CN113231550B - Sheet metal part stamping equipment for manufacturing high-end equipment - Google Patents

Abstract

The invention relates to stamping equipment, in particular to sheet metal part stamping equipment for manufacturing high-end equipment. The invention aims to provide sheet metal part stamping equipment for manufacturing high-end equipment, which effectively improves the stamping speed of sheet metal parts, realizes automatic collection in an automatic operation process and is convenient to use for personnel to process. The technical scheme of the invention is as follows: sheet metal part stamping equipment for manufacturing high-end equipment comprises: the pushing assembly is connected between the first supporting frames at the two sides; the punching assembly is connected with the top side of the pushing assembly. According to the sheet metal part conveying device, the loading plate, the first sliding block, the pushing block and the first spring are matched, so that the purpose of conveying the sheet metal part and facilitating subsequent operation is achieved.

Description

Sheet metal part stamping equipment for manufacturing high-end equipment

Technical Field

The invention relates to stamping equipment, in particular to sheet metal part stamping equipment for manufacturing high-end equipment.

Background

Along with the gradual and vigorous competition of the whole automobile products, the appearance of the stamping products is more and more complex, the stamping processing technology is diversified, the die structure is complicated, and the materials are light and diversified; meanwhile, with the high-end and customization of products in industries such as home appliances, electronic communication and the like, the requirements on the refinement quality of various sheet metal parts and fine blanking deep drawing parts are also higher and higher, the application of advanced stamping technology is not separated from the technical progress of equipment, and in recent years, servo stamping and sheet metal parts production equipment meets the requirements of products and technology and starts to be popularized and applied.

The stamping is a pressure processing method for obtaining required parts by applying pressure to materials at room temperature by using a die arranged on a press machine to separate or plastically deform the materials, the stamping die is essential technological equipment for stamping production, is a technology-intensive product, the design and the manufacture of the stamping die directly determine the quality, the production efficiency and the production cost of the stamped parts, the die design and the manufacture technology level are one of important marks for measuring the manufacturing level of a national product, and the quality, the benefit and the development capability of a new product of the product are determined to a great extent.

The sheet metal part stamping equipment for manufacturing the high-end equipment is developed aiming at sheet metal part stamping in the process of manufacturing the high-end equipment, effectively improves the stamping speed of the sheet metal part, realizes automatic collection in the automatic operation process, and is convenient to use.

Disclosure of Invention

In order to overcome the defects of low stamping speed and complex operation, the technical problems to be solved are as follows: the sheet metal part stamping equipment for manufacturing is capable of effectively improving stamping speed of sheet metal parts, realizing automatic collection in an automatic operation process and facilitating high-end equipment processing by people.

The technical scheme of the invention is as follows: sheet metal part stamping equipment for manufacturing high-end equipment comprises:

the pushing assembly is connected between the first supporting frames at the two sides;

the punching assembly is connected with the top side of the pushing assembly.

As an improvement of the above-mentioned scheme, the pushing assembly includes:

the material carrying plate is connected between the first supporting frames at the two sides;

the bottom side of the material carrying plate is connected with a first sliding block;

the pushing block is connected with the pushing block in a sliding manner and penetrates through the material carrying plate;

and the first springs are connected between the left side and the right side of the front part of the push block and the inner wall of the first sliding block.

As an improvement of the above, the punching assembly includes:

the top side of the material carrying plate is connected with a second supporting frame;

the inner side of the second support frame is connected with a hydraulic cylinder, and the hydraulic cylinder penetrates through the second support frame;

the two sides of the top of the material carrying plate are connected with the first guide rods;

the end of the telescopic rod of the hydraulic cylinder is connected with a punching tool which is connected with the first guide rod in a sliding mode.

