CN112916696B

CN112916696B - Automatic buckle forming device for CPU radiator

Info

Publication number: CN112916696B
Application number: CN202110007535.1A
Authority: CN
Inventors: 李翠兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-05
Filing date: 2021-01-05
Publication date: 2024-04-02
Anticipated expiration: 2041-01-05
Also published as: CN112916696A

Abstract

The present invention relates to a molding device, and more particularly, to an automatic molding device for a fastener of a CPU radiator. The invention provides an automatic buckle forming device for a CPU radiator, which releases two hands and improves productivity. An automatic forming device of a fastener for a CPU radiator, comprising: the two sides of the bottom plate are symmetrically connected with the brackets; the air cylinder is arranged between the upper parts of the two brackets; the stamping mechanism is connected between the cylinder telescopic rod and the bottom plate; the positioning mechanism is connected between the stamping mechanism and the bottom plate and is matched with the stamping mechanism. According to the invention, the steel plate buckle is placed on the bottom plate by people, then the air cylinder is started, the air cylinder telescopic rod drives the punching component to move downwards, and the first compression spring plays a role of buffering and is compressed, so that the punching effect on the buckle is realized.

Description

Automatic buckle forming device for CPU radiator

Technical Field

The present invention relates to a molding device, and more particularly, to an automatic molding device for a fastener of a CPU radiator.

Background

The fastener is a tool for fixing the radiator and the CPU slot, the quality of the fastener directly influences the difficulty and the radiating effect of installation, the tighter the fastener is, the larger the downward pressure of the radiating fin can be generated, the larger the contact area between the radiating fin and the CPU core is, the smaller the thermal resistance is, the mode of manufacturing the fastener at present is mostly manufactured by manually by means of an iron tool, the mode needs to consume precious time, the manual manufacturing efficiency is low, the cost is high, and the palm is easy to scratch.

In order to liberate both hands of people and reduce cost and manufacture qualified buckles, an automatic buckle forming device for the CPU radiator, which can realize automatic stamping, automatic clamping and automatic positioning, needs to be designed.

Disclosure of Invention

In order to overcome the defects of time consumption and low manual efficiency, the technical problems are as follows: provided is an automatic forming device for a CPU radiator, which can release both hands and improve productivity.

The technical scheme of the invention is as follows: an automatic forming device of a fastener for a CPU radiator, comprising:

the two sides of the bottom plate are symmetrically connected with the brackets;

the air cylinder is arranged between the upper parts of the two brackets;

the stamping mechanism is connected between the cylinder telescopic rod and the bottom plate;

the positioning mechanism is connected between the stamping mechanism and the bottom plate and is matched with the stamping mechanism.

Further, the punching mechanism includes:

the upper part of the bottom plate is connected with the first guide sleeve;

the stamping assembly is arranged on the cylinder telescopic rod and is connected with the first guide sleeve in a sliding manner;

and a first compression spring is connected between the punching assembly and the top of the first guide sleeve, and is wound on the punching assembly.

Further, the positioning mechanism includes:

the two sides of the bottom plate are symmetrically provided with the second guide sleeves;

the pressing plate is symmetrically and slidably arranged between the upper part of the punching assembly and the second guide sleeve;

the stretching spring is connected between the top of the punching assembly and the top of the pressing plate and is wound on the pressing plate;

the positioning guide plates are symmetrically arranged on two sides of the upper part of the bottom plate;

the inner sides of the two positioning guide plates are provided with two positioning sleeves in a sliding manner, and the pressing plate is matched with the positioning sleeves;

and a second compression spring is connected between the top of the positioning sleeve and the positioning guide plate and is wound on the positioning sleeve.

Further, still include clamping mechanism, clamping mechanism includes:

the third guide sleeves are symmetrically arranged on two sides of the upper part of the bottom plate;

the clamping blocks are arranged on the two third guide sleeves in a sliding mode;

and a third compression spring is connected between the clamping block and the third guide sleeve, and the third compression spring is wound on the clamping block.

Further, still including card solid mechanism, card solid mechanism includes:

the two sides of the upper part of the bottom plate are symmetrically provided with the fourth guide sleeves;

the elastic clamping block assembly is arranged on the fourth guide sleeve in a sliding manner;

the fifth guide sleeve is symmetrically arranged on two sides of the upper part of the bottom plate;

the first elastic extrusion blocks are arranged on the two fifth guide sleeves in a sliding manner;

the connecting plate is connected between the bottoms of the two first elastic extrusion blocks;

the lower part of the bottom plate is provided with a sixth guide sleeve;

an elastic push plate is arranged between the sixth guide sleeve and the bottom plate in a sliding manner;

a rotating sleeve is arranged at the lower part of the bottom plate;

the elastic rotating plate is rotatably arranged on the rotating sleeve and is in contact fit with the connecting plate and the elastic push plate.

