CN211968228U - Thermal expansion low-pressure injection molding system for thin-wall product - Google Patents

Abstract

The utility model belongs to the technical field of the injection molding system, a thin wall product thermal energy low pressure injection molding system is provided, including last mould die cavity and bed die cavity, the product is located between mould die cavity and the bed die cavity, go up and be provided with heating rod and cooling tube between mould die cavity and the bed die cavity, still be provided with the aluminium expansion piece between last mould die cavity and bed die cavity, the heating rod heats the aluminium expansion piece and makes its volume increase, and makes the distance grow between mould die cavity and the mould die cavity, and cooling tube cools off the aluminium expansion piece and makes its volume diminish. The utility model has the advantages that when the product is moulded plastics and is filled, utilize the higher expansibility of aluminium pig, increase the product meat thickness, when moulding plastics and fill and accomplish to change the pressurize, with the aluminium pig cooling, make the product meat thickness get back to normal thickness, reach the purpose that the low pressure was moulded plastics.

Description

Thermal expansion low-pressure injection molding system for thin-wall product

Technical Field

The utility model belongs to the technical field of the injection molding system, concretely relates to thin wall product thermal energy low pressure injection moulding system.

Background

Under the condition that the automobile emission standard is continuously improved, the automobile lightweight design is an important means for achieving emission standard preparation, so that energy is saved, emission is reduced, the automobile cost can be reduced, the driving mileage can be increased for an electric automobile, the phenomenon of a limit injection molding process can occur when the wall meat of a product is reduced to a certain degree by using a traditional product lightweight method, the injection molding difficulty is caused, the injection molding pressure is overhigh, the internal stress of the product is increased, the deformation wing is large, the product is easy to generate flash, the ultrahigh pressure not only damages the product, but also is unfavorable for a mold, the fatigue strength of steel can be reduced at a normal high pressure in places with weak strength of the mold, the crack damage occurs, and the low-pressure injection molding method in the prior art is complex in structure and not favorable for volume production and later maintenance. The existing low-pressure injection molding modes comprise two modes, one mode is an injection molding machine which adopts latest products and has a low-pressure mold closing function, the other mode is that a secondary ejection mechanism is added in a mold part, the ejection mechanism is in an ejection state (cavity thickening) before mold closing and filling are carried out, after the injection molding and filling are finished, the ejection mechanism retreats, and the thickness of the cavity is recovered to the thickness of the product design. In the two modes, the first mode is a novel electric injection molding machine, the price is high, most of the existing injection molding machines are hydraulic injection molding machines for general workshops, and the technologies can be used as injection molding machine function upgrading schemes; the second mode needs to add an ejection mechanism in the mold, the ejection mechanism is a movable part, but in order to prevent flash from running during injection molding, the ejection mechanism does not eject a die-poking angle and is ejected in a straight extending manner, so that the defects of surface damage, ejection blocking and the like caused by easy pulling during batch production are overcome.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem to provide a thin wall product thermal energy low pressure injection moulding system to prior art's current situation, solved the problem that thin wall spare filled the difficulty, through the micro-adjustment to the mould structure, make ordinary injection molding machine can realize the function that the low pressure was moulded plastics.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a thin wall product thermal energy low pressure injection moulding system, its characterized in that, includes mould cavity and bed die cavity, and the product is located between mould cavity and the bed die cavity, last mould cavity and bed die cavity between be provided with heating rod and cooling tube, still be provided with the aluminium expansion piece that can adjust the distance between last mould cavity and the bed die cavity, heating rod heating aluminium expansion piece make its volume increase to make the distance grow between mould cavity and the mould cavity, cooling tube cooling aluminium expansion piece make its volume diminish, and make the distance between last mould cavity and the bed die cavity diminish.

In the above thermal expansion low-pressure injection molding system for thin-wall products, the upper and lower surfaces of the aluminum expansion block are provided with bakelite thermal insulation layers, and the aluminum expansion block is provided with a cooling water channel.

In the above thermal expansion low-pressure injection molding system for the thin-wall product, when the aluminum expansion block is heated, the distance between the upper mold cavity and the lower mold cavity is changed from 0mm to 0.3.

In the above thermal expansion low-pressure injection molding system for the thin-wall product, when the aluminum expansion block is cooled, the distance between the upper mold cavity and the lower mold cavity is changed from 0.3mm to 0 mm.

In the thermal expansion low-pressure injection molding system for the thin-wall product, the aluminum expansion blocks are arranged on the peripheral edges of the upper mold cavity and the lower mold cavity and are symmetrically distributed left and right and up and down.

