CN209920473U - Novel mold core stamping and pattern drawing equipment - Google Patents

Abstract

The utility model discloses a novel mold core scalds sign indicating number draft equipment, including base (1), mold core rotation module (2), mold core accepts module one (3), mold core transport module one (4), mold core transport module two (5), mold core separation module (6), cut runner and scald sign indicating number module (7), mold core accepts module two (8) and mold core spare (9), the injection mold core transports to cut runner and scald the sign indicating number module through mold core transport module two and remove the casting stick and scald the sign indicating number operation, then through mold core transport module two, transport the injection mold core to mold core separation module and separate the injection mold core, the mold core is carried to mold core and accepts module one through mold core transport module one, and then through mold core and accept module one, transport to mold core rotation module, make the mold core be in the required gesture of next process through mold core rotation module; above operation, not only solve the dangerous and consuming time problem of artifical separation mold core, accomplished simultaneously through machinery and got rid of the pouring stick and scald a yard process.

Description

Novel mold core stamping and pattern drawing equipment

Technical Field

The utility model relates to a technical field is made to the electric smelting pipe fitting, concretely relates to novel mold core scalds sign indicating number drawing die equipment.

Background

A mold core, as the name implies, refers to a precision part used for the key operation of the central part of the mold; the common structure of the mold core is extremely complex, the processing difficulty is very large, the manufacturing cost is very high, and the labor expenditure for manufacturing is greatly higher than that of the material; the choice of core material is also directly related to the cost of the mold and the useful life of the mold.

The PE electric melting pipe fitting is used as one of the dies, a die core cannot be removed in the manufacturing process, and the electric melting pipe fitting is a plastic (polyethylene) pipe fitting which can be connected by melting through the temperature generated by current; in the prior art, after the PE electric melting pipe fitting is manufactured by using the mold core, the PE electric melting pipe fitting is separated at a high temperature mainly by manpower, so that the operation is dangerous to a certain extent, and the injection molding part is removed from a casting rod and subjected to code burning, which is time-consuming.

The above problems are urgently needed to be improved and to be solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, a novel mold core stamping and pattern drawing device is provided.

The utility model adopts the technical proposal that: the utility model provides a novel mold core scalds sign indicating number draft equipment, its characterized in that: the die core hot stamping die comprises a base, a die core rotating module, a die core carrying module I, a die core carrying module II, a die core separating module, a gate shearing hot stamping die group, a die core carrying module II and a die core piece, wherein the base is provided with the die core rotating module, the die core rotating module is provided with the die core carrying module I, the die core carrying module I is provided with the die core separating module I, the right side of the die core carrying module I is provided with an upper die core separating module and a lower die core separating module which are opposite to each other, the right side of the die core separating module is provided with the gate.

Preferably, the mold core rotating module comprises a first base, a first telescopic cylinder, a first servo motor, a rotating head, a first linear rail, a moving plate, a first anti-rotating head, a centering head and a belt, wherein the first telescopic cylinder is arranged on the first base; one of the rotating heads is provided with a first servo motor, and the two rotating heads are connected by a belt; the mold core rotating module is fixed on the base through the first base.

Preferably, the first mold core carrying module comprises a second base, a first lifting cylinder, a first support plate, a first mold core supporting plate, a first moving cylinder, a first linear rail and a first sensing area, the first support plate is arranged on the first support, the first sensing area is arranged at one end of the first support, the first support is arranged on the second base, the first moving cylinder is arranged on the second base, two linear rails are respectively arranged on two sides of the first moving cylinder, the first lifting cylinder is arranged on the second linear rail and the first moving cylinder, the first mold core supporting plate is arranged on the first lifting cylinder, and the first mold core carrying module is fixed on the base through the second base.

Preferably, the mold core carrying module I comprises a base III, a mover I, a lifting cylinder II, a connecting plate I, a rotating cylinder I, a clamping jaw cylinder I and a linear rail III, the base III is provided with the linear rail III, one side of the linear rail III is provided with the mover I, the mover I and the linear rail III are provided with the connecting plate I, the connecting plate I is provided with the lifting cylinder II, the rotating cylinder I is arranged below the lifting cylinder II, and the clamping jaw cylinder I is arranged below the rotating cylinder I; the first carrying module is fixed on the base through the third base.

