CN208133534U - The symmetrical push-in type injection molding process structure of dummy slider - Google Patents

Abstract

The symmetrical push-in type injection molding process structure of the utility model dummy slider is pushed into component including mode component and the dummy slider for being symmetrically disposed on mode component two sides；The mode component includes symmetrically arranged male model and master mold, the type cavity groove opened up respectively on the male model and the master mold is cooperatively formed to be pushed into the dummy slider being arranged on component and cooperatively forms and the matched insertion mode of tilting notch on product with the type cavity groove with the matched product type chamber of product, the dummy slider；Before carrying out injection molding, dummy slider is pushed by the dummy slider push-in component, forms complete product type chamber, and after injection molding, the dummy slider push-in component drives dummy slider to be detached from product.

Description

The symmetrical push-in type injection molding process structure of dummy slider

Technical field

The utility model relates to injection molding process structures, specifically, it shows that a kind of symmetrical push-in type of dummy slider is molded into Type process structure.

Background technique

With economic and science and technology development, plastic parts is widely used in computer and mobile phone industry, part plastic parts, due to Its architectural characteristic, production method at this stage there are problems that solve；

Such as part plastic parts, tilting notch is offered thereon, and preparation method at this stage is that fixation is set on mother module core Matched corresponding dummy slider is set, after forming and cooling down, is not damaged the people of product main body using the elastic characteristic of plastic parts itself Work is taken out；Preparation method at this stage could take out after needing that plastic parts is waited to be cooled to room temperature, and preparation efficiency is low, add simultaneously The labor intensity of big operator, and there is a possibility that damage product.

Therefore, it is necessary to provide a kind of symmetrical push-in type injection molding process structure of dummy slider to solve the above problems.

Utility model content

The purpose of the utility model is to provide a kind of symmetrical push-in type injection molding process structures of dummy slider.

The utility model is achieved through the following technical solutions above-mentioned purpose：

A kind of symmetrical push-in type injection molding process structure of dummy slider, including mode component and it is symmetrically disposed on the mould The dummy slider of benevolence component two sides is pushed into component；

The mode component includes symmetrically arranged male model and master mold, the type opened up respectively on the male model and the master mold Cavity groove, which is cooperatively formed, is pushed into the dummy slider being arranged on component and type cavity groove cooperation with the matched product type chamber of product, the dummy slider It is formed and the matched insertion mode of tilting notch on product；

Before carrying out injection molding, dummy slider is pushed by the dummy slider push-in component, is formed complete product type chamber, is molded into After type, the dummy slider push-in component drives dummy slider to be detached from product.

Further, Multidirectional synchronous inlet type cooling component is provided on mode component, the Multidirectional synchronous inlet type is cold But component includes being set to the water inlet a on front side of the top of master mold and water inlet b, being set to water inlet on rear side of the top of the master mold Mouthful c, be set to the water inlet d and water inlet e of the master mold upper right and be set to above the master mold and with it is described The cooling water channel for the rectangular distribution that water inlet a, water inlet b, water inlet c, water inlet d, water inlet e are connected to.

Further, the cooling water channel is connected with sewer mouth.

Cooling water channel and multiple water inlet road junctions by the rectangular distribution of setting, being capable of Multidirectional synchronous progress cooling water Entrance, guarantee the ingress rate of cooling water, and then guarantee cooling effect, guarantee product preparation efficiency and preparation quality.

Further, the dummy slider push-in component includes the pushing mechanism for being connected to mode component, is connected to the promotion The pushing block of mechanism and the dummy slider mechanism being used cooperatively with the pushing block；

Promotion skewed slot is offered on the pushing block, the dummy slider mechanism includes solid with the matched dummy slider of the promotion skewed slot Determine block；Dummy slider is connected to the dummy slider fixed block, and is provided on the dummy slider fixed block and the promotion skewed slot is matched pushes away Dynamic slope.

