CN221140197U - Feeding device for hardware die machining - Google Patents
Feeding device for hardware die machining Download PDFInfo
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- CN221140197U CN221140197U CN202322991454.7U CN202322991454U CN221140197U CN 221140197 U CN221140197 U CN 221140197U CN 202322991454 U CN202322991454 U CN 202322991454U CN 221140197 U CN221140197 U CN 221140197U
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- 238000003754 machining Methods 0.000 title claims abstract description 11
- 239000007769 metal material Substances 0.000 claims abstract description 58
- 238000001179 sorption measurement Methods 0.000 claims abstract description 14
- 238000003825 pressing Methods 0.000 claims description 26
- 238000004080 punching Methods 0.000 claims description 17
- 230000000149 penetrating effect Effects 0.000 claims description 12
- 238000003860 storage Methods 0.000 claims description 7
- 238000000034 method Methods 0.000 claims 1
- 239000000463 material Substances 0.000 abstract description 10
- 238000004519 manufacturing process Methods 0.000 abstract description 6
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000003031 feeding effect Effects 0.000 description 1
- 238000009776 industrial production Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
Classifications
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
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- Press Drives And Press Lines (AREA)
Abstract
The utility model relates to the technical field of hardware die machining, in particular to a feeding device for hardware die machining. Technical problems: when carrying out the material loading to metal material, the efficiency through the manual work carries out the material loading is lower to influence production efficiency, when placing metal material, if can't carry out quick adjustment according to metal material's size, can influence the practicality of device. The technical scheme is as follows: the feeding device for hardware die machining comprises a supporting component; still including position control subassembly, place the subassembly, adsorb the material loading subassembly. According to the utility model, the metal material is fed through the position adjusting assembly, the placement assembly and the adsorption feeding assembly, so that the problem that the practicality of the device is affected if the metal material cannot be quickly adjusted according to the size of the metal material when the metal material is placed due to the fact that the efficiency of feeding is low by manpower when the metal material is fed is solved.
Description
Technical Field
The utility model belongs to the technical field of hardware die machining, and particularly relates to a feeding device for hardware die machining.
Background
The hardware mould is in industrial production, use various presses and the specialized tool of dress on the press, make required shape's part or goods through the pressure to the metal material, this specialized tool is collectively called hardware mould, generally, need manually place the metal material on the press, then open the press and carry out the punching press to the metal material, just can obtain required hardware mould, but carry out the material loading to the metal material, the efficiency through the manual work is lower, thereby influence production efficiency, when placing the metal material, if can't carry out quick adjustment according to the size of metal material, can influence the practicality of device.
Disclosure of utility model
In order to overcome when carrying out the material loading to metal material, the efficiency through the manual work carries out the material loading is lower to influence production efficiency, when placing metal material, if can't carry out quick adjustment according to metal material's size, can influence the problem of the practicality of device.
The technical scheme of the utility model is as follows: the feeding device for hardware die machining comprises a supporting component; the device also comprises a position adjusting component, a placing component, an adsorption feeding component, an auxiliary moving component and a stamping component; the support component is provided with a position adjusting component for moving; the position adjusting component is provided with a placing component for placing the metal material; the position adjusting component is provided with an adsorption feeding component for adsorbing the metal material; the support component is provided with an auxiliary moving component for auxiliary movement; the support assembly is provided with a stamping assembly for stamping the metal material.
Preferably, when carrying out the material loading to the metal material, place the subassembly on placing a plurality of metal materials, remove the metal material to the below that adsorbs the material loading subassembly through position adjustment subassembly, utilize to adsorb the material loading subassembly and adsorb the metal material, then will place the position of subassembly through position adjustment subassembly and recover, thereby the problem of influence production efficiency is lower through the efficiency of carrying out the material loading manually is solved, when placing the metal material, according to the size of metal material to placing the subassembly and adjust, then place the metal material on placing the subassembly, in order to solve if can't carry out quick adjustment according to the size of metal material, can influence the problem of the practicality of device.
