CN219095956U - Rivet head feeding mechanism capable of being precisely adjusted - Google Patents

Abstract

The utility model provides a rivet mechanism on can accurate adjustment, includes mount pad, Y axle direction fine setting fixing base, X axle direction fine setting fixing base, drive assembly and upper rivet, Y axle direction fine setting fixing base is located on the mount pad; the X-axis direction fine adjustment fixing seat is arranged on the Y-axis direction fine adjustment fixing seat; the driving component is arranged on the fine adjustment fixing seat in the X-axis direction; the upper rivet is positioned below the mounting seat and connected with the driving assembly. Accordingly, when the upper rivet is not aligned with the lower rivet, the fixing seat can be finely adjusted in the Y-axis direction, and the dial gauge and the micrometer are matched, so that the upper rivet moves and is finely adjusted in the Y-axis direction; then, the fixing seat is finely adjusted in the X-axis direction and is matched with the dial indicator and the micrometer, so that the upper rivet head moves in the X-axis direction for fine adjustment, and after adjustment in the Y-axis direction and the X-axis direction, the upper rivet head and the lower rivet head are coaxial, and the coaxiality of the upper rivet head and the lower rivet head can reach +/-0.02 mm.

Description

Rivet head feeding mechanism capable of being precisely adjusted

Technical Field

The utility model relates to the technical field of rivet equipment, in particular to a precisely adjustable rivet head feeding mechanism.

Background

When the inner layers of boards of the circuit board are pressed together, the required overlap ratio of each inner layer is more accurate, and serious layer deviation is not generated; meanwhile, a riveting device is often adopted to press, rivet and connect the multi-layer inner layer plates of the circuit board together. The current rivet equipment comprises a mounting frame, an upper rivet and a lower rivet, wherein the lower rivet is fixedly arranged on the mounting frame, the upper rivet is movably arranged on the mounting frame, accordingly, when a circuit board needs to be riveted, the lower rivet stretches into a riveting hole of the circuit board, the upper rivet presses the rivet into the riveting hole and is matched with the lower rivet in a riveting mode, and the rivet placed in the riveting hole of the circuit board is fixed on the circuit board in a riveting mode. However, when the upper rivet head and the lower rivet head are contacted and riveted, the upper rivet head and the lower rivet head are required to be coaxial, so that the rivet can be smoothly riveted and fixed on the circuit board, and the problems of concave and deformation of the circuit board are avoided.

Therefore, when the conventional rivet equipment performs riveting operation on the circuit board, the problem that the upper rivet is difficult to ensure that the upper rivet is coaxial with the lower rivet, so that the circuit board is easy to sink and deform exists is solved.

Therefore, there is a need to provide a technical means to solve the above-mentioned drawbacks.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a precisely adjustable upper rivet mechanism, which solves the problems that the upper rivet and the lower rivet are difficult to be coaxial and the circuit board is easy to be concave and deformed in the prior art.

The utility model is realized in such a way that a precisely adjustable upper rivet mechanism comprises:

the mounting seat is characterized in that a Y-axis direction and an X-axis direction which is perpendicular to the Y-axis direction are defined on the surface of the mounting seat;

the Y-axis direction fine adjustment fixing seat is arranged on the mounting seat and can move along the Y-axis direction in an operation mode;

the X-axis direction fine adjustment fixing seat is arranged on the Y-axis direction fine adjustment fixing seat, and the X-axis direction fine adjustment fixing seat can move along the X-axis direction in an operation mode;

the driving assembly is arranged on the X-axis direction fine adjustment fixing seat and sequentially extends through the X-axis direction fine adjustment fixing seat, the Y-axis direction fine adjustment fixing seat and the mounting seat;

and the upper rivet is positioned below the mounting seat and connected with the driving assembly.

Specifically, the mounting seat is provided with a Y-direction fine adjustment sliding groove, and the Y-axis direction fine adjustment fixing seat is arranged in the Y-direction fine adjustment sliding groove.

Further, the Y-axis direction fine adjustment fixing seat is of a square structure, and the Y-axis direction fine adjustment sliding groove is a square groove.

Preferably, the mounting seat is provided with a Y-direction sliding limiting block, and the Y-direction sliding limiting block is adjacently arranged in the Y-direction fine-tuning sliding groove.

Specifically, an X-direction fine adjustment sliding groove is formed in the Y-axis direction fine adjustment fixing seat, and the X-axis direction fine adjustment fixing seat is arranged in the X-direction fine adjustment sliding groove.

