CN114951445A

CN114951445A - High-performance pot forming equipment

Info

Publication number: CN114951445A
Application number: CN202210587440.6A
Authority: CN
Inventors: 吕伊俐
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-27
Filing date: 2022-05-27
Publication date: 2022-08-30

Abstract

The invention discloses high-performance pot forming equipment which comprises a punching machine, a base, a sliding die frame and an adsorption device, wherein a punching plate is arranged on the bottom surface of a telescopic rod of the punching machine, a punching head is arranged on the bottom surface of the punching machine and used for punching a plate, a locking plate is also arranged on the punching plate in an elastic sliding manner, the sliding die frame comprises a left die block, a right die block and a rotating guide rod, the rotating guide rod is rotatably arranged on the base, and a positive thread, a negative thread and a gear are arranged on the rotating guide rod. The invention provides high-performance pot forming equipment, which can automatically combine and lock a left module and a right module when a stamping plate goes down, so that the left module and the right module can smoothly complete stamping work, can automatically separate after the stamping work is completed, can automatically collect a pot body, avoids the phenomenon that a finished product is clamped in a die cavity and cannot be taken out during demoulding, can realize automatic operation on the basis of not consuming other energy sources, reduces labor cost, saves energy sources and reduces the production cost of products.

Description

High-performance pot forming equipment

Technical Field

The invention relates to the technical field of cookware manufacturing, in particular to high-performance cookware forming equipment.

Background

The pot is manufactured in various forms such as casting, forging, stamping forming and the like, most of common pots are manufactured by stamping forming, the manufacturing speed is high, the cost is low, but when the pot with a deep pot wall with small inclination is stamped, the pot is easily clamped in a mould, demoulding cannot be smoothly carried out, an operator needs to manually take out the pot, and the mould can be damaged, so that unnecessary loss is caused.

Disclosure of Invention

The invention provides high-performance pot forming equipment aiming at the defects in the prior art.

In order to solve the technical problems, the invention is solved by the following technical scheme: high-performance pot forming equipment comprises a punching machine, a base and a sliding die frame, wherein a punching plate is arranged on the bottom surface of a telescopic rod of the punching machine, a punching head is arranged on the bottom surface of the punching machine and used for punching a plate, a locking plate is also arranged on the punching plate in an elastic sliding manner, the sliding die frame comprises a left module, a right module and a rotating guide rod, the rotating guide rod is rotatably arranged on the base, positive threads, negative threads and gears are arranged on the rotating guide rod, the left module and the right module are oppositely slidably arranged on the rotating guide rod, sliding blocks are in threaded connection on the positive threads and the negative threads and are in elastic press contact with the left module and the right module, meanwhile, a first elastic piece is arranged between the left module and the right module, a rack is arranged on the locking plate and is meshed with the gears, the punching plate moves downwards to drive the rotating guide rod to rotate so as to enable the sliding blocks to move, the left module and the right module are folded towards the center to form a whole, a locking rod is arranged on the left module, a locking hole is formed in the locking rod, a sliding hole is formed in the right module, a vertical through hole perpendicular to the sliding hole is further formed in the right module, the vertical through hole extends out of the upper plane, a locking head is arranged on the locking plate, the left module and the right module are folded, the locking hole is aligned with the vertical through hole, the locking plate moves downwards, and the locking head on the locking plate can be inserted into the locking hole.

The stamping die has the beneficial effects that the left and right modules can be combined by sliding the stamping plate downwards and can be automatically locked, the left and right modules cannot slide towards two sides during stamping, and the left and right modules can automatically slide towards two sides after the stamping is finished, so that the stamped pot body can be conveniently taken out.

In the above scheme, preferably, the base includes a sliding flat plate, a sliding long groove is formed in the sliding flat plate, the sliding blocks are slidably arranged on the sliding long groove in a guiding manner, the positive threads and the negative threads are respectively arranged at the left end and the right end of the rotating guide rod, and the rotating guide rod rotates to drive the left sliding block and the right sliding block to move oppositely or oppositely.

The sliding mechanism has the beneficial effects that the left module and the right module can better slide.

In the above scheme, it is preferred that all be provided with the second elastic component between slider and left module and the right module about, and its cover is established on rotating the guide bar.

