CN-118047194-B - Material conveying system

Abstract

A material conveying system comprises conveying equipment, a stock bin slope, two induction units, a rotary material stirring device and a control unit. The conveying surface of the conveying apparatus moves the wire product from the front end to the rear end of the conveying apparatus. The feed bin slope is located one side of conveying equipment and connects the conveying face. The sensing units are sequentially arranged and are used for sensing wire rod products on the conveying surface. The rotary sizing device is located on the side of the conveying apparatus to deliver wire product to one of a bin ramp and a rear end of the conveying apparatus. The control unit is used for operating the rotary stirring device according to the induction of the induction unit. Through above framework, material piece conveying system can guide wire rod product smoothly to the rear end of conveying equipment to push away the poor wire rod product of gesture from the conveying face smoothly when the card material, thereby avoid the disorder of transfer chain and improve conveying efficiency.

Inventors

• Hong Jiaquan

Assignees

• 和硕联合科技股份有限公司

Dates

Publication Date

20260512

Application Date

20221110

Claims (10)

1. 1. A workpiece transport system for transporting at least one wire product, the workpiece transport system comprising: A conveying apparatus comprising a conveying surface for moving the wire product from a front end of the conveying apparatus to a rear end of the conveying apparatus; The storage bin slope is positioned at one side of the conveying equipment and is connected with the conveying surface; the first sensing unit is positioned on the conveying surface and is used for sensing the wire rod products on the conveying surface; a second sensing unit located on the conveying surface for sensing the wire product on the conveying surface, the second sensing unit being closer to the rear end of the conveying apparatus than the first sensing unit; A rotary pusher located at the side of the conveying device for feeding the wire product to one of the bin ramp and the rear end of the conveying device, and The control unit is electrically connected with the first sensing unit, the second sensing unit and the rotary stirring device, When the first induction unit senses the wire rod product, the control unit controls the rotary stirring device to send the wire rod product to the rear end of the conveying equipment, and after waiting for a specific time interval, if the second induction unit does not sense the wire rod product, the control unit controls the rotary stirring device to send the wire rod product to the stock bin slope.
2. 2. The material conveying system as claimed in claim 1, wherein the rotary index comprises: A roller unit arranged adjacent to the conveying surface for rotating and stirring the wire rod product on the conveying surface, and And the motor unit is coaxially connected with the roller unit and used for driving the roller unit to rotate positively and reversely.
3. 3. The workpiece conveying system of claim 2, wherein when the first sensing unit senses the wire product, the control unit is triggered to drive the motor unit so that the drum unit rotates forward and sends the wire product to the rear end of the conveying apparatus, and after waiting for the specific time interval, if the second sensing unit does not sense the wire product, the control unit is triggered to drive the motor unit so that the drum unit rotates backward and sends the wire product to the bin slope.
4. 4. The material conveying system as claimed in claim 2, wherein the drum unit has a concave-convex structure formed at an outer circumferential surface thereof.
5. 5. The material conveying system as claimed in claim 1, wherein the conveying apparatus further comprises: and a narrowing side plate which is arranged between the front end and the rear end of the conveying equipment and obliquely extends from one side of the conveying surface to the other side of the conveying surface, so as to narrow the moving space of the wire product on the conveying surface.
6. 6. The workpiece transport system of claim 1, further comprising: The pushing device is positioned on the other side of the conveying equipment and is configured relative to the stock bin slope and used for pushing the wire rod products from the conveying surface to the stock bin slope.
7. 7. The workpiece transport system of claim 6, wherein said pushing device comprises: A track; A linkage arm slidably positioned on the track; a power part for driving the linkage arm to extend to the stock bin slope, and The pushing brush is positioned on the end face of the linkage arm extending to the slope of the stock bin and used for pushing the wire rod product.
8. 8. The workpiece transport system of claim 7, wherein the pusher brush comprises: a body comprising a front face facing the silo ramp and a side face adjacent the front face, and The soft bristles are inserted into the side surfaces at intervals.
9. 9. The workpiece conveying system of claim 6, wherein the control unit controls the pusher to push toward the bin ramp after the control unit controls the rotary pusher to deliver the wire product to the bin ramp.
10. 10. The workpiece conveying system of claim 9, wherein the control unit controls the pushing device to be pushed toward the bin slope at regular intervals.

