CN218462729U - Die carrier assembly of die and die - Google Patents

Abstract

The utility model discloses a die carrier subassembly and mould of mould, the die carrier subassembly of mould includes: a front mold frame; the rear mould frame is arranged on the rear side of the front mould frame and is arranged at an interval with the front mould frame, a mould core accommodating space is formed between the front mould frame and the rear mould frame, and at least one of the rear mould frame and the front mould frame is provided with a plurality of first installation part groups; and the positioning pieces are selectively arranged on different first installation part groups so as to be matched with the mold cores of different models in a positioning manner. From this, through setting up the setting element selectively in the first installation department group of difference, can make the setting element of different positions and the mold core location fit of different models to can improve the commonality of die carrier subassembly, and then can improve the material utilization of die carrier subassembly, reduce the processing cost of die carrier subassembly.

Description

Die carrier assembly of die and die

Technical Field

The utility model belongs to the technical field of the mould technique and specifically relates to a die carrier subassembly and mould of mould are related to.

Background

In actual production, different products need to be matched with different die sets due to different gating systems and ejection systems of the different products.

In the prior art, when the shapes of different products are different greatly, the die carrier cannot be compatible with different products, the sharing rate of the die carrier is low, the cost of the die carrier is high, and the die for disassembling and assembling the machine table cannot be realized.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model discloses a die carrier subassembly of mould, this mould's die carrier subassembly's commonality is higher.

According to the utility model discloses die carrier subassembly of mould, include: a front mold frame; the rear mould frame is arranged on the rear side of the front mould frame and is arranged at an interval with the front mould frame, a mould core accommodating space is formed between the front mould frame and the rear mould frame, and at least one of the rear mould frame and the front mould frame is provided with a plurality of first installation part groups; and the positioning pieces are selectively arranged on different first installation part groups so as to be matched with the mold cores of different models in a positioning manner.

From this, through setting up the setting element selectively in the first installation department group of difference, can make the setting element of different positions and the mold core location fit of different models to can improve the commonality of die carrier subassembly, and then can improve the material utilization of die carrier subassembly, reduce the processing cost of die carrier subassembly.

In some examples of the present invention, the plurality of first installation portions are arranged at intervals on at least one of the front mold frame and the rear mold frame, the first installation portions include a plurality of first installation portions, each of which is a plurality of first installation portions arranged at intervals on at least one of the front mold frame and the rear mold frame.

In some examples of the present invention, the first installation part group includes a front first installation part group and a rear first installation part group, the front first installation part group is disposed at a rear side of the front mold frame, and the rear first installation part group is disposed at a front side of the rear mold frame; the positioning piece comprises a front positioning piece and a rear positioning piece, the front positioning piece is selectively arranged in different front first installation part groups, and the rear positioning piece is selectively arranged in different rear first installation part groups.

In some examples of the present invention, the front mold frame is provided with a front avoidance hole to avoid the mold core, and the front first installation portion group is disposed outside the front avoidance hole in the circumferential direction; the rear die frame is provided with a rear avoiding hole to avoid the die core, and the rear first installation part group is arranged on the circumferential outer side of the rear avoiding hole.

In some examples of the present invention, the first mounting portion is a mounting hole, the positioning member is a positioning pin, and the positioning pin penetrates through the mounting hole; or the positioning piece is provided with a positioning hole, and the positioning hole and the mounting hole are integrally manufactured.

In some examples of the present invention, the mold frame assembly of the mold further includes a fastener, the rear mold frame and at least one of the front mold frames are provided with a plurality of second installation portions, and the fastener is selectively disposed in a different one of the second installation portions to be fixedly connected to the mold cores of different models.

In some examples of the utility model, a plurality of second installation department group are in back die carrier with interval setting is gone up to at least one in the preceding die carrier, second installation department group includes a plurality of second installation departments, every a plurality of second installation department group the second installation department is in back die carrier with circumference interval setting is gone up to at least one in the preceding die carrier.

In some examples of the present invention, the second installation part group includes a plurality of front second installation part groups and a plurality of rear second installation part groups, the plurality of front second installation part groups are disposed at a rear side of the front mold frame, and the plurality of rear second installation part groups are disposed at a front side of the rear mold frame; the fastener includes preceding fastener and back fastener, preceding fastener selectively sets up in the difference preceding second installation portion group, the back fastener selectively sets up in the different back second installation portion group, preceding fastener with preceding setting element interval sets up, the back fastener with back setting element interval sets up.

