CN216541826U - Trimming and imprinting integrated processing equipment for motorcycle remote controller - Google Patents

Abstract

The utility model provides trimming, engraving and printing integrated processing equipment for a motorcycle remote controller, which comprises a bottom plate, wherein a frame body provided with a slot is arranged above the bottom plate, and one side and the top surface of the slot penetrate through the surface of the frame body; a support rod is fixed between the frame body and the bottom plate, a group of grinding plates distributed in a rectangular array are arranged in the groove of the frame body, and an adjusting assembly is arranged on each grinding plate and used for adjusting the position of each grinding plate in the frame body; the remote controller is characterized in that a pushing assembly is arranged on the frame body and used for pushing the remote controller shell placed in the frame body to move towards the opening position of the frame body. The remote controller shell trimming and imprinting integrated processing device can perform trimming and imprinting integrated processing on the remote controller shell, a conveying platform is not required to be set up when the two processing processes are transited, the cost is saved, the carrying process that a worker takes out the shell after trimming the shell and then places the shell on the conveying device is shortened, and the processing efficiency of the shell is improved.

Description

Trimming and imprinting integrated processing equipment for motorcycle remote controller

Technical Field

The utility model relates to the technical field of motorcycle remote controller processing, in particular to trimming and imprinting integrated processing equipment for a motorcycle remote controller.

Background

The motorcycle remote controller is used for starting or closing a motorcycle, and mainly comprises a shell and a control module, wherein the control module is positioned in the shell; the shell of the motorcycle remote controller is mostly made of plastic materials, and is mainly processed and formed through injection molding, but the edge part of the shell of the remote controller can generate rough edges after being formed, so that the rough edges are required to be trimmed and cleaned; after the trimming of the shell is finished, laser engraving is carried out through a laser engraving machine, and information such as brand marks and the like is engraved on the shell so as to be convenient for people to identify; however, at present, after the shell is injection molded, the shell of the remote controller is generally arranged in a rectangular shape, after two sides of the shell are polished by the existing injection molding part rough edge polisher each time, after a worker needs to manually adjust the shell, the other two sides of the shell are polished by the polisher, the operation process is complicated, and the polishing efficiency is low; and when the shell after finishing polishing was carved with the seal afterwards, still needed the staff to take out the shell from the polishing machine built-in, then carried through the conveying platform who sets up, conveying platform's the cost of setting up is higher and occupation space is great, and the shell can not carry out smooth processing operation from polishing to the seal, still needs the staff to carry out diversified auxiliary processing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses trimming and engraving integrated processing equipment for a motorcycle remote controller, which solves the problems that a worker is required to manually adjust the direction of a shell in the shell polishing process, the worker is required to take the shell out of a polishing machine in the engraving process and then the shell is conveyed through an erected conveying platform, and the conveying platform is high in arrangement cost and large in occupied space.

In order to solve the technical problems, the utility model specifically adopts the following technical scheme:

the trimming, engraving and printing integrated processing equipment for the motorcycle remote controller comprises a bottom plate, wherein a frame body provided with a groove is arranged above the bottom plate, and one side and the top surface of the groove penetrate through the surface of the frame body; a support rod is fixed between the frame body and the bottom plate, a group of grinding plates distributed in a rectangular array are arranged in the groove of the frame body, and an adjusting assembly is arranged on each grinding plate and used for adjusting the position of each grinding plate in the frame body; the frame body is provided with a pushing assembly, and the pushing assembly is used for pushing the remote controller shell placed in the frame body to move towards the opening position of the frame body; a driving motor is further fixed to the top of the bottom plate, a circular plate is fixed to the output end of the driving motor, one side of the circular plate is in contact with the open side of the frame body, a group of grooves distributed in an annular array are formed in the top of the circular plate, and the bottom surface in each groove is flush with the bottom surface in the frame body; the bottom plate is also provided with an engraving component, and the engraving component is used for engraving the remote controller shell on the circular plate.

