CN219028312U - Copilot knee gasbag mould - Google Patents

Abstract

The utility model discloses a knee airbag die for a copilot, which comprises a movable die template and a fixed die template, wherein the upper end of the movable die template is provided with two groups of movable die cores which are bilaterally symmetrical, four corners of the upper end of the movable die template are respectively provided with a vertical guide pillar, and a plurality of groups of fine positioning convex seats are fixed on the side edges of the movable die template; the fixed die template is provided with fixed die cores which are distributed symmetrically left and right, locking wedges are arranged on the side edges of the fixed die cores, and the fixed die template is also provided with inclined guide posts; according to the utility model, when the movable die plate and the fixed die plate are assembled, the vertical guide posts are inserted into the corresponding guide sleeves, the fine positioning convex seats are inserted into the corresponding fine positioning groove seats, and the inclined guide posts are inserted into the corresponding inserting holes of the movable die plate, so that the assembly is accurate, and the product molding quality is ensured. The fixed die core and the movable die core are respectively provided with two groups, and the upper and lower fixed die cores and the movable die core are mutually matched, so that the production on the upper cavity of the injection molding machine with the same tonnage is realized, and the efficiency is doubled.

Description

Copilot knee gasbag mould

Technical Field

The utility model relates to the technical field of dies, in particular to a knee airbag die for a copilot.

Background

The utility model provides a knee airbag for the copilot, which is an automobile safety accessory, and greatly enhances the protection effect on the knee of the copilot, but when the knee airbag is produced by a die, similar products are produced at 1 point, namely, only one knee airbag for the copilot can be produced by one die, therefore, the utility model is put forward, and through design and development, the production at 2 points on an injection molding machine with the same tonnage is realized, and the efficiency is doubled.

Disclosure of Invention

The utility model aims to provide a knee airbag die for a copilot, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the knee airbag die for the copilot comprises a movable die template and a fixed die template, wherein two groups of movable die cores which are bilaterally symmetrical are arranged at the upper end of the movable die template, a sliding block head and a sliding block seat are sequentially arranged at the left side and the right side of the movable die cores, vertical guide posts are arranged at four corners of the upper end of the movable die template, and a plurality of groups of fine positioning protruding seats are fixed on the side edges of the movable die template;

the side edge of the fixed die template is provided with a thermometer, the fixed die template is provided with fixed die cores which are distributed symmetrically left and right, the side edge of the fixed die cores is provided with a locking wedge, and the fixed die template is also provided with an inclined guide post;

after the movable die plate and the fixed die plate are assembled, the vertical guide posts are inserted into corresponding guide sleeves on the fixed die plate, the fine positioning convex seats are inserted into fine positioning groove seats corresponding to the side edges of the fixed die plate, and the inclined guide posts are inserted into corresponding inserting holes of the movable die plate.

Compared with the prior art, the utility model has the beneficial effects that: when the movable die plate and the fixed die plate are assembled, the vertical guide posts are inserted into the corresponding guide sleeves, the fine positioning convex seats are inserted into the corresponding fine positioning groove seats, and the inclined guide posts are inserted into the corresponding inserting holes of the movable die plate, so that the assembly is accurate, and the product molding quality is ensured.

The fixed die core and the movable die core are respectively provided with two groups, and the upper and lower fixed die cores and the movable die core are mutually matched, so that the production on the upper cavity of the injection molding machine with the same tonnage is realized, and the efficiency is doubled.

Drawings

FIG. 1 is a schematic diagram of a movable mold plate and two sets of movable mold cores according to the present utility model;

FIG. 2 is a schematic structural view of the fixed mold plate and two sets of fixed mold cores of the present utility model;

fig. 3 is a schematic perspective view of the whole structure of the present utility model.

In the figure: 1. a first side hanging ring; 2. a movable mold mounting panel; 3. a movable mold plate; 4. a first pipe; 5. a first water-collecting block; 6. a water joint for cooling; 7. a vertical guide post; 8. a product; 9. a slider head; 10. a movable mold core; 11. a slider seat; 12. fine positioning convex seats; 13. squeezing the block; 14. a fixed die template; 15. a second side hanging ring; 16. guide sleeve; 17. fine positioning groove seat; 18. a fixed die mounting panel; 19. a second water collecting block; 20. a fixed mold core; 21. locking wedges; 22. a thermometer; 23. oblique guide posts; 24. a material injection port; 25. and (5) hanging rings.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a copilot knee gasbag mould, includes movable mould template 3 and cover half template 14, the side of movable mould template 3 and cover half template 14 is equipped with first side rings 1 and second side rings 15 respectively; the movable mould template 3 bottom is fixed with movable mould installation panel 2, cover half installation panel 18 is installed at cover half template 14 top, four corners of movable mould installation panel 2 and cover half installation panel 18 all are fixed with rings 25, through the setting of first side rings 1 and second side rings 15 and rings 25, the removal of movable mould template 3 and cover half template 14 of being convenient for is transported.

The middle part of the fixed die mounting panel 18 is provided with a material injection port 24, and the material injection port 24 is communicated between the movable die core 10 and the corresponding fixed die core 20.