Preferably, the support assembly comprises a base, a first U-shaped block, a first fixed block and a second fixed block; the upper end of the base is fixedly provided with a first U-shaped block; the upper end of the base is fixedly provided with a first fixed block and a second fixed block which are symmetrical; the metal material is subjected to adsorption feeding and stamping treatment by arranging an adsorption feeding assembly and a stamping assembly on the first U-shaped block; through the auxiliary moving assembly arranged between the first fixed block and the second fixed block, stability during movement is improved.
Preferably, the position adjusting assembly comprises a first limit groove, a second limit groove, a motor, a screw rod, a bearing, a second U-shaped block, a first wire sleeve, a third U-shaped block, a second wire sleeve, a first sliding rod, a first through hole and a second through hole; the upper end of the base is fixedly provided with symmetrical first limit grooves; a second limiting groove is fixedly formed between the two first limiting grooves; a motor is fixedly arranged on the inner wall of the rear end of the second limit groove; a screw rod is fixedly arranged at the front end of the output shaft of the motor; the inner wall of the front end of the second limit groove is fixedly provided with a bearing; the screw rod is rotatably arranged in the bearing; the outer wall of the screw rod is movably provided with a second U-shaped block and a third U-shaped block; the inner walls of the front end and the rear end of the second U-shaped block are fixedly provided with first silk sleeves; second silk sleeves are fixedly arranged on the inner walls of the front end and the rear end of the third U-shaped block; the inner walls of the first silk sleeve and the second silk sleeve are matched with the outer wall of the screw rod; the inner walls of the front end and the rear end of the first limiting groove are fixedly provided with symmetrical first sliding bars; the front end and the rear end of the second U-shaped block are provided with symmetrical first through holes in a penetrating mode; the front end and the rear end of the third U-shaped block are provided with symmetrical second through holes in a penetrating mode; the inner walls of the first through hole and the second through hole are attached to the outer wall of the first sliding rod; the motor is started to drive the output shaft of the motor to drive the screw rod to rotate, so that the second U-shaped block and the third U-shaped block move in the horizontal direction by means of the first wire sleeve and the second wire sleeve, the automatic feeding effect of the metal material is achieved, and the stability during movement is improved through the screw rod.
Preferably, the placement component comprises a third fixed block, a first electric cylinder, a first pressing plate, a third limit groove and a placement plate; the upper end of the third U-shaped block is fixedly provided with a symmetrical third fixed block; one end of the third fixed block, which is far away from the center of the third U-shaped block, is fixedly provided with a symmetrical first electric cylinder; one end, close to the center of the third U-shaped block, of the telescopic rod of the first electric cylinder penetrates through the third fixed block to be fixedly provided with a first pressing plate; a third limit groove is fixedly formed in one end, close to the center of the third U-shaped block, of the first pressing plate; a placing plate is movably arranged on the inner wall of the third limit groove; the size of placing the board is changed according to the size of the metal material that needs to place, at first opens first electronic jar and makes the telescopic link of first electronic jar remove to the center department of third U type piece, drives first clamp plate and closes first electronic jar after removing to suitable position, then installs first clamp plate to the third spacing inslot, can place metal material.
Preferably, the adsorption feeding assembly comprises a lower die, a second electric cylinder, a second pressing plate and a vacuum chuck; the inner walls of the left end and the right end of the second U-shaped block are fixedly provided with lower dies; the lower end of the lower die is attached to the upper end of the base; the upper end of the first U-shaped block is fixedly provided with a second electric cylinder; the lower end of the telescopic rod of the second electric cylinder penetrates through the first U-shaped block and is fixedly provided with a second pressing plate; the lower end of the second pressing plate is fixedly provided with a vacuum chuck; when the placing plate moves to the position right below the vacuum chuck, the second electric cylinder is started to enable the telescopic rod of the second electric cylinder to drive the second pressing plate and the vacuum chuck to move downwards, the metal material is adsorbed through the vacuum chuck, and then after the placing plate moves to the original position, the second electric cylinder is started to enable the telescopic rod of the second electric cylinder to drive the second pressing plate and the vacuum chuck to move to the lower die, and the metal material is placed on the lower die.