Preferably, the mold core carrying module II comprises a base IV, a mover II, a lifting cylinder III, a connecting plate II, a rotating cylinder II, a clamping jaw cylinder II and a linear rail IV, the base IV is provided with the linear rail IV, one side of the linear rail IV is provided with the mover II, the mover II and the linear rail IV are provided with the connecting plate II, the connecting plate II is provided with the lifting cylinder III, the rotating cylinder II is arranged below the lifting cylinder III, and the clamping jaw cylinder II is arranged below the rotating cylinder II; and the second mold core carrying module is fixed on the base through the fourth base.

Preferably, the mold core separating module comprises a fifth base, a compressing cylinder, a fifth linear rail, a placing rack, a second telescopic cylinder and a moving rack, wherein the placing rack is arranged on the fifth base, the fifth base is provided with the second telescopic cylinder, the fifth linear rail is arranged between the second telescopic cylinder, the fifth linear rail and the second telescopic cylinder are provided with the moving rack, and the compressing cylinder is arranged on the moving rack; and the mold core separation module is fixed on the base through the fifth base.

Preferably, the gate shearing and code stamping module comprises a servo motor II, a support II, an outer cover, a telescopic cylinder III, a stamping head, scissors and a connecting piece, wherein the servo motor II is arranged on the support II, the connecting piece is arranged on the servo motor II, and the scissors are arranged on the connecting piece; an outer cover is arranged on one side of the second support, a telescopic cylinder III is arranged in the outer cover, and a hot wharf is arranged on the telescopic cylinder III; and the gate shearing and stamping module is fixed on the base through a second support.

Preferably, the mold core receiving module II comprises a base six, a lifting cylinder four, a support three, a support plate two, a mold core supporting plate two, a moving cylinder two, a linear rail six and an induction area two, the support plate two is arranged on the support three, the induction area two is arranged at the end part of the support three, the support three is arranged on the base six, the moving cylinder two is arranged on the base six, two sides of the moving cylinder two are respectively provided with the linear rail six, the lifting cylinder four is arranged on the linear rail six and the moving cylinder two, the mold core supporting plate two is arranged on the lifting cylinder four, and the mold core receiving module two is fixed on the base through the base six.

Preferably, the mold core piece comprises a mold core, an induction piece and an anti-rotation piece, wherein the induction piece is arranged at one end of the mold core, and the anti-rotation piece is arranged at the other end of the mold core.

The utility model has the advantages that: after an injection mold core in the device comes out of an injection molding machine, the injection mold core is conveyed to a gate shearing and code scalding module through a second mold core conveying module to remove a casting bar and code scalding operations on an injection molding piece, then the injection mold core with codes burnt is conveyed to a mold core separating module through a second mold core conveying module, the mold core is placed on a placing frame, the end part of the injection mold core is pressed and fixed through a compression cylinder, then the injection molding piece and the mold core are separated through the stretching of a second telescopic cylinder, the mold core is spliced after separation, the injection mold core is conveyed to a first mold core carrying module through the first mold core conveying module, the injection mold core is conveyed to a first mold core rotating module through the first mold core carrying module, and the mold core is enabled to be in a posture required by the next process through the first mold; above operation, not only solve the dangerous and consuming time problem of artifical separation mold core, accomplished simultaneously through machinery and got rid of the pouring stick and scald a yard process.

Drawings

FIG. 1 is a schematic perspective view of a novel core stamping and pattern drawing device;

FIG. 2 is a schematic perspective view of the die core rotation module shown in FIG. 1;

FIG. 3 is a schematic perspective view of a first die receiving module shown in FIG. 1;

FIG. 4 is a schematic perspective view of a first die core supporting plate, a second wire rail and a first lifting cylinder in FIG. 3;

FIG. 5 is a schematic perspective view of the first moving cylinder in FIG. 3;

FIG. 6 is a schematic perspective view of a first mold core handling module shown in FIG. 1;

FIG. 7 is a schematic perspective view of a second mold core handling module shown in FIG. 1;

FIG. 8 is a schematic perspective view of a die core separating module shown in FIG. 1;

FIG. 9 is a schematic perspective view of the gate shearing and stamping module shown in FIG. 1;

FIG. 10 is a schematic perspective view of a second die receiving module shown in FIG. 1;

fig. 11 is a perspective view of the die member of fig. 1.