As an improvement of the above scheme, the device further comprises a driving assembly, wherein the driving assembly comprises:

the two sides of the bottom of the material carrying plate are connected with the second guide rods;

the sliding racks are connected between the second guide rods in a sliding manner, and one side of each sliding rack is contacted with one side of the pushing block;

the second springs are wound on the second guide rods;

the first support rods are connected to two sides of the material carrying plate;

the top sides of the first support rods are connected with the first support blocks;

the first pull rods are connected in the first support blocks in a sliding mode;

the bottom sides of the first support rods are connected with the second sliding blocks;

the first sliding blocks are connected in the second sliding blocks in a sliding manner;

the third springs are connected between the two sides of the top of the first sliding block and the inner wall of the second sliding block, and the bottom side of the first sliding block is contacted with the top side of the first pull rod;

the first sliding block is connected with the first spring;

a ratchet bar is connected between the front ends of the fourth springs and is connected with the first sliding block in a sliding way;

the ratchet gears are rotationally connected in the first supporting rods, and are meshed with the ratchet bars;

all gears are connected with all gears, and all gears are meshed with the sliding racks.

As the improvement of above-mentioned scheme, still including the chucking subassembly, the chucking subassembly includes:

the two sides of the bottom of the material carrying plate are connected with the second supporting rods;

the clamping blocks are connected in the second support rods in a sliding mode;

the clamping blocks are wound with the fifth springs;

the bottom sides of the second support rods are connected with the second support blocks;

the push rods are connected in the second supporting blocks in a sliding mode;

the push rod is wound with a first spring;

the inner sides of the second support rods are connected with the third support blocks;

the clamping rods are connected in the third supporting blocks in a sliding mode;

the seventh springs are wound on the clamping rods, and the seventh springs are positioned on the outer sides of the third supporting blocks;

the second sliding block is connected with the first supporting block;

the second pull rod is connected with the fourth support block in a sliding manner;

an eighth spring is connected between the second pull rod and the fourth supporting block;

the rotating blocks are rotationally connected in the second pull rods;

torsion springs are wound on two sides of the rotating block.

As the improvement of above-mentioned scheme, still including compressing tightly the subassembly, compressing tightly the subassembly and including:

the two sides of the top of the material carrying plate are connected with two third guide rods;

the connecting rods are connected between the third guide rods in a sliding mode, and the top sides of the connecting rods are contacted with the bottom sides of the punching cutters;

the ninth springs are wound on the third guide rods;

the sliding rods are connected in the two sides of the connecting rod;

the compression bar is connected in the sliding bar in a sliding way;

tenth springs are connected between the top side of the compression bar and the top wall of the sliding bar.

As an improvement of the above scheme, the device further comprises a collecting assembly, wherein the collecting assembly comprises:

the top sides of the first support frames are connected with slide rails;

the second sliding blocks are connected in the sliding rail in a sliding manner;

the collecting frame is connected between the inner sides of the second sliding blocks.

As an improvement of the above, the first spring is a compression spring.

The beneficial effects of the invention are as follows: 1. through the cooperation of loading flitch, first sliding block, ejector pad and first spring to reach the purpose of carrying the sheet metal component, the follow-up operation of being convenient for.

2. Through the cooperation of second support frame, pneumatic cylinder, first guide bar and punching press cutter to reach the punching press to the sheet metal component, realize basic operation's purpose.

3. Through the cooperation of the sliding rack, the first pull rod, the ratchet bar and the all-gear, the purpose of automatically conveying sheet metal parts and providing driving force is achieved.

4. Through the cooperation of fixture block, push rod, draw-in bar and second pull rod to reach and relieve fixedly, help the subassembly to reset, the purpose of being convenient for follow-up use.

5. Through the cooperation of ninth spring, connecting rod, depression bar and tenth spring to reach and compress tightly the sheet metal component, conveniently carry out the purpose of follow-up operation.

6. Through the cooperation of slide rail, second slider and collection frame to reach the automatic waste material of collecting, the purpose of the personnel handling of being convenient for use.

Drawings

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

Fig. 2 is a schematic perspective view of another perspective view of the present invention.

Fig. 3 is a schematic view of a first partial structure of the present invention.

Fig. 4 is a schematic view of a second partial structure of the present invention.

Fig. 5 is a schematic view of a third partial structure of the present invention.

Fig. 6 is a schematic view of a fourth partial structure of the present invention.

Fig. 7 is an enlarged view of section a of the present invention.

Fig. 8 is a schematic view of a fifth partial structure of the present invention.

