CN219335477U - Hardware bending correction structure - Google Patents

Abstract

The hardware bending correcting structure comprises a base and a stamping assembly, wherein the stamping assembly comprises a buckling seat, an elastic piece, a push rod and an inclined sliding block, the inclined sliding block is arranged in the buckling seat in a sliding mode, at least part of the inclined sliding block protrudes out of the bottom surface of the buckling seat, the push rod and the elastic piece are arranged in the buckling seat in a penetrating mode, two ends of the push rod are respectively abutted to the inclined sliding block and the elastic piece, the buckling seat is buckled with the base, and when the buckling seat and the base clamp hardware together, the inclined sliding block slides obliquely relative to the buckling seat, and then the inclined sliding block pushes the hardware to bend. Therefore, the inclined sliding block corrects the hardware into a right-angle bending structure, and the bending quality of the hardware is improved.

Description

Hardware bending correction structure

Technical Field

The utility model relates to the field of stamping, in particular to a hardware bending correction structure.

Background

The stamping is a forming processing method for a workpiece (stamping part) with a required shape and size by applying external force to plates, strips, pipes, sectional materials and the like by using a press machine and a die to enable the plates, the strips, the pipes, the sectional materials and the like to generate plastic deformation or separation.

For the hardware 20 shown in fig. 1, the right-angle structure is formed through the bending process, but when the hardware 20 loses the punching force of the bending die after the bending process is completed, the formed right-angle structure is degraded under the action of the elastic resilience force of the hardware 20, and the problem that the angle is larger than the demand occurs is solved, because in order to solve the technical problem, the hardware bending correction structure is provided.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a hardware bending correcting structure for correcting a hardware bending structure so as to improve the hardware bending quality.

The aim of the utility model is realized by the following technical scheme:

a hardware bend correction structure, comprising:

a base; a kind of electronic device with high-pressure air-conditioning system

The stamping assembly comprises a buckling seat, an elastic piece, a push rod and an inclined sliding block, wherein the inclined sliding block is arranged in the buckling seat in a sliding manner, at least part of the inclined sliding block protrudes out of the bottom surface of the buckling seat, the push rod and the elastic piece are arranged in the buckling seat in a penetrating manner, and two ends of the push rod are respectively abutted against the inclined sliding block and the elastic piece;

the buckle seat is buckled with the base, so that when the buckle seat and the base clamp hardware together, the inclined sliding block slides obliquely relative to the buckle seat, and then the inclined sliding block pushes against to bend the hardware.

In one embodiment, the inclined sliding block is provided with an inclined sliding surface, and the inclined sliding surface is abutted with the buckling seat.

In one embodiment, the inclined slide block is provided with a pressing surface, and the pressing surface is used for pushing the hardware.

In one embodiment, the included angle between the top pressing surface and the inclined sliding surface is 14-16 degrees.

In one embodiment, the angle between the top pressing surface and the inclined sliding surface is 15 °.

In one embodiment, the inclined sliding block comprises an integrally formed inclined block and a pressing block, the inclined block is arranged on the pressing block, the inclined sliding surface is positioned on the inclined block, and the pressing surface is positioned on the pressing block.

In one embodiment, the pressing block is provided with a clamping step, and the clamping step is clamped with the buckling seat.

In one embodiment, two inclined blocks are arranged, and the two inclined blocks are respectively arranged on two sides of the top pressing block.

In one embodiment, the elastic member is a spring.

Compared with the prior art, the utility model has at least the following advantages:

the hardware bending correcting structure comprises a base and a stamping assembly, wherein the stamping assembly comprises a buckling seat, an elastic piece, a push rod and an inclined sliding block, the inclined sliding block is arranged in the buckling seat in a sliding mode, at least part of the inclined sliding block protrudes out of the bottom surface of the buckling seat, the push rod and the elastic piece are arranged in the buckling seat in a penetrating mode, two ends of the push rod are respectively abutted to the inclined sliding block and the elastic piece, the buckling seat is buckled with the base, and when the buckling seat and the base clamp hardware together, the inclined sliding block slides obliquely relative to the buckling seat, and then the inclined sliding block pushes the hardware to bend. Therefore, the inclined sliding block corrects the hardware into a right-angle bending structure, and the bending quality of the hardware is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of a hardware bending correction structure according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of the hardware bending correction structure shown in FIG. 1 in another working state;

fig. 3 is a schematic structural diagram of an oblique slider according to an embodiment of the present utility model.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model.

Referring to fig. 1 and 2, a hardware bending correction structure 10 includes a base 100 and a stamping assembly 200, wherein the stamping assembly 200 includes a buckle base 210, an elastic member 220, a push rod 230 and an inclined slider 240, the inclined slider 240 is slidably disposed in the buckle base 210, at least a portion of the inclined slider 240 protrudes from a bottom surface of the buckle base 210, the push rod 230 and the elastic member 220 are respectively inserted into the buckle base 210, two ends of the push rod 230 are respectively abutted against the inclined slider 240 and the elastic member 220, the buckle base 210 is buckled with the base 100, so that when the buckle base 210 and the base 100 jointly clamp the hardware 20, the inclined slider 240 slides obliquely relative to the buckle base 210, and the inclined slider 240 is pushed to bend the hardware 20.