In the figure: 1. the mold core hot stamping device comprises a base 2, a mold core rotating module 3, a mold core carrying module I4, a mold core carrying module I5, a mold core carrying module II 6, a mold core separating module 7, a gate shearing hot stamping module 8, a mold core carrying module II 9, a mold core piece 21, a base I22, a telescopic cylinder I23, a servo motor I24, a rotating head 25, a linear rail I26, a moving plate 27, an anti-rotating head 28, a centering head 29, a belt 31, a base II 32, a lifting cylinder I33, a support I34, a support plate I35, a mold core supporting plate I36, a moving cylinder I37, a linear rail II 38, an induction area I41, a base III 42, a mover I43, a lifting cylinder II 44, a connecting plate I45, a rotating cylinder I46, a clamping jaw cylinder I47, a linear rail III 51, a base IV 52, a mover II 53, the device comprises a second connecting plate 55, a second rotating cylinder 56, a second clamping jaw cylinder 57, a fourth wire rail 61, a fifth base 62, a pressing cylinder 63, a fifth wire rail 64, a placing frame 65, a second telescopic cylinder 66, a moving frame 72, a second servo motor 72, a second support 73, an outer cover 74, a third telescopic cylinder 75, a hot stamping head 76, scissors 77, a connecting piece 81, a sixth base 82, a fourth lifting cylinder 83, a third support 84, a second support plate 85, a second mold core supporting plate 86, a second moving cylinder 87, a sixth wire rail 88, a second induction area 91, a mold core 92, an induction piece 93 and an anti-rotation piece.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in figure 1, a novel mold core stamping and pattern drawing device is provided, which comprises a base 1, a mold core rotating module 2, a mold core carrying module I3, a mold core carrying module I4, a mold core carrying module II 5, a mold core separating module 6, a gate cutting and stamping module 7, a mold core carrying module II 8 and a mold core piece 9, wherein the base 1 is provided with the mold core rotating module 2, the mold core rotating module 2 is provided with the mold core carrying module I3, the mold core carrying module I3 is provided with the mold core carrying module I4, the right side of the mold core carrying module I4 is provided with the upper mold core separating module 6 and the lower mold core separating module 6 which are opposite to each other, the right side of the mold core separating module 6 is provided with the gate cutting and stamping module 7, the gate cutting and stamping module II 5 is.

As shown in fig. 2, the mold core rotating module 2 includes a first base 21, a first telescopic cylinder 22, a first servo motor 23, a rotating head 24, a first linear rail 25, a moving plate 26, a first anti-rotating head 27, a centering head 28 and a belt 29, the first telescopic cylinder 22 is arranged on the first base 21, the first telescopic cylinder 22 is provided with one linear rail 25 on each of two sides, the first two linear rails 25 and the first telescopic cylinder 22 are provided with the moving plate 26, the moving plate 26 is provided with two rotating heads 24, the anti-rotating head 27 is arranged on the edge of the rotating head 24, and the centering head 28 is arranged in the center; one of the rotating heads 24 is provided with a servo motor I23, and the two rotating heads 24 are connected by a belt 29; the mold core rotating module 2 is fixed on the base 1 through a base I21.

As shown in fig. 3, 4 and 5, the first mold core receiving module 3 includes a second base 31, a first lifting cylinder 32, a first support 33, a first support plate 34, a first mold core supporting plate 35, a first moving cylinder 36, a second linear rail 37 and a first sensing area 38, the first support plate 34 is disposed on the first support 33, the first sensing area 38 is disposed at an end of the first support 33, the first support 33 is disposed on the second base 31, the first moving cylinder 36 is disposed on the second base 31, two sides of the first moving cylinder 36 are respectively provided with the second linear rail 37, the first lifting cylinders 32 are disposed on the second linear rail 37 and the first moving cylinder 36, the first mold core supporting plate 35 is disposed on the first lifting cylinder 32, and the first mold core receiving module 3 is fixed on the base 1 through the second base 31.

