CN219893539U - Movable forming combined mechanism for producing surface mount devices - Google Patents

Abstract

The utility model relates to the technical field of surface mount device production, in particular to a movable forming combination mechanism for surface mount device production, which comprises a shifting flattening mechanism and a forming positioning mechanism; the shifting flattening mechanism comprises a mounting bracket, a shifting plate is slidably matched with the mounting bracket along the X direction, and a shifting driving cylinder for driving the shifting plate is arranged on the mounting bracket; the shifting plate is provided with a shifting clamping jaw cylinder frame and a flattening clamping jaw cylinder frame in a sliding fit mode along the Z direction, a shifting driving cylinder and a flattening driving cylinder are arranged on the shifting plate, and the output end of the shifting driving cylinder is fixedly connected with the shifting clamping jaw cylinder frame. In the processing process of the pins, when each time of displacement, the clamping jaws synchronously operate, all surface mount devices in a processing state can be sequentially moved to the next station at one time, the pins can be flattened by the final forming station before being clamped and conveyed to the blanking area, the processing flow is simplified, and the processing efficiency is improved.

Description

Movable forming combined mechanism for producing surface mount devices

Technical Field

The utility model relates to the technical field of surface mount device production, in particular to a movable forming combined mechanism for surface mount device production.

Background

The Surface Mount Device (SMD) has been widely used in integrated circuit boards because of its advantages of high packing density, small size of electronic products, light weight, good high frequency characteristics, and easy automation. In the process of manufacturing the surface mount device, some pins need to be wrapped inward to be attached to the surface of the package, which is called pin wrapping. In the current production process, the pin wrapping processing of the SMD mostly depends on manual operation, the processing efficiency is low, the pin is easy to be attached to the surface of the package, the degree of attachment is not high, and the product quality is unstable.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a movable forming combined mechanism for producing surface mount devices.

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

a movable forming combination mechanism for producing surface mount devices comprises a shifting flattening mechanism and a forming positioning mechanism;

the displacement flattening mechanism comprises a mounting bracket, a displacement plate is slidably matched with the mounting bracket along the X direction, and a displacement driving cylinder for driving the displacement plate is arranged on the mounting bracket;

the shifting plate is provided with a shifting clamping jaw cylinder frame and a flattening clamping jaw cylinder frame in a sliding fit mode along the Z direction, the shifting plate is provided with a shifting driving cylinder and a flattening driving cylinder, the output end of the shifting driving cylinder is fixedly connected with the shifting clamping jaw cylinder frame, and the output end of the flattening driving cylinder is fixedly connected with the flattening clamping jaw cylinder frame;

a first shifting cylinder and a second shifting cylinder are in sliding fit with the shifting clamping jaw cylinder frame along the Z direction, the output end of the first shifting cylinder is fixedly connected with a first shifting clamping jaw, and the output end of the second shifting cylinder is fixedly connected with a second shifting clamping jaw;

the flattening fixture is fixedly connected to the flattening clamping jaw cylinder frame, the blanking clamping jaw cylinder is fixedly mounted on the flattening clamping jaw cylinder frame, and the blanking clamping jaw is fixedly connected to the output end of the blanking clamping jaw cylinder;

the forming and positioning mechanism comprises a blanking supporting seat, and a forming station is arranged on the blanking supporting seat.

Preferably, the left and right ends of the mounting bracket are respectively provided with a buffer.

Preferably, a flattening top block is arranged at the bottom of the flattening tool.

Preferably, the front side and the rear side of the forming station are respectively provided with a forming push block which is in sliding fit with the blanking support seat along the Y direction, the blanking support seat is provided with two forming push block motors, and each forming push block motor is used for respectively driving one forming push block.

The beneficial effects of the utility model are as follows:

in the processing process of the pins, when each time of displacement, the clamping jaws synchronously operate, all surface mount devices in a processing state can be sequentially moved to the next station at one time, the pins can be flattened by the final forming station before being clamped and conveyed to the blanking area, the processing flow is simplified, and the processing efficiency is improved.

Drawings

Fig. 1 is a schematic three-dimensional structure of a movable forming assembly mechanism for producing surface mount devices according to the present utility model;

fig. 2 is a schematic diagram of the upper structure of a shift plate of a movable forming assembly mechanism for producing surface mount devices according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the movable molding assembly mechanism for surface mount device in FIG. 2A according to the present utility model;

FIG. 4 is a schematic diagram of a structure of a surface mount device prior to molding;

fig. 5 is a schematic structural diagram of the surface mount device after molding.

In the figure: 1-a displacement flattening mechanism; 101-mounting a bracket; 102-a displacement drive cylinder; 103-a displacement plate; 104-a displacement drive cylinder; 105-shifting the jaw cylinder frame; 106-a first displacement cylinder; 107-a second displacement cylinder; 108-a first displacement jaw; 109-a second displacement jaw; 110-flattening driving cylinder; 111-flattening a clamping jaw cylinder frame; 112-flattening the tool; 1121-flattening the top block; 113-a blanking clamping claw cylinder; 114-a blanking clamping jaw; 115-a buffer; 2-forming and positioning mechanism; 21-a blanking supporting seat; 22-a forming station; 23-forming a pushing block motor; 24-forming a pushing block; 3-surface mount devices.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-3, a movable forming combination mechanism for producing surface mount devices comprises a shifting flattening mechanism 1 and a forming positioning mechanism 2;

the displacement flattening mechanism 1 comprises a mounting bracket 101, a displacement plate 103 is slidably matched with the mounting bracket 101 along the X direction, a displacement driving cylinder 102 for driving the displacement plate 103 is mounted on the mounting bracket 101, and buffers 115 are respectively arranged at the left end and the right end of the mounting bracket 101 to limit the left travel and the right travel of the displacement plate 103.

