CN220461407U - Electronic controller check out test set - Google Patents

Abstract

The utility model relates to the technical field of controller detection, in particular to electronic controller detection equipment which comprises a frame, a disc, a sealing cover, an X-ray detector, a conveying belt A and a conveying belt B. The frame is provided with a round groove, and the frame is provided with a transverse groove A and a transverse groove B which are vertical to the transverse groove A. The disc is arranged in the circular groove, and the motor A drives the disc. Four feed grooves are formed in the disc, and a pushing plate driven by a driving piece is arranged in each feed groove. The sealing cover is provided with a through hole at one side of the sealing cover far away from the transverse groove B and is arranged at the inner side of the opening at the upper end of the circular groove. The X-ray detector is arranged on the sealing cover, and the probe is inserted into the through hole. The conveying belt A is arranged in the transverse groove A, and a motor B for driving the conveying belt A is arranged on the frame. The conveyer belt B is arranged in the transverse groove B, a motor C for driving the conveyer belt B is arranged on the frame, and the conveyer belt A and the conveyer belt B are both in sliding connection with the bottom of the disc. The utility model automatically feeds and feeds materials and automatically classifies the detected controllers.

Description

Electronic controller check out test set

Technical Field

The utility model relates to the technical field of controller detection, in particular to electronic controller detection equipment.

Background

The electronic controller is a core component of the electric device, and an internal circuit thereof is complex. The electronic controller needs to be packaged after production, secondary detection is needed after packaging, the existing detection is carried out by manually feeding and discharging one by one, and the efficiency is very low.

The Chinese patent with the bulletin number of CN216561520U discloses an electronic controller detection device, which relates to the technical field of electronic detection equipment and comprises a top block, a flip, a liquid crystal screen, a bottom block and a contact, wherein the flip is rotationally connected to the top of the top block, the liquid crystal screen is inlaid on the front surface of the flip, and a spring card is fixedly arranged on the back side of the bottom surface of the bottom block. This equipment is through setting up mechanism and the visual field mechanism of bending, utilize the bending effect cooperation inner tube of bending part itself to extend the setting, make operating personnel can pass the components and parts that the equipment inboard was blocked with the contact under the equipment non-disassembled state, send to need detect measuring point position, equipment dismantlement and equipment time have been saved, detection operation flow has been simplified greatly, efficiency has been promoted, through the extending structure between bending part and the inner tube, can match and cater for the inboard component arrangement condition of multiple equipment, its self adjustability is strong, application scope is wide, it is nimble convenient to use, be convenient for receive and store.

However, the device still has the defects that: the device is loaded and unloaded time and energy consuming to the device can't realize the automatic classification to the controller good product.

Disclosure of Invention

The utility model aims to solve the problems in the background art and provides electronic controller detection equipment.

The technical scheme of the utility model is as follows: an electronic controller detection device comprises a frame, a disc, a sealing cover, an X-ray detector, a conveying belt A and a conveying belt B.

The frame is provided with a round groove, and the frame is provided with a transverse groove A and a transverse groove B which are communicated with the round groove, and the transverse groove B is perpendicular to the transverse groove A. The disc sets up in the circular vat and rotates with it to be connected, and the disc sets up four feed tanks along the week side, sets up the pushing plate in the feed tank, and sets up the flexible driving piece of each pushing plate of drive in the disc, and the bottom of frame sets up drive disc pivoted motor A.

The sealing cover is arranged on the frame and is in sealing fit with the opening at the upper end of the circular groove, and a through hole is formed in one side, far away from the transverse groove B, of the sealing cover. The X-ray detector is arranged on the sealing cover, and the probe is inserted into the through hole. The conveying belt A is arranged in the transverse groove A, and a motor B for driving the conveying belt A is arranged on the frame. The conveyer belt B is arranged in the transverse groove B, a motor C for driving the conveyer belt B is arranged on the frame, and the conveyer belt A and the conveyer belt B are both in sliding connection with the bottom of the disc.

Preferably, the inner side of the upper end opening of the circular groove is provided with a mounting groove, the sealing cover is positioned in the mounting groove, and the lower surface of the sealing cover is in sliding connection with the upper surface of the disc.

Preferably, the upper surfaces of the conveying belt A and the conveying belt B and the bottom surfaces of the circular grooves are all positioned on the same horizontal plane.

Preferably, a plurality of supporting rollers A for supporting the conveying belt A are arranged in the transverse groove A, and a plurality of supporting rollers B for supporting the conveying belt B are arranged in the transverse groove B.

Preferably, the driving member comprises a linear module. Guide grooves and mounting grooves are formed in two side walls of each feed groove, the linear modules are located in the mounting grooves, protruding blocks A and protruding blocks B are arranged on two sides of the pushing plate, the protruding blocks A are inserted into the guide grooves and are connected with the guide grooves in a sliding mode, and the protruding blocks B are inserted into the mounting grooves and are connected with output ends of the linear modules on the corresponding sides.

