CN218144441U

CN218144441U - 5G module high density interconnection printed wiring board

Info

Publication number: CN218144441U
Application number: CN202221931479.7U
Authority: CN
Inventors: 杨炎
Original assignee: ALLFAVOR CIRCUITS (SHENZHEN) CO LTD
Current assignee: ALLFAVOR CIRCUITS (SHENZHEN) CO LTD
Priority date: 2022-07-26
Filing date: 2022-07-26
Publication date: 2022-12-27
Anticipated expiration: 2032-07-26

Abstract

The utility model relates to a circuit board technical field discloses a 5G module high density interconnection printed wiring board, which comprises a base, the outer wall of base is provided with actuating mechanism, actuating mechanism's outer wall is provided with link gear, the base includes the driven shaft, the outer wall of base rotates and is connected with the driving shaft, the outer wall of driving shaft rotates and is connected with the conveyer belt, the outer wall fixed mounting of base has the crossbeam. The driving mechanism comprises a servo motor, and a movable shaft is fixedly mounted at one end of the servo motor. The utility model discloses a pendulum rod promotes the swing of T type rocker, and T type rocker drives two swings of removable pin, and two drive connecting rod movements of removable pin, connecting rod drive three motions of removable pin, and three drive guide pin bushings of removable pin are the motion in opposite directions along the crossbeam, and guide pin bushing compression expanding spring, expanding spring take place deformation and carry out the energy storage, and the guide pin bushing drives the centre gripping strip and slides along the conveyer belt synchronous in opposite directions to the centre gripping strip carries out accurate location to the work piece that the conveyer belt is surperficial.

Description

5G module high density interconnection printed wiring board

Technical Field

The utility model relates to a circuit board technical field specifically is a 5G module high density interconnection printed wiring board.

Background

With the development of the electronic industry, the circuit board industry is also more developed. The requirements for the manufacturing technology of circuit boards, which are basic components in the electronics industry, are also increasing. Circuit boards involve a number of steps in the manufacturing process, among which the positioning of the circuit board plays an important role. When the product is processed, due to the fact that partial devices are not regularly and regularly fed and are not positioned and the feeding frequency is not accurate, products to be processed and machined parts are prone to friction, scratches are left on the surfaces of the machined parts, and even the products are damaged.

For this purpose, a 5G module high-density interconnection printed wiring board is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a 5G module high density interconnection printed wiring board to solve above-mentioned problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a 5G module high density interconnection printed wiring board, includes the base, the outer wall of base is provided with actuating mechanism, actuating mechanism's outer wall is provided with link gear, the base includes the driven shaft, the outer wall of base rotates and is connected with the driving shaft, the outer wall of driving shaft rotates and is connected with the conveyer belt, the outer wall fixed mounting of base has the crossbeam.

Preferably, the driving mechanism comprises a servo motor, a movable shaft is fixedly mounted at one end of the servo motor, and a swing rod is fixedly connected to one end, far away from the servo motor, of the movable shaft.

Preferably, one end of the oscillating bar, which is far away from the movable shaft, is slidably connected with a driving disc, an intermittent groove is formed in the end face of the driving disc, and a movable pin I is slidably connected to the inner wall of the intermittent groove.

Preferably, the linkage mechanism comprises a T-shaped rocker, the outer wall of the T-shaped rocker is movably connected with a second movable pin, and the outer wall of the second movable pin is movably connected with a connecting rod.

Preferably, one end, far away from the second movable pin, of the connecting rod is rotatably connected with a third movable pin, and a guide sleeve is fixedly installed on the end face of the third movable pin.

Preferably, the bottom of the guide sleeve is fixedly provided with a clamping strip, and the outer wall of the guide sleeve is fixedly provided with a telescopic spring.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model provides stable support for the workpiece through the driven shaft, the driving shaft and the conveying belt, the driving shaft drives the conveying belt to rotate, the conveying belt drives the driven shaft to rotate, so that the workpiece to be processed is fed from one side of the device, the processed workpiece is discharged from the other side of the device, friction between the workpieces is avoided, scratches are left on the surface of the workpiece, the attractiveness of the product is influenced, and the practicability of the device is improved;

2. the utility model discloses a staff starts servo motor, and servo motor drives the loose axle and rotates, and the loose axle drives the pendulum rod and rotates, and the pendulum rod drives the loose pin and rotates round the loose axle, and when the loose pin slided along the intermittent type inslot wall, the loose pin was one for the side thrust of intermittent type groove, and the loose pin was one and promotes the driving-disc and rotate, and the driving-disc drives the driving shaft and rotates, and the driving shaft drives the conveyer belt and rotates to be convenient for control the feeding frequency of conveyer belt, avoid the work piece on the conveyer belt surface in the course of working, cause the loss because of bumping;

3. the utility model discloses a pendulum rod promotes the swing of T type rocker, and T type rocker drives two swings of removable pin, and two drive connecting rod movements of removable pin, and the connecting rod drives three movements of removable pin, and three drive guide pin bushings of removable pin are the motion in opposite directions along the crossbeam, and guide pin bushing compression expanding spring, expanding spring take place to deform and carry out the energy storage, and the guide pin bushing drives the centre gripping strip and slides along the conveyer belt synchronous in opposite directions to the work piece that the centre gripping strip was surperficial to the conveyer belt carries out accurate location.

