open top and bottom that is long in the front and rear direction in the front and back direction in FIG. 1, and connect it to the lower part 3 of this powder charging chamber box 2 The lower side inclined plates 4 1 and 4 2 provided in an inverted eight shape form a bottom particulate material discharge chamber box 5 having a funnel-shaped cross section, and this bottom particulate material discharge chamber box 5 and the upper part particulate material charging The front and rear of chamber box 2,
While sealing with the end plates 6 1 and 6 2 , the end plates 6 1 and 6 2
By dividing the space between them by horizontal partition plates 45 and 46, a cargo box main body 7 is formed, which enables storage of powder and granular material and also makes it possible to load it onto the transport vehicle 13. Then, a bottom screw conveyor 10 is installed in the length direction of the lower bottom of the bottom particulate matter discharge chamber box 5, and this bottom screw conveyor 10 is connected to the upright and top screw conveyors 11 and 12, and the discharge port The granular material can be transferred while being mixed up to the point where it is mixed. In addition, a chevron-shaped damper plate 9 is positioned facing the top surface of the bottom screw conveyor 10, and both ends of the chevron-shaped damper plate 9 are attached to guide rails or the like fixedly formed on the front and rear mirror plates 6 1 and 6 2 . This mountain-shaped damper plate 9 is connected to an operating rod 8 provided outside the bottom particulate matter discharge chamber box 5 via a ridge 42 at the upper end, a pivot 40, and a connecting rod 43. By connecting them, the mountain-shaped damper plate 9 can be moved up and down using the pivot 41 as a fulcrum by external operation, and the upper part of the bottom particulate matter discharge chamber box 5 and the bottom part screw conveyor 10 can be moved up and down.
When the chevron-shaped damper plate 9 is raised, the lower both side inclined plates 4
1 , 4 and 2 to form a flow path for the powder and granular material. The upper part of this chevron-shaped damper plate 9 is covered with a chevron-shaped tilt control plate 16 via the vertical movement distance of the chevron-shaped damper plate 9, and this chevron-shaped tilt control plate 1
A flow port for the powder and granular material is formed in the interval between the lower end edge 17 of 6 and the lower both side inclined plates 4 1 and 4 2 . In addition, by fixing the lower edge of the partition plate 14 to the upper part of the mountain-shaped inclined control plate 16, the powder charging chamber box 2
is divided into two charging chambers 15 for powder and granular material at the upper part of the mountain-shaped inclined control plate 16.