In the above scheme, it is preferred, be provided with the guide bar on the lock plate, it slides about through the guide bar and sets up on the punching press board, just the cover is equipped with the third elastic component on the guide bar, and its both ends are pushed up respectively and are touched on the lock plate and on the punching press board.

In the above scheme, preferably, the sliding flat plate is provided with a blanking hole for allowing a punched finished product to fall down, the bottom surface of the sliding flat plate is provided with a guide pillar, the sliding flat plate is provided with a magnetic attraction device in a sliding manner, the sliding flat plate ascends to be provided with a second rack, the second rack is meshed with the gear, the locking plate descends to drive the magnetic attraction device to ascend, and the locking plate ascends to drive the magnetic attraction device to descend.

In the above scheme, preferably, the magnetic suction device is further provided with a magnetic suction head, the upper end of the magnetic suction head is magnetic, the middle of the left module and the right module after combination is provided with a magnetic suction hole, when the magnetic suction device is positioned at the uppermost section, the magnetic suction head on the magnetic suction device is just positioned in the magnetic suction hole, and the upper plane of the magnetic suction head is flush with the bottom surfaces of the female dies in the left module and the right module.

In the above scheme, preferably, an inclined slide carriage is further arranged on the bottom surface of the sliding flat plate, a separation hole is formed in the inclined slide carriage, the diameter of the inclined slide carriage is larger than that of the magnetic suction head and smaller than that of the pot body, and the magnetic suction head rises and falls and passes through the separation hole.

In the above scheme, preferably, the position where the separation hole is located is higher than the pot body from the bottom surface of the sliding flat plate, a collecting hopper is further arranged on the base, and the pot body slides into the collecting hopper through the guide of the inclined slide carriage.

The magnetic suction pot has the beneficial effects that when the left module and the right module are separated, the pot body which is punched can be kept at the original position under the action of the magnetic suction head, and after the left module and the right module are opened, the pot body falls down along with the magnetic suction head and automatically falls into the collecting hopper after being separated by the inclined slide carriage.

The invention has the beneficial effects that: the invention provides high-performance pot forming equipment, which can automatically combine and lock a left module and a right module when a stamping plate goes down, so that the left module and the right module can smoothly complete stamping work, can automatically separate after the stamping work is completed, can automatically collect a pot body, avoids the phenomenon that a finished product is clamped in a die cavity and cannot be taken out during demoulding, can realize automatic operation on the basis of not consuming other energy sources, reduces labor cost, saves energy sources and reduces the production cost of products.

Drawings

FIG. 1 is a schematic view of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

FIG. 3 is an internal schematic view of the present invention.

Fig. 4 is a schematic view of the slip mold of the present invention.

Fig. 5 is a sectional view of the sliding mold frame according to the present invention.

Fig. 6 is a schematic view of the inventive press.

FIG. 7 is a schematic view of a left module of the present invention.

FIG. 8 is a right block diagram of the present invention.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings: referring to fig. 1-8, high performance pan former includes punching machine 1, base 2, sliding die carrier 3 and material feeding unit, material feeding unit can be automatic for stamping device transport raw material plate, punching machine 1 sets up on base 2, and is provided with stamping plate 11 on its telescopic link, be provided with the punching press head 12 that is used for the punching press of the pot body on the stamping plate 11, and still slide on it and be provided with lock plate 13, be provided with guide bar 133 on the lock plate 13 up end, slide through it and set up on stamping plate 11, and the cover is equipped with third elastic component 134 on guide bar 133, and its both ends push up respectively and touch on the last plane of stamping plate 11 bottom surface and lock plate 13, still be provided with rack 131 on the lock plate 13 side, still be provided with lock head 132 on its bottom surface.

Wherein in the initial state the underside of the locking plate 13 is lower than the underside of the punch head 12.

Be provided with slip dull and stereotyped 21 and collect the fill 25 on the base 2, collect the pot body that the fill 25 is used for collecting stamping forming, sliding die carrier 3 is including rotating guide bar 33, it rotates to set up on slip dull and stereotyped 21 to rotate guide bar 33, is provided with positive screw thread 331 and counter thread 332 at its both ends, and the screw thread is provided with sliding block 34 on positive screw thread 331 and counter thread 332, slip elongated slot 211 has been seted up on the slip dull and stereotyped 21, and sliding block 34 slides and sets up in slip elongated slot 211.