Two groups of movable mould cores 10 which are bilaterally symmetrical are arranged at the upper end of the movable mould template 3, sliding block heads 9 and sliding block seats 11 are sequentially arranged at the left side and the right side of the movable mould cores 10, vertical guide posts 7 are arranged at four corners of the upper end of the movable mould template 3, and a plurality of groups of fine positioning protruding seats 12 are fixed at the side edge of the movable mould template 3;

the side of the fixed die template 14 is provided with a thermometer 22, the fixed die template 14 is provided with fixed die cores 20 which are distributed symmetrically left and right, the side of the fixed die cores 20 is provided with a locking wedge 21, and the fixed die template 14 is also provided with an inclined guide post 23;

after the movable die plate 3 and the fixed die plate 14 are clamped, the vertical guide posts 7 are inserted into corresponding guide sleeves 16 on the fixed die plate 14, the fine positioning convex seats 12 are inserted into fine positioning groove seats 17 corresponding to the side edges of the fixed die plate 14, and the inclined guide posts 23 are inserted into corresponding inserting holes of the movable die plate 3.

One end of the movable mold core 10 and the other end of the corresponding fixed mold core 20 are respectively provided with a squeezing block 13. The movable mold core 10 and the fixed mold core 20 can be respectively squeezed and fixed by the arrangement of the squeezing blocks 13;

the side edges of two groups of slide blocks 11 in the middle are connected to the first water collecting blocks 5 on the side edges of the movable mould template 3 through the first pipeline 4, the second water collecting blocks 19 are installed on the side edges of the fixed mould template 14, the second water collecting blocks 19 are connected to cooling water channels in the fixed mould core 20 through the second pipeline, and the first water collecting blocks 5 and the second water collecting blocks 19 are respectively provided with a cooling water joint 6.

Specifically, when in use, after the movable mold plate 3 and the fixed mold plate 14 are assembled, the vertical guide posts 7 are inserted into corresponding guide sleeves 16 on the fixed mold plate 14, the fine positioning convex seats 12 are inserted into fine positioning groove seats 17 corresponding to the side edges of the fixed mold plate 14, and the inclined guide posts 23 are inserted into corresponding inserting holes of the movable mold plate 3.

Simultaneously, the locking wedges 21 are contacted with the corresponding slide block seats 11, so that the slide block seats 11 push the slide block heads 9 inwards to clamp and fix the movable mold cores 10, and the fixed mold cores 20 are accurately matched with the corresponding movable mold cores 10, so that the die assembly of the movable mold templates 3 and the fixed mold templates 14 is completed;

raw materials are poured between the fixed die core 20 and the corresponding movable die core 10 through the material pouring opening 24, and then water is respectively poured into the first water collecting block 5 and the second water collecting block 19 through the cooling water connector 6, so that cooling water enters the cooling water channels in the middle two groups of slide blocks 11 and the fixed die core 20, and rapid cooling and molding of products are realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a copilot knee gasbag mould, includes movable mould template (3) and cover half template (14), its characterized in that: two groups of left and right symmetrical movable mould cores (10) are arranged at the upper end of the movable mould template (3), sliding block heads (9) and sliding block seats (11) are sequentially arranged at the left side and the right side of the movable mould cores (10), vertical guide posts (7) are arranged at four corners of the upper end of the movable mould template (3), and a plurality of groups of fine positioning protruding seats (12) are fixed on the side edge of the movable mould template (3);

the side of the fixed die template (14) is provided with a thermometer (22), the fixed die template (14) is provided with fixed die cores (20) which are distributed symmetrically left and right, the side of the fixed die cores (20) is provided with a locking wedge (21), and the fixed die template (14) is also provided with an inclined guide post (23);

after the movable die template (3) and the fixed die template (14) are clamped, the vertical guide posts (7) are inserted into corresponding guide sleeves (16) on the fixed die template (14), the fine positioning convex seats (12) are inserted into fine positioning groove seats (17) corresponding to the side edges of the fixed die template (14), and the inclined guide posts (23) are inserted into corresponding inserting holes of the movable die template (3).

2. A co-pilot knee airbag die as in claim 1, wherein: the sides of the movable die template (3) and the fixed die template (14) are respectively provided with a first side lifting ring (1) and a second side lifting ring (15);

the movable mould template (3) bottom is fixed with movable mould installation panel (2), cover half installation panel (18) are installed at cover half template (14) top, four corners of movable mould installation panel (2) and cover half installation panel (18) all are fixed with rings (25), and annotate material mouth (24) have been seted up at cover half installation panel (18) middle part, annotate material mouth (24) intercommunication between movable mould mold core (10) and corresponding cover half mold core (20).

3. A co-pilot knee airbag die as in claim 1, wherein: one end of the movable mold core (10) and the other end of the corresponding fixed mold core (20) are both provided with a squeezing block (13).

4. A co-pilot knee airbag die as in claim 1, wherein: the side of two sets of sliding blocks seat in the middle (11) is connected in first catchment piece (5) of movable mould template (3) side through first pipeline (4), second catchment piece (19) are installed to cover half template (14) side, and second catchment piece (19) are connected in the cooling water channel in cover half mold core (20) through the second pipeline, all be equipped with cooling water joint (6) on first catchment piece (5) and second catchment piece (19).

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