CN214561538U - Cutting-off die - Google Patents

Abstract

The utility model provides a cut-off die, including last cutting die, actuating mechanism, positioning mechanism and lower cutting die, actuating mechanism installs on last cutting die, and positioning mechanism installs on lower cutting die and just to the below at actuating mechanism. The utility model discloses can replace the artifical positioning work who accomplishes the product, location efficiency and positioning accuracy are high, can also install and carry out automated production on automation equipment, improve production efficiency.

Description

Cutting-off die

Technical Field

The utility model relates to a mould field specifically is a cut-off die utensil.

Background

In the production process of the thin water-cooling assembly, a cutting process is performed, before the cutting process is performed, as shown in fig. 6, the thin water-cooling assembly comprises a waste material part a1 (hatched part) and a body part a2, in the cutting process, a cutting mechanism is required to cut off the waste material part a1, the cutting mechanism comprises a carrying platform, a lower cutter and an upper cutter, the lower cutter and the upper cutter are both located on the same side of the carrying platform, the lower cutter is fixedly connected to the side wall of the carrying platform, one end of the upper cutter is hinged to the side wall of the carrying platform through a hinge shaft, and the other end of the upper cutter is provided with a handle. The using process of the cutting mechanism is 1, and the thin water cooling assembly is manually placed on a carrying platform; 2. manually adjusting the position of the thin water-cooling component for multiple times to enable the position to be cut off to be aligned to the edge of the lower cutter, pressing the thin water-cooling component on the carrying platform for fixing, and finally completing positioning work; 3. the upper cutter is driven by the manual driving cutter handle to move so as to be sheared with the lower cutter, and finally the waste material part A1 is cut off.

The current cutting mechanism has the following defects: 1. the product positioning work needs to be finished manually, and the positioning efficiency and the positioning precision are low; 2. the device is difficult to be installed on automatic equipment for automatic production so as to improve the production efficiency.

Disclosure of Invention

An object of the utility model is to provide a cut off mould to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a cutting die comprises an upper cutting die, a driving mechanism, a positioning mechanism and a lower cutting die, wherein the driving mechanism is installed on the upper cutting die, and the positioning mechanism is installed on the lower cutting die and is just opposite to the position below the driving mechanism.

Furthermore, the upper cutter die comprises an upper die base and an upper cutter, the upper cutter is mounted on the upper die base, and a rear edge is arranged behind the lower portion of the upper cutter.

Further, the driving mechanism comprises two pressing needles.

Further, positioning mechanism pushes away subassembly and right spacing subassembly after including left relief angle locating part, back spacing piece, centre gripping, the right front angle of left side relief angle locating part sets up the chamfer, left side relief angle locating part and back spacing piece set up relatively along left right direction respectively, left side relief angle locating part and back spacing piece all are located the centre gripping and push away the rear of subassembly, right side spacing subassembly is located and pushes away between subassembly and the back spacing piece after the centre gripping.

Furthermore, the clamping and backward pushing assembly comprises two groups of oblique backward pushing modules which are arranged in a splayed shape, and two avoidance grooves are respectively formed in positions, corresponding to the two groups of oblique backward pushing modules, of the lower surface of the upper cutting die.

Furthermore, the lower cutting die is provided with a containing groove, the inclined backward pushing module is installed in the containing groove and comprises a sliding seat, a spring and an inclined sliding block, the sliding seat is provided with an inclined guide groove, the lower surface of the inclined sliding block is provided with a blind hole, the spring is arranged between the blind hole and the containing groove, the inclined sliding block protrudes out of the upper surface of the lower cutting die, the inclined sliding block is provided with an inclined guide block matched with the inclined guide groove, the inclined guide block is connected with the inclined guide groove in a sliding manner, and the upper cutting die moves downwards and drives the two inclined sliding blocks to move downwards along the intersecting direction of the inclined sliding block and the inclined guide groove through a driving mechanism.

The lower cutting die comprises a base, a lower die plate and a lower cutter, the lower die plate is elastically connected to the base, the front edge of the upper portion of the lower cutter is a front edge, the lower cutter is installed on the lower elastic die base and penetrates through the upper die plate upwards, and the upper cutting die moves downwards and presses the lower die plate through the die assembly distance limiting mechanism to enable the lower cutter to protrude out of the upper surface of the lower die plate and perform shearing movement with the upper cutter.