Further, still include pushing mechanism, pushing mechanism includes:

the seventh guide sleeve is symmetrically arranged on two sides of the upper part of the bottom plate;

the elastic pull plates are arranged on the two seventh guide sleeves in a sliding mode, and the tops of the two elastic pull plates are connected with the stamping assembly;

the eighth guide sleeve is symmetrically arranged on two sides of the upper part of the bottom plate;

the second elastic extrusion blocks are arranged on the two eighth guide sleeves in a sliding mode, the bottoms of the second elastic extrusion blocks are connected with the elastic pulling plates, and the tops of the second elastic extrusion blocks are matched with the clamping blocks.

Further, still include pushing equipment, pushing equipment includes:

the fixed guide plates are symmetrically arranged on two sides of the upper part of the bottom plate;

a ninth guide sleeve is connected between the tops of the two fixed guide plates;

the elastic pushing block is connected with the ninth guide sleeve in a sliding manner;

the elastic pushing block is provided with a sliding baffle.

Further, the second elastic extrusion block is made of wood.

The beneficial effects are that: 1. according to the invention, the steel plate buckle is placed on the bottom plate by people, then the air cylinder is started, the air cylinder telescopic rod drives the punching assembly to move downwards, and the first compression spring plays a role of buffering and is compressed, so that the punching effect on the buckle is realized;

2. the positioning sleeve moves downwards through the pressing plate, and the second compression spring is compressed, so that the positioning effect on the steel plate buckle is realized;

3. the clamping blocks are manually pulled outwards by people, so that the third compression spring is compressed, then the steel plate buckle is placed on the bottom plate, the clamping blocks are loosened, and the third compression spring is reset, so that the effect of clamping the steel plate buckle is achieved;

4. the connecting plate drives the first elastic extrusion block to move upwards, so that the first elastic extrusion block drives the elastic clamping block assembly to move forwards, the elastic clamping block assembly is clamped, the clamping block moves inwards, and the effect of clamping a new steel plate fastener is achieved;

5. the stamping assembly drives the elastic pulling plate to move downwards, so that the second elastic extrusion block moves downwards, the clamping block moves inwards and clamps the steel plate buckle, and the effect of automatically clamping the steel plate buckle is realized;

6. the elastic pushing block is manually pushed backwards by people, so that the sliding baffle moves forwards, and a new steel plate buckle is pushed to move backwards, and the feeding operation is realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a stamping mechanism according to the present invention.

Fig. 3 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 4 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 5 is a schematic perspective view of the fastening mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of a pushing mechanism of the present invention.

In the reference numerals: 1_floor, 2_bracket, 3_cylinder, 4_ram mechanism, 41_first guide sleeve, 42_ram assembly, 43_first compression spring, 5_positioning mechanism, 51_positioning guide plate, 52_positioning sleeve, 53_second compression spring, 54_second guide sleeve, 55_ram, 56_extension spring, 6_clamp mechanism, 61_third guide sleeve, 62_clamp block, 63_third compression spring, 7_clamp mechanism, 71_fourth guide sleeve, 72_elastic clamp block assembly, 73_fifth guide sleeve, 74_first elastic extrusion block, 75_sixth guide sleeve, 76_elastic push plate, 77_swivel, 78_elastic swivel, 79_connecting plate, 8_push mechanism, 81_seventh guide sleeve, 82_elastic pull plate, 83_eighth guide sleeve, 84_second elastic extrusion block, 9_push mechanism, 91_fixed guide plate, 92_ninth guide sleeve, 93_elastic push block, 94_slide shutter.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

The utility model provides a CPU is automatic forming device of fastener for radiator, as shown in FIG. 1, including bottom plate 1, support 2, cylinder 3, stamping mechanism 4 and positioning mechanism 5, bottom plate 1 rear portion left and right sides symmetry is connected with support 2, installs cylinder 3 between two support 2 upper portions, is connected with stamping mechanism 4 between cylinder 3 telescopic link and the bottom plate 1, is connected with positioning mechanism 5 between stamping mechanism 4 and the bottom plate 1, and positioning mechanism 5 cooperates with stamping mechanism 4.