According to the utility model discloses mould, include: the die carrier component of the die; the die core, the die core set up in the die core accommodation space of die carrier subassembly, be provided with location portion on the die core, the setting element with location portion location cooperation.

In some examples of the present invention, the positioning member and one of the positioning portions are positioning pins, and the other is a positioning hole, and the positioning pins and the positioning holes are in positioning fit.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of a mold and a machine according to an embodiment of the present invention;

figure 2 is a cross-sectional view of a formwork assembly according to an embodiment of the present invention;

fig. 3 is a schematic view of a front mold frame according to an embodiment of the present invention;

fig. 4 is a schematic view of a posterior mold frame according to an embodiment of the present invention;

fig. 5 is a cross-sectional view of a mold core according to an embodiment of the present invention;

fig. 6 is an exploded view of a mold core according to an embodiment of the present invention.

Reference numerals:

1000. a mold; 2000. a machine platform;

100. a mold frame assembly;

10. a front mold frame; 11. front avoidance holes;

20. a rear mould frame; 21. a mold core accommodating space; 22. a first mounting portion group; 221. a front first mounting portion group; 222. a rear first mounting portion group; 223. a first mounting portion; 23. a rear avoidance hole; 24. a second mounting portion group; 241. a front second mounting portion group; 242. a second rear mounting portion group; 243. a second mounting portion;

30. a positioning member; 31. a front positioning member; 32. a rear positioning member;

40. a fastener; 41. a front fastener; 42. a rear fastener;

200. a mold core; 201. a positioning part.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

The mold frame assembly 100 of the mold 1000 according to an embodiment of the present invention is described below with reference to fig. 1 to 6, and the mold frame assembly 100 of the mold 1000 may be applied to the mold frame assembly 100 of the mold 1000.

Referring to fig. 1 to 6, the mold frame assembly 100 of the mold 1000 according to the present invention may mainly include: the mold comprises a front mold frame 10, a rear mold frame 20 and positioning pieces 30, wherein the rear mold frame 20 is arranged at the rear side of the front mold frame 10 and is arranged at intervals with the front mold frame 10, a mold core accommodating space 21 is formed between the front mold frame 10 and the rear mold frame 20, a plurality of first installation part groups 22 are arranged on at least one of the rear mold frame 20 and the front mold frame 10, and the positioning pieces 30 are selectively arranged on different first installation part groups 22 to be in positioning fit with mold cores 200 of different models.

Specifically, by arranging the rear mold frame 20 at the rear side of the front mold frame 10 and at an interval from the front mold frame 10, a mold core accommodating space 21 can be formed between the front mold frame 10 and the rear mold frame 20, so that the mold core accommodating space 21 can correspondingly accommodate the mold core 200, the mold core 200 can be conveniently arranged between the front mold frame 10 and the rear mold frame 20, and thus the normal operation of the mold frame assembly 100 and even the mold 1000 can be ensured.

Further, by arranging the plurality of first installation part groups 22 on at least one of the rear mold frame 20 and the front mold frame 10, the positions of the plurality of first installation part groups 22 on the rear mold frame 20 and the front mold frame 10 are different, and selectively arranging the positioning members 30 on the different first installation part groups 22, the positioning members 30 can be located at different positions, so that when the mold core 200 is arranged in the mold core accommodating space 21, the positioning members 30 located at different positions can be in positioning fit with the mold cores 200 of different models, so that one mold frame assembly 100 can be adapted to the mold cores 200 of various models, the commonality of the mold frame assembly 100 can be effectively improved, the material utilization rate of the mold frame assembly 100 can be further improved, the processing cost of the mold frame assembly 100 can be reduced, the number of the mold frame assemblies 100 can be reduced, and the large number of mold frame assemblies 100 can be prevented from occupying too much storage space.

Therefore, the positioning parts 30 are selectively arranged in different first installation part groups 22, so that the positioning parts 30 at different positions can be positioned and matched with the mold cores 200 of different models, the commonality of the mold base assembly 100 can be improved, the material utilization rate of the mold base assembly 100 can be improved, and the processing cost of the mold base assembly 100 can be reduced.

