CN219737560U - Air conditioner electric control board detects frock - Google Patents

Abstract

The utility model discloses an air conditioner electric control board detection tool which comprises a transmission module, a detection module and a lifting module. The conveying module comprises a base, an input conveying belt and an output conveying belt, and the input conveying belt and the output conveying belt are installed at the top of the base at intervals. The detection module comprises a detection table and a detector, wherein the detection table is arranged on the base and positioned between the input conveyor belt and the output conveyor belt, and the detector is positioned above the detection table. The lifting module is connected with the detector and used for driving the detector to move up and down. And the vertical linear driver and the horizontal linear driver drive the detector to realize horizontal forward and backward and left and right movement, so that the degree of freedom of the detector in three directions is realized. Thereby more nimble accurate detects the automatically controlled board, and the rethread output conveyer belt carries out after the detection is accomplished. The automatic detection and the pipelining detection can be achieved, the working efficiency is improved, and the labor cost is reduced.

Description

Air conditioner electric control board detects frock

Technical Field

The utility model relates to the technical field of air conditioner detection, in particular to an air conditioner electric control board detection tool.

Background

I mainly produce the automatically controlled board of air conditioner, the automatically controlled board of air conditioner detects at the function of production feed in-process, all adopts manual work or semi-automatic check out test set to detect. In the detection process, clamps are needed to clamp and fix four pins of the relay manually, and measurement is needed to be carried out manually through a universal meter to judge whether the relay is good or not; the manual clamping is not only low in efficiency (the check number is 120PCS in single person) and high in error rate, but also measurement data is not in accordance with the requirements due to the fact that clamping is not tight, and therefore labor cost of detection is wasted.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides an air conditioner electric control board detection tool, which solves the problems through a detector and an input and output pushing module which can flexibly move.

In order to achieve the above purpose, the utility model adopts the following design scheme:

the utility model relates to an air conditioner electric control board detection tool which comprises a transmission module, a detection module and a lifting module. The conveying module comprises a base, an input conveying belt and an output conveying belt, wherein the input conveying belt and the output conveying belt are installed at the top of the base at intervals.

The detection module comprises a detection table and a detector, the detection table is arranged on the base and positioned between the input conveyor belt and the output conveyor belt, and the detector is positioned above the detection table;

the lifting module is connected with the detector and used for driving the detector to move up and down.

Further, the lifting module comprises a placing table, a vertical linear driver and a connecting frame connected with the placing table, a table is arranged on one side of the base, the bottom of the vertical linear driver is installed at the position of the corresponding detection table on the table, the placing table is installed at the top of the vertical linear driver, and the other end of the connecting frame is connected with the detector. Further, the vertical linear driver can be a linear driving device such as an air cylinder, an oil cylinder, a linear motor and the like.

Further, a first connecting block is arranged at the position of the table, which is close to the input conveyor belt, and the other end of the first connecting block is connected with a scanner for scanning the number of the electric control plate conveyed by the input conveyor belt. The other side of the table is provided with a rotatable turntable, a display screen is arranged on the turntable, and an intelligent control module is arranged between the scanner and the display screen. And transmitting the data scanned by the scanner to the intelligent control module, detecting, and storing and displaying the detected result through the display screen. Thus, the condition is visualized, and the detection result can be observed more intuitively.

Further, the device also comprises a transverse linear driver, one end of the connecting frame is slidably connected in a sliding rail arranged at the top of the placing table, and the transverse linear driver is installed at the top of the placing table and is connected with the connecting frame. In specific implementation, the transverse linear driver can be a linear driving device such as an air cylinder, an oil cylinder, a linear motor and the like.

Further, one end of the connecting frame is connected with a roller, and the roller is in rolling fit with the sliding rail.

Further, a sliding plate is arranged between the detection table and the output conveyor belt, the sliding plate is obliquely connected to the detection table, one end of the sliding plate is at the same height as the detection table, and the other end of the sliding plate is at the same height as the output conveyor belt. By the design, the detection table and the output conveyor belt have a buffer, and the electric control plate which is convenient to detect can be pushed to the output conveyor belt through the sliding plate to be output.