When people need to manufacture the buckle, people can use the buckle automatic forming device for the CPU radiator, and put the steel plate buckle on the bottom plate 1, then start the air cylinder 3, and the telescopic rod of the air cylinder 3 drives the stamping mechanism 4 to move up and down, so as to drive the positioning mechanism 5 to move down, and the operation of manufacturing the buckle is realized.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 3, the stamping mechanism 4 comprises a first guide sleeve 41, a stamping component 42 and a first compression spring 43, wherein the rear side of the upper part of the bottom plate 1 is connected with the first guide sleeve 41, the stamping component 42 is arranged on the telescopic rod of the air cylinder 3, the stamping component 42 is connected with the first guide sleeve 41 in a sliding manner, the first compression spring 43 is connected between the stamping component 42 and the top of the first guide sleeve 41, and the first compression spring 43 is wound on the stamping component 42.

People put steel sheet fastener on bottom plate 1, start cylinder 3 afterwards, cylinder 3 telescopic link drives punching press subassembly 42 downwardly moving, and first compression spring 43 plays the cushioning effect and is compressed, has realized the punching press effect to the fastener promptly, then cylinder 3 telescopic link drives punching press subassembly 42 and upwards moves the reset, and first compression spring 43 resumes the original state, closes cylinder 3 when not needing the punching press.

The positioning mechanism 5 comprises a positioning guide plate 51, a positioning sleeve 52, a second compression spring 53, a second guide sleeve 54, a pressing plate 55 and an extension spring 56, wherein the second guide sleeve 54 is symmetrically arranged on the front side and the rear side of the left part of the bottom plate 1, the pressing plate 55 is symmetrically arranged between the upper part of the punching assembly 42 and the second guide sleeve 54 in a sliding mode, the extension spring 56 is connected between the top of the punching assembly 42 and the top of the pressing plate 55, the extension spring 56 is wound on the pressing plate 55, the positioning guide plates 51 are symmetrically arranged on the left side and the right side of the upper part of the bottom plate 1, two positioning sleeves 52 are respectively arranged on the inner sides of the two positioning guide plates 51 in a sliding mode, the pressing plate 55 is matched with the positioning sleeve 52, the second compression spring 53 is connected between the top of the positioning sleeve 52 and the positioning guide plate 51, and the second compression spring 53 is wound on the positioning sleeve 52.

When the telescopic rod of the air cylinder 3 drives the punching assembly 42 to move downwards, the punching assembly 42 enables the extension spring 56 to be stretched, so that the pressing plate 55 moves downwards, the positioning sleeve 52 moves downwards, the second compression spring 53 is compressed, namely, the positioning effect on the steel plate buckle is achieved, and when the punching assembly 42 moves upwards, the extension spring 56 drives the pressing plate 55 to reset, so that the second compression spring 53 drives the positioning sleeve 52 to reset.

Example 3

On the basis of embodiment 2, as shown in fig. 4-7, the clamping mechanism 6 is further included, the clamping mechanism 6 comprises a third guide sleeve 61, clamping blocks 62 and third compression springs 63, the third guide sleeves 61 are symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the clamping blocks 62 are slidably arranged on the two third guide sleeves 61, the third compression springs 63 are connected between the clamping blocks 62 and the third guide sleeves 61, and the third compression springs 63 are wound on the clamping blocks 62.

The clamping block 62 is manually pulled outwards by people, so that the third compression spring 63 is compressed, then the steel plate buckle is placed on the bottom plate 1, the clamping block 62 is loosened, the third compression spring 63 is reset, the clamping block 62 is driven to move inwards to clamp the steel plate buckle, and after stamping is finished, the stamped steel plate buckle can be removed by repeating the operation.

The clamping mechanism 7 comprises a fourth guide sleeve 71, an elastic clamping block assembly 72, a fifth guide sleeve 73, a first elastic extrusion block 74, a sixth guide sleeve 75, an elastic push plate 76, a rotating sleeve 77, an elastic rotating plate 78 and a connecting plate 79, wherein the fourth guide sleeve 71 is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the elastic clamping block assembly 72 is slidably arranged on the fourth guide sleeve 71, the fifth guide sleeve 73 is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the first elastic extrusion block 74 is slidably arranged on the two fifth guide sleeves 73, the connecting plate 79 is connected between the bottoms of the two first elastic extrusion blocks 74, the sixth guide sleeve 75 is slidably arranged on the lower portion of the bottom plate 1, the elastic push plate 76 is slidably arranged between the sixth guide sleeve 75 and the bottom plate 1, the rotating sleeve 77 is rotatably arranged on the rear side of the lower portion of the bottom plate 1, the elastic rotating plate 78 is in contact fit with the connecting plate 79 and the elastic push plate 76.