Fig. 9 is an enlarged view of section B of the present invention.

Fig. 10 is a schematic view of a sixth partial structure of the present invention.

Fig. 11 is a schematic view of a seventh part structure of the present invention.

Reference numerals in the figures: 1: first support frame, 2: pushing component, 201: loading plate, 202: first slider, 203: push block, 204: first spring, 3: stamping assembly, 301: second support frame, 302: hydraulic cylinder, 303: first guide bar, 304: punching tool, 4: drive assembly, 401: second guide bar, 402: second spring, 403: sliding rack, 404: first support bar, 405: first support block, 406: first pull rod, 407: second slider, 408: third spring, 409: first slider, 410: ratchet bar, 411: fourth spring, 412: ratchet wheel, 413: all gear, 5: clamping assembly, 501: second support bar, 502: fixture block, 503: fifth spring, 504: second support block, 505: pushrod, 506: sixth spring, 507: third support block, 508: clamping rod, 509: seventh spring, 510: second pull rod, 511: rotating block, 512: torsion spring, 513: fourth support block, 514: eighth spring, 6: compression assembly, 601: third guide bar, 602: ninth spring, 603: connecting rod, 604: slide bar, 605: compression bar, 606: tenth spring, 7: collection assembly, 701: slide rail, 702: second slider, 703: and (5) a collecting frame.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Sheet metal part stamping equipment for manufacturing high-end equipment is shown as fig. 1, 2 and 3, and comprises a first support frame 1, a pushing component 2 and a stamping component 3, wherein the pushing component 2 is connected between the first support frame 1 on the left side and the right side, and the stamping component 3 is connected to the upper side of the pushing component 2.

When the equipment is needed to be used, a user can place the sheet metal part on the upper side of the pushing component 2, the punching component 3 is started, the telescopic rod of the punching component 3 extends to drive the punching component 3 to move downwards to punch the sheet metal part so as to achieve the purpose of carrying out basic operation on the sheet metal part, after the punching is completed, the telescopic rod of the punching component 3 is started to shorten to drive the punching component 3 to move upwards, the user can push the pushing component 2 forwards, the pushing component 2 moves forwards to drive the sheet metal part to move forwards, at the moment, the pushing component 2 is compressed, the punching component 3 is started again, the telescopic rod of the punching component 3 extends, the repeated movement is carried out, the pushing component 2 is loosened when the pushing component 2 moves forwards to the forefront end, the pushing component 2 is driven to move backwards under the reset action of the pushing component 2 so as to achieve the purpose of conveying the sheet metal part, at the moment, the user can take down the punched sheet metal part, the operation is repeated when the sheet metal part is reused, and when the equipment is not needed, the user can close the punching component 3.

Example 2

On the basis of embodiment 1, as shown in fig. 4, the pushing assembly 2 comprises a loading plate 201, a first sliding block 202, a pushing block 203 and a first spring 204, wherein the loading plate 201 is connected between the first supporting frames 1 on the left side and the right side, the first sliding block 202 is connected on the lower side of the loading plate 201, the pushing block 203 is connected in the first sliding block 202 in a sliding manner, the pushing block 203 penetrates through the loading plate 201, and the first spring 204 is connected between the left side and the right side of the front part of the pushing block 203 and the inner wall of the first sliding block 202.

When the device is required to be used, a user can place a sheet metal part on the upper side of the material carrying plate 201, start the punching assembly 3, continue to carry out subsequent operation, the user can push the push block 203 forwards, the push block 203 slides forwards in the first slide block 202, the first spring 204 is compressed at the moment, after punching is finished, the telescopic rod of the punching assembly 3 is started to be shortened, the push block 203 slides forwards to push the sheet metal part to move forwards, then the telescopic rod of the punching assembly 3 is started again to extend, the repeated movement is carried out, when the push block 203 moves forwards to the forefront end, the push block 203 is loosened, the push block 203 is driven to move backwards to the original position under the reset action of the first spring 204, so that the purpose of conveying the sheet metal part is achieved, the subsequent operation is convenient, and the user can take down the punched sheet metal part at the moment, and when the device is used again, the operation is repeated.