Further, the lower die plate is mounted on the base through at least two guide posts and a plurality of die springs.

The die assembly distance limiting mechanism is mounted on the upper cutting die or the lower cutting die.

Further, the die assembly distance limiting mechanism comprises a plurality of pressing shafts, the pressing shafts are mounted on the upper cutting die, and the lower ends of the pressing shafts protrude out of the lower surface of the upper cutting die.

The utility model has the advantages that:

the utility model discloses install and use at the electric beer machine of automation equipment, wherein lower cutting die and last cutting die install respectively on electric beer machine's workstation and drive division, go up the cutting die just to the top at lower cutting die, automation equipment puts a slice slim water-cooling component in positioning mechanism through inhaling the material manipulator, slim water-cooling component's this somatic part is located positioning mechanism promptly, cutting die drives actuating mechanism downstream on the electric beer machine drive, actuating mechanism drives positioning mechanism and fixes a position slim component's this somatic part, when going up cutting die and pushing down cutting die, go up cutting die and cutting die down and carry out the shearing motion and cut off slim water-cooling component's waste material portion, cutting die drives actuating mechanism and is the motion on the electric beer machine drive, a duty cycle is finally accomplished.

The utility model discloses can replace the artifical positioning work who accomplishes the product, location efficiency and positioning accuracy are high, can also install and carry out automated production on automation equipment, improve production efficiency.

Drawings

FIG. 1: an exploded view of a cutting die.

FIG. 2: a perspective view of an upper cutting die of a cutting die from top to bottom is provided.

FIG. 3: a partially exploded view of a cutting die.

FIG. 4: a top view schematic diagram of a positioning mechanism of a cutting die and a lower cutting die assembly.

FIG. 5: an exploded view of a diagonal push-back module of a cutting die.

FIG. 6: a schematic top view of a thin water cooling module.

Detailed Description

The invention is further explained below with reference to the drawings:

referring to fig. 1 and 2, a cutting die includes an upper cutting die 1, a driving mechanism 2, a positioning mechanism 3, and a lower cutting die 4, wherein the driving mechanism 2 is mounted on the upper cutting die, and the positioning mechanism 3 is mounted on the lower cutting die 4 and faces below the driving mechanism 2.

Referring to fig. 2, the upper cutter die 1 includes an upper die base 11 and an upper cutter 12, the upper cutter 12 is mounted on the upper die base 11, and a lower portion of the upper cutter 12 has a rear edge.

Referring to fig. 2, the driving mechanism 2 includes two pressing pins 21, and the two pressing pins 21 are disposed.

Referring to fig. 3, the positioning mechanism 3 includes a left rear corner limiting member 31, a rear limiting member 32, a clamping rear pushing member 33 and a right limiting member 34, which are all protruded from the upper surface of the lower cutting die 4, a chamfer 311 is formed on the right front corner of the left rear corner limiting member 31, the left rear corner limiting member 31 and the rear limiting member 32 are respectively arranged oppositely along the left and right direction, the left rear corner limiting member 31 and the rear limiting member 32 are both located behind the clamping rear pushing member 33, and the right limiting member 34 is located between the clamping rear pushing member 33 and the rear limiting member 32.

Referring to fig. 3, a sinking platform 4-1 is disposed behind the lower cutting die 4, the left rear corner limiting member 31, the lower cutting blade 43 and the rear limiting member 32 are all fixed in the sinking platform 4-1, and the left rear corner limiting member 31 and the rear limiting member 32 are respectively located on the left and right sides of the lower cutting blade 43.

Referring to fig. 2 and 3, the positions of the lower surface of the upper cutting die 1 corresponding to the left rear corner limiting member 31, the lower cutting blade 43 and the rear limiting member 32 are respectively provided with a second avoidance groove 1-3, a third avoidance groove 1-4 and a fourth avoidance groove 1-5.

Referring to fig. 2 to 4, the clamping and pushing assembly 33 includes two sets of inclined pushing modules 331, the inclined pushing modules 331 are arranged in a splayed configuration, and two avoidance grooves 1-2 are respectively formed at positions of the lower surface of the upper cutting die 1 corresponding to the two sets of inclined pushing modules 331.