As shown in fig. 2 to 4, the plurality of first seating part groups 22 are spaced apart on at least one of the rear mold frame 20 and the front mold frame 10, the first seating part group 22 includes a plurality of first seating parts 223, and the plurality of first seating parts 223 of each first seating part group 22 are circumferentially spaced apart on at least one of the rear mold frame 20 and the front mold frame 10. Specifically, the plurality of first installation part groups 22 are arranged at intervals on at least one of the rear mold frame 20 and the front mold frame 10, so that the arrangement positions of the plurality of first installation part groups 22 on the rear mold frame 20 or the front mold frame 10 can be different, the plurality of first installation part groups 22 can fix the mold cores 200 of different models, and the commonality of the mold frame assembly 100 is improved.

Further, by making the first installation portion group 22 include a plurality of first installation portions 223, and making the plurality of first installation portions 223 on each first installation portion group 22 circumferentially spaced on at least one of the rear mold frame 20 and the front mold frame 10, after correspondingly setting the positioning element 30 on any one first installation portion group 22, the plurality of positioning elements 30 may circumferentially spaced on at least one of the rear mold frame 20 and the front mold frame 10, so that when the mold core 200 is set between the front mold frame 10 and the rear mold frame 20, the plurality of circumferentially-set positioning elements 30 may be in positioning fit with the mold core 200, which may not only increase the number of positioning fits between the mold core 200 and the mold frame assembly 100, but also may make the distribution of positioning fits between the mold core 200 and the mold frame assembly 100 more uniform, and may further optimize the structural design of the mold frame assembly 100, and may improve the stability and reliability of positioning fit between the mold frame assembly 100 and the mold core 200.

As shown in fig. 2 to 4, the first installation portion group 22 may mainly include a front first installation portion group 22 and a rear first installation portion group 22, the front first installation portion group 22 is disposed at a rear side of the front mold frame 10, the rear first installation portion group 22 is disposed at a front side of the rear mold frame 20, the positioning member 30 may include a front positioning member 31 and a rear positioning member 32, the front positioning member 31 is selectively disposed at different front first installation portion groups 22, and the rear positioning member 32 is selectively disposed at different rear first installation portion groups 22. Specifically, the front first installation part group 22 is arranged at the rear side of the front mold frame 10, the rear first installation part group 22 is arranged at the front side of the rear mold frame 20, the front positioning piece 31 is selectively arranged at different front first installation part groups 22, the rear positioning piece 32 is selectively arranged at different rear first installation part groups 22, the front positioning piece 31 is positioned at the rear side of the front mold frame 10, and the rear positioning piece 32 is arranged at the front side of the rear mold frame 20, so that when the mold core 200 is arranged in the mold core accommodating space 21 between the front mold frame 10 and the rear mold frame 20, the mold core 200 can be respectively positioned and matched with the front positioning piece 31 and the rear positioning piece 32, and then the front side and the rear side of the mold core 200 can be positioned and matched, the positioning effect of the mold core 200 on the mold frame assembly 100 can be further improved, and the stability and the reliability of the mold core 200 arranged on the mold frame assembly 100 can be improved.

As shown in fig. 2 to 4, the front mold frame 10 is provided with a front avoiding hole 11 to avoid the mold core 200, the front first mounting portion group 22 is disposed on a circumferential outer side of the front avoiding hole 11, the rear mold frame 20 is provided with a rear avoiding hole 23 to avoid the mold core 200, and the rear first mounting portion group 22 is disposed on a circumferential outer side of the rear avoiding hole 23. Specifically, the mold core 200 is disposed in the mold core accommodating space 21 between the front mold frame 10 and the rear mold frame 20, and the front avoidance hole 11 and the rear avoidance hole 23 are respectively disposed on the front mold frame 10 and the rear mold frame 20, so that the front avoidance hole 11 and the rear avoidance hole 23 can correspond to a structure of avoiding the mold core 200, and the installation and the arrangement of the mold core 200 on the mold frame assembly 100 are ensured.

Further, by arranging the front first mounting portion 223 at the circumferential outer side of the front avoiding hole 11 and the rear first mounting portion 223 at the circumferential outer side of the rear avoiding hole 23, after the mold core 200 is arranged in the mold core accommodating space 21, the front positioning member 31 on the front first mounting portion group 22 and the rear positioning member 32 on the rear first mounting portion group 22 can circumferentially position the mold core 200 respectively, so that the reliability and stability of the positioning function of the mold base assembly 100 on the mold core 200 can be further improved.