As shown in fig. 5, the punching assembly 3 includes a second supporting frame 301, a hydraulic cylinder 302, a first guiding rod 303 and a punching tool 304, the upper side of the material carrying plate 201 is connected with the second supporting frame 301, the inner side of the second supporting frame 301 is connected with the hydraulic cylinder 302, the hydraulic cylinder 302 penetrates through the second supporting frame 301, the left side and the right side of the upper portion of the material carrying plate 201 are both connected with the first guiding rod 303, the end of a telescopic rod of the hydraulic cylinder 302 is connected with the punching tool 304, and the punching tool 304 is slidably connected with the first guiding rod 303.

When a user places the sheet metal part on the upper side of the material carrying plate 201, the hydraulic cylinder 302 is started, the telescopic rod of the hydraulic cylinder 302 extends to drive the stamping tool 304 to slide downwards on the first guide rod 303 to stamp the sheet metal part, so that the purpose of basic operation is achieved, then the telescopic rod of the hydraulic cylinder 302 is started to shorten to drive the stamping tool 304 to slide upwards, the user can push the push block 203 forwards, the push block 203 slides forwards in the first slide block 202, at the moment, the first spring 204 is compressed, the push block 203 slides forwards to push the sheet metal part forwards, the telescopic rod of the hydraulic cylinder 302 is started to extend again, the repeated motion is performed, the subsequent operation is continued, and when the user does not need to use the device, the hydraulic cylinder 302 is closed.

As shown in fig. 6 and 7, the device further comprises a driving component 4, the driving component 4 comprises a second guide rod 401, a second spring 402, a sliding rack 403, a first supporting rod 404, a first supporting block 405, a first pull rod 406, a second sliding block 407, a third spring 408, a first sliding block 409, a ratchet bar 410, a fourth spring 411, a ratchet wheel 412 and a full gear 413, wherein the left side and the right side of the lower part of the material carrying plate 201 are all connected with the second guide rod 401, the sliding rack 403 is connected between the second guide rod 401 in a sliding manner, the front side of the sliding rack 403 is contacted with the rear side of the push block 203, the second guide rod 401 is wound with the second spring 402, the left side and the right side of the material carrying plate 201 are all connected with the first supporting rod 404, the upper side of the first supporting rod 404 is all connected with the first supporting block 405, the first sliding rod 406 is connected with the first sliding block 404 in the first supporting block 405, the lower side of the first supporting rod 404 is all connected with the second sliding block 407, the second sliding block 409 is all connected with the second sliding block 409 in the second sliding manner in the second sliding block 409, the left side of the first sliding block 409 is connected with the fourth sliding block 412 is in the sliding manner with the fourth sliding block 411, the inner wall of the first sliding block 412 is all connected with the first sliding block 411 is meshed with the fourth sliding rack 410, the first sliding rack 410 is meshed with the fourth sliding rack 410, and the first sliding rack 411 is connected with the first sliding rack 410 is meshed with the first sliding rack 411, and the first sliding rack 411 is connected with the first sliding rack 411.

When the punching tool 304 slides down, the third spring 408 is in a compressed state, under the reset action of the third spring 408, the first slider 409 is driven to slide down in the second slider 407, the first slider 409 slides down to drive the first pull rod 406 to slide down in the first supporting block 405, the first slider 409 slides down to drive the ratchet bar 410 and the fourth spring 411 to move down, when the ratchet bar 410 moves down to contact with the ratchet gear 412, the ratchet bar 410 slides back in the first slider 409, at this time, the fourth spring 411 is compressed, when the ratchet bar 410 moves down to not contact with the ratchet gear 412, under the reset action of the fourth spring 411, the ratchet bar 410 is driven to slide forward, when the punching tool 304 slides up to contact with the first pull rod 406, the first pull rod 406 is driven to slide upwards, the first pull rod 406 slides upwards to drive the first sliding block 409 to slide upwards, at the moment, the third spring 408 is compressed, the first sliding block 409 slides upwards to drive the ratchet bar 410 and the fourth spring 411 to move upwards, when the ratchet bar 410 moves upwards to be in contact with the ratchet gear 412, the ratchet gear 412 is driven to rotate reversely in the first support rod 404, the ratchet gear 412 rotates reversely to drive the full gear 413 to rotate reversely, the full gear 413 rotates reversely to drive the sliding bar 403 to slide forwards on the second guide rod 401, at the moment, the second spring 402 is compressed, the sliding bar 403 slides forwards to drive the push block 203 to slide forwards, so that the purpose of automatically conveying the sheet metal part and providing driving force is achieved, the follow-up operation is continued, and when the operation is repeated, the operation is repeated.