As shown in fig. 6, the mold core carrying module I4 comprises a base III 41, a mover I42, a lifting cylinder II 43, a connecting plate I44, a rotating cylinder I45, a clamping jaw cylinder I46 and a linear rail III 47, wherein the base III 41 is provided with the linear rail III 47, one side of the linear rail III 47 is provided with the mover I42, the mover I42 and the linear rail III 47 are provided with the connecting plate I44, the connecting plate I44 is provided with the lifting cylinder II 43, the rotating cylinder I45 is arranged below the lifting cylinder II 43, and the clamping jaw cylinder I46 is arranged below the rotating cylinder I45; the first conveying module 4 is fixed on the base 1 through a third base 41.

As shown in fig. 7, the second mold core carrying module 5 comprises a fourth base 51, a second moving device 52, a third lifting cylinder 53, a second connecting plate 54, a second rotating cylinder 55, a second clamping jaw cylinder 56 and a fourth linear rail 57, wherein the fourth base 51 is provided with the fourth linear rail 57, the second moving device 52 is arranged on one side of the fourth linear rail 57, the second moving device 52 and the fourth linear rail 57 are provided with the second connecting plate 54, the second connecting plate 54 is provided with the third lifting cylinder 53, the second rotating cylinder 55 is arranged below the third lifting cylinder 53, and the second clamping jaw cylinder 56 is arranged below the second rotating cylinder 55; the second mold core carrying module 5 is fixed on the base 1 through a fourth base 51.

As shown in fig. 8, the mold core separating module 6 includes a fifth base 61, a pressing cylinder 62, a fifth linear rail 63, a placing frame 64, a second telescopic cylinder 65 and a moving frame 66, wherein the placing frame 64 is arranged on the fifth base 61, the fifth base 61 is provided with the two second telescopic cylinders 65, two fifth linear rails 63 are arranged between the two second telescopic cylinders 65, the fifth two linear rails 63 and the two second telescopic cylinders 65 are provided with the moving frame 66, and the pressing cylinder 62 is arranged on the moving frame 66; the mold core separating module 6 is fixed on the base 1 through a base five 61.

As shown in fig. 9, the gate shearing and stamping module 7 includes a second servo motor 71, a second bracket 72, an outer cover 73, a third telescopic cylinder 74, a stamping head 75, scissors 76 and a connecting member 77, the second bracket 72 is provided with the second servo motor 71, the second servo motor 71 is provided with the connecting member 77, and the connecting member 77 is provided with the scissors 76; an outer cover 73 is arranged on one side of the second support 72, a telescopic cylinder III 74 is arranged in the outer cover 73, and a hot water head 75 is arranged on the telescopic cylinder III 74; the gate shearing stamping module 7 is fixed on the base 1 through a second bracket 72.

As shown in fig. 10, the second mold core receiving module 8 includes a sixth base 81, a fourth lifting cylinder 82, a third support 83, a second support plate 84, a second mold core support plate 85, a second moving cylinder 86, a sixth linear rail 87 and a second sensing area 88, the second support plate 84 is disposed on the third support 83, the second sensing area 88 is disposed at the end of the third support 83, the third support 83 is disposed on the sixth base 81, the second moving cylinder 86 is disposed on the sixth base 81, two sides of the second moving cylinder 86 are respectively provided with the sixth linear rail 87, the sixth linear rail 87 and the second moving cylinder 86 are provided with the fourth lifting cylinder 82, the fourth lifting cylinder 82 is provided with the second mold core support plate 85, and the second mold core receiving module 8 is fixed on the base 1 through the sixth base 81.

As shown in fig. 11, the mold core piece 9 includes a mold core 91, a sensing piece 92 and an anti-rotation piece 93, wherein one end of the mold core 91 is provided with the sensing piece 92, and the other end is provided with the anti-rotation piece 93.