Preferably, the auxiliary moving assembly comprises a second sliding rod, a third through hole, a fourth through hole and a supporting column; a symmetrical second sliding rod is fixedly arranged between the second fixed block and the first fixed block; the front end and the rear end of the third fixed block are provided with symmetrical third through holes in a penetrating way; the front end and the rear end of the second U-shaped block are provided with symmetrical fourth through holes in a penetrating way; the inner walls of the third through hole and the fourth through hole are attached to the outer wall of the second sliding rod; a support column is fixedly arranged between the third fixed block and the second U-shaped block; the third fixed block and the second U-shaped block can move more stably by arranging the second sliding rod, and the support column can keep synchronous movement of the third fixed block and the second U-shaped block.
Preferably, the stamping assembly comprises a hydraulic cylinder, a stamping block, a fourth limiting groove and a storage box; the upper end of the first U-shaped block is fixedly provided with a hydraulic cylinder; the lower end of the hydraulic cylinder penetrates through the first U-shaped block and is fixedly provided with a punching block; the upper end of the base is fixedly provided with a fourth limit groove; the rear end of the base is movably provided with a storage box; when the lower die drives the hardware die to move to the position right below the stamping block, the hydraulic cylinder is started to enable the telescopic rod of the hydraulic cylinder to drive the stamping block to move downwards, the metal piece in the lower die is stamped through the stamping block, after machining is finished, the hydraulic cylinder is started to enable the telescopic rod of the hydraulic cylinder to drive the stamping block to move upwards, the machined metal material is placed on the fourth limiting groove, and the metal material falls into the storage box to be collected through the fourth limiting groove.
The utility model has the beneficial effects that:
1. When the metal material is fed, the motor is started to drive the screw rod to rotate, the second U-shaped block and the third U-shaped block move in the horizontal direction by means of the first wire sleeve and the second wire sleeve, the second U-shaped block and the third U-shaped block synchronously move through the supporting column, the third fixing block is driven to move through the third U-shaped block, the first pressing plate and the placing plate move, when the placing plate moves to the position right below the vacuum chuck, the second electric cylinder is started to enable the telescopic rod of the second electric cylinder to drive the vacuum chuck to move downwards, when the placing plate moves to the position right below the vacuum chuck, the second electric cylinder is closed, the vacuum chuck is started to absorb the uppermost metal material, then the motor is started to enable the output shaft of the motor to drive the screw rod to rotate, the placing plate and the lower die are driven to restore, the telescopic rod of the second electric cylinder is started to drive the vacuum chuck to move downwards, and when the placing plate moves to the position right above the lower die, the metal material is placed on the lower die, so that the problem of influencing production efficiency by manual feeding is solved;
2. when placing metal material, change the board of placing that corresponds according to metal material's size, open first electronic jar and make the telescopic link of first electronic jar drive first clamp plate to the center department of base remove, when the inner wall of third spacing groove and the left and right sides of placing the board paste mutually, close first electronic jar, place a plurality of metal material on the board of placing to solve if can't carry out quick adjustment according to metal material's size, can influence the problem of the practicality of device.
Drawings
FIG. 1 shows a schematic perspective view of a loading device for hardware mold processing according to the present utility model;
FIG. 2 shows a schematic perspective view of a support assembly of a loading device for hardware mold processing according to the present utility model;
FIG. 3 shows a schematic rear end cross-sectional perspective view of a position adjustment assembly of a loading apparatus for hardware die tooling of the present utility model;
FIG. 4 shows a schematic perspective view of a placement assembly of a loading device for hardware mold processing according to the present utility model;
FIG. 5 shows a schematic perspective view of an adsorption feeding assembly of the feeding device for hardware die processing according to the present utility model;
FIG. 6 is a schematic perspective view showing an auxiliary moving assembly of the loading device for hardware mold processing according to the present utility model;
fig. 7 shows a schematic view of a rear end perspective structure of a punching assembly of a feeding device for hardware die processing according to the present utility model.