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

after the positions of the grinding plates in the frame body grooves are adjusted by the adjusting assembly, the remote controller shell is placed in the frame body grooves, then the pushing assembly is started to push the shell to move in the frame body, and when the shell moves towards the open side of the frame body, two edge parts of the shell are respectively subjected to friction trimming of a group of grinding plates, so that burrs generated on the edge parts can be effectively ground; the trimmed shell enters a groove at the top of the circular plate from the opened side of the frame, then the output end of the driving motor drives the circular plate to rotate, and after the shell in the groove is positioned below the imprinting assembly, the imprinting assembly imprints the shell; the worker can subsequently repeat the operations to carry out trimming and marking on other shells; the remote controller shell trimming and imprinting integrated processing device can perform trimming and imprinting integrated processing on the remote controller shell, a conveying platform is not required to be set up when the two processing processes are transited, the cost is saved, the carrying process that a worker takes out the shell after trimming the shell and then places the shell on the conveying device is shortened, and the processing efficiency of the shell is improved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the frame of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 4 is a schematic top view of a circular plate according to the present invention.

In the figure: 1. a base plate; 2. a frame body; 21. a support bar; 22. grinding a plate; 23. a threaded post; 24. connecting blocks; 25. layering; 26. a screw; 27. an extension plate; 3. a first electric telescopic rod; 31. a T-shaped plate; 4. a second electric telescopic rod; 41. positioning a plate; 42. an infrared sensor; 43. a fixing plate; 44. a vertical rod; 5. a third electric telescopic rod; 51. a servo motor; 52. pressing a plate; 6. a drive motor; 61. a circular plate; 62. a support pillar; 63. a groove; 64. a fourth electric telescopic rod; 65. pushing the plate; 7. fixing the rod; 71. an arc-shaped plate; 8. mounting a plate; 81. a laser marker.

Detailed Description

The details of the present invention will be described below with reference to the accompanying drawings and examples.

As shown in fig. 1, 2 and 4, the utility model provides trimming, engraving and printing integrated processing equipment for a motorcycle remote controller, which comprises a bottom plate 1, wherein a frame body 2 provided with a slot is arranged above the bottom plate 1, and one side and the top surface of the slot penetrate through the surface of the frame body 2; a support rod 21 is fixed between the frame body 2 and the bottom plate 1, a group of grinding plates 22 distributed in a rectangular array are arranged in the groove of the frame body 2, and an adjusting assembly is arranged on the grinding plates 22 and used for adjusting the positions of the grinding plates 22 in the frame body 2; the frame body 2 is provided with a pushing assembly, and the pushing assembly is used for pushing the remote controller shell placed in the frame body 2 to move towards the opening position of the frame body 2; a driving motor 6 is further fixed at the top of the bottom plate 1, a circular plate 61 is fixed at the output end of the driving motor 6, one side of the circular plate 61 is in contact with the open side of the frame body 2, a group of grooves 63 distributed in an annular array are formed in the top of the circular plate 61, and the bottom surface in the grooves 63 is flush with the bottom surface in the frame body 2; the bottom plate 1 is further provided with an engraving assembly, and the engraving assembly is used for engraving the remote controller shell on the circular plate 61.