As shown in fig. 8 and 9, the clamping assembly 5 is further included, the clamping assembly 5 includes a second supporting rod 501, a clamping block 502, a fifth spring 503, a second supporting block 504, a push rod 505, a sixth spring 506, a third supporting block 507, a clamping rod 508, a seventh spring 509, a second pull rod 510, a rotating block 511, a torsion spring 512, a fourth supporting block 513 and an eighth spring 514, both sides of the lower portion of the loading plate 201 are connected with the second supporting rod 501, the clamping block 502 is connected with the clamping block 502 in a sliding manner, the fifth spring 503 is wound on the clamping block 502, the fifth spring 503 is located on the upper side of the second supporting rod 501, the lower side of the second supporting rod 501 is connected with the second supporting block 504, the push rod 505 is connected with the push rod 505 in a sliding manner, the inner side of the second supporting rod 501 is connected with the third supporting block 507, the clamping rod 508 is connected with the seventh spring 509 in a sliding manner, the seventh spring 509 is located on the inner side of the third supporting block 507, the fourth supporting block 513 is connected with the fourth supporting block 513 in a sliding manner, and the fourth supporting block 513 is connected with the fourth supporting block 510 in a rotating manner, and the fourth supporting block 513 is connected with the fourth supporting block 510 in a sliding manner.

When the sliding rack 403 slides forward to contact with the clamping block 502, the clamping block 502 slides downward in the second supporting rod 501, the fifth spring 503 is compressed, and the eighth spring 514 is in a compressed state, when the sliding rack 403 slides forward, under the reset action of the eighth spring 514, the second pull rod 510 is driven to slide forward in the fourth supporting rod 513, the second pull rod 510 slides forward to drive the torsion spring 512 and the rotating block 511 to move forward, when the rotating block 511 moves forward to contact with the clamping rod 508, the rotating block 511 rotates forward in the second pull rod 510, the torsion spring 512 deforms at the moment, when the rotating block 511 moves forward to not contact with the clamping rod 508, the rotating block 511 is driven to rotate reversely to the original position under the reset action of the torsion spring 512, when the sliding rack 403 slides forward to contact with the push rod 505, the push rod 505 is pushed to move forward, the sixth spring 506 is compressed at this time, when the push rod 505 moves forward to contact with the clamping rod 508, the clamping rod 508 slides inward in the third supporting block 507, the seventh spring 509 is compressed at this time, when the push rod 505 moves forward to be out of contact with the clamping rod 508, the clamping rod 508 is driven to slide outward under the restoring action of the seventh spring 509, when the push rod 505 moves forward to contact with the clamping block 502, the clamping block 502 is slid downward, the fifth spring 503 is compressed at this time, the clamping rod 508 is clamped, the sliding rack 403 is driven to slide backward under the restoring action of the second spring 402 and the first spring 204, the second pull rod 510 is driven to slide backward when the sliding rack 403 slides backward to be in contact with the second pull rod 510, the eighth spring 514 is compressed at this time, the clamping rod 508 is driven to slide inward when the second pull rod 510 slides backward to be in contact with the clamping rod 508, at this time, the seventh spring 509 is compressed, when the clamping rod 508 slides inwards, under the reset action of the sixth spring 506, the push rod 505 is driven to slide backwards to the original position, when the second pull rod 510 slides backwards to be out of contact with the clamping rod 508, under the reset action of the seventh spring 509, the clamping rod 508 is driven to slide outwards, so as to achieve the purposes of releasing fixation, helping the assembly to reset, facilitating the subsequent use, and repeating the operation when the assembly is reused.