Further, the X-axis direction fine adjustment fixing seat is of a square structure, and the X-axis direction fine adjustment sliding groove is a square groove.

Preferably, the Y-axis direction fine adjustment fixing seat is provided with an X-direction sliding limiting block, and the X-direction sliding limiting block is adjacently arranged in the X-direction fine adjustment sliding groove.

Specifically, the driving assembly comprises a servo motor and a screw rod module, wherein the screw rod module is arranged on the X-axis direction fine adjustment fixing seat and sequentially extends through the X-axis direction fine adjustment fixing seat, the Y-axis direction fine adjustment fixing seat and the mounting seat; the servo motor is arranged on the screw rod module and connected with the screw rod module.

Further, a first through hole is formed in the mounting seat, a second through hole is formed in the Y-axis direction fine adjustment fixing seat, a third through hole is formed in the X-axis direction fine adjustment fixing seat, and the screw rod module sequentially extends to penetrate through the third through hole, the second through hole and the first through hole.

Preferably, the first through hole, the second through hole and the third through hole are all round holes.

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

because the Y-axis direction fine adjustment fixing seat and the X-axis direction fine adjustment fixing seat are arranged, when the upper rivet is not aligned with the lower rivet, or the upper rivet and the lower rivet are not coaxial, the fixing seat can be fine-adjusted in the Y-axis direction, a micrometer and the micrometer are matched, specifically, when the Y-axis direction fine adjustment fixing seat is adjusted, the micrometer is fine-adjusted through reading of the micrometer, so that the upper rivet moves along the Y-axis direction for fine adjustment; then, rethread X axle direction fine setting fixing base, cooperation amesdial and micrometer again simultaneously, specifically, when adjusting X axle direction fine setting fixing base, through the amesdial reading, and micrometer fine setting, so, after the regulation of Y axle direction, X axle direction, be favorable to making last die and lower die coaxial, and this axiality between them can reach + -0.02 mm, thereby can guarantee smoothly to fix the rivet riveting on the circuit board, avoid the circuit board to appear concave, the problem of deformation.

Drawings

FIG. 1 is a schematic diagram of a precisely adjustable upper rivet mechanism according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram showing the connection structure of the mounting base, the Y-axis direction fine adjustment fixing base and the X-axis direction fine adjustment fixing base of the precisely adjustable upper rivet mechanism according to the embodiment of the utility model;

fig. 3 is an exploded view of fig. 2.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. Meanwhile, when an element is referred to as being "fixed" or "disposed" on another element, it may be directly on the other element or intervening elements may be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "fixedly connected to" another element, it can be conventionally connected by welding or bolting or gluing. In summary, it will be understood by those of ordinary skill in the art that the specific meaning of the terms described above in this disclosure is to be understood in a specific sense.

Embodiment one:

referring to fig. 1, the present utility model provides a preferred embodiment, which relates to a precisely adjustable upper rivet mechanism 1, wherein the precisely adjustable upper rivet mechanism 1 of the present embodiment is mainly used for pressing multiple inner layers of boards of a circuit board together. Specifically, the precisely adjustable upper die mechanism 1 of the present embodiment includes a mounting base 10, a Y-axis direction fine adjustment fixing base 20, an X-axis direction fine adjustment fixing base 30, a driving assembly 40, and an upper die 50, and the following further describes each part of the precisely adjustable upper die mechanism 1:

the surface of the mount 10 defines a Y-axis direction and an X-axis direction intersecting the Y-axis direction perpendicularly;

the Y-axis direction fine adjustment fixing base 20 is disposed on the mounting base 10, and the Y-axis direction fine adjustment fixing base 20 is operatively movable along the Y-axis direction;

the X-axis direction fine adjustment fixing base 30 is disposed on the Y-axis direction fine adjustment fixing base 20, and the X-axis direction fine adjustment fixing base 30 is operatively movable along the X-axis direction;

the driving component 40 is arranged on the X-axis direction fine adjustment fixing seat 30 and sequentially extends through the X-axis direction fine adjustment fixing seat 30, the Y-axis direction fine adjustment fixing seat 20 and the mounting seat 10;

upper rivet 50 is positioned below mounting block 10 and is connected to drive assembly 40.

