CN219855797U - Mould structure for manufacturing fresh air left and right shells - Google Patents

Abstract

The utility model relates to a die structure for manufacturing a left shell and a right shell of fresh air. The existing shell structure is formed with a back-off at one side buckle structure of a product, and the structure causes that a conventional sliding block structure is difficult to smoothly demolding, so that the quality of the product is affected. The utility model comprises an A plate and a B plate, wherein a front die core is arranged in the A plate, and a rear die core is arranged in the B plate. According to the utility model, aiming at the problem that the product has back-off at the buckle structure to affect the demolding, the inclined ejection mechanism is added in the slider in the mold, and the inclined ejection is limited by the inclined ejection limiting block and then moves synchronously with the slider, so that the product can be demolded smoothly, and the mold structure is optimized and simplified.

Description

Mould structure for manufacturing fresh air left and right shells

Technical Field

The utility model relates to a die structure for manufacturing a left shell and a right shell of fresh air.

Background

The existing shell structure is shown in fig. 1, a reverse buckle is formed at a buckle structure on one side of a product, and the structure causes that a conventional sliding block structure is difficult to smoothly demolding, so that the quality of the product is affected.

Disclosure of Invention

The utility model aims at the problems and provides a die structure for manufacturing a fresh air left shell and a fresh air right shell, which is optimized to enable products to be demolded smoothly.

The utility model adopts the following technical scheme: the utility model provides a make mould structure of casing about new trend, includes A board and B board, sets up the front mould benevolence in the A board, sets up the back mould benevolence in the B board, its characterized in that A board and B board between set up the slider, the slider in set up one and follow the oblique top of slider removal, the oblique top limit by the stopper in follow the slider outside slip in-process earlier upwards move in order to break away from the product back-off.

Preferably, the inclined top is provided with a protruding block extending into the product buckle at the lower part of the inner end.

Preferably, the limiting block comprises a first inclined top limiting block fixed on the B plate, and the first inclined top limiting block is vertically arranged and matched with the middle part of the inclined top.

Preferably, the upper part of the first pitched roof limiting block is provided with a stepped groove, the inner surface of the stepped groove is provided with a chamfer, and the pitched roof is provided with an end face matched with the stepped groove.

Preferably, a second inclined top limiting block is further arranged at the outer end of the inclined top.

Preferably, the second inclined top limiting block is arranged on the sliding block.

Preferably, the tail end of the sliding block is provided with an inclined guide post for driving the sliding block to move.

Preferably, the first inclined top limiting block is T-shaped, screw holes are formed in two sides of the lower end of the first inclined top limiting block, and screws penetrate through the screw holes to fix the first inclined top limiting block on the B plate.

According to the utility model, aiming at the problem that the product has back-off at the buckle structure to affect the demolding, the inclined ejection mechanism is added in the slider in the mold, and the inclined ejection is limited by the inclined ejection limiting block and then moves synchronously with the slider, so that the product can be demolded smoothly, and the mold structure is optimized and simplified.

Drawings

FIG. 1 is a schematic diagram of the structure of a product processed according to the present utility model.

Fig. 2 is a schematic cross-sectional structure of the present utility model before the movement of the mold.

Fig. 3 is a schematic cross-sectional view of the mold of the present utility model after movement.

Fig. 4 is a schematic cross-sectional view of the present utility model prior to a top view angular movement.

Fig. 5 is a schematic cross-sectional view of the present utility model after a top view angular movement.

Fig. 6 is a schematic structural view of a first sloped top stopper according to the present utility model.

Fig. 7 is a schematic perspective view of the present utility model.

In the figure: a plate 2, B plate 3, front die core 4, rear die core 5, sliding block 6, inclined top 7, inclined guide post 8, first inclined top limiting block 9, second inclined top limiting block 10, product 11, back-off 12, stepped groove 13 and inclined section.

Description of the embodiments

The utility model will be further illustrated with reference to specific examples.

The die structure for manufacturing the fresh air left and right shells shown in fig. 2 comprises an A plate 1 and a B plate 2, wherein a front die core 3 is arranged in the A plate, and a rear die core 4 is arranged in the B plate 2, and the die structure is characterized in that a sliding block 5 is arranged between the A plate and the B plate, an inclined top 6 moving along with the sliding block is arranged in the sliding block 5, and the inclined top 6 is limited by a limiting block to move upwards in the outward sliding process along with the sliding block 5 so as to separate from a product 10 back-off 11.