Preferably, the bottom of frame sets up the supporting legs, and the bottom of supporting legs sets up anti-skidding mounting pad.

Compared with the prior art, the utility model has the following beneficial technical effects:

through setting up pivoted disc, the disc side sets up the feed chute with horizontal groove A and horizontal groove B intercommunication in the frame, sets up conveyer belt A in the horizontal groove A, sets up conveyer belt B in the horizontal groove B, utilizes conveyer belt A to send into the controller in the feed chute, and rethread rotates the disc and stirs the controller to detect the point position, stirs the controller to horizontal groove A or transversely insert in the B after detecting, utilizes the flitch of pushing away to push away the controller that has detected to accomplish on corresponding conveyer belt A or conveyer belt B according to conforming to work and disqualification. The sealing cover used for preventing the radiation from being exposed is arranged at the top of the disc, and the radiation can not be exposed under the cooperation of the frame and the sealing cover when the X-ray detector detects the controller, so that the damage to the human body can not be caused.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a block diagram of a rack;

FIG. 3 is a block diagram of a disk;

fig. 4 is a schematic structural view of a conveyor belt and a lifting roller.

Reference numerals: 1. a frame; 101. a circular groove; 102. a transverse groove A; 103. a transverse groove B; 2. a disc; 201. a feed chute; 3. a pushing plate; 4. a linear module; 5. a guide roller; 6. a motor A; 7. sealing cover; 8. an X-ray detector; 9. a conveying belt A; 10. a motor B; 11. a conveying belt B; 12. a motor C; 13. lifting a material roller; 131. a plane; 14. a motor D; 15. a synchronous belt.

Detailed Description

Example 1

As shown in fig. 1 to 4, the utility model provides an electronic controller detection device, which comprises a frame 1, a disc 2, a sealing cover 7, an X-ray detector 8, a conveyor belt A9 and a conveyor belt B11.

The bottom of frame 1 sets up the supporting legs, and the bottom of supporting legs sets up anti-skidding mounting pad, sets up circular slot 101 on the frame 1, and set up horizontal groove A102 and horizontal groove B103 with circular slot 101 intercommunication on the frame 1, horizontal groove B103 is perpendicular with horizontal groove A102. The disc 2 is arranged in the circular groove 101 and is rotationally connected with the circular groove, four feed grooves 201 are formed in the periphery of the disc 2, material pushing plates 3 are arranged in the feed grooves 201, driving pieces for driving the material pushing plates 3 to stretch and retract are arranged in the disc 2, and the driving pieces comprise linear modules 4. Guide grooves and mounting grooves are formed in two side walls of each feed groove 201, the linear modules 4 are located in the mounting grooves, protruding blocks A and protruding blocks B are arranged on two sides of the pushing plate 3, the protruding blocks A are inserted into the guide grooves and are in sliding connection with the guide grooves, and the protruding blocks B are inserted into the mounting grooves and are connected with output ends of the corresponding side linear modules 4. The bottom of the frame 1 is provided with a motor A6 for driving the disc 2 to rotate.

The sealing cover 7 is arranged on the frame 1 and is in sealing fit with the upper end opening of the circular groove 101, an installation groove is formed in the inner side of the upper end opening of the circular groove 101, the sealing cover 7 is positioned in the installation groove, the lower surface of the sealing cover 7 is in sliding connection with the upper surface of the disc 2, and a through hole is formed in one side, far away from the transverse groove B103, of the sealing cover 7. An X-ray detector 8 is provided on the seal cover 7, and a probe is inserted into the through hole. The conveyor belt A9 is arranged in the transverse groove A102, and the machine frame 1 is provided with a motor B10 for driving the conveyor belt A9. The conveyer belt B11 is arranged in the transverse groove B103, the frame 1 is provided with a motor C12 for driving the conveyer belt B11, and the conveyer belt A9 and the conveyer belt B11 are both in sliding connection with the bottom of the disc 2. The upper surfaces of the conveyor belt A9 and the conveyor belt B11 are both on the same horizontal plane as the bottom surface of the circular groove 101. A plurality of supporting rollers A for supporting the conveying belt A9 are arranged in the transverse groove A102, and a plurality of supporting rollers B for supporting the conveying belt B11 are arranged in the transverse groove B103.

In this embodiment, the conveyor belt A9 is started to convey the controller to the feeding groove 201 of the disc 2, after the controller completely enters the feeding groove 201, the motor A6 drives the disc 2 to rotate, the controller is shifted to the lower part of the detection port of the X-ray detector 8 by using the disc 2, the controller is detected by using the X-ray detector 8, the detection space is a sealed environment due to the radioactivity of the X-rays, the rays are not exposed, the staff is ensured not to be hurt by the rays, after the detection is completed, the turntable 2 rotates, if the detected controller is good, the controller is shifted to the discharging side of the transverse groove a102, the pushing plate 3 is started and pushes the controller to be sent out on the conveyor belt A9, if the controller is bad, the turntable 2 continues to rotate and shifts the controller to be towards the conveyor belt B11, and then the pushing plate 3 pushes the controller to be sent out on the conveyor belt B11, and classification is completed.