Drawings

Fig. 1 is a schematic overall structure diagram of the present invention;

fig. 2 is an overall front view of the present invention;

fig. 3 is a top view of the whole of the present invention;

fig. 4 is an enlarged view of the area a in fig. 3 according to the present invention;

fig. 5 is an overall side view of the present invention;

fig. 6 isbase:Sub>A cross-sectional view taken along the directionbase:Sub>A-base:Sub>A in fig. 5 according to the present invention.

In the figure:

1. a base; 11. a driven shaft; 12. a drive shaft; 13. a conveyor belt; 14. a cross beam; 2. a drive mechanism; 21. a servo motor; 22. a movable shaft; 23. a swing rod; 24. a drive plate; 25. an intermittent tank; 26. a first movable pin; 3. a linkage mechanism; 31. a T-shaped rocker; 32. a second movable pin; 33. a connecting rod; 34. a movable pin III; 35. a guide sleeve; 36. a clamping bar; 37. a telescoping spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution:

the utility model provides a 5G module high density interconnection printed wiring board, includes base 1, the outer wall of base 1 is provided with actuating mechanism 2, actuating mechanism 2's outer wall is provided with link gear 3.

As an embodiment of the present invention, as shown in fig. 1 and fig. 6, the base 1 includes the driven shaft 11, the outer wall of the base 1 rotates and is connected with the driving shaft 12, the outer wall of the driving shaft 12 rotates and is connected with the conveyor belt 13, the outer wall of the base 1 is fixedly mounted with the crossbeam 14.

During operation, driven shaft 11, driving shaft 12 and conveyer belt 13 provide stable support for the work piece, and driving shaft 12 drives conveyer belt 13 and rotates, and conveyer belt 13 drives driven shaft 11 and rotates to wait to process the work piece from one side feeding of device, the work piece of processing completion is discharged from the opposite side of device, avoids taking place the friction between the work piece, and the mar is left on the surface, influences the product pleasing to the eye, improves the practicality of device.

As an embodiment of the present invention, as shown in fig. 2, fig. 5 and fig. 6, the driving mechanism 2 includes a servo motor 21, one end of the servo motor 21 is fixedly mounted with a movable shaft 22, and the movable shaft 22 is far away from one end of the swing rod 23 fixedly connected to the servo motor 21.

One end of the oscillating bar 23, which is far away from the movable shaft 22, is slidably connected with a driving disc 24, an intermittent groove 25 is formed in the end surface of the driving disc 24, and a movable pin I26 is slidably connected to the inner wall of the intermittent groove 25.

During operation, the staff starts servo motor 21, servo motor 21 drives loose axle 22 and rotates, loose axle 22 drives pendulum rod 23 and rotates, pendulum rod 23 drives movable pin 26 and rotates around loose axle 22, when movable pin 26 slides along intermittent type groove 25 inner wall, movable pin 26 gives intermittent type groove 25 a lateral thrust, movable pin 26 promotes driving-disc 24 and rotates, driving-disc 24 and driving shaft 12 are the fixed connection relation, driving-disc 24 drives driving shaft 12 and rotates, driving shaft 12 drives conveyer belt 13 and rotates, so that control conveyer belt 13's feed frequency, avoid conveyer belt 13 work piece on the surface in the course of working, cause the loss because of bumping.

As an embodiment of the present invention, as shown in fig. 2, fig. 3 and fig. 4, the linkage mechanism 3 includes a T-shaped rocker 31, an outer wall of the T-shaped rocker 31 is movably connected to a second movable pin 32, and an outer wall of the second movable pin 32 is movably connected to a connecting rod 33.

One end of the connecting rod 33, which is far away from the second movable pin 32, is rotatably connected with a third movable pin 34, and a guide sleeve 35 is fixedly installed on the end surface of the third movable pin 34.

The bottom of the guide sleeve 35 is fixedly provided with a clamping strip 36, and the outer wall of the guide sleeve 35 is fixedly provided with an expansion spring 37.

