CN221365421U - Processing die structure of anti-collision ball cap - Google Patents

Abstract

The utility model provides a processing die structure of an anti-collision spherical cap, which effectively ensures one-step molding of a product, ensures the molding quality of the product and effectively improves the production efficiency.

Description

Processing die structure of anti-collision ball cap

Technical Field

The utility model relates to the technical field of mold manufacturing, in particular to a processing mold structure of an anti-collision spherical cap.

Background

See crashproof ball cap that fig. 1 shows, its structure is complicated, has a plurality of ribs, and in current mold processing, its shaping is comparatively difficult, and the core can appear taking out difficultly after the product shaping to influence the shaping of product, if processing additional, then can increase processing technology, influence machining efficiency, increase processing cost.

Disclosure of Invention

Aiming at the technical problems, the utility model provides a processing die structure of an anti-collision spherical cap, which effectively ensures one-step molding of products, ensures the molding quality of the products and simultaneously effectively improves the production efficiency.

The technical scheme is as follows: the utility model provides a processing mould structure of anticollision ball cap, its includes front mould and rear mould, the front mould with the rear mould passes through guide pillar direction to be connected, set up front mould die cavity and front mould core on the front mould, set up on the rear mould with front mould die cavity with rear mould die cavity and rear mould core that front mould core corresponds, front mould die cavity with rear mould cavity forms product die cavity, product die cavity passes through runner connection runner, its characterized in that: the rear mold core comprises a first rear mold core and a second rear mold core, and the second rear mold core is vertically arranged on the rear mold corresponding to the product cavity;

It is further characterized in that the second rear mold core is disposed on the first rear mold core; the front die comprises a connecting plate; the rear mould comprises a rear mould connecting plate and a rear mould A plate, and the lower end of the rear mould core is arranged on the rear mould A plate; the two sides of the rear die A plate are respectively provided with a shovel base, the shovel base is provided with an inclined guide post, the shovel base is connected with a slide block, the slide block is provided with a through hole corresponding to the inclined guide post, the slide block is movably connected with the shovel base through the inclined guide post, and the slide block is connected with a third rear die core; the front mold core comprises a first front mold core and a second front mold core, the second front mold core is connected with a front mold cooling water channel, and the first rear mold core is connected with a rear mold cooling water channel; the rear die connecting plate and the rear die A plate are connected through a bracket to form a cavity, a top plate is arranged in the cavity, the top plate is connected through a top plate guide post in a guiding manner, a thimble is arranged on the top plate, and the thimble corresponds to the product cavity.

By adopting the structure, the second rear mold core is vertically arranged on the rear mold, so that the second rear mold core corresponding to the product is molded during mold separation, the one-step molding of the product is effectively ensured, the molding quality of the product is ensured, and meanwhile, the production efficiency is effectively improved.

Drawings

FIG. 1 is a view of a pool cap product;

FIG. 2 is a front view of a processing mold structure of the anti-collision cap of the present utility model;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

Fig. 4 is a B-B rotational cross-sectional view of fig. 2.

Detailed Description

The utility model will be further described with reference to the drawings and examples.

The utility model provides a processing mould structure of anticollision spherical cap, it includes front mould 1 and back mould 2, front mould 1 and back mould 2 pass through guide pillar 3 direction and connect, set up front mould die cavity 4 and front mould core 5 on the front mould 1, set up back model cavity 6 and back model core 7 corresponding with front mould cavity 4 and front mould core 5 on the back mould 2, front model cavity 4 and back model cavity 6 form product die cavity 8, product die cavity 8 passes through runner 9 and connects runner 10, back model core 7 includes first back model core 11 and second back model core 12, second back model core 12 corresponds product die cavity 8 vertical setting on back mould 2, when the die separation, the shaping of the corresponding product of second back mould core of vertical setting effectively guarantees in product one shot forming, production efficiency has effectively been improved when guaranteeing product shaping quality.

The second rear mold core 12 is provided on the first rear mold core 11 so that the rear mold core is simple in structure.

The front mold 1 includes a connection plate 24.

The rear mold 2 includes a rear mold connecting plate 13 and a rear mold a plate 14, and the lower end of the rear mold core 7 is disposed on the rear mold a plate 14 to form a rear mold overall structure, which is a separation interface with the front mold.