Example two

As shown in fig. 1-4, compared with the first embodiment, the detection device for the electronic controller provided by the utility model has the advantages that the conveying belt A9 and the conveying belt B11 are both composed of two conveying belts, and a gap with a certain size is arranged between the two conveying belts; a plurality of guide rollers 5 are symmetrically arranged in the feed chute 201, and the top points of the guide rollers 5 are higher than the upper surfaces of the conveying belt A9 and the conveying belt B11; a plurality of material lifting rollers 13 are arranged in the transverse groove A102, the material lifting rollers 13 are positioned between the two conveying belts A9, a plane 131 which is not higher than the upper surface of the conveying belt A9 is arranged on the cambered surface of each material lifting roller 13, the material lifting rollers 13 are in transmission connection through a synchronous belt 15, and a motor D14 for driving the material lifting rollers 13 to rotate is arranged on the frame 1.

In this embodiment, after one of the feed tanks 201 rotates to align with the feed side of the transverse tank a102, the conveyor belt A9 conveys the electronic controller to be detected toward the inner side of the feed tank 201, before the controller enters the feed tank 201, the motor D14 drives the feed lifting roller 13 to rotate, the controller is lifted by the feed lifting roller 13 and conveyed into the feed tank 201, after the controller enters the feed tank 201, both sides of the controller fall on the corresponding side guide rollers 5, and at this time, the whole controller is lifted, so that abrasion caused by friction between the bottom of the controller and the bottom of the circular tank 101 when the controller rotates along with the rotation of the disc 2 is prevented.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (6)

1. The electronic controller detection device is characterized by comprising a frame (1), a disc (2), a sealing cover (7), an X-ray detector (8), a conveying belt A (9) and a conveying belt B (11);

a round groove (101) is arranged on the frame (1), a transverse groove A (102) and a transverse groove B (103) which are communicated with the round groove (101) are arranged on the frame (1), and the transverse groove B (103) is perpendicular to the transverse groove A (102); the disc (2) is arranged in the circular groove (101) and is rotationally connected with the circular groove, four feed grooves (201) are formed in the circumferential side of the disc (2), material pushing plates (3) are arranged in the feed grooves (201), driving pieces for driving the material pushing plates (3) to stretch out and draw back are arranged in the disc (2), and a motor A (6) for driving the disc (2) to rotate is arranged at the bottom of the frame (1);

the sealing cover (7) is arranged on the frame (1) and is in sealing fit with the opening at the upper end of the circular groove (101), and a through hole is arranged on one side, far away from the transverse groove B (103), of the sealing cover (7); the X-ray detector (8) is arranged on the sealing cover (7), and the probe is inserted into the through hole; the conveying belt A (9) is arranged in the transverse groove A (102), and a motor B (10) for driving the conveying belt A (9) is arranged on the frame (1); the conveying belt B (11) is arranged in the transverse groove B (103), the frame (1) is provided with a motor C (12) for driving the conveying belt B (11), and the conveying belt A (9) and the conveying belt B (11) are both in sliding connection with the bottom of the disc (2).

2. An electronic controller detecting apparatus according to claim 1, wherein a mounting groove is provided at the inner side of the upper end opening of the circular groove (101), the sealing cover (7) is located in the mounting groove, and the lower surface of the sealing cover (7) is slidably connected with the upper surface of the disc (2).

3. An electronic controller inspection apparatus according to claim 1, characterized in that the upper surfaces of the conveyor belt a (9) and the conveyor belt B (11) and the bottom surface of the circular groove (101) are all on the same horizontal plane.

4. The electronic controller detection device according to claim 1, wherein a plurality of support rollers a for supporting the conveyor belt a (9) are provided in the transverse groove a (102), and a plurality of support rollers B for supporting the conveyor belt B (11) are provided in the transverse groove B (103).

5. An electronic controller inspection apparatus according to claim 1, characterized in that the driving member comprises a linear module (4); guide grooves and mounting grooves are formed in two side walls of each feed groove (201), the linear modules (4) are located in the mounting grooves, protruding blocks A and protruding blocks B are arranged on two sides of the pushing plate (3), the protruding blocks A are inserted into the guide grooves and are in sliding connection with the protruding blocks A, and the protruding blocks B are inserted into the mounting grooves and are connected with output ends of the corresponding side linear modules (4).

6. An electronic controller testing device according to claim 1, characterized in that the bottom of the frame (1) is provided with support feet, the bottom of which is provided with anti-slip mounting pads.