上述のごとく構成したものに於いて、粉粒体運
搬車13の粉粒体装入室箱2内は、その長手方向
に設けた上下方向の仕切り板14にて、異種の粉
粒体を充填するための2個の装入室15に区画さ
れ、この2個の装入室15に、異種の飼料である
粉粒体を充填すれば、仕切り板14の下側に設け
られた山形状傾斜制御板16の下端縁17と、下
部両側傾斜板41,42との間を介して、山形状ダ
ンパープレート9の上面に粉粒体が落下する。次
に、粉粒体装入室箱2の外部に位置する操作杆8
を操作し、山形状ダンパープレート9を上昇させ
れば、下部両側傾斜板41,42との間に、粉粒体
の排出間隔が形成され、底部スクリユコンベヤ1
0内に、異種の飼料が同時に落下排出され、この
底部スクリユコンベヤ10内にて、2種の異なる
粉粒体は混合されて目的の排出口まで移送され
る。そしてこの2種の粉粒体の配合比率は、種々
の条件を組み合わせて決定することができる。例
えば一方の装入室15にトウモロコシ粒等の粘度
の低い飼料を充填し、他方の装入室15に大豆粉
等の粘度の高い飼料を充填して、これらを混合す
る場合には、山形状傾斜制御板16の下端縁17
と下部両側傾斜板41,42との間隔が、一方およ
び他方の装入室15共に同一で有れば、単位時間
当たりの流量の多いトウモロコシが多く配合され
るものとなる。また、その混合飼料の配合比率を
同一とするのであれば、山形状傾斜制御板16と
下部両側傾斜板41,42との間隔を、一方および
他方の装入室15で異なるものとし、粘度の低い
方を小さく、粘度の高い方を大きく形成すれば良
い。また底部スクリユコンベヤ10は、巻き込み
方向に位置する粉粒体を多く取り込むから、図面
に於いて底部スクリユコンベヤ10が右回転する
ものであれば、右側に位置する飼料を、左側に位
置する飼料よりも多く取り込むから、この点も考
慮して配合比率を決定する必要がある。
In the configuration as described above, the inside of the powder charging chamber box 2 of the powder transport vehicle 13 is filled with different types of powder and granules using the vertical partition plate 14 provided in the longitudinal direction. The two charging chambers 15 are divided into two charging chambers 15 for feeding, and when these two charging chambers 15 are filled with granular material, which is a different kind of feed, the mountain-shaped slope provided on the lower side of the partition plate 14 is divided into two charging chambers 15. Particles fall onto the upper surface of the mountain-shaped damper plate 9 through the space between the lower end edge 17 of the control plate 16 and the lower side inclined plates 4 1 and 4 2 . Next, the operating rod 8 located outside the powder/granular material charging chamber box 2
When the chevron-shaped damper plate 9 is raised, a powder discharge interval is formed between the lower side inclined plates 4 1 and 4 2 and the bottom screw conveyor 1 is raised.
In the bottom screw conveyor 10, different types of feed are simultaneously dropped and discharged, and in this bottom screw conveyor 10, the two different types of powder and granular materials are mixed and transported to the target discharge port. The blending ratio of these two types of powder and granular materials can be determined by combining various conditions. For example, when one charging chamber 15 is filled with feed with low viscosity such as corn grains, and the other charging chamber 15 is filled with feed with high viscosity such as soybean flour, and these are mixed, the shape is Lower edge 17 of tilt control plate 16
If the distance between the charging chamber 15 and the lower side inclined plates 4 1 and 4 2 is the same in both charging chambers 15, a large amount of corn having a high flow rate per unit time will be blended. In addition, if the blending ratio of the mixed feed is to be the same, the interval between the mountain-shaped inclined control plate 16 and the lower both side inclined plates 4 1 and 4 2 should be different between one and the other charging chamber 15, The one with lower viscosity may be made smaller, and the one with higher viscosity may be made larger. Furthermore, since the bottom screw conveyor 10 takes in a large amount of powder and granules located in the winding direction, if the bottom screw conveyor 10 rotates clockwise in the drawing, the feed located on the right side will be transferred to the left side. Since it takes in more than feed, it is necessary to take this point into consideration when determining the blending ratio.

またこの粉粒体の排出間隔は、上記実施例に於
いては同一とするか、山形状傾斜制御板16の長
さを異なるものに形成しておく事により形成する
が、他の異なる実施例に於いては、第5図に示す
ごとく、山形状傾斜制御板16に調節板37を接
続し、これを進退することにより、排出間隔を任
意に決定することができる。この山形状傾斜制御
板16に調節板37を、進退可能に接続するに
は、調節板37の進退方向に長穴38を形成し、
この長穴38を介してボルト・ナツト39によ
り、調節板37と山形状傾斜制御板16とを接続
することにより行なうものである。
In addition, the discharge interval of the powder or granular material may be the same in the above embodiment or may be formed by forming the length of the mountain-shaped inclined control plate 16 to be different. In this case, as shown in FIG. 5, an adjustment plate 37 is connected to the mountain-shaped inclined control plate 16, and by moving the adjustment plate 37 forward and backward, the discharge interval can be arbitrarily determined. In order to connect the adjusting plate 37 to the mountain-shaped inclined control plate 16 so as to be able to move forward and backward, a long hole 38 is formed in the forward and backward direction of the adjusting plate 37.
This is done by connecting the adjustment plate 37 and the mountain-shaped inclination control plate 16 with bolts and nuts 39 through the elongated holes 38.