In some embodiments of the present invention, as shown in fig. 2-4, the first mounting portion 223 is a mounting hole, the positioning member 30 is a positioning pin, and the positioning pin penetrates through the mounting hole. Specifically, the first installation part 223 can be set as an installation hole, the positioning part 30 is set as a positioning pin, so that the positioning pin is correspondingly penetrated through the installation hole, the setting of the positioning part 30 on the first installation part 223 can be realized, and the setting of the positioning part 30 on different first installation parts 223 can be realized only by changing the installation hole matched with the positioning pin, so that the structures of the first installation part 223 and the positioning part 30 are simpler, and the installation and the disassembly of the positioning part 30 on the first installation part 223 can be facilitated.

In other embodiments of the present invention, the positioning member 30 is configured with a positioning hole, and the positioning hole and the mounting hole are integrally formed. Specifically, the positioning member 30 may be configured as a positioning hole, and the positioning hole and the mounting hole are integrally formed, so that only the mold core 200 is required to be directly positioned and matched with the positioning hole, and the structure of the mold frame assembly 100 may be more simple and reliable.

As shown in fig. 2 to 6, the mold frame assembly 100 of the mold 1000 may further include a fastening member 40, and a plurality of second installation portion groups 24 are provided on at least one of the rear mold frame 20 and the front mold frame 10, and the fastening member 40 is selectively provided on different second installation portion groups 24 to be connected and fixed with different types of mold cores 200.

Specifically, the plurality of second installation part groups 24 are arranged on at least one of the rear mold frame 20 and the front mold frame 10, the positions of the plurality of second installation parts 243 are different, and the fasteners 40 are selectively arranged on the different second installation part groups 24, so that the fasteners 40 can be located at different positions, after the positioning and matching of the front mold frame 10 and the rear mold frame 20 with the mold cores 200 are realized through the first installation part groups 22 and the positioning parts 30, the front mold frame 10 and the rear mold frame 20 can be connected and fixed with the mold cores 200 of different models through the fasteners 40, and thus the connection and fixation of the mold cores 200 and the mold frame assemblies 100 can be realized, and the connection and fixation of the mold cores 200 and the mold frame assemblies 100 can be simpler and more reliable.

As shown in fig. 2 to 4, a plurality of second installation part groups 24 are spaced apart on at least one of the rear mold frame 20 and the front mold frame 10, and the second installation part groups 24 may include a plurality of second installation parts 243, and the plurality of second installation parts 243 of each second installation part group 24 are circumferentially spaced apart on at least one of the rear mold frame 20 and the front mold frame 10. Specifically, the plurality of second installation part groups 24 are arranged at intervals in at least one of the rear mold frame 20 and the front mold frame 10, so that the arrangement positions of the plurality of second installation part groups 24 are different, the second installation part groups 24 can correspond to different models of mold cores 200, and the commonality of the mold frame assembly 100 is improved.

Further, the second installation parts 24 include the plurality of second installation parts 243, and the plurality of second installation parts 243 of each second installation part group 24 are circumferentially arranged at intervals on at least one of the rear mold frame 20 and the front mold frame 10, so that after the positioning and matching of the mold core 200 and the front mold frame 10 and the rear mold frame 20 are realized, the plurality of circumferentially arranged second installation parts 243 can be fixedly connected with the mold core 200, thereby not only increasing the number of the fixed connection between the mold core 200 and the mold frame assembly 100, but also enabling the fixed connection distribution between the mold core 200 and the mold frame assembly 100 to be more uniform, and further improving the stability and reliability of the fixed connection between the mold core 200 and the mold frame assembly 100.

As shown in fig. 2 to 4, the second installation portion group 24 may include a plurality of front second installation portion groups 241 and a plurality of rear second installation portion groups 242, the plurality of front second installation portion groups 241 are disposed at a rear side of the front mold frame 10, the plurality of rear second installation portion groups 242 are disposed at a front side of the rear mold frame 20, the fastening member 40 includes a front fastening member 41 and a rear fastening member 42, the front fastening member 41 is selectively disposed at a different front second installation portion group 241, the rear fastening member 42 is selectively disposed at a different rear second installation portion group 242, the front fastening member 41 and the front positioning member 31 are spaced apart, and the rear fastening member 42 and the rear positioning member 32 are spaced apart.