The rotation guide rod 33 rotates to drive the positive thread 331 and the negative thread 332 thereon to rotate, so that the sliding blocks 34 screwed thereon slide, and the left and right sliding blocks 34 slide in opposite directions or in opposite directions.

It is provided with left module 31 and right module 32 still to slide on the rotation guide bar 33, and both combine the back to form complete die cavity, and its intermediate position cover at rotation guide bar 33 is equipped with first elastic component 35, and its both ends are pushed up respectively and are touched on left module 31 and right module 32, and still push up on lateral surface between them and touch and be provided with second elastic component 36, and the other end of second elastic component 36 pushes up and touches on the sliding block 34 on both sides still be provided with gear 333 on the one end of rotation guide bar 33, its rack 131 with on the locking plate 13 meshes.

Wherein, the upper surface of left module 31 and right module 32 has seted up the raw materials board recess, and right module 32 upper surface has magnetism, and when right module 32 moved to the left end, material feeding unit can transport the raw materials board in the recess of right module 32, and right module 32 upper surface adsorbs it in the recess, and when left module 31 and right module 32 folded, can not push up and touch on left module 31, and after both folded, raw materials board was located punching head 12 below.

The inner side of the left module 31 is provided with a locking rod 311, the locking rod 311 is provided with a locking hole 312 from top to bottom, the side of the right module 32 is provided with a sliding hole 321 matched with the locking rod 311, the sliding hole 311 is provided with a vertical through hole 322 vertical to the sliding hole, and the extending part of the vertical through hole is provided with an upper plane.

Wherein the vertical through hole 322 is aligned with the sliding hole 321 after the left module 31 and the right module 32 are coupled.

When the locking plate 13 slides downwards, it drives the gear 333 to rotate, thereby driving the rotation guide rod 33 to rotate, so that the left and right sliding blocks 34 screwed thereon slide towards the middle at the same time, and meanwhile, the second elastic member 36 is pressed to make it press the left module 31 and the right module 32 to approach towards the center, and finally, the left and right sliding blocks 34 and the right module 32 are combined together, then the locking plate 13 continues to descend, the left and right sliding blocks 34 continue to slide towards the middle, and the second elastic member 36 is compressed until the locking plate 13 is pressed on the upper surfaces of the left module 31 and the right module 32, and the locking head 132 thereon is inserted into the vertical through hole 322 and inserted into the sliding hole 321 at the same time, thereby locking the left module 31 and the right module 32, and the left module 31 and the right module 32 can not slide outwards any more.

Wherein the rotation guide bar 33 sets up 2, and left module 31 and right module 32 slide on two rotation guide bar 33 simultaneously, make left and right module slip more steadily.

The blanking hole 212 is formed in the sliding flat plate 21, the finished product after stamping can pass through the blanking hole, the two guide posts 22 are further arranged on the bottom surface of the sliding flat plate, the magnetic attraction device 23 is arranged on the guide posts in a sliding mode, the magnetic attraction device 23 comprises a bottom plate 233, a magnetic attraction head 232 and a second rack 231, the second rack 231 and the magnetic attraction head 232 are both arranged on a base 233, the base 233 is arranged on the guide posts 22 in a sliding mode, and the second rack 231 is meshed with the gear 333.

The locking plate 13 slides downwards to drive the gear 333 to rotate, and the gear 333 drives the second rack 231 to slide upwards, so as to drive the magnetic attraction device 23 to slide upwards.