As shown in fig. 1, 2 and 3, the pushing assembly comprises a first electric telescopic rod 3 and a second electric telescopic rod 4, the first electric telescopic rod 3 penetrates through one sealed side of the frame 2 and is fixedly connected with the frame 2, and a T-shaped plate 31 is fixed at the telescopic end of the first electric telescopic rod 3, which is located in the frame 2; a fixing plate 43 is arranged above the frame body 2, two vertical rods 44 which are respectively connected with the top of the frame body 2 in a sliding manner are fixed at the bottom of the fixing plate 43, and the telescopic end of the second electric telescopic rod 4 is fixedly connected with the vertical rods 44; a third vertically downward electric telescopic rod 5 penetrates through the top of the fixing plate 43, a servo motor 51 is fixed at the telescopic end of the third electric telescopic rod 5, and a pressing plate 52 is fixed at the output end of the servo motor 51; one side that framework 2 opened the department is fixed with two and is the extension board 27 of symmetric distribution, the slide corresponding with framework 2 top is seted up at the top of extension board 27, two the bottom of extension board 27 contacts with the top of plectane 61 respectively. After the remote controller shell is placed in the frame body 2, the first electric telescopic rod 3 is started, the telescopic end of the first electric telescopic rod 3 pushes the shell to move into the group of grinding plates 22 through the T-shaped plate 31, the grinding plates 22 are used for trimming two edge parts of the shell, and after the T-shaped plate 31 moves for a certain distance, the first electric telescopic rod 3 stops driving the T-shaped plate 31; then the telescopic end of the third electric telescopic rod 5 pushes the servo motor 51 downwards through the connecting plate, so that the pressing plate 52 is in contact with the top of the shell, the shell is positioned at the bilaterally symmetrical interval of the group of grinding plates 22 (as shown in fig. 2, the bilaterally symmetrical interval of the group of grinding plates 22 is larger, and a space for the shell to rotate is provided), the output end of the servo motor 51 rotates, so that the pressing plate 52 drives the shell to rotate 90 degrees, then the telescopic end of the second electric telescopic rod 4 pushes one vertical rod 44 to move towards the open position of the frame body 2, the pressing plate 52 drives the shell to move along with the shell, so that the other two unprocessed edges of the shell are trimmed by the grinding plates 22, and after the two vertical rods 44 move onto the two extension plates 27 respectively, the shell enters the groove 63 on the circular plate 61; when the pressing plate 52 presses the shell, the first electric telescopic rod 3 is restored, and the subsequent shell can be pushed.

As shown in fig. 1, 2 and 3, a positioning plate 41 is fixed on the main body of the second electric telescopic rod 4, and an infrared sensor 42 is fixed on the positioning plate 41; the pressing plate 52, the infrared sensor 42 and the T-shaped plate 31 correspond to the center line of the bottom surface of the frame body 2, respectively. When the shell is pushed below infrared sensor 42, infrared sensor 42 senses the shell after, external control panel control electric telescopic handle is closed after 3 seconds, (external control panel belongs to present very ripe technique, control process also belongs to conventional control panel and controls, do not do the repeated description here) makes the shell be located a set of grinding plate 22 and be bilateral symmetry's interval department, then external control panel control No. three electric telescopic handle 5 moves down and pushes down the shell, external control panel controls servo motor 51's output again after rotates, external control panel controls No. two electric telescopic handle 4 start to operate afterwards.

As shown in fig. 1, 2 and 3, the adjusting assembly includes two threaded columns 23 rotatably connected to a surface of the grinding plate 22 away from the T-shaped plate 31, the two threaded columns 23 respectively penetrate through the frame 2 and are in threaded connection with the frame 2, and the grinding plate 22 can move toward a center line of the bottom of the frame 2 by rotating the two threaded columns 23; the number of the grinding plates 22 is four, and the bottoms of the four grinding plates 22 are respectively contacted with the bottom surface in the frame body 2; one side of the grinding plate 22 close to the T-shaped plate 31 is slidably connected with a pressing strip 25, the top of the grinding plate 22 is fixed with a connecting block 24, and the top of the pressing strip 25 is rotatably connected with a screw 26 which penetrates through the connecting block 24 and is in threaded connection with the connecting block 24. Two of the four grinding plates 22 are respectively symmetrical front and back, and when the rectangular remote controller is trimmed, the distance between the two grinding plates 22 close to the T-shaped plate 31 is reduced, so that the distance between the two grinding plates 22 is equal to the width of the shell of the remote controller; then, adjusting the distance between the two grinding plates 22 far away from the T-shaped plate 31 to ensure that the distance between the two grinding plates 22 is equal to the length of the shell of the remote controller; when the grinding plate 22 is adjusted, the two threaded columns 23 which are rotationally connected with the grinding plate 22 are rotated, so that the threaded columns 23 control the grinding plate 22 to move; the screw 26 can also be rotated according to the thickness of the shell, so that the pressing strip 25 is contacted with the top surface of the shell, the shell can be pressed, and the stability of the shell in conveying is ensured.