The mold core rotating module 2 aligns the mold core piece 9 to the mold core 91 through the centering head 28, the anti-rotation head 27 clamps the anti-rotation part 93, and then rotates through the servo motor I23 to adjust the mold core piece 9 to the posture required by the next procedure; the first die core receiving module 3 jacks up the die core piece 9 on the first die core supporting plate 35 through the first lifting cylinder 32, and then transports the die core piece 9 to the next station through the first moving cylinder 36; the first mold core carrying module 4 clamps the mold core piece 9 through the first clamping jaw air cylinder 46, and transports the mold core piece 9 to a corresponding position under the mutual cooperation of the first mover 42, the second lifting air cylinder 43 and the first rotating air cylinder 45; the two mold core separating modules 6 are arranged on the base 1, the two mold core separating modules 6 respectively fix the end parts of the injection mold core pieces 9 through two compression air cylinders 62, and then the two telescopic air cylinders 65 extend outwards to separate the injection molded pieces from the mold core pieces 9 (see fig. 8).

The utility model discloses a theory of operation: the novel mold core stamping and pattern drawing equipment has a very simple operation process, when a first mold core piece 9 comes out of an injection molding machine and is transported to a second support plate 84 with a second induction area 88 on a second mold core receiving module 8, the second induction area 88 on the second mold core receiving module 8 induces a mold core piece 9 through an induction piece 92 of the mold core piece 9, a second mold core support plate 85 on a first lifting cylinder 82 corresponds to the second support plate 84 one by one in an initial state, at the moment, the fourth lifting cylinder 82 starts to drive the second mold core support plate 85 to ascend, the mold core piece 9 is supported, when a second moving cylinder 86 contracts forwards, the fourth lifting cylinder 82 is driven to move forwards along a sixth line rail 87 for one station, then the fourth lifting cylinder 82 descends, the first mold core piece 9 is placed on the second support plate 84, then the second moving cylinder 86 drives the fourth lifting cylinder 82 to return to the initial state, then the second mold core piece 9 is transported to the second support plate 84, and then, the core pieces 9 are transported downwards in sequence by the operation of the upper complaint.

Further, when the mold core piece 9 is transported to the second 84 station of the penultimate supporting plate of the second 8 mold core receiving module, the second 71 servo motor on the gate shearing and code stamping module 7 is started to drive the scissors 76 to move downwards to shear off the casting rod on the mold core piece 9, then the scissors 76 moves upwards, the mold core piece 9 is transported to the second 84 station of the last supporting plate, at the moment, the third 74 telescopic cylinder on the gate shearing and code stamping module 7 is started to drive the stamping head 75 to extend forwards, and code stamping is carried out on the injection molding piece on the mold core piece 9 (see fig. 1).

Further, the initial state of the second mold core carrying module 5 is that the second clamping jaw air cylinder 56 is aligned with the end of the mold core piece 9, after the injection molded part is finished being subjected to code scalding, the third lifting air cylinder 53 on the second mold core carrying module 5 moves downwards to drive the second clamping jaw air cylinder 56 to move downwards, when the second clamping jaw air cylinder 56 touches the end of the mold core piece 9, the first clamping jaw air cylinder 56 clamps tightly, then the first clamping jaw air cylinder 53 ascends through the third lifting air cylinder 53, ascends together with the mold core piece 9, and moves through the second mover 52 to transport the mold core piece 9 to the mold core separation module 6.

Further, the base 1 is provided with two opposite mold core separating modules 6, the initial states of the two mold core separating modules 6 are that the pressing air cylinders 62 are opened and the telescopic air cylinders two 65 are closed, when the mold core pieces 9 are transported to the mold core separating modules 6, the rotating air cylinders two 55 rotate 90 degrees, the lifting air cylinders three 53 descend to place the end parts of the mold core pieces 9 on the two placing frames 64 respectively, then the clamping jaw air cylinders two 56 are released, the mold core carrying module two 5 is restored to the initial state, then the two pressing air cylinders 62 are closed downwards to tightly fix the mold core pieces 9 on the moving frame 66, then the two telescopic air cylinders two 65 begin to extend in the opposite direction to pull the mold core pieces 9 apart, so that the injection molded pieces on the mold core pieces 9 fall off, separation is completed, and finally the mold core separating modules 6.