Specifically, the lower part of the inner end of the inclined top 6 is provided with a convex block which extends into the inverted buckle 11 of the product.

In one embodiment, the limiting block comprises a first inclined top limiting block 8 fixed on the B plate, and the first inclined top limiting block is vertically arranged and matched with the middle part of the inclined top 6. The movement direction of the inclined roof is limited by a first inclined roof limiting block 8.

Specifically, a stepped groove 12 is formed at the upper part of the first pitched roof limiting block 8, a chamfer 13 is formed on the inner surface of the stepped groove 12, and the pitched roof 6 forms an end surface matched with the stepped groove 12. The structural design of the first inclined top limiting block enables the inclined top to move upwards to separate from the back-off of the product in the moving process of the sliding block.

In one embodiment, a second inclined top limiting block 9 is further arranged at the outer end of the inclined top. And setting a second inclined top limiting block to limit the outward movement position of the inclined top. The second inclined top limiting block 9 is arranged on the sliding block 5.

Specifically, a diagonal guide post 7 for driving the slide block 5 to move is arranged at the tail end of the slide block. The slide block is driven to move inside and outside by the inclined guide post 7.

The first inclined top limiting block 8 is T-shaped, screw holes are formed in two sides of the lower end of the first inclined top limiting block, and screws penetrate through the screw holes to fix the first inclined top limiting block on the B plate 2. Reliable fixation and convenient disassembly and assembly.

According to the utility model, the inclined ejection mechanism is added in the sliding block in the die, and the inclined ejection is limited by the inclined ejection limiting block and then synchronously moves along with the sliding block, so that a product can be smoothly ejected, and the die structure is optimized and simplified.

It is to be understood that these examples are illustrative of the present utility model and are not intended to limit the scope of the present utility model. Furthermore, it should be understood that various changes and modifications can be made by one skilled in the art after reading the teachings of the present utility model, and such equivalents are intended to fall within the scope of the utility model as defined in the appended claims.

Claims (8)

1. The utility model provides a mould structure of casing about manufacturing new trend, includes A board (1) and B board (2), sets up front mould benevolence (3) in the A board, sets up back mould benevolence (4) in the B board (2), its characterized in that A board and B board between set up slider (5), slider (5) in set up one along with slider removal inclined roof (6), inclined roof (6) by the stopper restriction in along with slider (5) outside slip in-process upwards move earlier in order to break away from product (10) back-off (11).

2. The mold structure for manufacturing the fresh air left and right shells according to claim 1, wherein the inclined roof (6) is provided with a protruding block extending into the product back-off (11) at the lower part of the inner end.

3. The die structure for manufacturing the fresh air left and right shells according to claim 2, wherein the limiting block comprises a first inclined top limiting block (8) fixed on the B plate, and the first inclined top limiting block is vertically arranged and matched with the middle part of the inclined top (6).

4. A mould structure for manufacturing a fresh air left and right shell according to claim 3, characterized in that a stepped groove (12) is formed at the upper part of the first pitched roof limiting block (8), a chamfer surface (13) is formed on the inner surface of the stepped groove (12), and the pitched roof (6) forms an end surface matched with the stepped groove (12).

5. The die structure for manufacturing the fresh air left and right shells according to claim 4, wherein a second inclined top limiting block (9) is further arranged at the outer end of the inclined top.

6. The mold structure for manufacturing the fresh air left and right shells according to claim 5, wherein the second pitched roof limiting block (9) is arranged on the sliding block (5).

7. The mold structure for manufacturing the fresh air left and right shells according to claim 1, wherein the tail end of the sliding block (5) is provided with an inclined guide pillar (7) for driving the sliding block to move.

8. The mold structure for manufacturing the fresh air left and right shells according to claim 3, wherein the first inclined top limiting block (8) is in a T shape, screw holes are formed in two sides of the lower end of the first inclined top limiting block, and screws penetrate through the screw holes to fix the first inclined top limiting block on the B plate (2).