As shown in fig. 10, the pressing assembly 6 further comprises a third guide rod 601, a ninth spring 602, a connecting rod 603, a sliding rod 604, a pressing rod 605 and a tenth spring 606, wherein two third guide rods 601 are connected to the left side and the right side of the upper portion of the material carrying plate 201, a connecting rod 603 is connected between the third guide rods 601 in a sliding manner, the upper side of the connecting rod 603 contacts with the lower side of the punching tool 304, the ninth spring 602 is wound on the third guide rods 601, the ninth spring 602 is located on the lower side of the connecting rod 603, a plurality of sliding rods 604 are connected to the front side and the rear side of the connecting rod 603, a pressing rod 605 is connected to the inner side of the sliding rod 604 in a sliding manner, and a tenth spring 606 is connected between the upper side of the pressing rod 605 and the top wall of the sliding rod 604.

When the punching tool 304 slides downwards, the connecting rod 603 is driven to slide downwards on the third guide rod 601, at the moment, the ninth spring 602 is compressed, the connecting rod 603 slides downwards to drive the slide rod 604 to move downwards, the slide rod 604 moves downwards to drive the press rod 605 to move downwards, when the press rod 605 moves downwards to be in contact with the sheet metal part, the slide rod 604 continues to move downwards, the press rod 605 slides upwards in the slide rod 604, at the moment, the tenth spring 606 is compressed to achieve the purpose of compacting the sheet metal part and facilitating subsequent operation, when the punching tool 304 slides upwards, the connecting rod 603 is driven to slide upwards, under the reset action of the tenth spring 606, the press rod 605 is driven to slide downwards, the connecting rod 603 continues to slide upwards to enable the slide rod 604 to move upwards, the slide rod 604 moves upwards to drive the press rod 605 to move upwards, and when the punching tool is used again, repeated operation is achieved.

As shown in fig. 11, the collecting assembly 7 is further included, the collecting assembly 7 includes a sliding rail 701, a second sliding block 702 and a collecting frame 703, the sliding rails 701 are connected to the upper side of the first supporting frame 1, the second sliding blocks 702 are connected to the sliding rails 701 in a sliding manner, and the collecting frame 703 is connected between the inner sides of the second sliding blocks 702.

The sheet metal component waste material after the punching press can drop to collect in the frame 703, when collecting the frame 703 and being full, the user can forward pulling collect the frame 703, collect frame 703 forward movement and drive second slider 702 forward slip in slide rail 701, the user can handle the waste material in collecting the frame 703 this moment to reach the purpose that automatic collection waste material was convenient for use personnel handled, after the operation, the user can backward promote collect frame 703, collect frame 703 backward movement and drive second slider 702 backward slip to normal position, when using again, the repeating operation can.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (4)

1. Sheet metal part stamping equipment for manufacturing high-end equipment is characterized by comprising:

the pushing assembly (2) is connected between the first supporting frames (1) at two sides;

the punching assembly (3), the top side of the pushing assembly (2) is connected with the punching assembly (3);

the pushing component (2) comprises:

the material loading plate (201) is connected between the first supporting frames (1) at two sides;

the first sliding block (202) is connected with the bottom side of the material carrying plate (201);

the pushing block (203), the first sliding block (202) is connected with the pushing block (203) in a sliding way, and the pushing block (203) penetrates through the loading plate (201);

the first springs (204) are connected between the left side and the right side of the front part of the push block (203) and the inner wall of the first sliding block (202);

the punching assembly (3) comprises:

the top side of the material carrying plate (201) is connected with the second supporting frame (301);

the hydraulic cylinder (302), the inside of the second supporting frame (301) is connected with the hydraulic cylinder (302), and the hydraulic cylinder (302) penetrates through the second supporting frame (301);

the two sides of the top of the material carrying plate (201) are connected with the first guide rods (303);

the tail end of the telescopic rod of the hydraulic cylinder (302) is connected with the stamping tool (304), and the stamping tool (304) is connected with the first guide rod (303) in a sliding mode;

still including drive assembly (4), drive assembly (4) include:

the second guide rods (401) are connected to the two sides of the bottom of the material carrying plate (201);