As shown in fig. 1 and 4, the marking assembly includes a mounting plate 8 fixed on the bottom plate 1, a laser marker 81 is slidably connected to the top of the mounting plate 8, and the output end of the laser marker 81 is located above the circular plate 61. After the position of the laser imprinter 81 can be adjusted by sliding the laser imprinter 81, the output end of the laser imprinter 81 can impress the housing located in the groove 63, and after the laser imprinter 81 slides, the housing can be limited by an external weight to prevent the laser imprinter 81 from sliding freely.

As shown in fig. 1 and 4, a fourth electric telescopic rod 64 is fixed in the groove 63, and a push plate 65 is fixed at the telescopic end of the fourth electric telescopic rod 64; the top of the bottom plate 1 is fixed with a fixing rod 7, the top of the fixing rod 7 is fixed with an arc-shaped plate 71 which is in contact with the outer wall of the circular plate 61, and the arc-shaped plate 71 is positioned between the circular plate 61 and the mounting plate 8. After the shell enters the groove 63, the driving motor 6 drives the circular plate 61 to rotate 90 degrees clockwise, so that the shell is positioned below the output end of the laser engraving machine 81, then the four-number electric telescopic rod 64 is started, the telescopic end of the four-number electric telescopic rod 64 pushes the push plate 65, the push plate 65 is matched with the arc-shaped plate 71 to clamp the shell, the shell of the laser engraving machine can be better engraved, and the engraving parts of all the shells are ensured to be the same; after the shell is engraved, the driving motor 6 continues to drive the circular plate 61 to rotate 90 degrees, then the telescopic end of the four-number electric telescopic rod 64 continues to push the push plate 65, and the shell is pushed out of the groove 63.

As shown in fig. 1, two supporting columns 62 are slidably connected to the bottom of the circular plate 61, and the bottoms of the two supporting columns 62 are respectively fixedly connected to the top of the bottom plate 1. The support posts 62 may increase the stability of the circular plate 61.

When in use, the distance between the two grinding plates 22 close to the T-shaped plate 31 and the width box body of the shell are equal to the length of the shell; the working personnel place the shell in the frame body 2, the external control panel starts the first electric telescopic rod 3, the T-shaped plate 31 pushes the shell to pass between two grinding plates 22 close to the T-shaped plate 31, the grinding plates 22 carry out edge grinding treatment on two edges of the shell, the infrared sensor 42 is positioned above the two grinding plates 22 close to the T-shaped plate 31, after the shell passes through the infrared sensor 42, the external control panel controls the first electric telescopic rod to stop after 3 seconds, the shell is positioned at the interval between the left and the right symmetrical positions of the two grinding plates 22 after the first electric telescopic rod 3 stops, then the third electric telescopic rod 5 is started to push the servo motor 51 to move downwards, after the pressing plate 52 presses the shell, after the servo motor 51 rotates by 90 degrees, the second electric telescopic rod 4 is started, the first electric telescopic rod 3 is recovered, and a worker can place an unprocessed shell in the frame body 2; after the telescopic end of the second electric telescopic rod 4 extends, the pressing plate 52 drives the shell to continuously move to a position between the two grinding plates 22 far away from the T-shaped plate 31, the shell enters the groove 63 after being subjected to trimming treatment, then the driving motor 6 drives the circular plate 61 to rotate for 90 degrees, and the shell is subjected to engraving by the laser engraving machine 81.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (7)