Further, the device also comprises a pushing module, wherein the pushing module is arranged on one side of the detection table and comprises a chute body, a gear, a motor and a push plate;

the sliding chute body is fixed on the base, racks are respectively arranged on two inner side walls of the sliding chute body, the gears are positioned in the sliding chute body and meshed with the racks, the motor is connected with the gears, and the push plate is connected with the motor and is in sliding fit with the detection table.

Further, the detector is slidably mounted at the other end of the connecting frame, and the longitudinal linear driver is mounted on the connecting frame and connected with the detector. In specific implementation, the longitudinal linear driver can be a linear driving device such as an air cylinder, an oil cylinder, a linear motor and the like.

Further, a plurality of pressure sensing devices are uniformly arranged on the detection table and used for sensing the position of the electric control plate.

The beneficial effects of the utility model are as follows: the electric control plates can be orderly conveyed to the detection table through the input conveyor belt, and the degree of freedom of the detector in three directions can be realized, so that the electric control plates can be detected more flexibly and accurately, and the electric control plates are conveyed out through the output conveyor belt after detection is completed. The automatic detection and the pipelining detection can be achieved, the working efficiency is improved, and the labor cost is reduced.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a top view of the present utility model (with portions of the transfer module omitted);

FIG. 3 is a detailed view of a propulsion module of the present utility model;

fig. 4 is a detailed view of the portion of the connection frame of the present utility model connected to the placement table.

Reference numerals illustrate: 1. a transfer module; 2. a detection module; 3. a lifting module; 4. a table; 5. a pushing module; 6. a longitudinal linear drive; 11. a base; 12. an input conveyor belt; 13. an output conveyor belt; 14. a slide plate; 21. a detection table; 211. a pressure sensing device; 22. a detector; 31. a placement table; 311. a slide rail; 32. a vertical linear drive; 33. a connecting frame; 331. a roller; 34. a transverse linear drive; 51. a chute body; 511. a rack; 52. a gear; 53. a motor; 54. a push plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. Embodiments of the utility model and features of the embodiments may be combined with each other without conflict.

See fig. 1 to 4.

The utility model relates to an air conditioner electric control board detection tool which comprises a transmission module 1, a detection module 2 and a lifting module 3. The conveyor module 1 comprises a base 11, an input conveyor belt 12 and an output conveyor belt 13, the input conveyor belt 12 and the output conveyor belt 13 being mounted at intervals on top of the base 11.

The detection module 2 comprises a detection table 21 and a detector 22, wherein the detection table 21 is arranged on the base 11 and positioned between the input conveyor belt 12 and the output conveyor belt 13, and the detector 22 is positioned above the detection table 21;

the lifting module 3 is connected with the detector 22 and is used for driving the detector 22 to move up and down.

According to the air conditioner electric control plate detection tool, the electric control plates are sequentially conveyed to the detection table 21 through the input conveyor belt 12, then the lifting module 3 drives the detector 22 to detect the electric control plates, and the electric control plates are conveyed out through the output conveyor belt 13 after detection is completed. Thereby achieving the purposes of automatic detection and pipelining detection, improving the working efficiency and reducing the labor cost.

In practice, the detector 22 may employ a detection device in 201410810578.3 or other electronic control panel detection device, although no particular requirement is made herein.