When people manually pull the clamping block 62 outwards, the elastic clamping block assembly 72 moves forwards, when the clamping block 62 is not moved, the elastic clamping block assembly 72 moves backwards, so that the clamping block 62 is clamped, then people manually push a new steel plate fastener to move backwards, meanwhile, the steel plate fastener which completes stamping is driven to move backwards, when the new steel plate fastener presses the elastic push plate 76 downwards, the front side of the elastic rotating plate 78 moves downwards and the rear side of the elastic push plate is tilted upwards, the connecting plate 79 drives the first elastic extrusion block 74 to move upwards, the first elastic extrusion block 74 drives the elastic clamping block assembly 72 to move forwards, the elastic clamping block assembly 72 is clamped, the clamping block 62 moves inwards, the effect of clamping a new steel plate fastener is achieved, when the elastic push plate 76 moves upwards to the front side of the new steel plate fastener, the elastic rotating plate 78 is reset, and the connecting plate 79 and the first elastic extrusion block 74 are reset, so that the elastic clamping block assembly 72 resets.

The pushing mechanism 8 comprises a seventh guide sleeve 81, an elastic pull plate 82, an eighth guide sleeve 83 and a second elastic extrusion block 84, wherein the seventh guide sleeve 81 is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the elastic pull plates 82 are respectively arranged on the two seventh guide sleeves 81 in a sliding mode, the tops of the two elastic pull plates 82 are connected with the punching assembly 42, the eighth guide sleeve 83 is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the second elastic extrusion block 84 is slidably arranged on the two eighth guide sleeves 83, the bottom of the second elastic extrusion block 84 is connected with the elastic pull plate 82, and the top of the second elastic extrusion block 84 is matched with the clamping block 62.

When the cylinder 3 telescopic rod drives the punching assembly 42 to move downwards, the punching assembly 42 drives the elastic pulling plate 82 to move downwards, so that the second elastic extrusion block 84 moves downwards, the clamping block 62 moves inwards and clamps the steel plate buckle, and when the cylinder 3 telescopic rod drives the punching assembly 42 to move upwards, the punching assembly 42 drives the elastic pulling plate 82 and the second elastic extrusion block 84 to move upwards, so that the clamping block 62 moves outwards to loosen the steel plate.

The automatic feeding device is characterized by further comprising a feeding mechanism 9, wherein the feeding mechanism 9 comprises a fixed guide plate 91, a ninth guide sleeve 92, an elastic push block 93 and a sliding baffle 94, the fixed guide plate 91 is symmetrically arranged on the left side and the right side of the upper portion of the bottom plate 1, the ninth guide sleeve 92 is connected between the tops of the two fixed guide plates 91, the elastic push block 93 is connected on the ninth guide sleeve 92 in a sliding mode, and the sliding baffle 94 is arranged on the elastic push block 93.

When the steel plate buckle is stamped, people manually push the elastic push block 93 backwards, so that the sliding baffle 94 moves backwards, and a new steel plate buckle is pushed to move backwards, namely, feeding operation is realized.

While the present disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure as defined by the appended claims and their equivalents. The scope of the disclosure should, therefore, not be limited to the above-described embodiments, but should be determined not only by the following claims, but also by the equivalents of the following claims.

Claims

1. The utility model provides a CPU is buckle automatic molding device for radiator which characterized in that includes:

the device comprises a bottom plate (1) and a bracket (2), wherein the brackets (2) are symmetrically connected to two sides of the bottom plate (1);

the air cylinder (3) is arranged between the upper parts of the two brackets (2);

the stamping mechanism (4) is connected between the telescopic rod of the air cylinder (3) and the bottom plate (1);

the positioning mechanism (5) is connected between the stamping mechanism (4) and the bottom plate (1), and the positioning mechanism (5) is matched with the stamping mechanism (4);

the punching mechanism (4) comprises:

the upper part of the bottom plate (1) is connected with the first guide sleeve (41);

the stamping assembly (42) is arranged on the telescopic rod of the air cylinder (3), and the stamping assembly (42) is connected with the first guide sleeve (41) in a sliding mode;

the first compression spring (43) is connected between the stamping assembly (42) and the top of the first guide sleeve (41), and the first compression spring (43) is wound on the stamping assembly (42);