Description

Material conveying system Technical Field The present invention relates to a conveying system, and more particularly, to a material conveying system. Background Typically, the completed products of signal transmission wires (e.g., network transmission wires) are bundled into an approximately 8-shaped configuration and fed individually to the dispensing inlet via a conveyor belt. However, when the signal transmission wire is in a poor posture, jamming is often generated at the delivery inlet, and the jamming cannot smoothly enter the delivery inlet, so that the conveying line is disturbed and the conveying efficiency is reduced. Disclosure of Invention It is therefore an object of the present invention to provide a workpiece conveying system that overcomes the above-mentioned difficulties. The invention provides a material conveying system. The material conveying system is used for conveying at least one wire product. The material piece conveying system comprises conveying equipment, a stock bin slope, a first sensing unit, a second sensing unit and a rotary material stirring device. The conveying apparatus includes a conveying surface for moving the wire product from the front end of the conveying apparatus to the rear end of the conveying apparatus. The feed bin slope is located one side of conveying equipment, and connects the conveying face. The first sensing unit is located on the conveying surface and is used for sensing wire rod products on the conveying surface. The second sensing unit is positioned on the conveying surface and is used for sensing wire rod products on the conveying surface. The second sensing unit is closer to the rear end of the conveying device than the first sensing unit. The rotary stirring device is positioned at the side of the conveying equipment and is used for conveying wire rod products to one of a stock bin slope and the rear end of the conveying equipment. The control unit is electrically connected with the first sensing unit, the second sensing unit and the rotary stirring device. When the first induction unit senses the wire rod product, the control unit controls the rotary stirring device to send the wire rod product to the rear end of the conveying equipment, and after waiting for a specific time interval, if the second induction unit does not sense the wire rod product, the control unit controls the rotary stirring device to send the wire rod product to a stock bin slope. According to one or more embodiments of the present invention, in the above-mentioned material conveying system, the rotary type material stirring device includes a roller unit and a motor unit. The roller unit is arranged close to the conveying surface and is used for rotationally stirring the wire rod products on the conveying surface. The motor unit is coaxially connected with the roller unit and is used for driving the roller unit to rotate positively and reversely. According to one or more embodiments of the present invention, in the above-mentioned material conveying system, when the first sensing unit senses the wire product, the control unit is triggered to drive the motor unit, so that the drum unit rotates forward and sends the wire product to the rear end of the conveying device, and after waiting for a specific time interval, if the second sensing unit does not sense the wire product, the control unit is triggered to drive the motor unit, so that the drum unit rotates reversely and sends the wire product to the stock slope. According to one or more embodiments of the present invention, in the above material conveying system, the roller unit has a concave-convex structure. The concave-convex structure is formed on the outer peripheral surface of the roller unit. In accordance with one or more embodiments of the present invention, in the material conveying system, the conveying apparatus further includes a narrowing side plate. The narrowing side plate is arranged between the front end and the rear end of the conveying equipment, obliquely extends from one side of the conveying surface to the other side of the conveying surface and is used for narrowing the moving space of the wire product on the conveying surface. According to one or more embodiments of the present invention, the material conveying system further includes a pushing device. The pushing device is located on the other side of the conveying equipment and is arranged opposite to the stock slope and used for pushing the wire rod products from the conveying surface to the stock slope. According to one or more embodiments of the present invention, in the above-mentioned material conveying system, the pushing device includes a rail, a linkage arm, a power member and a pushing brush. The linkage arm is slidably positioned on the track. The power piece is used for driving the linkage arm to extend to the stock bin slope. The pushing brush is positioned on the end face of the linkage arm extending to the slope of the stock bin and is