阅读说明：本技术 流水线线体间物料掉落自动检测组件 (Automatic detection assembly for material falling between production line bodies ) 是由 不公告发明人 于 2019-10-25 设计创作，主要内容包括：本发明公开了流水线线体间物料掉落自动检测组件,具体涉及自动化设计,尤其是用于流水线线体与线体之间的物料掉落自动检测组件。包括落料传送带、三角规位卡标、红外对管发射端模组、红外对管接收端模组、处理器。本发明的有益效果是,防止物料掉落到地面,并能检测是否有落料。(The invention discloses an automatic detection assembly for material falling between assembly line bodies, particularly relates to an automatic design, and is particularly used for the automatic detection assembly for material falling between the assembly line bodies. The device comprises a blanking conveying belt, a triangular gauge clamp, an infrared geminate transistor transmitting end module, an infrared geminate transistor receiving end module and a processor. The invention has the advantages of preventing the material from falling to the ground and detecting whether blanking exists.)

1. Automatic checkout subassembly that material dropped between assembly line body, its characterized in that:

the device comprises a blanking conveying belt, a triangular gauge clamp label, an infrared geminate transistor transmitting end module, an infrared geminate transistor receiving end module and a processor;

the blanking conveyor belt is used for conveying the falling materials to the detection end;

the triangular gauge position clamping mark is arranged on the conveyor belt frame body through a structural part and is close to the tail end of the conveyor belt;

the infrared geminate transistor transmitting end module and the infrared geminate transistor receiving end module are fixed above the tail section of the conveyor belt through a structural part, and are arranged in the direction of the conveyor belt and behind the triangular gauge clamping mark;

the infrared pair tube transmitting end module is used for transmitting infrared rays with specific wavelength;

the infrared pair tube receiving end module is used for receiving infrared rays with specific wavelengths reflected by the surface of the material;

the processor is used for amplifying signals received by the infrared receiving tube and feeding back the signals to external equipment, and the signals are fixed inside the infrared geminate transistor receiving end module through the structural part.

2. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the triangular gauge card marks are provided with a pair of triangular gauge card marks, and the oblique angle edges are provided with a row of idler wheels for correcting the advancing direction of the material so that the material only passes through the middle positions of the two card marks.

3. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the infrared geminate transistor transmitting end module and the infrared geminate transistor receiving end module are located on two sides of the middle position of the clamping mark, the middle position of the clamping mark forms an angular bisector, and the infrared geminate transistor transmitting end module and the infrared geminate transistor receiving end module are located on two sides of an angle respectively.

4. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the infrared transmitting tubes are uniformly distributed on the inner side surface of the infrared pair tube transmitting end module, and a detecting point matrix with the interval smaller than the width of the material is formed on the blanking conveying belt.

5. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the infrared receiving tubes are distributed at the corresponding positions on the surface of the inner side wall of the infrared geminate transistor receiving end module and are used for receiving infrared rays with specific wavelengths reflected by the surface of the material.

6. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the blanking conveying belt is used for conveying materials, is black and made of rubber, is rough in surface, and cannot reflect infrared rays to a specific direction.

7. The assembly line inline material drop automatic detection assembly of claim 1, wherein:

the processor is provided with an amplifying circuit for amplifying received infrared signals, and a CPU module for reading the output of the amplifying circuit through an I/O port and a printed circuit, reading high voltage and controlling a communication module on the processor to send corresponding signals to external equipment.

Technical Field

The invention discloses an automatic detection assembly for material falling between assembly line bodies, particularly relates to an automatic design, and is particularly used for the automatic detection assembly for material falling between the assembly line bodies.

Background

In the LCM process, because there are gap and transmission shaft radian between the assembly line body, the incident that leads to the material to drop often takes place, causes unnecessary waste, and the personnel of the assigned time watch then lost manpower resources greatly. We need just get corresponding check out test set to the blanking point, when the material drops, can prevent that the material from dropping to ground and causing the damage to inform the execution structure to acquire the material, put back the assembly line.

Disclosure of Invention

In order to solve the defects, the invention discloses an automatic detection assembly for material falling between production line bodies.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention discloses an automatic detection assembly for material falling between production line bodies, which is characterized in that: the device comprises a blanking conveying belt, a triangular gauge clamp label, an infrared geminate transistor transmitting end module, an infrared geminate transistor receiving end module and a processor; the blanking conveyor belt is used for conveying the falling materials to the detection end; the triangular gauge position clamping mark is arranged on the conveyor belt frame body through a structural part and is close to the tail end of the conveyor belt; the infrared geminate transistor transmitting end module and the infrared geminate transistor receiving end module are fixed above the tail section of the conveyor belt through a structural part, and are arranged in the direction of the conveyor belt and behind the triangular gauge clamping mark; the infrared pair tube transmitting end module is used for transmitting infrared rays with specific wavelength; the infrared pair tube receiving end module is used for receiving infrared rays with specific wavelengths reflected by the surface of the material; the processor is used for amplifying the signals received by the infrared receiving tube and feeding back the signals to external equipment.

The preferred of any above scheme is that the triangle gauge card mark has a pair, and the bevel edge has a row of gyro wheel for correct material advancing position, makes the material only pass from two card mark intermediate positions.

Preferably, in any of the above schemes, the infrared pair tube transmitting end module and the infrared pair tube receiving end module are located on two sides of a middle position of the card mark, the middle position of the card mark forms an angular bisector, and the infrared pair tube transmitting end module and the infrared pair tube receiving end module are located on two sides of the angle respectively.

In any of the above schemes, preferably, the infrared emission tubes are uniformly distributed on the inner side surface of the infrared emission tube emission end module, and a detection point matrix with an interval smaller than the width of the material is formed on the blanking conveying belt.

In any of the above schemes, preferably, the infrared receiving tubes are distributed on the inner side wall surface of the infrared pair tube receiving end module, and are used for receiving infrared rays with specific wavelengths reflected by the material surface.

Above any scheme preferred, the blanking conveyer belt is used for the conveying material, and black, rubber material, the surface is crude, can't be to specific direction reflection infrared ray.

The above scheme is preferred that the processor is provided with an amplifying circuit for amplifying the received infrared signal, the CPU module is provided, the output of the amplifying circuit is read through the I/O port and the printed circuit, after the high voltage is read, the communication module on the processor is controlled to send a corresponding signal to external equipment, and the communication module is fixed inside the infrared geminate transistor receiving end module through a structural member.

The invention has the advantages of preventing the material from falling to the ground and detecting whether blanking exists.

Drawings

FIG. 1 is a schematic view of an automatic material drop detection assembly between production lines;

FIG. 2 is a schematic view of an installation position of an automatic detecting component for material falling between production lines;

in fig. 1, a mark 1 is a blanking conveying belt, a mark 2 is a triangular gauge card mark, a mark 3 is an infrared geminate transistor transmitting end module, a mark 4 is an infrared geminate transistor receiving end module, and a mark 5 is a processor;

in fig. 2, reference numeral 101 denotes a flow line, and reference numeral 102 denotes a blanking conveyor.

Detailed Description

The invention will be described in detail with reference to the drawings and specific embodiments, which are illustrative of the invention and are not to be construed as limiting the invention.