In an embodiment, the lifting module 3 includes a placement table 31, a vertical linear driver 32, and a connection frame 33 connected to the placement table 31, a table 4 is disposed on one side of the base 11, a bottom of the vertical linear driver 32 is mounted on the table 4 at a position corresponding to the detection table 21, the placement table 31 is mounted on a top of the vertical linear driver 32, and another end of the connection frame 33 is connected to the detector 22. In a specific implementation, the vertical linear driver 32 may be a cylinder, an oil cylinder, a linear motor, or other linear driving devices. By such design, when the transmitted electric control plate is received on the detection table 21, the vertical linear driver 32 can be started to move downwards, so that the placement table 31, the connecting frame 33 and the detector 22 at the bottom of the connecting frame 33 are driven to move downwards to be in contact with the electric control plate, and the detection purpose is realized. When the electric control board is received on the detection platform 21 and conveyed away, the vertical linear driver 32 can be started to move upwards, so that the placement platform 31, the connecting frame 33 and the detector 22 at the bottom of the connecting frame 33 are driven to move upwards, the detection platform 21 is empty, and the next electric control board is conveniently conveyed to the detection platform 21. A degree of freedom in the first direction of the detector 22 is also achieved.

In one embodiment, the table 4 is provided with a first connecting block near the input conveyor 12, and the other end of the first connecting block is connected with a scanner for scanning the number of the electric control board conveyed by the input conveyor 12. The other side of the table 4 is provided with a rotatable turntable, a display screen is arranged on the turntable, and an intelligent control module is arranged between the scanner and the display screen. And transmitting the data scanned by the scanner to the intelligent control module, detecting, and storing and displaying the detected result through the display screen. Thus, the condition is visualized, and the detection result can be observed more intuitively.

In an embodiment, the device further comprises a transverse linear driver 34, one end of the connecting frame 33 is slidably connected in a sliding rail 311 disposed on the top of the placing table 31, and the transverse linear driver 34 is mounted on the top of the placing table 31 and connected with the connecting frame 33. In a specific implementation, the transverse linear driver 34 may be a cylinder, an oil cylinder, a linear motor, or other linear driving devices. When the transmitted electric control plate is received on the detection table 21, the transverse linear driver 34 can be started to move transversely and backwards, so that the placement table 31, the connecting frame 33 and the detector 22 at the bottom of the connecting frame 33 are driven to move forwards and backwards to be perfectly matched with the horizontal front and back direction of the electric control plate, the degree of freedom of the detector 22 in the second direction is realized, and higher detection accuracy is achieved.

In an embodiment, a roller 331 is connected to one end of the connecting frame 33, and the roller 331 is in rolling fit with the sliding rail 311. By such design, the connecting frame 33 and the placing table 31 can be connected in a sliding way through the roller 331, so that friction between the connecting frame 33 and the placing table 31 can be reduced.

In one embodiment, a sliding plate 14 is disposed between the detecting table 21 and the output conveyor 13, the sliding plate 14 is connected to the detecting table 21 in an inclined manner, one end of the sliding plate 14 is at the same height as the detecting table 21, and the other end is at the same height as the output conveyor 13. By such design, the detection table 21 and the output conveyor belt 13 have a buffer, so that the detected electric control board can be pushed onto the output conveyor belt 13 through the slide plate 14 for output.

In an embodiment, the device further comprises a pushing module 5, wherein the pushing module 5 is arranged on one side of the detection table 21, and the pushing module 5 comprises a chute body 51, a gear 52, a motor 53 and a push plate 54;

the sliding chute body 51 is fixed on the base 11, racks 511 are respectively arranged on two inner side walls of the sliding chute body 51, the gear 52 is located in the sliding chute body 51 and meshed with the racks 511, the motor 53 is connected with the gear 52, and the push plate 54 is connected with the motor 53 and is in sliding fit with the detection table 21.

In this design, the motor 53 can be started, and the push plate 54 is attached to the detection platform 21, so that the motor can only move horizontally and cannot rotate, the output end of the motor 53 drives the gear 52 to rotate, and the gear 52 horizontally moves left and right in the chute body 51 and drives the motor 53 to move and the push plate 54 to horizontally move on the detection platform 21 because the rack 511 on the inner side wall of the chute body 51 is fixed and cannot move. After the input conveyor 12 conveys the electric control board to the inspection table 21, the push plate 54 can drive the electric control board to move to a proper inspection position. When the detection is completed, the push plate 54 can drive the electric control plate to move onto the slide plate 14 and finally to be conveyed out on the output conveyor belt 13.