a sliding rack (403), wherein the sliding rack (403) is connected between the second guide rods (401) in a sliding way, and one side of the sliding rack (403) is contacted with one side of the push block (203);

the second springs (402) are wound on the second guide rods (401);

the first support rods (404) are connected with the two sides of the material carrying plate (201);

the top sides of the first support rods (404) are connected with the first support blocks (405);

the first pull rods (406) are connected with the first pull rods (406) in the first supporting blocks (405) in a sliding mode;

the second sliding blocks (407), and the bottom sides of the first supporting rods (404) are connected with the second sliding blocks (407);

the first sliding blocks (409) are connected with the first sliding blocks (409) in a sliding manner in the second sliding blocks (407);

the third springs (408) are connected between the two sides of the top of the first sliding block (409) and the inner wall of the second sliding block (407), and the bottom side of the first sliding block (409) is contacted with the top side of the first pull rod (406);

a fourth spring (411), one side of the first sliding block (409) is connected with two fourth springs (411);

a ratchet bar (410), wherein the ratchet bar (410) is connected between the front ends of the fourth springs (411), and the ratchet bar (410) is connected with the first sliding block (409) in a sliding way;

the ratchet gears (412) are rotatably connected in the first supporting rods (404), and the ratchet gears (412) are meshed with the ratchet bars (410);

all gears (413), all the ratchet gears (412) are connected with all gears (413), and all the gears (413) are meshed with the sliding racks (403);

still including chucking subassembly (5), chucking subassembly (5) include:

the second support rods (501) are connected to the two sides of the bottom of the material carrying plate (201);

the clamping blocks (502) are connected with the second supporting rods (501) in a sliding mode;

the fifth springs (503), the clamping blocks (502) are wound with the fifth springs (503);

the bottom sides of the second support rods (501) are connected with the second support blocks (504);

the push rods (505) are connected in the second supporting blocks (504) in a sliding mode;

a sixth spring (506), and the push rod (505) is wound with the sixth spring (506);

the inner sides of the second support rods (501) are connected with the third support blocks (507);

the clamping rods (508) are connected with the clamping rods (508) in the third supporting blocks (507) in a sliding manner;

the seventh springs (509) are wound on the clamping rods (508), and the seventh springs (509) are positioned outside the third supporting blocks (507);

a fourth supporting block (513), wherein one side of the second sliding block (407) is connected with the fourth supporting block (513);

the second pull rod (510) is connected with the second pull rod (510) in a sliding manner in the fourth supporting block (513);

an eighth spring (514), wherein the eighth spring (514) is connected between the second pull rod (510) and the fourth supporting block (513);

the rotating blocks (511) are rotatably connected in the second pull rods (510);

and torsion springs (512), wherein the torsion springs (512) are wound on both sides of the rotating block (511).

2. The sheet metal part stamping equipment for manufacturing high-end equipment according to claim 1, further comprising a pressing assembly (6), wherein the pressing assembly (6) comprises:

the two sides of the top of the material carrying plate (201) are connected with two third guide rods (601);

the connecting rods (603) are connected between the third guide rods (601) in a sliding mode, and the top sides of the connecting rods (603) are contacted with the bottom sides of the punching cutters (304);

a ninth spring (602), and the ninth springs (602) are wound on the third guide rods (601);

the sliding rods (604) are connected with a plurality of sliding rods (604) in the two sides of the connecting rod (603);

the compression bar (605), the compression bar (605) is connected in the sliding bar (604) in a sliding way;

tenth spring (606), all be connected with tenth spring (606) between depression bar (605) top side and slide bar (604) roof.

3. Sheet metal part stamping equipment for manufacturing high-end equipment according to claim 2, further comprising a collecting assembly (7), wherein the collecting assembly (7) comprises:

the sliding rails (701) are connected to the top sides of the first supporting frames (1);

the second sliding blocks (702) are connected in the sliding rails (701) in a sliding manner;

and a collecting frame (703) is connected between the inner sides of the second sliding blocks (702).

4. A sheet metal part stamping apparatus for manufacturing high-end equipment as claimed in claim 3, characterized in that the first spring (204) is a compression spring.