When the swing rod 23 rotates around the movable shaft 22, the swing rod 23 pushes the T-shaped rocker 31 to swing, the T-shaped rocker 31 is in a rotating connection with the cross beam 14, the T-shaped rocker 31 drives the second movable pin 32 to swing, the second movable pin 32 drives the connecting rod 33 to move, the connecting rod 33 drives the third movable pin 34 to move, the third movable pin 34 drives the guide sleeve 35 to move in the opposite direction along the cross beam 14, the guide sleeve 35 compresses the telescopic spring 37, the telescopic spring 37 deforms to store energy, and the guide sleeve 35 drives the clamping strip 36 to slide in the opposite direction and synchronously along the conveyor belt 13, so that the clamping strip 36 can accurately position a workpiece on the surface of the conveyor belt 13.

The working principle is as follows: when the device works, the driven shaft 11, the driving shaft 12 and the conveyor belt 13 provide stable support for workpieces, the driving shaft 12 drives the conveyor belt 13 to rotate, the conveyor belt 13 drives the driven shaft 11 to rotate, so that the workpieces to be processed are fed from one side of the device, the processed workpieces are discharged from the other side of the device, friction among the workpieces is avoided, scratches are left on the surfaces of the workpieces, the attractiveness of products is influenced, and the practicability of the device is improved;

when the device works, a worker starts the servo motor 21, the servo motor 21 drives the movable shaft 22 to rotate, the movable shaft 22 drives the swing rod 23 to rotate, the swing rod 23 drives the movable pin I26 to rotate around the movable shaft 22, the movable pin I26 slides along the inner wall of the intermittent groove 25, meanwhile, the movable pin I26 gives a lateral thrust to the intermittent groove 25, the movable pin I26 pushes the driving disc 24 to rotate, the driving disc 24 and the driving shaft 12 are fixedly connected, the driving disc 24 drives the driving shaft 12 to rotate, and the driving shaft 12 drives the conveyor belt 13 to rotate, so that the feeding frequency of the conveyor belt 13 is controlled, and the loss of workpieces on the surface of the conveyor belt 13 due to collision in the machining process is avoided;

when the oscillating bar 23 rotates around the movable shaft 22, the oscillating bar 23 pushes the T-shaped oscillating bar 31 to oscillate, the T-shaped oscillating bar 31 and the cross beam 14 are in a rotating connection relationship, the T-shaped oscillating bar 31 drives the second movable pin 32 to oscillate, the second movable pin 32 drives the connecting rod 33 to move, the connecting rod 33 drives the third movable pin 34 to move, the third movable pin 34 drives the guide sleeve 35 to move in opposite directions along the cross beam 14, the guide sleeve 35 compresses the telescopic spring 37, the telescopic spring 37 deforms to store energy, and the guide sleeve 35 drives the clamping strip 36 to slide in opposite directions and synchronously along the conveyor belt 13, so that the clamping strip 36 can accurately position a workpiece on the surface of the conveyor belt 13.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A5G module high-density interconnection printed wiring board, includes base (1), its characterized in that: the outer wall of base (1) is provided with actuating mechanism (2), the outer wall of actuating mechanism (2) is provided with link gear (3), base (1) includes driven shaft (11), the outer wall of base (1) rotates and is connected with driving shaft (12), the outer wall of driving shaft (12) rotates and is connected with conveyer belt (13), the outer wall fixed mounting of base (1) has crossbeam (14).

2. The 5G module high-density interconnection printed wiring board according to claim 1, wherein: actuating mechanism (2) include servo motor (21), the one end fixed mounting of servo motor (21) has loose axle (22), one end fixedly connected with pendulum rod (23) of servo motor (21) are kept away from in loose axle (22).

3. A 5G module high-density interconnect printed wiring board according to claim 2, wherein: one end, far away from the movable shaft (22), of the oscillating bar (23) is connected with a driving disc (24) in a sliding mode, an intermittent groove (25) is formed in the end face of the driving disc (24), and a movable pin I (26) is connected to the inner wall of the intermittent groove (25) in a sliding mode.

4. The 5G module high-density interconnection printed wiring board according to claim 1, wherein: the linkage mechanism (3) comprises a T-shaped rocker (31), the outer wall of the T-shaped rocker (31) is movably connected with a second movable pin (32), and the outer wall of the second movable pin (32) is movably connected with a connecting rod (33).

5. The 5G module high-density interconnection printed wiring board of claim 4, wherein: one end, far away from the second movable pin (32), of the connecting rod (33) is rotatably connected with a third movable pin (34), and a guide sleeve (35) is fixedly mounted on the end face of the third movable pin (34).

6. The 5G module high-density interconnection printed wiring board of claim 5, wherein: the bottom of the guide sleeve (35) is fixedly provided with a clamping strip (36), and the outer wall of the guide sleeve (35) is fixedly provided with an expansion spring (37).