the positioning mechanism (5) comprises:

the second guide sleeves (54) are symmetrically arranged on two sides of the bottom plate (1);

the pressing plate (55) is symmetrically and slidably arranged between the upper part of the stamping assembly (42) and the second guide sleeve (54);

an extension spring (56), wherein the extension spring (56) is connected between the top of the punching assembly (42) and the top of the pressing plate (55), and the extension spring (56) is wound on the pressing plate (55);

the positioning guide plates (51) are symmetrically arranged on two sides of the upper part of the bottom plate (1);

the inner sides of the two positioning guide plates (51) are provided with two positioning sleeves (52) in a sliding mode, and the pressing plate (55) is matched with the positioning sleeves (52);

a second compression spring (53) is connected between the top of the positioning sleeve (52) and the positioning guide plate (51), and the second compression spring (53) is wound on the positioning sleeve (52);

the device also comprises a clamping mechanism (6), wherein the clamping mechanism (6) comprises:

the third guide sleeves (61) are symmetrically arranged on two sides of the upper part of the bottom plate (1);

the clamping blocks (62) are arranged on the two third guide sleeves (61) in a sliding mode, and the clamping blocks (62) are arranged on the two third guide sleeves;

the third compression spring (63) is connected between the clamping block (62) and the third guide sleeve (61), and the third compression spring (63) is wound on the clamping block (62);

still including card solid mechanism (7), card solid mechanism (7) include:

the fourth guide sleeve (71) is symmetrically arranged on two sides of the upper part of the bottom plate (1);

the elastic clamping block assembly (72) is arranged on the fourth guide sleeve (71) in a sliding manner, and the elastic clamping block assembly (72) is arranged on the fourth guide sleeve;

the fifth guide sleeve (73) is symmetrically arranged on two sides of the upper part of the bottom plate (1), and the fifth guide sleeve (73) is symmetrically arranged on two sides of the upper part of the bottom plate;

the first elastic extrusion blocks (74) are arranged on the two fifth guide sleeves (73) in a sliding mode, and the first elastic extrusion blocks (74) are arranged on the two fifth guide sleeves;

a connecting plate (79) is connected between the bottoms of the two first elastic extrusion blocks (74);

a sixth guide sleeve (75), the lower part of the bottom plate (1) is provided with the sixth guide sleeve (75);

an elastic push plate (76), wherein the elastic push plate (76) is arranged between the sixth guide sleeve (75) and the bottom plate (1) in a sliding manner;

a rotating sleeve (77), the lower part of the bottom plate (1) is provided with the rotating sleeve (77);

the elastic rotating plate (78), the rotating sleeve (77) is rotatably provided with the elastic rotating plate (78), and the elastic rotating plate (78) is in contact fit with the connecting plate (79) and the elastic push plate (76).

2. The automatic forming device of a fastener for CPU heat sink according to claim 1, further comprising a pushing mechanism (8), wherein the pushing mechanism (8) comprises:

a seventh guide sleeve (81), wherein the seventh guide sleeve (81) is symmetrically arranged on two sides of the upper part of the bottom plate (1);

the elastic pull plates (82) are arranged on the two seventh guide sleeves (81) in a sliding mode, the elastic pull plates (82) are arranged on the two seventh guide sleeves, and the tops of the two elastic pull plates (82) are connected with the stamping assembly (42);

the eighth guide sleeve (83) is symmetrically arranged on two sides of the upper part of the bottom plate (1);

the second elastic extrusion blocks (84) are arranged on the two eighth guide sleeves (83) in a sliding mode, the second elastic extrusion blocks (84) are arranged on the two eighth guide sleeves in a sliding mode, the bottoms of the second elastic extrusion blocks (84) are connected with the elastic pulling plates (82), and the tops of the second elastic extrusion blocks (84) are matched with the clamping blocks (62).

3. The automatic forming device of a fastener for a CPU heat sink according to claim 2, further comprising a pushing mechanism (9), wherein the pushing mechanism (9) comprises:

the fixed guide plates (91) are symmetrically arranged on two sides of the upper part of the bottom plate (1);

a ninth guide sleeve (92) is connected between the tops of the two fixed guide plates (91);

the elastic pushing block (93) is connected with the ninth guide sleeve (92) in a sliding manner;

the elastic pushing block (93) is provided with a sliding baffle (94).

4. A CPU radiator clip automatic molding apparatus as claimed in claim 3, wherein the second elastic pressing block (84) is made of wood.