Referring to fig. 4 and 5, the lower cutting die 4 has a receiving groove, the inclined rear pushing module 331 is installed in the receiving groove, the inclined rear pushing module 331 includes a sliding base 3311, a spring 3312 and an inclined sliding block 3313, the sliding base 3311 has an inclined guiding groove 3311-1, the inclined sliding block 3313 has a blind hole on its lower surface, the spring 3312 is disposed between the blind hole and the receiving groove, the inclined sliding block 3313 protrudes out of the upper surface of the lower cutting die 4, the inclined sliding block 3313 is provided with an inclined guiding block 3313-1 adapted to the inclined guiding groove 3311-1, the inclined guiding block 3313-1 is slidably connected to the inclined guiding groove, and the upper cutting die 1 moves downward to drive the two inclined sliding blocks 3313 downward through the driving mechanism 2 and moves along the intersecting direction of the two inclined sliding blocks 3313.

The right limit assembly 34 includes two positioning pins that are arranged in parallel and at intervals in the front-rear direction.

Referring to fig. 3, the lower cutting die 4 includes a base 41, a lower die plate 42 and a lower cutter 43, the lower die plate 42 is elastically connected to the base 41, the upper portion of the lower cutter 43 has a front edge 431, the lower cutter 43 is mounted on the lower elastic die base and upwardly penetrates through the upper die plate, the upper cutting die 1 moves downwards, and the lower die plate 42 is pressed downwards by the die assembly distance limiting mechanism, so that the lower cutter 43 protrudes out of the upper surface of the lower die plate 42 and performs a shearing movement with the upper cutter 12.

Referring to fig. 3, the lower die plate 42 is mounted on the base 41 by at least two guide posts 44 and a plurality of die springs 45. The at least two guide pillars 44 are fixedly arranged on the base 41 and slide upwards to penetrate through the lower template 42, a plurality of first spring fixing grooves are formed in the lower surface of the lower template 42, a plurality of second spring fixing grooves are formed in positions, corresponding to the first spring fixing grooves, of the upper surface of the base 41, the upper ends of the plurality of die springs 45 are respectively sleeved in the first spring fixing grooves, and the lower ends of the plurality of die springs 45 are respectively sleeved in the second spring fixing grooves.

Referring to fig. 2 and 3, the upper ends of at least two guide posts 44 protrude out of the lower die plate 42, the upper cutting die 1 is provided with at least two guide post holes 1-1, the at least two guide post holes 1-1 are respectively adapted to the at least two guide posts 44, and when the upper cutting die 1 and the lower cutting die 4 are closed, the at least two guide post holes 1-1 are respectively matched with the at least two guide posts 44 to play a role in guiding the closed die.

The die assembly distance limiting mechanism is arranged on the upper cutting die 1. When the upper cutting die 1 presses the lower cutting die 4 through the die assembly distance limiting mechanism, the die assembly distance limiting machine enables a distance to exist between the upper cutting die 1 and the lower cutting die 4, and the distance is matched with the thickness of the thin water cooling assembly and used for limiting the vertical displacement of the thin water cooling assembly.

Referring to fig. 2, the mold clamping distance limiting mechanism includes a plurality of pressing shafts 51, the plurality of pressing shafts 51 are mounted on the upper cutter die 1, and lower ends of the plurality of pressing shafts 51 protrude from a lower surface of the upper cutter die 1.

The utility model discloses a theory of operation:

the utility model discloses install and use at the electric beer machine of automation equipment, wherein lower cutter mould 4 and upper cutter mould 1 install respectively on electric beer machine's workstation and drive division, upper cutter mould 1 is just to the top at lower cutter mould 4, and automation equipment puts a slice of slim water-cooling subassembly in positioning mechanism 3 through inhaling the material manipulator, and body portion A2 of slim water-cooling subassembly is located between left relief angle locating part 31, back locating part 32, centre gripping back push assembly 33 and right locating part 34 promptly;