In an embodiment, the detector 22 is slidably mounted on the other end of the connecting frame 33, and the longitudinal linear driver 6 is mounted on the connecting frame 33 and connected to the detector 22. In a specific implementation, the longitudinal linear driver 6 may be a linear driving device such as a cylinder, an oil cylinder, a linear motor, etc. By the design, when an electric control board to be detected is arranged on the detection table, the longitudinal linear driver 6 can be started, so that the detector 22 is driven to move left and right in the horizontal direction, the degree of freedom of the detector 22 in the third direction is realized, and the greater detection precision is achieved.

In an embodiment, the detecting table 21 is uniformly provided with a plurality of pressure sensing devices 211 for sensing the position of the electric control board. By means of the design, the electric control board to be detected on the detection table 21 can be timely sensed, the specific position of the electric control board can be sensed, and therefore the movement of the detector 22 in three directions is adjusted to achieve accurate fit.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The air conditioner electric control board detection tool is characterized by comprising a transmission module (1), a detection module (2) and a lifting module (3);

the conveying module (1) comprises a base (11), an input conveying belt (12) and an output conveying belt (13), wherein the input conveying belt (12) and the output conveying belt (13) are arranged at the top of the base (11) at intervals;

the detection module (2) comprises a detection table (21) and a detector (22), wherein the detection table (21) is arranged on the base (11) and is positioned between the input conveyor belt (12) and the output conveyor belt (13), and the detector (22) is positioned above the detection table (21);

the lifting module (3) is connected with the detector (22) and is used for driving the detector (22) to move up and down.

2. The air conditioner electric control board detection tool according to claim 1, wherein the lifting module (3) comprises a placement table (31), a vertical linear driver (32) and a connecting frame (33) connected with the placement table (31), a table (4) is arranged on one side of the base (11), the bottom of the vertical linear driver (32) is installed at the position of the table (4) corresponding to the detection table (21), the placement table (31) is installed at the top of the vertical linear driver (32), and the other end of the connecting frame (33) is connected with the detector (22).

3. The air conditioner electric control board detection tool according to claim 2, further comprising a transverse linear driver (34), wherein one end of the connecting frame (33) is slidably connected in a sliding rail (311) arranged at the top of the placing table (31), and the transverse linear driver (34) is installed at the top of the placing table (31) and connected with the connecting frame (33).

4. An air conditioner electric control board detection tool as claimed in claim 3, wherein one end of the connecting frame (33) is connected with a roller (331), and the roller (331) is in rolling fit with the sliding rail (311).

5. The air conditioner electric control plate detection tool according to claim 1, wherein a sliding plate (14) is arranged between the detection table (21) and the output conveyor belt (13), the sliding plate (14) is obliquely connected to the detection table (21), one end of the sliding plate (14) is at the same height as the detection table (21), and the other end is at the same height as the output conveyor belt (13).

6. The air conditioner electric control board detection tool according to claim 1, further comprising a pushing module (5), wherein the pushing module (5) is arranged on one side of the detection table (21), and the pushing module (5) comprises a chute body (51), a gear (52), a motor (53) and a push plate (54);

the sliding chute body (51) is fixed on the base (11), racks (511) are respectively arranged on two inner side walls of the sliding chute body (51), the gear (52) is located in the sliding chute body (51) and meshed with the racks (511), the motor (53) is connected with the gear (52), and the push plate (54) is connected with the motor (53) and is in sliding fit with the detection table (21).

7. An air conditioner electric control board detection tool as claimed in claim 3, and further comprising a longitudinal linear driver (6), wherein the detector (22) is slidably mounted at the other end of the connecting frame (33), and the longitudinal linear driver (6) is mounted on the connecting frame (33) and connected with the detector (22).

8. The air conditioner electric control board detection tool according to claim 1, wherein the detection table (21) is uniformly provided with a plurality of pressure sensing devices (211) for sensing the position of the electric control board.