Further, the pushing mechanism includes cylinder fixed block, the driving cylinder for being set to the cylinder fixed block, institute State pushing block and be connected to the driving cylinder, and be provided on the pushing block contraposition column, be provided on the mode component with The pushing block matched promotion limited block offers and the matched entrance hole of the contraposition column on the promotion limited block.

Further, the push-in guiding mechanism being used cooperatively with pushing block, the dummy slider are provided on the mode component Fixed block includes that tilting plate body, the promotion guide groove being opened on the tilting plate body, the push-in guiding mechanism include The guide plate being set on the mode component, the guide plate include oriented plate and are connected to the oriented The fixation top plate of plate.

Further, buffering slope is offered on the promotion guide groove.

Further, it pushes and offers guiding buffering slope on guide groove.

Compared with prior art, preceding withdrawing mode of the utility model using push-in after symmetrical dummy slider and after preparing, It is able to carry out efficient taking-up after product preparation, while using Multidirectional synchronous water inlet cooling, guaranteeing cooling efficiency.

Detailed description of the invention

Fig. 1 is one of structural schematic diagram of the utility model.

Fig. 2 is the second structural representation of the utility model.

Fig. 3 is the third structural representation of the utility model.

Fig. 4 is the four of the structural schematic diagram of the utility model.

Fig. 5 is the five of the structural schematic diagram of the utility model.

Specific embodiment

Fig. 1 to Fig. 5 is please referred to, the present embodiment shows a kind of symmetrical push-in type injection molding process structure of dummy slider, including mould Benevolence component 100 and the dummy slider push-in component 200 for being symmetrically disposed on 100 two sides of mode component；

Mode component 100 includes symmetrically arranged male model 1 and master mold 2, the type cavity groove opened up respectively on male model 1 and master mold 2 It cooperatively forms and is pushed into the dummy slider 3 being arranged on component 200 with the matched product type chamber of product, dummy slider and cooperatively forms and produce with type cavity groove The matched insertion mode of tilting notch on product；

Before carrying out injection molding, dummy slider 3 is pushed by dummy slider push-in component 200, is formed complete product type chamber, is molded into After type, dummy slider is pushed into component 200 and dummy slider 3 is driven to be detached from product.

Multidirectional synchronous inlet type cooling component 4 is provided on mode component 100, Multidirectional synchronous inlet type cooling component 4 is wrapped Include the water inlet a41 being set on front side of the top of master mold 2 and water inlet b42, be set to water inlet c43 on rear side of the top of master mold 2, Be set to the water inlet d44 and water inlet e45 of 2 upper right of master mold and be set to above master mold and with water inlet a41, The cooling water channel 46 for the rectangular distribution that water inlet b42, water inlet c43, water inlet d44, water inlet e45 are connected to.

Cooling water channel 46 is connected with sewer mouth 47.

By be arranged rectangular distribution cooling water channel 46 and multiple water inlet road junctions, can Multidirectional synchronous cooled down The entrance of water guarantees the ingress rate of cooling water, and then guarantees cooling effect, guarantees product preparation efficiency and preparation quality.

Dummy slider push-in component 200 includes being connected to the pushing mechanism 5 of mode component 100, being connected to the promotion of pushing mechanism 5 Block 6 and the dummy slider mechanism 7 being used cooperatively with pushing block 6；

It is offered on pushing block 6 and pushes skewed slot 61, dummy slider mechanism 7 includes and pushes the matched dummy slider fixed block of skewed slot 61 71；Dummy slider 3 is connected to dummy slider fixed block 71, and is provided on dummy slider fixed block 71 and pushes the matched promotion slope of skewed slot 61 711。

Pushing mechanism 5 includes cylinder fixed block 51, the driving cylinder 52 for being set to cylinder fixed block 51, and pushing block 6 connects In driving cylinder 52, and it is provided with contraposition column 62 on pushing block 6, is provided with and the matched promotion of pushing block 6 on mode component 100 Limited block 8 is pushed and is offered on limited block 8 and the contraposition matched entrance hole of column 62.