Due to the arrangement of the Y-axis direction fine adjustment fixing base 20 and the X-axis direction fine adjustment fixing base 30, when the upper rivet 50 is not aligned with the lower rivet 2, or the upper rivet 50 is not coaxial with the lower rivet 2, at this time, the Y-axis direction fine adjustment fixing base 20 can be used, and a dial gauge and a micrometer are matched, specifically, when the Y-axis direction fine adjustment fixing base 20 is adjusted, the micrometer is fine-adjusted through the readings of the dial gauge, so that the upper rivet 50 moves along the Y-axis direction for fine adjustment; then, rethread X axis direction fine setting fixing base 30, cooperation amesdial and micrometer again simultaneously, specifically, when adjusting X axis direction fine setting fixing base 30, through the amesdial reading, and micrometer fine setting, so, the upper die 50 removes fine setting along X axis direction, after the regulation of Y axis direction, X axis direction, be favorable to making upper die 50 coaxial with lower die 2, and this axiality between them can reach + -0.02 mm moreover, thereby can guarantee smoothly to fix the rivet riveting on the circuit board, avoid the circuit board to appear concave, the problem of deformation.

Referring to fig. 1 to 3, preferably, the mounting base 10 is provided with a Y-direction fine adjustment sliding groove 11, and the Y-axis fine adjustment fixing base 20 is disposed in the Y-direction fine adjustment sliding groove 11, wherein by disposing the Y-direction fine adjustment sliding groove 11, the adjustment range of the Y-axis fine adjustment fixing base 20 is limited, and the accurate adjustment thereof is ensured. Optionally, the Y-axis direction fine adjustment fixing base 20 is a micro moving unit, in other words, the Y-axis direction fine adjustment fixing base 20 can be controlled to work by the main control unit.

Meanwhile, in order to facilitate processing and setting, the Y-axis direction fine adjustment fixing seat 20 has a square structure, and the Y-axis direction fine adjustment sliding groove 11 is a square groove. Furthermore, the distance between the edge of each Y-direction fine adjustment slide groove 11 and the edge of each Y-axis direction fine adjustment fixing seat 20 is 1-5mm.

In order to limit the sliding adjustment range of the Y-axis direction fine adjustment fixing base 20, the mount 10 is provided with a Y-direction sliding limiting block 12, and the Y-direction sliding limiting block 12 is disposed adjacent to the Y-direction fine adjustment sliding groove 11.

Embodiment two:

referring to fig. 1 to 3, in another preferred embodiment of the present application, the specific structure of the second embodiment is different from that of the above embodiment, and reference may be made to the detailed description of the above embodiment, which is not repeated herein, but the difference between the second embodiment and the above embodiment is that:

in this embodiment, the Y-axis direction fine adjustment fixing base 20 is provided with an X-axis direction fine adjustment sliding groove 21, and the X-axis direction fine adjustment fixing base 30 is disposed in the X-axis direction fine adjustment sliding groove 21, wherein by setting the X-axis direction fine adjustment sliding groove 21, the adjustment range of the X-axis direction fine adjustment fixing base 30 is limited, and the accurate adjustment thereof is ensured. Optionally, the X-axis direction fine adjustment fixing base 30 is a micro moving unit, in other words, the X-axis direction fine adjustment fixing base 30 can be controlled to work by the main control unit.

Meanwhile, in order to facilitate processing and setting, the fine adjustment fixing seat 30 in the X-axis direction is of a square structure, and the fine adjustment sliding groove in the X-axis direction is of a square groove. Moreover, the distance between the edge of each X-direction fine adjustment sliding groove and the edge of each corresponding X-axis direction fine adjustment fixing seat 30 is 1-5mm.

In order to limit the sliding adjustment range of the X-axis direction fine adjustment holder 30, the Y-axis direction fine adjustment holder 20 is provided with an X-direction sliding restriction block 22, and the X-direction sliding restriction block 22 is disposed adjacent to the X-direction fine adjustment sliding groove 21.

Embodiment III:

referring to fig. 1 to 3, in another preferred embodiment of the present application, the third embodiment is different from the above embodiment in specific structural dimensions, and reference may be made to the detailed description of the above embodiment, which is not repeated herein, but the third embodiment is different from the above embodiment in that:

in the present embodiment, the driving assembly 40 includes a servo motor 41 and a screw module 42, the screw module 42 is disposed on the fine adjustment fixing base 30 in the X-axis direction, and extends sequentially through the fine adjustment fixing base 30 in the X-axis direction, the fine adjustment fixing base 20 in the Y-axis direction, and the mounting base 10; the servo motor 42 is disposed on the screw module 41 and connected to the screw module 41.