The blanking hole 212 is provided with an inclined slide carriage 24 below, and the inclined slide carriage is arranged on the bottom surface of the sliding plate 21, and the inclined slide carriage 24 is provided with a separation hole 241, the diameter of the separation hole is larger than that of the magnetic suction head 232 and smaller than that of the pan body, the magnetic suction device 23 slides up and down, the magnetic suction head 232 on the magnetic suction device passes through the separation hole 241, the magnetic suction hole 313 is reserved in the middle of the left module 31 and the right module 32 after combination, the size of the magnetic suction hole is matched with that of the magnetic suction head 232, when the locking plate 13 is pressed against the left module 31 and the right module 32, the magnetic suction head 23 runs to the uppermost end, the magnetic suction head 232 on the magnetic suction device is just positioned in the magnetic suction hole 313, the upper plane of the magnetic suction head is level with the inner mold bottom surface of the left module 31, and the left module 31 and the right module 32 are combined together to form a complete mold cavity, and the magnetic suction head 232 has magnetism.

The bottom plate 233 is further provided with a piston sleeve 234 in which a piston rod 235 is slidably disposed, the magnetic suction head 232 is disposed at the top end of the piston rod 235, the piston rod 235 is sleeved with a fourth elastic member 236, the fourth elastic member is located in the piston sleeve 234, and two ends of the fourth elastic member respectively abut against the top surface of the inner hole of the piston sleeve 234 and a piston ring of the piston rod 235.

Wherein locking plate 13 glides downwards, device 23 upwards slides is inhaled to magnetism, when locking plate 13 top touches on left module 31, magnetic suction head 232 makes up together with left module 31 and right module 32 and forms a complete die cavity, left module 31 and right module 32 have been locked this moment, punching press head 12 begins to carry out punching press work to panel this moment, punching press board 11 continues to drive punching press head 12 down together, it cooperates with left module 31 and right module 32 and becomes the off-the-shelf pot body with panel punching press, and locking plate 13 top touches on left module 31 this moment, keep the immobility, thereby compression third elastic component 134.

After the punching is completed, the punching plate 11 starts to be lifted upwards, the locking plate 13 continues to be pressed against the left die block 31 under the action of the third elastic piece 134, and after the punching head 12 is taken out of the die cavity, the convex block at the top end of the guide rod 133 on the locking plate 13 is pressed against the upper plane of the punching plate 11, so that the punching plate 11 drives the locking plate 13 to move upwards together.

In the process of moving upwards, the locking head 132 on the locking plate 13 is pulled away from the vertical through hole 322, so that the left module 31 and the right module 32 are unlocked, meanwhile, the locking plate 13 slides upwards to drive the gear 333 to rotate, so that the rotation guide rod 33 rotates, and the left and right sliding blocks 34 on the locking plate slide towards two sides, so that the pressure contact on the second elastic piece 36 is reduced, after the elastic force is reduced to a certain degree, the left module 31 and the right module 32 slide towards two sides under the action of the first elastic piece 35, and the formed pot body is adsorbed by the magnetic attraction head 232, so that the left module 31 and the right module 32 move towards two sides, the position of the pot body is kept still, until the left module 31 and the right module 32 are completely opened, and the pot body can slide downwards.

The locking plate 13 slides upwards to drive the second rack 231 to slide downwards, and at the moment, the magnetic suction head 232 is adsorbed on the pan body, the pan body has the barrier to the bottom surface of the pan body because the left module 31 and the right module 32 are not completely separated, so the second rack 231 drives the bottom plate 233 to slide downwards, which causes the piston sleeve 234 to slide downward, thereby compressing the fourth elastic member 236, and after the left and

right modules

31 and 32 are completely separated, the pan body slides downwards to be propped against the inclined slide carriage 24 under the action of the fourth elastic element 236, and at this time, the locking plate 13 slides upwards to slide upwards continuously, thereby driving the bottom plate 233 to slide downwards continuously, thereby compressing the fourth elastic member 236, when the elastic force of the fourth elastic member 236 is greater than the attraction force of the magnetic attraction head 232 to the bottom of the pan, the magnetic attraction head 232 is separated from the pan body, under the action of the fourth elastic member 236, the initial state is restored, and the pan body slides along the inclined slide carriage 24 into the collection hopper 25.

The working principle or the using method is as follows:

at initial state, material feeding unit can transport the raw materials board in the recess of right module 32, and the recess on the right module 32 adsorbs it, and equipment starts this moment, and punching press board 11 begins to descend, drives punching press head 12 and locking plate 13 and descends together.