The marks in the drawings are: the device comprises a 1-supporting component, a 101-base, a 102-first U-shaped block, a 103-first fixed block, a 104-second fixed block, a 2-position adjusting component, a 201-first limit groove, a 202-second limit groove, a 203-motor, a 204-screw rod, a 205-bearing, a 206-second U-shaped block, a 207-first wire sleeve, a 208-third U-shaped block, a 209-second wire sleeve, a 210-first slide bar, a 211-first through hole, a 212-second through hole, a 3-placing component, a 301-third fixed block, a 302-first electric cylinder, a 303-first pressing plate, a 304-third limit groove, a 305-placing plate, a 4-adsorption feeding component, a 401-lower die, a 402-second electric cylinder, a 403-second pressing plate, a 404-vacuum chuck, a 5-auxiliary moving component, a 501-second slide bar, a 502-third through hole, a 503-fourth through hole, a 504-supporting column, a 6-punching component, a 601-hydraulic cylinder, a 602-punching block, a 603-fourth limit box and a 604-storing box.
Detailed Description
The utility model is further described below with reference to the drawings and examples.
Referring to fig. 1, the present utility model provides an embodiment: the feeding device for hardware die machining comprises a supporting component 1; the device also comprises a position adjusting component 2, a placing component 3, an adsorption feeding component 4, an auxiliary moving component 5 and a stamping component 6; the support component 1 is provided with a position adjusting component 2 for moving; the position adjusting component 2 is provided with a placing component 3 for placing metal materials; the position adjusting assembly 2 is provided with an adsorption feeding assembly 4 for adsorbing the metal materials; the support component 1 is provided with an auxiliary moving component 5 for auxiliary movement; the support assembly 1 is provided with a punching assembly 6 for punching a metal material.
Referring to fig. 2-3, in the present embodiment, the support assembly 1 includes a base 101, a first U-shaped block 102, a first fixing block 103 and a second fixing block 104; the upper end of the base 101 is fixedly provided with a first U-shaped block 102; the upper end of the base 101 is fixedly provided with a first fixed block 103 and a second fixed block 104 which are symmetrical; the position adjusting assembly 2 comprises a first limit groove 201, a second limit groove 202, a motor 203, a screw rod 204, a bearing 205, a second U-shaped block 206, a first wire sleeve 207, a third U-shaped block 208, a second wire sleeve 209, a first slide bar 210, a first through hole 211 and a second through hole 212; the upper end of the base 101 is fixedly provided with a symmetrical first limit groove 201; a second limit groove 202 is fixedly arranged between the two first limit grooves 201; a motor 203 is fixedly arranged on the inner wall of the rear end of the second limit groove 202; a screw rod 204 is fixedly arranged at the front end of the output shaft of the motor 203; a bearing 205 is fixedly arranged on the inner wall of the front end of the second limit groove 202; the screw rod 204 is rotatably arranged in a bearing 205; the outer wall of the screw rod 204 is movably provided with a second U-shaped block 206 and a third U-shaped block 208; first silk sleeves 207 are fixedly arranged on the inner walls of the front end and the rear end of the second U-shaped block 206; second silk sleeves 209 are fixedly arranged on the inner walls of the front end and the rear end of the third U-shaped block 208; the inner walls of the first silk sleeve 207 and the second silk sleeve 209 are matched with the outer wall of the screw rod 204; the inner walls of the front end and the rear end of the first limiting groove 201 are fixedly provided with symmetrical first sliding bars 210; the front end and the rear end of the second U-shaped block 206 are provided with symmetrical first through holes 211 in a penetrating way; the front end and the rear end of the third U-shaped block 208 are provided with symmetrical second through holes 212 in a penetrating way; the inner walls of the first through hole 211 and the second through hole 212 are attached to the outer wall of the first slide bar 210.
