CN-224211876-U - Automatic material distributing structure for automatic detector

Abstract

The utility model belongs to the technical field of material dividing devices, and provides an automatic material dividing structure for an automatic detector, which comprises a material dividing seat, a material dividing device and a material dividing device, wherein the material dividing seat comprises a first material channel and a second material channel which are arranged in layers, and the feeding ends of the first material channel and the second material channel are communicated and form a material receiving space; the material distributing plate is movably arranged on the first material channel and is provided with a first material distributing position and a second material distributing position. Through layering setting up first material way and second material way on dividing the material seat, make both feed ends intercommunication form unified receiving space, divide the flitch through the activity setting on first material way, realize the selective control to the material flow direction, when dividing the flitch in different positions, can guide the material to get into first material way or second material way respectively to realize automatic branch material function. The structure is flexible in operation, convenient to switch, simple in structure and low in manufacturing cost, improves the material distribution efficiency and the automation degree, and is suitable for material classification detection occasions in continuous production.

Inventors

• LI XIANGWEI
• CAI JIAYU
• ZHOU JUNJUN
• ZHOU JIANWEI

Assignees

• 宁波聚华光学科技有限公司

Dates

Publication Date

20260508

Application Date

20250529

Claims (10)

1. 1. An automatic feed structure for automated inspection machine, characterized by comprising: The material distribution seat comprises a first material channel and a second material channel which are arranged in a layered manner, and the feeding ends of the first material channel and the second material channel are communicated and form a material receiving space; The material distributing plate is movably arranged on the first material channel and is provided with a first material distributing position and a second material distributing position, When the material distributing plate is positioned at the first material distributing position, the material distributing plate is used for guiding materials into the first material channel and blocking the material receiving space from the second material channel; when the material separating plate is positioned at the second material separating position, the material separating plate is used for blocking the material receiving space from being communicated with the first material channel and enabling the material receiving space to be communicated with the second material channel.
2. 2. The automatic material distributing structure for automatic detecting machine according to claim 1, wherein a rotating shaft is rotatably arranged on the material distributing seat, one end of the material distributing plate is fixed on the rotating shaft, one side of the material distributing seat is provided with a first driving piece, and an output end of the first driving piece is connected with the rotating shaft through a connecting block and is used for driving the material distributing plate to switch between the first material distributing position and the second material distributing position.
3. 3. An automated dispensing structure for an automated inspection machine as set forth in claim 1 further comprising a first receiving magazine movably disposed on said dispensing base and in communication with said second channel.
4. 4. An automated material dispensing structure for an automated inspection machine according to claim 3, wherein the material dispensing base is provided with a receiving cavity and an opening in communication with the receiving cavity, the second material path is in communication with the receiving cavity, the material dispensing base further comprises a base, and the first material receiving box is movably disposed on the base and is accessible to the receiving cavity through the opening.
5. 5. The automatic distributing structure for an automatic detecting machine according to claim 4, wherein a sensor is arranged on the distributing seat, and an induction end of the sensor is arranged towards the first receiving box and is used for inducing whether the first receiving box is full or not.
6. 6. An automatic dispensing structure for an automatic inspection machine according to claim 1, wherein the dispensing base is provided with a dam plate, the dam plate being located above the first channel.
7. 7. The automated material handling structure for an automated inspection machine of claim 1, further comprising a receiving member disposed at the discharge end of the first chute for receiving material discharged from the first chute.
8. 8. The automated material handling structure for an automated inspection machine of claim 7, wherein the material receiving member comprises a plurality of bins disposed side-by-side, and a second driving member for driving the plurality of bins to move, the feed ends of the plurality of bins each being disposed toward the discharge end of the first lane, the second driving member being configured to drive the plurality of bins individually into alignment with the first lane.
9. 9. The automated material handling structure of claim 7, wherein the material receiving member comprises a plurality of second material receiving boxes arranged side by side, and a second driving member for driving the plurality of second material receiving boxes to move, wherein the second driving member is configured to drive the plurality of second material receiving boxes to be aligned with the discharge end of the first material channel individually.
10. 10. An automated material dispensing structure for an automated inspection machine as set forth in claim 1 wherein said first and second material paths are each provided with a material guiding bevel.

Description

Automatic material distributing structure for automatic detector Technical Field The utility model belongs to the technical field of material distribution devices, and particularly relates to an automatic material distribution structure for an automatic detector. Background In the current automatic production and detection field, the sorting operation of qualified and unqualified materials is of great importance. Traditionally, most businesses have employed manipulators or mechanical jaws to accomplish this task. The equipment can identify and grasp materials on the production line through precise programming control, and classify the materials into different areas according to preset standards. However, there are several significant drawbacks to using a robotic arm or mechanical jaw to achieve automated sorting. First, such devices typically require highly complex control systems and accurate sensors to ensure accuracy of operation, which directly results in increased complexity of the system architecture. Secondly, in order to ensure that the manipulator or the mechanical clamping jaw can operate stably in various working environments, the manipulator or the mechanical clamping jaw must be manufactured by adopting high-quality and durable materials, and complicated design requirements are added, so that the manufacturing cost is greatly increased. In addition, because of the complex structure, maintenance is relatively difficult, and once the fault occurs, professional technicians are often required to maintain the system, so that the operation cost is further increased. In view of the above, there is a strong market need for a more efficient and economical solution to replace existing sorting mechanisms. Disclosure of utility model The utility model aims to solve the technical problem of the prior art and provides an automatic material distributing structure for an automatic detector. The utility model solves the technical problems by providing an automatic material distributing structure for an automatic detector, which comprises a material distributing seat, a material distributing seat and a material distributing device, wherein the material distributing seat comprises a first material channel and a second material channel which are arranged in a layered manner, and the feeding ends of the first material channel and the second material channel are communicated and form a material receiving space; The material distributing plate is movably arranged on the first material channel and is provided with a first material distributing position and a second material distributing position, When the material distributing plate is positioned at the first material distributing position, the material distributing plate is used for guiding materials into the first material channel and blocking the material receiving space from the second material channel; when the material separating plate is positioned at the second material separating position, the material separating plate is used for blocking the material receiving space from being communicated with the first material channel and enabling the material receiving space to be communicated with the second material channel. In the automatic material distributing structure for the automatic detector, a rotating shaft is rotatably arranged on the material distributing seat, one end of the material distributing plate is fixed on the rotating shaft, a first driving piece is arranged on one side of the material distributing seat, and the output end of the first driving piece is connected with the rotating shaft through a connecting block and is used for driving the material distributing plate to switch between the first material distributing position and the second material distributing position. The automatic material distributing structure for the automatic detector further comprises a first material receiving box which is movably arranged on the material distributing seat and communicated with the second material channel. The automatic material distributing structure for the automatic detector comprises a material distributing seat, wherein the material distributing seat is provided with a containing cavity and an opening communicated with the containing cavity, the second material channel is communicated with the containing cavity, the material distributing seat further comprises a base, and the first material receiving box is movably arranged on the base and can pass through the opening to enter and exit the containing cavity. In the automatic material distributing structure for the automatic detector, a sensor is arranged on the material distributing seat, and an induction end of the sensor faces to the first material receiving box and is used for inducing whether the first material receiving box is full or not. In the automatic material distributing structure for the automatic detector, the material distributing seat is provided with a material blocking plate, and