発明の効果 本発明は上述のごとく構成したものであるか
ら、従来手作業で行なわれていた飼料の混合を、
需要者の好みに応じて、粉粒体運搬車の中で行な
い、手数を要する事なく簡易に最適な自家配合を
可能にする。またこの自家配合も、2個の装入室
に、異種の飼料である粉粒体を充填すれば、仕切
り板の下側に設けられた、山形状傾斜制御板の下
端縁と、下部両側傾斜板との間を介して、山形状
ダンパープレートの上面に粉粒体が落下するか
ら、粉粒体装入室の外部に位置する操作杆を操作
し、山形状ダンパープレートを上昇させるのみ
で、下部両側傾斜板との間に、粉粒体の排出間隔
が形成され、底部スクリユコンベヤ内に落下排出
され、この底部スクリユコンベヤ内にて、2種の
異なる粉粒体が混合されて目的の排出口まで移送
されるものであり、極めて簡易な自家配合を可能
とするものである。
Effects of the Invention Since the present invention is configured as described above, mixing of feed, which was conventionally done manually, can be done easily.
According to the user's preference, it is possible to easily and easily create the optimal in-house blending process in a powder or granule transport vehicle without requiring any trouble. In addition, with this self-mixing method, if the two charging chambers are filled with powder and granular material of different types of feed, the lower edge of the chevron-shaped tilt control plate provided on the lower side of the partition plate and the lower side slopes of both sides of the lower part The powder and granules fall onto the top surface of the chevron-shaped damper plate through the space between the plate and the chevron-shaped damper plate, so simply operate the operating lever located outside the powder-grain material charging chamber and raise the chevron-shaped damper plate. A discharge interval is formed between the lower side inclined plates, and the powder and granules are discharged falling into the bottom screw conveyor, where the two different types of powder and granules are mixed and delivered to the desired destination. It is transported to the discharge port of the container, allowing extremely simple in-house compounding.

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

図面は本発明の実施例を示すものであつて、第
1図は運搬車の側面図、第2図は第1図の―
線拡大断面図、第3図は粉粒体を充填した状態の
断面図、第4図は粉粒体の排出状態の断面図、第
5図は異なる実施例の断面図である。 2…粉粒体装入室、41,42…下部両側傾斜
板、5…底部粉粒体排出室箱、61,62…前後鏡
板、8…操作杆、9…山形状ダンパープレート、
10…底部スクリユコンベヤ、13…粉粒体運搬
車、14…仕切板、15…装入室、16…山形状
傾斜制御板、37…調節板、43…連杆。
The drawings show an embodiment of the present invention, in which Fig. 1 is a side view of a transport vehicle, and Fig. 2 is a side view of the transport vehicle.
FIG. 3 is a sectional view of a state filled with powder and granules, FIG. 4 is a sectional view of a state in which powder and granules are discharged, and FIG. 5 is a sectional view of a different embodiment. 2... Powder charging chamber, 4 1 , 4 2 ... Lower both side inclined plates, 5... Bottom powder discharge chamber box, 6 1 , 6 2 ... Front and rear mirror plates, 8... Operating rod, 9... Mountain-shaped damper plate ,
DESCRIPTION OF SYMBOLS 10... Bottom screw conveyor, 13... Powder carrier, 14... Partition plate, 15... Charging chamber, 16... Mountain-shaped inclination control plate, 37... Adjustment plate, 43... Continuous rod.

Claims (1)