Referring to fig. 4-5, in the present embodiment, the placement module 3 includes a third fixing block 301, a first electric cylinder 302, a first pressing plate 303, a third limiting groove 304 and a placement plate 305; a symmetrical third fixing block 301 is fixedly arranged at the upper end of the third U-shaped block 208; a symmetrical first electric cylinder 302 is fixedly arranged at one end of the third fixed block 301 far away from the center of the third U-shaped block 208; one end of the telescopic rod of the first electric cylinder 302, which is close to the center of the third U-shaped block 208, penetrates through the third fixed block 301 to be fixedly provided with a first pressing plate 303; a third limit groove 304 is fixedly formed in one end, close to the center of the third U-shaped block 208, of the first pressing plate 303; a placing plate 305 is movably arranged on the inner wall of the third limit groove 304; the adsorption feeding assembly 4 comprises a lower die 401, a second electric cylinder 402, a second pressing plate 403 and a vacuum chuck 404; the inner walls of the left end and the right end of the second U-shaped block 206 are fixedly provided with lower dies 401; the lower end of the lower die 401 is attached to the upper end of the base 101; a second electric cylinder 402 is fixedly arranged at the upper end of the first U-shaped block 102; the lower end of the telescopic rod of the second electric cylinder 402 passes through the first U-shaped block 102 and is fixedly provided with a second pressing plate 403; a vacuum chuck 404 is fixedly installed at the lower end of the second pressing plate 403.
Referring to fig. 6-7, in the present embodiment, the auxiliary moving component 5 includes a second sliding rod 501, a third through hole 502, a fourth through hole 503 and a supporting column 504; a second symmetrical sliding rod 501 is fixedly arranged between the second fixed block 104 and the first fixed block 103; the front end and the rear end of the third fixed block 301 are provided with symmetrical third through holes 502 in a penetrating way; the front end and the rear end of the second U-shaped block 206 are provided with symmetrical fourth through holes 503 in a penetrating way; the inner walls of the third through hole 502 and the fourth through hole 503 are attached to the outer wall of the second slide bar 501; a support column 504 is fixedly arranged between the third fixed block 301 and the second U-shaped block 206; the punching assembly 6 comprises a hydraulic cylinder 601, a punching block 602, a fourth limiting groove 603 and a storage box 604; the upper end of the first U-shaped block 102 is fixedly provided with a hydraulic cylinder 601; the lower end of the hydraulic cylinder 601 penetrates through the first U-shaped block 102 to be fixedly provided with a punching block 602; a fourth limit groove 603 is fixedly formed in the upper end of the base 101; the rear end of the base 101 is movably mounted with a storage box 604.
When the metal material placing device works, the corresponding placing plate 305 is replaced according to the size of the metal material, the first electric cylinder 302 is started to enable the telescopic rod of the first electric cylinder 302 to drive the first pressing plate 303 to move towards the center of the base 101, and when the inner wall of the third limiting groove 304 is attached to the left end and the right end of the placing plate 305, the first electric cylinder 302 is closed, and a plurality of metal materials are placed on the placing plate 305;
Then, the motor 203 is started to drive the screw rod 204 to rotate, the second U-shaped block 206 and the third U-shaped block 208 move in the horizontal direction by means of the first wire sleeve 207 and the second wire sleeve 209, the second U-shaped block 206 and the third U-shaped block 208 synchronously move by the support column 504, the third fixed block 301 is driven to move by the third U-shaped block 208, the first pressing plate 303 and the placing plate 305 are driven to move, when the placing plate 305 moves to be right below the vacuum chuck 404, the second electric cylinder 402 is started to drive the vacuum chuck 404 to move downwards by a telescopic rod of the second electric cylinder 402, when the placing plate 305 moves to be above the placing plate 305, the second electric cylinder 402 is closed, the vacuum chuck 404 is started to adsorb the uppermost metal material, then the motor 203 is started to drive the screw rod 204 to rotate, the placing plate 305 and the lower die 401 are driven to restore the positions, the second electric cylinder 402 is started to drive the telescopic rod of the second electric cylinder 402 to move downwards, and the metal material is placed on the lower die 401 when the placing plate 305 moves to be right below the vacuum chuck 404;
After the metal material is placed, then start motor 203 and make the output shaft of motor 203 drive lead screw 204 rotate, when making bed die 401 remove to punching press piece 602 under, close motor 203, open pneumatic cylinder 601 and make the telescopic link of pneumatic cylinder 601 drive punching press piece 602 downwardly moving, punch the metalwork in the bed die 401 through punching press piece 602, open pneumatic cylinder 601 and make punching press piece 602 upwards move after the processing is accomplished, take out the metalwork mould of having processed and place on fourth spacing groove 603, drop into receiver 604 after passing through fourth spacing groove 603 and collect, then start motor 203 and make the output shaft of motor 203 drive lead screw 204 and rotate, make the position of placing plate 305 and bed die 401 resume.