The shovel base 15 is respectively arranged on two sides of the rear mould A plate 14, the shovel base 15 is provided with an inclined guide post 16, the shovel base 15 is connected with a slide block 17, the slide block 17 is provided with a through hole 18 corresponding to the inclined guide post 16, the slide block 17 is movably connected with the shovel base 15 through the inclined guide post 16, the slide block 17 is connected with a third rear mould core 19, and when the front mould and the rear mould are separated, the inclined guide post drives the slide block to be separated from the third rear mould core, so that separation of a product and a mould core is realized, and one-step forming of the product is ensured.

Preferably, the lengths of the inclined guide posts at two sides are unequal, so that the moving distance of the sliding block can be adjusted, and the forming stability of the die is better ensured.

The front mold core 4 comprises a first front mold core 20 and a second front mold core 21, the second front mold core 21 is connected with a front mold cooling water channel 22, the first rear mold core 11 is connected with a rear mold cooling water channel 23, and the front mold core and the rear mold core are both connected with cooling water channels, so that the internal cooling of the mold is ensured, and the pouring quality of the mold is ensured.

The rear die connecting plate 13 and the rear die A plate 14 are connected through a bracket to form a cavity 25, a top plate 26 is arranged in the cavity 25, the top plate 26 is connected through a top plate guide post 27 in a guiding way, a thimble 28 is arranged on the top plate 26, the thimble 28 corresponds to the product cavity 8, and when the top plate moves, the thimble ejects a product along with the movement of the top plate.

The working principle of the patent of the utility model is described below with reference to the accompanying drawings:

When the front mould and the rear mould are separated, the front mould 1 and the rear mould 2 drive the front mould core 5 and the rear mould core 7 (comprising the second rear mould core 12) to be separated, the sliding block 17 drives the third rear mould core 19 to transversely move under the guiding action of the inclined guide post 16, and the third rear mould core 19 is far away from the mould body, so that the separation of the formed product and the mould body is realized, and the forming of the product is realized due to the fact that the ejector pin 28 is propped against the formed product.

The present utility model and its embodiments have been described above by way of illustration and not limitation, and the embodiments of the present utility model shown in the drawings are not limited thereto, and those skilled in the art will appreciate that the utility model is not limited thereto, but is intended to be practiced without resorting to any inventive arrangements or examples, which are similar to those disclosed herein, without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a processing mould structure of crashproof ball cap, its includes front mould (1) and back mould (2), front mould (1) with back mould (2) are connected its characterized in that through guide pillar (3) direction: front mould (1) is last to set up front mould die cavity (4) and front mould core (5), back mould (2) go up set up with front mould die cavity (4) with back model cavity (6) and back model core (7) that front mould core (5) correspond, front mould die cavity (4) with back model cavity (6) form product die cavity (8), runner (10) are connected through runner (9) in product die cavity (8), back model core (7) include first back model core (11) and second back model core (12), second back model core (12) are in correspond on back mould (2) product die cavity (8) vertical setting.

2. The processing mold structure of a crashproof spherical cap according to claim 1, wherein: the second rear mould core (12) is arranged on the first rear mould core (11).

3. The processing mold structure of a crashproof spherical cap according to claim 1, wherein: the front mould (1) comprises a connecting plate (24).

4. The processing mold structure of a crashproof spherical cap according to claim 1, wherein: the rear mould (2) comprises a rear mould connecting plate (13) and a rear mould A plate (14), and the lower end of the rear mould core (7) is arranged on the rear mould A plate (14).

5. The tooling mold structure of a crash helmet of claim 4, wherein: shovel bases (15) are respectively arranged on two sides of the rear mould A plate (14), oblique guide posts (16) are arranged on the shovel bases (15), the shovel bases (15) are connected with sliding blocks (17), through holes (18) corresponding to the oblique guide posts (16) are formed in the sliding blocks (17), the sliding blocks (17) are movably connected with the shovel bases (15) through the oblique guide posts (16), and the sliding blocks (17) are connected with a third rear mould core (19).

6. The processing mold structure of a crashproof spherical cap according to claim 1, wherein: the front mold core (5) comprises a first front mold core (20) and a second front mold core (21), the second front mold core (21) is connected with a front mold cooling water channel (22), and the first rear mold core (11) is connected with a rear mold cooling water channel (23).

7. The tooling mold structure of a crash helmet of claim 4, wherein: the novel plastic mold is characterized in that a cavity (25) is formed between the rear mold connecting plate (13) and the rear mold A plate (14) through support connection, a top plate (26) is arranged in the cavity (25), the top plate (26) is connected through a top plate guide post (27) in a guiding mode, a thimble (28) is arranged on the top plate (26), and the thimble (28) corresponds to the product cavity (8).