the electric beer machine drives the upper cutter die 1 to drive the two pressing needles 21 to move downwards, the two pressing needles 21 respectively press the splayed inclined sliders 3313 to enable the two to move downwards in the downward movement process and towards the intersecting direction of the two to clamp the front part of the body part A2, meanwhile, because the intersecting direction of the splayed inclined sliders 3313 is in the rear, the two pressing needles also apply backward force to the body part A2, the rear side A21 of the body part A2 is ensured to be attached to the rear limiting member 32, the left angle A22 of the body part A2 is also ensured to be attached to the chamfer 311 of the left rear angle limiting member 31 in place, meanwhile, the right side A23 of the body part A2 is attached to the right limiting member 34 under the guiding action of the chamfer 311, and finally the positioning of the body part A2 by the positioning mechanism 3 is realized, and the position to be cut on the water-cooling sheet assembly is right above the front edge 431 of the lower cutter 43;

when the upper cutting die 1 presses the lower template 42 downwards through the die assembly distance limiting mechanism, the front edge 431 of the lower cutting knife 43 protrudes out of the upper surface of the lower template 42 and carries out shearing movement with the rear edge of the upper cutting knife 12, finally, the waste material part A1 of the thin water-cooling assembly is cut off, the upper cutting die 1 is driven by the electric beer machine to drive the driving mechanism 2 to reset, and finally, a working cycle is completed.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (10)

1. A cutting die, characterized in that: the cutting device comprises an upper cutting die, a driving mechanism, a positioning mechanism and a lower cutting die, wherein the driving mechanism is arranged on the upper cutting die, and the positioning mechanism is arranged on the lower cutting die and is just opposite to the lower part of the driving mechanism.

2. A cutting die according to claim 1, wherein: the upper cutter die comprises an upper die base and an upper cutter, the upper cutter is mounted on the upper die base, and the lower portion of the upper cutter is provided with a rear edge.

3. A cutting die according to claim 1, wherein: the driving mechanism comprises two pressing needles.

4. A cutting die according to claim 1, wherein: positioning mechanism pushes away subassembly and right spacing subassembly after including left relief angle locating part, back spacing piece, centre gripping, the right front angle of left side relief angle locating part sets up the chamfer, left side relief angle locating part and back spacing piece set up relatively along left right direction respectively, left side relief angle locating part and back spacing piece all are located the centre gripping back and push away the rear of subassembly, right side spacing subassembly is located the centre gripping and pushes away between subassembly and the back spacing piece.

5. A cutting die according to claim 4, wherein: the clamping and backward pushing assembly comprises two groups of backward pushing modules which are arranged in a splayed manner, and two avoiding grooves are formed in the positions, corresponding to the two groups of backward pushing modules, of the lower surface of the upper cutting die respectively.

6. A cutting die according to claim 5, wherein: the lower cutting die is provided with a containing groove, the inclined rear pushing module is installed in the containing groove and comprises a sliding seat, a spring and an inclined sliding block, an inclined guide groove is formed in the sliding seat, a blind hole is formed in the lower surface of the inclined sliding block, the spring is arranged between the blind hole and the containing groove, the inclined sliding block protrudes out of the upper surface of the lower cutting die, an inclined guide block matched with the inclined guide groove is arranged on the inclined sliding block, the inclined guide block is connected with the inclined guide groove in a sliding mode, and the upper cutting die moves downwards and drives the two inclined sliding blocks to move downwards along the intersecting direction of the inclined sliding block and the inclined guide groove through a driving mechanism.

7. A cutting die according to claim 1, wherein: the lower cutting die comprises a base, a lower die plate and a lower cutter, the lower die plate is elastically connected to the base, the upper portion of the lower cutter is provided with a front edge, the lower cutter is installed on the lower elastic die base and upwards penetrates through the upper die plate, and the upper cutting die moves downwards and presses the lower die plate through a die assembly distance limiting mechanism to enable the lower cutter to protrude out of the upper surface of the lower die plate and perform shearing movement with the upper cutter.

8. A cutting die according to claim 7, wherein: the lower template is mounted on the base through at least two guide posts and a plurality of die springs.

9. A cutting die according to claim 1, wherein: the die assembly distance limiting mechanism is arranged on the upper cutting die or the lower cutting die.

10. A cutting die according to claim 9, wherein: the die assembly distance limiting mechanism comprises a plurality of pressing shafts, the pressing shafts are mounted on the upper cutting die, and the lower ends of the pressing shafts protrude out of the lower surface of the upper cutting die.

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