1. The utility model provides a motorcycle remote controller deburring stamp-mark integration processing equipment, includes bottom plate (1), its characterized in that: a frame body (2) provided with a groove is arranged above the bottom plate (1), and one side and the top surface of the groove penetrate through the surface of the frame body (2); a support rod (21) is fixed between the frame body (2) and the bottom plate (1), a group of grinding plates (22) distributed in a rectangular array are arranged in the groove of the frame body (2), and an adjusting assembly is arranged on each grinding plate (22) and used for adjusting the position of each grinding plate (22) in the frame body (2); the frame body (2) is provided with a pushing assembly, and the pushing assembly is used for pushing the remote controller shell placed in the frame body (2) to move towards the opening position of the frame body (2); the top of the bottom plate (1) is further fixedly provided with a driving motor (6), the output end of the driving motor (6) is fixedly provided with a circular plate (61), one side of the circular plate (61) is in contact with the open side of the frame body (2), the top of the circular plate (61) is provided with a group of grooves (63) distributed in an annular array manner, and the bottom surface in the grooves (63) is flush with the bottom surface in the frame body (2); the bottom plate (1) is further provided with an engraving assembly, and the engraving assembly is used for engraving the remote controller shell on the circular plate (61).

2. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 1, characterized in that: the pushing assembly comprises a first electric telescopic rod (3) and a second electric telescopic rod (4), the first electric telescopic rod (3) penetrates through one sealed side of the frame body (2) and is fixedly connected with the frame body (2), and a T-shaped plate (31) is fixed at the telescopic end of the first electric telescopic rod (3) located in the frame body (2); a fixing plate (43) is arranged above the frame body (2), two vertical rods (44) which are respectively connected with the top of the frame body (2) in a sliding mode are fixed at the bottom of the fixing plate (43), and the telescopic end of the second electric telescopic rod (4) is fixedly connected with the vertical rods (44); a third vertically downward electric telescopic rod (5) penetrates through the top of the fixing plate (43), a servo motor (51) is fixed at the telescopic end of the third electric telescopic rod (5), and a pressing plate (52) is fixed at the output end of the servo motor (51); one side that framework (2) opened the department is fixed with two extension boards (27) that are the symmetric distribution, the slide corresponding with framework (2) top is seted up at the top of extension board (27), two the bottom of extension board (27) contacts with the top of plectane (61) respectively.

3. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 2, characterized in that: a positioning plate (41) is fixed on the main body of the second electric telescopic rod (4), and an infrared sensor (42) is fixed on the positioning plate (41); the pressing plate (52), the infrared sensor (42) and the T-shaped plate (31) correspond to the center line of the bottom surface of the frame body (2) respectively.

4. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 2, characterized in that: the adjusting assembly comprises two threaded columns (23) which are rotatably connected with one surface of the grinding plate (22) departing from the T-shaped plate (31), the two threaded columns (23) respectively penetrate through the frame body (2) and are in threaded connection with the frame body (2), and the grinding plate (22) can move towards the central line of the bottom of the frame body (2) by rotating the two threaded columns (23); the number of the group of the grinding plates (22) is four, and the bottoms of the four grinding plates (22) are respectively contacted with the bottom surface in the frame body (2); one side of the grinding plate (22) close to the T-shaped plate (31) is connected with a pressing strip (25) in a sliding mode, the top of the grinding plate (22) is fixed with a connecting block (24), and the top of the pressing strip (25) is rotatably connected with a screw (26) which penetrates through the connecting block (24) and is in threaded connection with the connecting block (24).

5. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 1, characterized in that: the engraving assembly comprises a mounting plate (8) fixed on the bottom plate (1), the top of the mounting plate (8) is connected with a laser engraving machine (81) in a sliding mode, and the output end of the laser engraving machine (81) is located above the circular plate (61).

6. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 5, characterized in that: a fourth electric telescopic rod (64) is fixed in the groove (63), and a push plate (65) is fixed at the telescopic end of the fourth electric telescopic rod (64); the top of bottom plate (1) is fixed with dead lever (7), the top of dead lever (7) is fixed with arc (71) that contact with plectane (61) outer wall, arc (71) are located between plectane (61) and mounting panel (8).

7. The trimming and imprinting integrated processing device for the motorcycle remote controller according to claim 1, characterized in that: the bottom of the circular plate (61) is connected with two supporting columns (62) in a sliding mode, and the bottoms of the two supporting columns (62) are fixedly connected with the top of the bottom plate (1) respectively.

Images