Through the steps, when the metal material is fed, the motor 203 is started to drive the screw rod 204 to rotate by the output shaft of the motor 203, the second U-shaped block 206 and the third U-shaped block 208 move in the horizontal direction by means of the first wire sleeve 207 and the second wire sleeve 209, the second U-shaped block 206 and the third U-shaped block 208 synchronously move by the support column 504, the third fixed block 301 is driven by the third U-shaped block 208 to move, the first pressing plate 303 and the placing plate 305 are driven to move, when the placing plate 305 moves to the position right below the vacuum chuck 404, the second electric cylinder 402 is started to drive the vacuum chuck 404 to move downwards by the telescopic rod of the second electric cylinder 402, when the placing plate 305 moves to the position right above the placing plate 305, the uppermost metal material is adsorbed by the vacuum chuck 404 is started after the second electric cylinder 402 is started, then the motor 203 is started to drive the screw rod 204 to rotate by the output shaft of the motor 203, the placing plate 305 and the position of the lower die 401 is driven to recover, the telescopic rod of the second electric cylinder 402 is started to drive the vacuum chuck 404 to move downwards, and when the placing plate 305 moves to the position right below the lower die 401, and the lower efficiency of the metal material is lowered by the lower die 401 is achieved, and the problem of the production efficiency is solved.
The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.
Claims (7)
1. The feeding device for hardware die machining comprises a supporting component (1); the method is characterized in that: the device also comprises a position adjusting component (2), a placing component (3), an adsorption feeding component (4), an auxiliary moving component (5) and a stamping component (6); the support component (1) is provided with a position adjusting component (2) for moving; the position adjusting component (2) is provided with a placing component (3) for placing the metal material;
An adsorption feeding assembly (4) for adsorbing the metal materials is arranged on the position adjusting assembly (2); an auxiliary moving component (5) for auxiliary movement is arranged on the supporting component (1); the support assembly (1) is provided with a punching assembly (6) for punching the metal material.
2. The feeding device for hardware die processing according to claim 1, wherein: the support assembly (1) comprises a base (101), a first U-shaped block (102), a first fixed block (103) and a second fixed block (104); the upper end of the base (101) is fixedly provided with a first U-shaped block (102); the upper end of the base (101) is fixedly provided with a first fixed block (103) and a second fixed block (104) which are symmetrical.
3. The feeding device for hardware die processing according to claim 2, wherein: the position adjusting assembly (2) comprises a first limit groove (201), a second limit groove (202), a motor (203), a screw rod (204), a bearing (205), a second U-shaped block (206), a first wire sleeve (207), a third U-shaped block (208), a second wire sleeve (209), a first sliding rod (210), a first through hole (211) and a second through hole (212); the upper end of the base (101) is fixedly provided with symmetrical first limit grooves (201); a second limit groove (202) is fixedly arranged between the two first limit grooves (201); a motor (203) is fixedly arranged on the inner wall of the rear end of the second limit groove (202); a screw rod (204) is fixedly arranged at the front end of the output shaft of the motor (203); a bearing (205) is fixedly arranged on the inner wall of the front end of the second limit groove (202); the screw rod (204) is rotatably arranged in the bearing (205); the outer wall of the screw rod (204) is movably provided with a second U-shaped block (206) and a third U-shaped block (208); the inner walls of the front end and the rear end of the second U-shaped block (206) are fixedly provided with first silk sleeves (207); second silk sleeves (209) are fixedly arranged on the inner walls of the front end and the rear end of the third U-shaped block (208); the inner walls of the first silk sleeve (207) and the second silk sleeve (209) are matched with the outer wall of the screw rod (204); the inner walls of the front end and the rear end of the first limiting groove (201) are fixedly provided with symmetrical first sliding bars (210); the front end and the rear end of the second U-shaped block (206) are provided with symmetrical first through holes (211) in a penetrating way; the front end and the rear end of the third U-shaped block (208) are provided with symmetrical second through holes (212) in a penetrating way; the inner walls of the first through hole (211) and the second through hole (212) are attached to the outer wall of the first sliding rod (210).