The locking plate 13 moves downwards to drive the gear 333 to rotate, so as to drive the rotation guide rod 33 to rotate, the left sliding block 34 and the right sliding block 34 which are connected with the rotation guide rod through threads slide towards the middle at the same time, the left module 31 and the right module 32 are pressed to move towards the center, after the left module 31 and the right module 32 are combined together, the locking plate 13 continues to descend, the left sliding block 34 and the right sliding block 34 continue to slide towards the middle, the second elastic piece 36 is compressed until the locking plate 13 is pressed and contacted on the upper surfaces of the left module 31 and the right module 32, and the locking head 132 on the locking plate 13 is inserted into the vertical through hole 322 and simultaneously inserted into the sliding hole 321, so that the left module 31 and the right module 32 are locked, and the left module 31 and the right module 32 can not slide outwards.

And at the descending in-process of locking plate 13, magnetism device 23 upwards slides, push up at locking plate 13 and touch on left module 31 when, magnetism head 232 and left module 31 and right module 32 make up together and form a complete die cavity, left module 31 and right module 32 have been locked this moment, consequently when punching press head 12 begins the punching press to panel, left module 31 and right module 32 can not slide to both sides, punching press board 11 continues to drive down punching press head 12 down together, it becomes the off-the-shelf pot body with the cooperation of left module 31 and right module 32 with panel punching press, and locking plate 13 top touches on left module 31 this moment, keep motionless, compress third elastic component 134.

After the punching is completed, the punching plate 11 starts to lift upwards, the lock plate 13 continues to be pressed against the left die block 31 under the action of the third elastic piece 134, and after the punching head 12 is taken out of the die cavity, the convex block at the top end of the guide rod 133 on the lock plate 13 is pressed against the upper plane of the punching plate 11, so that the punching plate 11 drives the lock plate 13 to move upwards together.

In the process of moving up the locking plate 13, the locking head 132 on the locking plate 13 is pulled out of the vertical through hole 322, thereby unlocking the left module 31 and the right module 32, meanwhile, the locking plate 13 slides up, the gear 333 is driven to rotate, the rotation guide rod 33 is driven to rotate, thereby the left and right sliding blocks 34 on the locking plate slide to two sides, thereby reducing the pressure contact on the second elastic piece 36, after the elastic force is reduced to a certain degree, the left module 31 and the right module 32 slide to two sides under the action of the first elastic piece 35, and the formed pot body is adsorbed by the magnetic suction head 232, thereby the pot body moves to two sides at the left module 31 and the right module 32, the position of the pot body is kept still until the left module 31 and the right module 32 are completely opened, and the pot body can slide down.

The locking plate 13 slides upwards to drive the second rack 231 to slide downwards, and at this time, the magnetic attraction head 232 is adsorbed on the pan body, and the pan body still blocks the bottom surface of the pan body because the left module 31 and the right module 32 are not completely separated, so that the second rack 231 drives the bottom plate 233 to slide downwards, which drives the piston sleeve 234 to slide downwards, thereby compressing the fourth elastic member 236, after the left module 31 and the right module 32 are separated to a certain degree, the blocking of the pan body disappears, the pan body slides downwards and is pressed against the inclined sliding plate 24 under the action of the fourth elastic member 236, and at this time, the locking plate 13 slides upwards and continues to slide upwards, thereby driving the bottom plate 233 to continue to slide downwards, thereby compressing the fourth elastic member 236, when the elastic force of the fourth elastic member 236 is greater than the adsorption force of the magnetic attraction head 232 on the pan bottom, the magnetic attraction head 232 is separated from the pan body to be adsorbed, and returns to the initial state under the action of the fourth elastic member 236, while the pan body slides along the inclined slide carriage 24 into the collection hopper 25.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. High performance pan former, its characterized in that: the stamping die comprises a stamping machine (1), a base (2) and a sliding die frame (3), wherein a stamping plate (11) is arranged on the bottom surface of a telescopic rod of the stamping machine (1), a stamping head (12) is arranged on the bottom surface of the telescopic rod and used for stamping a plate, and a locking plate (13) is also arranged on the stamping plate (11) in an elastic sliding manner;