Specifically, by disposing the front second mounting portion group 241 at the rear side of the front mold frame 10 and the rear second mounting portion group 242 at the front side of the rear mold frame 20, when the front fastening member 41 is selectively disposed at the different front second mounting portion groups 241 and the rear fastening member 42 is selectively disposed at the different rear second mounting portion groups 242, the front fastening member 41 is disposed at the rear side of the front mold frame 10 and the rear fastening member 42 is disposed at the front side of the rear mold frame 20, so that after the mold core 200 is disposed in the mold core accommodating space 21 between the front mold frame 10 and the rear mold frame 20, the mold core 200 can be respectively fastened to the front fastening member 41 and the rear fastening member 42, and further, both the front and rear sides of the mold core 200 can be fastened, and the reliability of the mold core 200 fixing action of the mold frame assembly 100 can be further improved.

Further, the front fastening member 41 and the front positioning member 31 are arranged at intervals, and the rear fastening member 42 and the rear positioning member 32 are arranged at intervals, so that the front fastening member 41 and the front positioning member 31 can be matched with each other, and the rear fastening member 42 and the rear positioning member 32 can be matched with each other, thereby further improving the positioning action and the fixing action of the mold base assembly 100 on the mold core 200 to be matched with each other, and further optimizing the structural design of the mold base assembly 100.

As shown in fig. 1 to 6, a mold 1000 according to an embodiment of the present invention may include: the mold frame assembly 100 and the mold core 200 of the mold 1000 are described above, wherein the mold core 200 is disposed in the mold core accommodating space 21 of the mold frame assembly 100, the mold core 200 is provided with the positioning portion 201, and the positioning member 30 is in positioning fit with the positioning portion 201. Specifically, by arranging the positioning part 201 on the mold core 200, when the mold core 200 is arranged in the mold core accommodating space 21 of the mold base assembly 100, the positioning part 30 can be arranged in one of the first installation part groups 22 and is in positioning fit with the positioning part 201, so that the mold core 200 and the mold base assembly 100 can be in positioning fit, the mold core 200 is quickly positioned at a correct assembly position, the setting position of the positioning part 30 can be adjusted according to the sizes of the mold cores 200 of different models, the sharing performance of the mold base assembly 100 is improved, the delivery time of the mold 1000 can be shortened, and the storage space of the mold 1000 is reduced.

Further, one of the positioning member 30 and the positioning portion 201 is a positioning pin, and the other is a positioning hole, and the positioning pin is in positioning fit with the positioning hole. Specifically, one of the positioning part 30 and the positioning part 201 can be set as a positioning pin, and the other is set as a positioning hole, so that when the mold core 200 is arranged on the mold base assembly 100, the positioning pin is only required to correspondingly extend into the positioning hole, and the positioning fit between the mold core 200 and the mold base assembly 100 can be realized, thereby not only improving the speed and accuracy of the positioning fit between the mold core 200 and the mold base assembly 100, but also improving the stability and reliability of the mold core 200 and the mold base assembly 100, further improving the assembling speed of the mold 1000, and improving the use experience of users.

So, when utilizing mould 1000 to carry out the production of product, only need set up die carrier subassembly 100 on board 2000, preceding die carrier 10 is fixed in the fixed mould side of board 2000, back die carrier 20 is fixed in the movable mould side of board 2000, then set up the mold core 200 that the product corresponds on die carrier subassembly 100 through setting element 30 and fastener 40, just can realize the production of product, and when needing to be changed into another product and carry out production, only need directly dismouting mould 1000 on board 2000, correspond the mold core 200 that another product corresponds on die carrier subassembly 100, thereby not only need not to change die carrier subassembly 100, and can realize the quick replacement of mold core 200, realize the purpose of mould 1000 quick replacement product, and then can reduce the waste of equipment human cost, improve the production efficiency of product, can improve the product competitiveness of mould 1000.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A mold frame assembly (100) for a mold (1000), comprising:

a front mold frame (10);

the rear mould frame (20), the rear mould frame (20) is arranged at the rear side of the front mould frame (10) and is arranged at intervals with the front mould frame (10), a mould core accommodating space (21) is formed between the front mould frame (10) and the rear mould frame (20), and at least one of the rear mould frame (20) and the front mould frame (10) is provided with a plurality of first installation part groups (22);

the positioning pieces (30) are selectively arranged on different first installation part groups (22) so as to be matched with the mold cores (200) of different models in a positioning mode.