4. A loading attachment for hardware die tooling as defined in claim 3, wherein: the placement component (3) comprises a third fixed block (301), a first electric cylinder (302), a first pressing plate (303), a third limit groove (304) and a placement plate (305); a symmetrical third fixed block (301) is fixedly arranged at the upper end of the third U-shaped block (208); one end of the third fixed block (301) far away from the center of the third U-shaped block (208) is fixedly provided with a symmetrical first electric cylinder (302); one end of the telescopic rod of the first electric cylinder (302) close to the center of the third U-shaped block (208) penetrates through the third fixed block (301) to be fixedly provided with a first pressing plate (303); a third limit groove (304) is fixedly formed at one end, close to the center of the third U-shaped block (208), of the first pressing plate (303); the inner wall of the third limit groove (304) is movably provided with a placing plate (305).
5. A loading attachment for hardware die tooling as defined in claim 3, wherein: the adsorption feeding assembly (4) comprises a lower die (401), a second electric cylinder (402), a second pressing plate (403) and a vacuum chuck (404); the inner walls of the left end and the right end of the second U-shaped block (206) are fixedly provided with lower dies (401); the lower end of the lower die (401) is attached to the upper end of the base (101); the upper end of the first U-shaped block (102) is fixedly provided with a second electric cylinder (402); the lower end of the telescopic rod of the second electric cylinder (402) penetrates through the first U-shaped block (102) and is fixedly provided with a second pressing plate (403); the lower end of the second pressing plate (403) is fixedly provided with a vacuum chuck (404).
6. The feeding device for hardware die processing of claim 4, wherein: the auxiliary moving assembly (5) comprises a second sliding rod (501), a third through hole (502), a fourth through hole (503) and a supporting column (504); a symmetrical second sliding rod (501) is fixedly arranged between the second fixed block (104) and the first fixed block (103); the front end and the rear end of the third fixed block (301) are provided with symmetrical third through holes (502) in a penetrating way; the front end and the rear end of the second U-shaped block (206) are provided with symmetrical fourth through holes (503) in a penetrating way; the inner walls of the third through hole (502) and the fourth through hole (503) are attached to the outer wall of the second slide bar (501); a supporting column (504) is fixedly arranged between the third fixed block (301) and the second U-shaped block (206).
7. The feeding device for hardware die processing of claim 5, wherein: the stamping assembly (6) comprises a hydraulic cylinder (601), a stamping block (602), a fourth limit groove (603) and a storage box (604); a hydraulic cylinder (601) is fixedly arranged at the upper end of the first U-shaped block (102); the lower end of the hydraulic cylinder (601) penetrates through the first U-shaped block (102) to be fixedly provided with a punching block (602); a fourth limit groove (603) is fixedly formed in the upper end of the base (101); the rear end of the base (101) is movably provided with a storage box (604).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322991454.7U CN221140197U (en) | 2023-11-06 | 2023-11-06 | Feeding device for hardware die machining |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322991454.7U CN221140197U (en) | 2023-11-06 | 2023-11-06 | Feeding device for hardware die machining |
Publications (1)
Publication Number | Publication Date |
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CN221140197U true CN221140197U (en) | 2024-06-14 |
Family
ID=91424742
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202322991454.7U Active CN221140197U (en) | 2023-11-06 | 2023-11-06 | Feeding device for hardware die machining |
Country Status (1)
Country | Link |
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CN (1) | CN221140197U (en) |
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2023
- 2023-11-06 CN CN202322991454.7U patent/CN221140197U/en active Active
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