It should be noted that, when the fastening base 210 and the base 100 are fastened to each other, the hardware 20 can be first clamped. The hardware 20 is in a sheet structure, the buckle base 210 is pressed down to clamp one end of the hardware 20 together with the base 100, so that the other end of the hardware 20 is in an unclamped state, for convenience of description, the clamped end of the hardware 20 clamped by the buckle base 210 and the base 100 is defined as a first end, and the other end of the hardware 20 is defined as a second end. As the buckle seat 210 continues to descend and approaches to the base 100, the base 100 abuts against and pushes the inclined slide block 240, and as the inclined slide block 240 slides obliquely relative to the buckle seat 210, the inclined slide block 240 applies an obliquely upward pushing force to the second end of the hardware 20, so that the inclined slide block 240 corrects the hardware 20 to a right-angle bending structure, and the bending quality of the hardware 20 is improved.

In one embodiment, the elastic member 220 is a spring. Thus, the ejector pin 230 is held by the spring, so that the inclined slide block 240 has a buffering function when sliding along the inclined direction.

Referring to fig. 3, in an embodiment, a slant surface 241 is disposed on the slant slider 240, and the slant surface 241 abuts against the buckle seat 210.

It should be noted that, by providing the inclined sliding surface 241 on the inclined sliding block 240, where the inclined sliding surface 241 is abutted against the buckle seat 210, when the inclined sliding block 240 is abutted against and pushed by the base 100, the inclined sliding surface 241 slides along the buckle seat 210, for example, an inclined sliding groove adapted to the inclined sliding surface 241 is formed on the buckle seat 210, and the inclined sliding surface 241 slides along an inner side wall of the inclined sliding groove of the buckle seat 210, so that the inclined sliding block 240 can slide along the inclined direction.

Referring to fig. 3, in one embodiment, the diagonal slider 240 is provided with a pressing surface 242, and the pressing surface 242 is used for pushing the hardware 20.

It should be noted that, the pressing surface 242 and the inclined sliding surface 241 are respectively located at two opposite sides of the inclined sliding block 240, wherein the inclined sliding surface 241 abuts against the fastening seat 210, and the pressing surface 242 is used for pushing the hardware 20. Further, in an embodiment, the angle between the pressing surface 242 and the inclined sliding surface 241 is 14 ° to 16 °. For example, the angle between the pressing surface 242 and the inclined surface 241 may also be 15 °. Thus, smooth sliding between diagonal slide member 240 and socket 210 can be ensured.

Referring to fig. 3, in an embodiment, the inclined slider 240 includes an integrally formed inclined block 243 and a pressing block 244, the inclined block 243 is disposed on the pressing block 244, the inclined sliding surface 241 is disposed on the inclined block 243, and the pressing surface 242 is disposed on the pressing block 244.

In order to prevent the diagonal slider 240 from sliding out of the socket 210, the diagonal slider 240 is configured such that the top pressing block 244 is connected to the diagonal block 243 such that the width of the diagonal block 243 is larger than the width of the top pressing block 244. So that diagonal slider 240 can only slide diagonally with respect to button seat 210.

Referring to fig. 3, in one embodiment, the pressing block 244 is provided with a locking step 244a, and the locking step 244a is locked with the fastening seat 210. It should be noted that, by providing the locking step 244a, the inclined slider 240 can be locked and fixed by the fastening seat 210, and cannot slide off the fastening seat 210.

Referring to fig. 3, in one embodiment, two diagonal blocks 243 are provided, and the two diagonal blocks 243 are respectively disposed on two sides of the pressing block 244.

In order to improve the sliding stability of the diagonal block 243, a diagonal block 243 is disposed on each of two sides of the pressing block 244, so that the diagonal block 240 is ensured to stably slide along the opposite directions, and the pressing block 244 can stably and reliably push the hardware 20.

It should be noted that, the diagonal sliding of the diagonal slider 240 along the diagonal direction refers to defining the relative motion between the buckle base 210 and the base 100 as a vertical motion, and the direction in which the diagonal slider 240 slides along the buckle base 210 has a certain angle with the motion direction of the buckle base 210, so that the diagonal slider 240 slides along the diagonal direction.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (9)

1. A hardware bending correction structure, comprising:

a base; a kind of electronic device with high-pressure air-conditioning system

The stamping assembly comprises a buckling seat, an elastic piece, a push rod and an inclined sliding block, wherein the inclined sliding block is arranged in the buckling seat in a sliding manner, at least part of the inclined sliding block protrudes out of the bottom surface of the buckling seat, the push rod and the elastic piece are arranged in the buckling seat in a penetrating manner, and two ends of the push rod are respectively abutted against the inclined sliding block and the elastic piece;

the buckle seat is buckled with the base, so that when the buckle seat and the base clamp hardware together, the inclined sliding block slides obliquely relative to the buckle seat, and then the inclined sliding block pushes against to bend the hardware.

2. The hardware bending correction structure according to claim 1, wherein the inclined sliding block is provided with an inclined sliding surface, and the inclined sliding surface is abutted against the buckling seat.

3. The hardware bending correction structure according to claim 2, wherein the inclined slider is provided with a pressing surface for pushing the hardware.

4. A hardware warp correction structure as claimed in claim 3, wherein the angle between the top pressure surface and the ramp surface is 14 ° to 16 °.

5. The hardware warp correction structure of claim 4, wherein an angle between the top press surface and the ramp surface is 15 °.

6. The hardware bending correction structure of claim 3, wherein the inclined slide block comprises an integrally formed inclined block and a pressing block, the inclined block is arranged on the pressing block, the inclined slide surface is arranged on the inclined block, and the pressing surface is arranged on the pressing block.

7. The hardware bending correction structure according to claim 6, wherein the pressing block is provided with a clamping step, and the clamping step is clamped with the buckling seat.

8. The hardware bending correction structure according to claim 6, wherein two inclined blocks are provided, and the two inclined blocks are respectively arranged on two sides of the pressing block.

9. The hardware warp correction structure of claim 1, wherein the resilient member is a spring.

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