Compared with the prior art, the utility model has the advantages that when the product is moulded plastics and is filled, utilize the higher expansibility of aluminium pig, increase the product meat thickness, when moulding plastics and fill and accomplish to change the pressurize, with the aluminium pig cooling, make the product meat thickness get back to normal thickness, reach the purpose that the low pressure was moulded plastics.

Drawings

FIG. 1 is a schematic view of a heated thin-walled product thermal expansion low-pressure injection molding system;

FIG. 2 is a schematic illustration of the structure of a thin-walled product after cooling of a thermally expanded low pressure injection molding system;

fig. 3 is a schematic structural diagram of an aluminum expansion block.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

In the figure, an upper mould cavity 1; a lower mold cavity 2; product 3; a heating rod 4; a cooling duct 5; an aluminum expansion block 6; a bakelite thermal insulation layer 7; and a cooling water path 8.

As shown in fig. 1, 2 and 3, the thin-walled product thermal expansion low-pressure injection molding system comprises an upper mold cavity 1 and a lower mold cavity 2, a product 3 is positioned between the upper mold cavity 1 and the lower mold cavity 2, a heating rod 4 and a cooling pipeline 5 are arranged between the upper mold cavity 1 and the lower mold cavity 2, an aluminum expansion block 6 capable of adjusting the distance between the upper mold cavity 1 and the lower mold cavity 2 is further arranged between the upper mold cavity 1 and the lower mold cavity 2, wherein the aluminum expansion block 6 is arranged at the peripheral edges of the upper mold cavity 1 and the lower mold cavity 2 and symmetrically distributed in the left-right and up-down directions, meanwhile, bakelite heat insulation layers 7 are arranged on the upper surface and the lower surface of the aluminum expansion block 6, a cooling water channel 8 is arranged on the aluminum expansion block 6 and is transmitted to the bakelite heat insulation layers 7 through the heating rod 4 to heat the aluminum expansion block 6, and is communicated with the cooling water channel 8 through, the biggest innovation of the method is that the distance between the upper die cavity 1 and the lower die cavity 2 is adjusted due to the high expansion performance of the aluminum block.

Specifically, before the mold is closed, the mold state is as follows:

when the injection molding is started, the aluminum expansion block 6 placed on the parting surface is heated by the heating rod, the heating rod 4 heats the aluminum expansion block 6 to increase the volume of the aluminum expansion block 6 and increase the distance between the mold cavity and the mold cavity, when the aluminum expansion block 6 is heated, the distance between the upper mold cavity 1 and the lower mold cavity 2 is changed from 0mm to 0.3, which is similar to the increase of the thickness of a product 3 to facilitate filling, after the filling, the temperature control system controls the cooling pipeline 5 to cool the aluminum expansion block 6 to reduce the volume of the aluminum expansion block and reduce the distance between the upper mold cavity 1 and the lower mold cavity 2, when the aluminum expansion block 6 is cooled, the distance between the upper mold cavity 1 and the lower mold cavity 2 is changed from 0.3mm to 0mm, the thickness of the mold cavity is recovered to the designed thickness of the product 3, the problem of difficult filling of thin-wall parts is solved, and the function of low-pressure injection molding can be realized by the common injection molding machine through the micro adjustment, the weight of the product is reduced, the light physics and chemistry of parts are realized, and the competitiveness of a company is improved.

The embodiments described herein are merely exemplary and various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope and spirit of the invention as defined by the claims.

Claims (5)

1. The utility model provides a thin wall product thermal energy low pressure injection moulding system, its characterized in that, includes mould cavity and bed die cavity, and the product is located between mould cavity and the bed die cavity, last mould cavity and bed die cavity between be provided with heating rod and cooling tube, still be provided with the aluminium expansion piece that can adjust the distance between last mould cavity and the bed die cavity, heating rod heating aluminium expansion piece make its volume increase to make the distance grow between mould cavity and the mould cavity, cooling tube cooling aluminium expansion piece make its volume diminish, and make the distance between last mould cavity and the bed die cavity diminish.

2. The system of claim 1, wherein the aluminum expansion block has bakelite thermal insulation on its upper and lower surfaces and cooling water channels on the aluminum expansion block.

3. The system of claim 2, wherein the distance between the upper mold cavity and the lower mold cavity is changed from 0mm to 0.3 when the aluminum expansion block is heated.

4. The system of claim 2, wherein the distance between the upper mold cavity and the lower mold cavity is changed from 0.3mm to 0mm when the aluminum expansion block is cooled.

5. The system of claim 2, wherein the aluminum expansion blocks are arranged at the peripheral edges of the upper mold cavity and the lower mold cavity and are symmetrically distributed left and right and up and down.

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