the sliding die carrier (3) comprises a left die block (31), a right die block (32) and a rotating guide rod (33), the rotating guide rod (33) is rotatably arranged on the base (2), a positive thread (331), a negative thread (332) and a gear (333) are arranged on the rotating guide rod (33), the left die block (31) and the right die block (32) are oppositely arranged on the rotating guide rod (33) in a sliding manner, sliding blocks (34) are in threaded connection with the positive thread (331) and the negative thread (332) and are in elastic pressure contact with the left die block (31) and the right die block (32), and meanwhile, a first elastic piece (35) is arranged between the left die block (31) and the right die block (32);

the lock plate (13) is provided with a rack (131) which is meshed with a gear (333), the punching plate (11) moves downwards to drive the rotating guide rod (33) to rotate, so that the sliding block (34) can move, and the left module (31) and the right module (32) are folded towards the center to form a whole;

a locking rod (311) is arranged on the left module (31), a locking hole (312) is formed in the locking rod (311), a sliding hole (321) is formed in the right module (32), a vertical through hole (322) which is vertical to the sliding hole (321) is formed in the right module, and the upper plane is extended out of the right module;

the locking plate (13) is provided with a locking head (132), the left module (31) and the right module (32) are folded, the locking hole (312) is aligned to the vertical through hole (322), the locking plate (13) moves downwards, and the locking head (132) on the locking plate can be inserted into the locking hole (312).

2. The high-performance pot forming apparatus according to claim 1, wherein: the base (2) comprises a sliding flat plate (21), a sliding long groove (211) is formed in the sliding flat plate, the sliding block (34) is arranged on the sliding long groove (21) in a guiding and sliding mode, the positive threads (331) and the negative threads (332) are arranged at the left end and the right end of the rotating guide rod (33) respectively, and the rotating guide rod (33) rotates to drive the left sliding block (34) and the right sliding block (34) to move oppositely or oppositely.

3. The high-performance pot forming apparatus according to claim 2, characterized in that: and second elastic pieces (36) are arranged between the left sliding block (34) and the left module (31) and between the left sliding block and the right sliding block (32), and are sleeved on the rotating guide rod (33).

4. The high-performance pot forming apparatus according to claim 1, wherein: be provided with guide bar (133) on lock plate (13), it slides from top to bottom through guide bar (133) and sets up on punching press board (11), just guide bar (133) are gone up the cover and are equipped with third elastic component (134), and its both ends are pushed up respectively and are touched on lock plate (13) and punching press board (11).

5. The high-performance pot forming apparatus according to claim 2, characterized in that: the blanking hole (212) is formed in the sliding flat plate (21) and used for enabling a punched finished product to fall down, the guide post (22) is arranged on the bottom surface of the sliding flat plate (21), the magnetic suction device (23) is arranged on the sliding flat plate in a sliding mode, the second rack (231) is arranged on the sliding flat plate in an ascending mode and meshed with the gear (333), the locking plate (13) descends to drive the magnetic suction device (23) to ascend, and the locking plate (13) ascends to drive the magnetic suction device (23) to descend.

6. The high-performance pot forming apparatus according to claim 5, wherein: the magnetic suction device (23) is further provided with a magnetic suction head (232), the upper end of the magnetic suction head is magnetic, a magnetic suction hole (313) is formed in the middle of the combined left module (31) and right module (32), when the magnetic suction device (23) is located at the uppermost section, the magnetic suction head (232) on the magnetic suction device is just located in the magnetic suction hole (313), and the upper plane of the magnetic suction head is flush with the bottom surfaces of the female dies in the left module (31) and the right module (32).

7. The high-performance pot forming apparatus according to claim 6, wherein: the bottom surface of the sliding flat plate (21) is also provided with an inclined slide carriage (24) which is provided with a separation hole (241), the diameter of the inclined slide carriage is larger than that of the magnetic suction head (232) and smaller than that of the pot body, and the magnetic suction head (232) rises and falls and passes through the separation hole (241).

8. The high performance pot forming apparatus of claim 7, wherein: the position of the disengaging hole (241) is higher than the height of the pan body from the bottom surface of the sliding flat plate (21), a collecting hopper (25) is further arranged on the base (2), and the pan body slides into the collecting hopper (25) under the guidance of an inclined slide carriage (24).