【特許請求の範囲】 1 粉粒体装入室箱の下部に、逆八字型の下部両
側傾斜板と、この下部両側傾斜板の長さ方向の両
端を閉止連結する前後鏡板とにより、粉粒体運搬
車に固定される底部粉粒体排出室箱を形成し、こ
の底部粉粒体排出室箱の下底の長さ方向に、移送
および混合用の底部スクリユコンベヤを形成し、
この底部スクリユコンベヤに流下した粉粒体を排
出口まで混合移送する粉粒体流下制御機構に於い
て、底部スクリユコンベヤの上面に臨ませて山形
の山形状ダンパープレートを、両端を前後鏡板に
摺動自在に接続して設け、この山形状ダンパープ
レートを、底部粉粒体排出室箱の外部に設けた操
作杆に連杆を介して接続することにより、外部か
らの操作で上下動可能とし、底部粉粒体排出室箱
の上部と底部スクリユコンベヤとの連通を、常時
は遮断するとともに上昇時には下部両側傾斜板と
の間に粉粒体の流通路を形成し、この山形状ダン
パープレートの上部を、山形状ダンパープレート
の上下動距離を介して山形状傾斜制御板にて被覆
し、この山形状傾斜制御板の上部に仕切り板を位
置することにより、粉粒体装入室箱を、山形状傾
斜制御板の上部で、2つの粉粒体の装入室に区画
したものであることを特徴とする粉粒体運搬車の
粉粒体流下制御装置。 2 山形状傾斜制御板には、調節板を進退可能に
固定したものであることを特徴とする特許請求の
範囲第1項記載の粉粒体運搬車の粉粒体流下制御
装置。
[Scope of Claims] 1. At the bottom of the powder and granule material charging chamber box, there is an inverted eight-shaped lower side inclined plate, and front and rear mirror plates that close and connect both ends of the lower both side inclined plate in a closed manner. forming a bottom particulate matter discharge chamber box fixed to the body transport vehicle, and forming a bottom screw conveyor for transfer and mixing in the length direction of the bottom of the bottom particulate matter discharge chamber box;
In the powder and granule flow control mechanism that mixes and transfers the powder and granules that have flowed down to the bottom screw conveyor to the discharge port, a chevron-shaped damper plate is placed facing the top surface of the bottom screw conveyor, and a front and rear mirror plate is attached at both ends. This chevron-shaped damper plate is connected via a connecting rod to an operating rod provided outside the bottom particulate material discharge chamber box, so that it can be moved up and down by external operation. This chevron-shaped damper blocks the communication between the top of the bottom particulate matter discharge chamber box and the bottom screw conveyor at all times, and forms a particulate material flow path between the bottom sloped plates on both sides when rising. The upper part of the plate is covered with a mountain-shaped tilt control plate through the vertical movement distance of the mountain-shaped damper plate, and a partition plate is placed above the mountain-shaped tilt control plate, thereby creating a powder charging chamber box. A powder and granular material flow control device for a powder and granular material transport vehicle, characterized in that the above is divided into two powder and granular material charging chambers at the upper part of a mountain-shaped inclined control plate. 2. The powder and granular material flow control device for a powder and granular material transport vehicle as set forth in claim 1, wherein an adjustment plate is fixed to the mountain-shaped inclined control plate so as to be movable forward and backward.
JP12167683A 1983-07-06 1983-07-06 Truck of powdered or granular article such as fodder making different kinds of powdered or granular articles carry out by mixing and harmonizing them Granted JPS6015234A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP12167683A JPS6015234A (en) 1983-07-06 1983-07-06 Truck of powdered or granular article such as fodder making different kinds of powdered or granular articles carry out by mixing and harmonizing them

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP12167683A JPS6015234A (en) 1983-07-06 1983-07-06 Truck of powdered or granular article such as fodder making different kinds of powdered or granular articles carry out by mixing and harmonizing them

Publications (2)

Publication Number Publication Date
JPS6015234A JPS6015234A (en) 1985-01-25
JPS644942B2 true JPS644942B2 (en) 1989-01-27

Family

ID=14817121

Family Applications (1)

Application Number Title Priority Date Filing Date
JP12167683A Granted JPS6015234A (en) 1983-07-06 1983-07-06 Truck of powdered or granular article such as fodder making different kinds of powdered or granular articles carry out by mixing and harmonizing them

Country Status (1)

Country Link
JP (1) JPS6015234A (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0431032U (en) * 1990-07-07 1992-03-12
FR2701936B1 (en) * 1993-02-26 1996-08-02 Sibequip Sa Unloading system for a tank or a tank compartment containing powdery or granular products.
JP6426515B2 (en) * 2015-03-26 2018-11-21 東日本旅客鉄道株式会社 Crushed stone transport spreader

Also Published As

Publication number Publication date
JPS6015234A (en) 1985-01-25

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