Therefore, when the upper rivet 50 is required to be matched with the lower rivet 2, the servo motor 42 is started, the screw rod module 41 is driven by the servo motor 42 to work, and after the screw rod module 41 works, the screw rod module 41 drives the upper rivet 50 to move to a position close to the lower rivet 2, and the upper rivet 50 is matched with the lower rivet 2 to be riveted.

In order to facilitate the installation of the driving assembly 40, the installation seat 10 is provided with a first through hole 13, the y-axis direction fine adjustment fixing seat 20 is provided with a second through hole 23, the x-axis direction fine adjustment fixing seat 30 is provided with a third through hole 31, and the screw rod module 42 sequentially extends through the third through hole 31, the second through hole 23 and the first through hole 13.

Meanwhile, in order to facilitate the processing setting, the first through hole 13, the second through hole 23, and the third through hole 31 are all circular holes.

The above-mentioned embodiments of the present utility model are not limited to the above-mentioned embodiments, but can be modified, equivalent, and improved within the spirit and principle of the present utility model, and are included in the scope of the present utility model.

Claims (10)

1. The utility model provides a but accurate regulation go up die mechanism which characterized in that includes:

the mounting seat is characterized in that a Y-axis direction and an X-axis direction which is perpendicular to the Y-axis direction are defined on the surface of the mounting seat;

the Y-axis direction fine adjustment fixing seat is arranged on the mounting seat and can move along the Y-axis direction in an operation mode;

the X-axis direction fine adjustment fixing seat is arranged on the Y-axis direction fine adjustment fixing seat, and the X-axis direction fine adjustment fixing seat can move along the X-axis direction in an operation mode;

the driving assembly is arranged on the X-axis direction fine adjustment fixing seat and sequentially extends through the X-axis direction fine adjustment fixing seat, the Y-axis direction fine adjustment fixing seat and the mounting seat;

and the upper rivet is positioned below the mounting seat and connected with the driving assembly.

2. The precisely adjustable rivet feeding mechanism according to claim 1, wherein the mounting base is provided with a Y-direction fine adjustment sliding groove, and the Y-axis direction fine adjustment fixing base is disposed in the Y-direction fine adjustment sliding groove.

3. The precisely adjustable rivet feeding mechanism as set forth in claim 2, wherein said Y-axis direction fine adjustment fixing base is of square configuration, and said Y-axis direction fine adjustment sliding groove is of square configuration.

4. The precisely adjustable rivet feeding mechanism as set forth in claim 2, wherein said mounting base is provided with a Y-direction sliding limiting block, said Y-direction sliding limiting block being disposed adjacent said Y-direction fine-tuning sliding groove.

5. The precisely adjustable rivet feeding mechanism according to claim 1, wherein the Y-axis direction fine adjustment fixing base is provided with an X-axis direction fine adjustment sliding groove, and the X-axis direction fine adjustment fixing base is disposed in the X-axis direction fine adjustment sliding groove.

6. The precisely adjustable rivet feeding mechanism as set forth in claim 5, wherein said X-axis direction fine adjustment fixing base is of square configuration, and said X-axis direction fine adjustment sliding groove is of square configuration.

7. The precisely adjustable rivet feeding mechanism as set forth in claim 5, wherein said Y-axis fine adjustment holder is provided with an X-direction slide limiting block, said X-direction slide limiting block being disposed adjacent to said X-direction fine adjustment slide groove.

8. The precisely adjustable rivet head mechanism as set forth in any one of claims 1-7, wherein said drive assembly comprises a servo motor and a screw module, said screw module being disposed on said X-axis fine adjustment mount and extending sequentially through said X-axis fine adjustment mount, said Y-axis fine adjustment mount, and said mount; the servo motor is arranged on the screw rod module and connected with the screw rod module.

9. The precisely adjustable rivet feeding mechanism according to claim 8, wherein the mounting base is provided with a first through hole, the Y-axis direction fine adjustment fixing base is provided with a second through hole, the X-axis direction fine adjustment fixing base is provided with a third through hole, and the screw rod module sequentially extends through the third through hole, the second through hole and the first through hole.

10. The precisely adjustable rivet mechanism of claim 9, wherein the first through hole, the second through hole, and the third through hole are circular holes.

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