Further, the initial state of the first mold core carrying module 4 is that the first clamping jaw air cylinder 46 is aligned with the end part of the mold core piece 9 on the mold core separating module 6, the second lifting air cylinder 43 is closed, after the separation of the mold core piece 9 and the injection molded piece is completed, the second lifting air cylinder 43 begins to extend, so that the first clamping jaw air cylinder 46 contacts the end part of the mold core piece 9, the mold core piece 9 is tightened, then the second lifting air cylinder 43 begins to contract, the mold core piece 9 is lifted, the mold core piece 9 is conveyed to the first mold core carrying module 4 through the first mover 42, then the first rotating air cylinder 45 rotates 90 degrees, the second lifting air cylinder 43 extends, the mold core piece 9 is placed on the last station of the first mold core carrying module 3, and then the first mold core carrying module 4 is restored to.

In addition, the induction area one 38 on the first die core receiving module 3 is transferred to the die core piece 9 on the last support plate one 34 through the induction part 92, at the moment, the lifting cylinder one 32 lifts up the die core piece 9, when the moving cylinder one 36 contracts towards the die core rotating module 2, the lifting cylinder one 32 is driven to move towards the die core rotating module 2, then the die core piece 9 is sent to the position of the next support plate one 34, at the moment, the lifting cylinder one 32 descends, the die core piece 9 is placed on the next support plate one 34, then the moving cylinder one 36 drives the lifting cylinder one 32 to return to the initial position, and the die core piece 9 is sent to the die core rotating module 2 through the operation cycle.

Further, when the core piece 9 is located on the first supporting plate 34 and the second supporting plate 34 of the first core receiving module 3, the telescopic cylinder 22 on the core rotating module 2 is started to drive the moving plate 26 to move towards the core piece 9, the moving plate 26 is provided with the servo motor 23 and the rotating head 24, at this time, the centering head 28 on the rotating head 24 is aligned with the center position of the core piece 9, the anti-rotating head 27 on the rotating head 24 is inserted into the anti-rotating part 93 to clamp the main core piece 9 to prevent the main core piece 9 from rotating, and then the servo motor 23 is started to adjust the core piece 9 to the posture required by the next process.

Through the above mechanical cycle reciprocating operation, the mechanical separation injection molding mold core is realized, the problems of danger and time consumption of manual separation of the mold core are solved, and the processes of removing the casting bar and stamping the code are completed through machinery.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a novel mold core scalds sign indicating number draft equipment which characterized in that: including base (1), the rotatory module of mold core (2), mold core accept module (3), mold core transport module (4), mold core transport module two (5), mold core separation module (6), cut runner and scald a yard module (7), the mold core accepts module two (8) and mold core spare (9), base (1) is equipped with the rotatory module of mold core (2), is equipped with the mold core on the rotatory module of mold core (2) and accepts module one (3), is equipped with mold core transport module one (4) on the mold core accepts module one (3), and two relative mold core separation module (6) about mold core transport module one (4) right side is equipped with, and mold core separation module (6) right side is equipped with cuts runner and scalds yard module (7), cuts runner yard module (7) upper portion and is equipped with mold core transport module two (5), and the lower part is equipped with and accepts mold core module two (8.

2. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the mold core rotating module (2) comprises a first base (21), a first telescopic cylinder (22), a first servo motor (23), rotating heads (24), a first linear rail (25), a moving plate (26), anti-rotating heads (27), centering heads (28) and a belt (29), wherein the first telescopic cylinder (22) is arranged on the first base (21), the two sides of the first telescopic cylinder (22) are respectively provided with the first linear rail (25), the moving plates (26) are arranged on the two first linear rails (25) and the first telescopic cylinder (22), the two rotating heads (24) are arranged on the moving plate (26), the anti-rotating heads (27) are arranged at the edges of the rotating heads (24), and the centering head (28) is arranged at the center; a servo motor I (23) is arranged on one of the rotating heads (24), and the two rotating heads (24) are connected by a belt (29); the mold core rotating module (2) is fixed on the base (1) through a first base (21).

3. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the die core bearing module I (3) comprises a base II (31), a lifting cylinder I (32), a support I (33), a support plate I (34), a die core supporting plate I (35), a moving cylinder I (36), a linear rail II (37) and an induction area I (38), wherein the support plate I (34) is arranged on the support I (33), the end part of the support I (33) is provided with the induction area I (38), the support I (33) is arranged on the base II (31), the moving cylinder I (36) is arranged on the base II (31), two sides of the moving cylinder I (36) are respectively provided with the linear rail II (37), the lifting cylinder I (32) is arranged on the two linear rails II (37) and the moving cylinder I (36), the die core supporting plate I (35) is arranged on the lifting cylinder I (32), and the die core bearing module I (3) is fixed on the base (1) through the base II (31).

4. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the mold core carrying module I (4) comprises a base III (41), a mover I (42), a lifting cylinder II (43), a connecting plate I (44), a rotating cylinder I (45), a clamping jaw cylinder I (46) and a line rail III (47), wherein the base III (41) is provided with the line rail III (47), one side of the line rail III (47) is provided with the mover I (42), the mover I (42) and the line rail III (47) are provided with the connecting plate I (44), the connecting plate I (44) is provided with the lifting cylinder II (43), the rotating cylinder I (45) is arranged below the lifting cylinder II (43), and the clamping jaw cylinder I (46) is arranged below the rotating cylinder I (45); the first carrying module (4) is fixed on the base (1) through a third base (41).

5. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the mold core carrying module II (5) comprises a base IV (51), a mover II (52), a lifting cylinder III (53), a connecting plate II (54), a rotating cylinder II (55), a clamping jaw cylinder II (56) and a linear rail IV (57), wherein the base IV (51) is provided with the linear rail IV (57), one side of the linear rail IV (57) is provided with the mover II (52), the mover II (52) and the linear rail IV (57) are provided with the connecting plate II (54), the connecting plate II (54) is provided with the lifting cylinder III (53), the rotating cylinder II (55) is arranged below the lifting cylinder III (53), and the clamping jaw cylinder II (56) is arranged below the rotating cylinder II (55); and the second mold core carrying module (5) is fixed on the base (1) through a fourth base (51).

6. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the mold core separating module (6) comprises a fifth base (61), a compressing cylinder (62), a fifth linear rail (63), a placing frame (64), a second telescopic cylinder (65) and a moving frame (66), wherein the placing frame (64) is arranged on the fifth base (61), the fifth base (61) is provided with the second telescopic cylinder (65), two fifth linear rails (63) are arranged between the second telescopic cylinders (65), the moving frame (66) is arranged on the fifth linear rail (63) and the second telescopic cylinder (65), and the compressing cylinder (62) is arranged on the moving frame (66); and the mold core separating module (6) is fixed on the base (1) through a fifth base (61).

7. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the gate shearing and scalding module (7) comprises a second servo motor (71), a second support (72), an outer cover (73), a third telescopic cylinder (74), a scalding head (75), scissors (76) and a connecting piece (77), wherein the second servo motor (71) is arranged on the second support (72), the connecting piece (77) is arranged on the second servo motor (71), and the scissors (76) are arranged on the connecting piece (77); an outer cover (73) is arranged on one side of the second support (72), a telescopic cylinder III (74) is arranged in the outer cover (73), and a scalding head (75) is arranged on the telescopic cylinder III (74); and the gate shearing and stamping module (7) is fixed on the base (1) through a second support (72).

8. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the mold core bearing module II (8) comprises a base six (81), a lifting cylinder four (82), a support three (83), a support plate two (84), a mold core supporting plate two (85), a moving cylinder two (86), a line rail six (87) and an induction area two (88), wherein the support plate two (84) is arranged on the support three (83), the end part of the support three (83) is provided with the induction area two (88), the support three (83) is arranged on the base six (81), the moving cylinder two (86) is arranged on the base six (81), two sides of the moving cylinder two (86) are respectively provided with the line rail six (87), the lifting cylinder four (82) is arranged on the two line rails six (87) and the moving cylinder two (86), the mold core supporting plate two (85) is arranged on the lifting cylinder four (82), and the mold core bearing module II (8) is fixed on the base (1) through the base six (81).

9. The novel mold core stamping and pattern drawing device as claimed in claim 1, wherein: the die core piece (9) comprises a die core (91), an induction piece (92) and an anti-rotation piece (93), wherein the induction piece (92) is arranged at one end of the die core (91), and the anti-rotation piece (93) is arranged at the other end of the die core (91).

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