2. The mold frame assembly (100) of a mold (1000) according to claim 1, wherein a plurality of first installation parts (22) are provided at intervals on at least one of the rear mold frame (20) and the front mold frame (10), the first installation parts (22) include a plurality of first installation parts (223), and a plurality of the first installation parts (223) of each of the first installation parts (22) are provided at intervals in a circumferential direction on at least one of the rear mold frame (20) and the front mold frame (10).

3. The mold frame assembly (100) of the mold (1000) according to claim 2, wherein the first set of receiving portions (22) comprises a front first set of receiving portions (22) and a rear first set of receiving portions (22), the front first set of receiving portions (22) being disposed at a rear side of the front mold frame (10) and the rear first set of receiving portions (22) being disposed at a front side of the rear mold frame (20);

the positioning piece (30) comprises a front positioning piece (31) and a rear positioning piece (32), the front positioning piece (31) is selectively arranged on different front first installation part groups (22), and the rear positioning piece (32) is selectively arranged on different rear first installation part groups (22).

4. The mold frame assembly (100) of the mold (1000) according to claim 3, wherein the front mold frame (10) is provided with a front avoiding hole (11) to avoid the mold core (200), and the front first installation portion group (22) is arranged at the circumferential outer side of the front avoiding hole (11);

back dodge hole (23) have been seted up on back die carrier (20) to dodge mold core (200), back first installation portion group (22) set up in the circumference outside of back dodge hole (23).

5. The carrier assembly (100) of a mold (1000) according to claim 2, wherein the first mounting portion (223) is a mounting hole, and the positioning member (30) is a positioning pin penetrating the mounting hole; or

The positioning member (30) is configured with a positioning hole, and the positioning hole and the mounting hole are integrally formed.

6. The mold frame assembly (100) of the mold (1000) according to claim 5, further comprising a fastener (40), wherein a plurality of second installation portion sets (24) are arranged on at least one of the rear mold frame (20) and the front mold frame (10), and the fastener (40) is selectively arranged on different second installation portion sets (24) to be connected and fixed with mold cores (200) of different models.

7. The mold carrier assembly (100) of a mold (1000) of claim 6, wherein a plurality of second installation parts (24) are spaced apart on at least one of the rear mold carrier (20) and the front mold carrier (10), the second installation parts (24) comprising a plurality of second installation parts (243), a plurality of the second installation parts (243) of each of the second installation parts (24) being circumferentially spaced apart on at least one of the rear mold carrier (20) and the front mold carrier (10).

8. The mold frame assembly (100) of the mold (1000) according to claim 7, wherein the second seating portion group (24) comprises a plurality of front second seating portion groups (241) and a plurality of rear second seating portion groups (242), the plurality of front second seating portion groups (241) being disposed at a rear side of the front mold frame (10), the plurality of rear second seating portion groups (242) being disposed at a front side of the rear mold frame (20);

the fastening piece (40) comprises a front fastening piece (41) and a rear fastening piece (42), the front fastening piece (41) is selectively arranged on different front second installation part groups (241), the rear fastening piece (42) is selectively arranged on different rear second installation part groups (242), the front fastening piece (41) and the front positioning piece (31) are arranged at intervals, and the rear fastening piece (42) and the rear positioning piece (32) are arranged at intervals.

9. A mold (1000), comprising:

a frame component (100) of a mold (1000) according to any one of claims 1 to 8;

the die holder comprises a die holder (200), wherein the die holder (200) is arranged in the die holder accommodating space (21) of the die holder component (100), a positioning part (201) is arranged on the die holder (200), and a positioning part (30) is matched with the positioning part (201) in a positioning mode.

10. The mold (1000) according to claim 9, wherein one of the positioning member (30) and the positioning portion (201) is a positioning pin and the other is a positioning hole, and the positioning pin and the positioning hole are in positioning fit.

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