The push-in guiding mechanism 9 being used cooperatively with pushing block 6 is provided on mode component 100, dummy slider fixed block 71 includes Tilting plate body 72, the promotion guide groove 73 being opened on tilting plate body 72, push-in guiding mechanism 9 include being set to mode group Guide plate 91 on part 200, guide plate 91 include oriented plate 92 and the fixation top plate for being connected to oriented plate 92 93。

It pushes and offers buffering slope 63 on skewed slot 61.

It pushes and offers guiding buffering slope 74 on guide groove 73.

Compared with prior art, the present embodiment is produced using the preceding withdrawing mode after being pushed into and prepare after symmetrical dummy slider It is able to carry out efficient taking-up after product preparation, while using Multidirectional synchronous water inlet cooling, guaranteeing cooling efficiency.

Above-described is only some embodiments of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to practical Novel protection scope.

Claims (8)

1. a kind of symmetrical push-in type injection molding process structure of dummy slider, it is characterised in that：Including mode component and it is symmetrical arranged Dummy slider in mode component two sides is pushed into component；

The mode component includes symmetrically arranged male model and master mold, the type cavity groove opened up respectively on the male model and the master mold It cooperatively forms and is pushed into the dummy slider being arranged on component with the matched product type chamber of product, the dummy slider and is cooperatively formed with the type cavity groove With the matched insertion mode of tilting notch on product；

Before carrying out injection molding, dummy slider is pushed by the dummy slider push-in component, forms complete product type chamber, injection molding Afterwards, the dummy slider push-in component drives dummy slider to be detached from product.

2. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 1, it is characterised in that：Mode group It is provided with Multidirectional synchronous inlet type cooling component on part, the Multidirectional synchronous inlet type cooling component includes be set to master mold upper The water inlet a and water inlet b of side front side, it is set to water inlet c on rear side of the top of the master mold, is set to the right side above the master mold The water inlet d and water inlet e of side and be set to above the master mold and with the water inlet a, water inlet b, water inlet c, The cooling water channel of the rectangular distribution of water inlet d, water inlet e connection.

3. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 2, it is characterised in that：It is described cold But water channel is connected with sewer mouth.

4. a kind of symmetrical push-in type injection molding process structure of dummy slider according to claim 1 to 3, feature It is：Dummy slider push-in component include the pushing mechanism for being connected to mode component, the pushing block for being connected to the pushing mechanism, And the dummy slider mechanism being used cooperatively with the pushing block；

Promotion skewed slot is offered on the pushing block, the dummy slider mechanism includes fixing with the matched dummy slider of the promotion skewed slot Block；Dummy slider is connected to the dummy slider fixed block, and is provided on the dummy slider fixed block and the matched promotion of the promotion skewed slot Slope.

5. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 4, it is characterised in that：It is described to push away Motivation structure includes cylinder fixed block, the driving cylinder for being set to the cylinder fixed block, and the pushing block is connected to the driving Cylinder, and be provided with contraposition column on the pushing block, be provided on the mode component and matched the promotions limit of the pushing block Position block, offers and the matched entrance hole of the contraposition column on the promotion limited block.

6. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 5, it is characterised in that：The mould The push-in guiding mechanism being used cooperatively with pushing block is provided on benevolence component, the dummy slider fixed block includes tilting plate body, opens Promotion guide groove, the push-in guiding mechanism on the tilting plate body include being set to leading on the mode component To plate, the guide plate includes oriented plate and the fixation top plate for being connected to the oriented plate.

7. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 6, it is characterised in that：It is described to push away Buffering slope is offered on action-oriented slot.

8. the symmetrical push-in type injection molding process structure of a kind of dummy slider according to claim 7, it is characterised in that：Promotion is led Guiding buffering slope is offered on slot.