The shifting plate 103 is provided with a shifting clamping jaw cylinder frame 105 and a flattening clamping jaw cylinder frame 111 in a sliding fit mode along the Z direction, the shifting plate 103 is provided with a shifting driving cylinder 104 and a flattening driving cylinder 110, the output end of the shifting driving cylinder 104 is fixedly connected with the shifting clamping jaw cylinder frame 105, and the output end of the flattening driving cylinder 110 is fixedly connected with the flattening clamping jaw cylinder frame 111. The shifting clamping jaw cylinder frame 105 is provided with a first shifting cylinder 106 and a second shifting cylinder 107 in a sliding fit mode along the Z direction, the output end of the first shifting cylinder 106 is fixedly connected with a first shifting clamping jaw 108, and the output end of the second shifting cylinder 107 is fixedly connected with a second shifting clamping jaw 109.

The flattening clamping jaw cylinder frame 111 is fixedly connected with a flattening tool 112, a flattening top block 1121 is arranged at the bottom of the flattening tool 112, the flattening clamping jaw cylinder frame 111 is fixedly provided with a blanking clamping jaw cylinder 113, and the output end of the blanking clamping jaw cylinder 113 is fixedly connected with a blanking clamping jaw 114.

The forming and positioning mechanism 2 comprises a blanking supporting seat 21, a forming station 22 is arranged on the blanking supporting seat 21, the forming station 22, a first bending station and a second bending station of a front working section are sequentially arranged from left to right along the X direction, forming push blocks 24 which are in sliding fit on the blanking supporting seat 21 along the Y direction are respectively arranged on the front side and the rear side of the forming station 22, two forming push block motors 23 are arranged on the blanking supporting seat 21, and each forming push block motor 23 drives one forming push block 24 respectively.

After the pins are bent for the first time at the first bending station of the preamble section, the first shifting clamping jaw 108 clamps the surface mount device 3, the shifting driving cylinder 102 drives the shifting plate 103 to shift leftwards, the surface mount device 3 is sent to the second bending station, the first shifting clamping jaw 108 keeps clamping the surface mount device 3, the pins are bent for the second time, and the pins are shown in fig. 4 after the second bending.

After that, the first shifting claw 108 is loosened, the shifting driving cylinder 102 drives the shifting plate 103 to move rightwards, the second shifting claw 109 clamps the surface mount device 3, the shifting driving cylinder 102 drives the shifting plate 103 to move leftwards, the surface mount device 3 is sent to the forming station 22, the shifting driving cylinder 102 drives the shifting plate 103 to move rightwards, the forming pushing block motor 23 drives the forming pushing block 24 to push against the surface mount device 3 from the front side and the rear side, the flattening driving cylinder 110 drives the flattening claw cylinder frame 111 to press downwards, the flattening tool 112 is driven to press downwards, and the flattening jacking block 1121 flattens pins, as shown in fig. 5.

Then, the surface mount device 3 is gripped by the blanking gripper 114, and the shift driving cylinder 102 drives the shift plate 103 to shift leftward, so that blanking is performed.

The first bending station, the second bending station and the forming station 22 synchronously process, and in each shifting process, the first shifting clamping jaw 108, the second shifting clamping jaw 109 and the blanking clamping jaw 114 synchronously operate to sequentially move all the surface mount devices 3 in the processing state to the next station at one time, so that the processing efficiency is improved.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (4)

1. The movable forming combined mechanism for producing the surface mount device is characterized by comprising a shifting flattening mechanism (1) and a forming positioning mechanism (2);

the displacement flattening mechanism (1) comprises a mounting bracket (101), a displacement plate (103) is slidably matched with the mounting bracket (101) along the X direction, and a displacement driving cylinder (102) for driving the displacement plate (103) is arranged on the mounting bracket (101);

a shifting clamping jaw cylinder frame (105) and a flattening clamping jaw cylinder frame (111) are slidably matched on the shifting plate (103) along the Z direction, a shifting driving cylinder (104) and a flattening driving cylinder (110) are arranged on the shifting plate (103), the output end of the shifting driving cylinder (104) is fixedly connected with the shifting clamping jaw cylinder frame (105), and the output end of the flattening driving cylinder (110) is fixedly connected with the flattening clamping jaw cylinder frame (111);

a first shifting cylinder (106) and a second shifting cylinder (107) are slidably matched on the shifting clamping jaw cylinder frame (105) along the Z direction, the output end of the first shifting cylinder (106) is fixedly connected with a first shifting clamping jaw (108), and the output end of the second shifting cylinder (107) is fixedly connected with a second shifting clamping jaw (109);

the flattening clamping jaw cylinder frame (111) is fixedly connected with a flattening tool (112), the flattening clamping jaw cylinder frame (111) is fixedly provided with a blanking clamping jaw cylinder (113), and the output end of the blanking clamping jaw cylinder (113) is fixedly connected with a blanking clamping jaw (114);

the forming and positioning mechanism (2) comprises a blanking supporting seat (21), and a forming station (22) is arranged on the blanking supporting seat (21).

2. The movable molding assembly mechanism for surface mount device production according to claim 1, wherein the mounting bracket (101) is provided with buffers (115) at both left and right ends thereof, respectively.

3. The movable forming combination mechanism for producing surface mount devices according to claim 1, wherein a bottom of the flattening fixture (112) is provided with a flattening top block (1121).

4. The movable forming combination mechanism for surface mount device production according to claim 1, wherein forming pushing blocks (24) which are in sliding fit with a blanking support seat (21) along the Y direction are respectively arranged on the front side and the rear side of the forming station (22), two forming pushing block motors (23) are arranged on the blanking support seat (21), and each forming pushing block motor (23) respectively drives one forming pushing block (24).