CN205044077U - Mechanism is flowed backward in energy -conservation - Google Patents

Abstract

The utility model discloses mechanism is flowed backward in energy -conservation, with runner system and ejecting system design in the middle of a subassembly, runner system design is inside ejecting system. With runner system design at the mould benevolence back, the runner plate pierces through ejecting system and mould benevolence laminating shaping runner to runner length has been shortened under the prerequisite that does not influence ejection mechanism. Make integrative back advantage with runner system and ejection mechanism and lie in, subtract short runner length, reduce the production of waste material, subtract and lacked molding cycle to save manufacturing cost, improved production efficiency, reached energy -concerving and environment -protective purpose.

Description

Energy-conservationly pour in down a chimney mechanism

Technical field

The utility model relates to plastic mould field, particularly relates to a kind of energy-conservationly pouring in down a chimney mechanism.

Background technology

In order to improve the aesthetic measure of product appearance, client is generally unwilling to enter the design of glue point on Surface Appearance.To this tighter requirement, we can select banana Jiao Kou when designing mould.But this Jiao Kou has individual limitation, the position of product limit and Jiao Kou can not be too far away, and this limitation can not meet product complicated and changeable.When the shape matching of product is large, uses banana Jiao Kou to be arranged in outside product, in the middle of product, there will be short penetrating.When there is slide block at the less and four sides of product, customer requirement product appearance is without entering glue point.These two cases all cannot be existing with the cause for gossip of banana glue, and what now we can select complicated structure pours in down a chimney three template dies, multiple somes Jiao Kou can be designed inside product.This mould structure is more complicated, and Mould Machining cost is higher; Runner is longer, and cooling cycle that need be longer time shaping, production efficiency is low.

Utility model content

The technical problem that the utility model mainly solves is to provide a kind of energy-conservationly pours in down a chimney mechanism, reduces the volume of mould, has shortened the length of runner, thus reduced die cost, molding time, decreased the generation of waste material, and then improve production efficiency.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: provide a kind of and energy-conservationly pour in down a chimney mechanism, comprising: runner plate, liftout plate, mother module core, stayed mast, runner, thimble, thimble cover plate and main filling mouth;

Described runner plate, liftout plate, mother module core connect from top to bottom successively; The upper end of described stayed mast is connected with liftout plate through mother module core; Described runner is arranged on the described mother module core back side, described runner plate comprises the bottom of matching with described runner, and the bottom of described runner plate is arranged among described liftout plate, described main filling mouth is arranged among the top of described runner plate, and described main filling mouth and described flow passage, described thimble is fixed among described liftout plate by described cover plate.

In the utility model preferred embodiment, shutter is equipped with in the upper end of described stayed mast, and described liftout plate offers shutter hole, and described shutter is arranged in described shutter hole.

In the utility model preferred embodiment, described runner comprises the flow channel and flow pass that are interconnected, and described flow channel is communicated with described main filling mouth.

In the utility model preferred embodiment, described runner comprises multiple flow pass, is connected between described flow channel and flow pass by interconnection.

In the utility model preferred embodiment, described liftout plate is connected by guide pillar guide pin bushing with mother module core.

The beneficial effects of the utility model are: the utility model is energy-conservation pours in down a chimney mechanism, flow passage system and ejection system are designed in the middle of an assembly, and flow passage system design is inner at ejection system.By flow passage system design at the die back side, runner plate penetrates ejection system and die assembly runner, thus shortens flow channel length under the prerequisite not affecting ejecting mechanism.Flow passage system and ejecting mechanism are made of one rear advantage be, shorten flow channel length, reduce the generation of waste material, shortened molding cycle, thus saved production cost, improve production efficiency, reached the object of energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is the energy-conservation structural representation pouring in down a chimney mechanism one preferred embodiment of the utility model;

Fig. 2 is shown energy-conservation perspective view of pouring in down a chimney the section components of mechanism;

Fig. 3 is the decomposition texture schematic diagram of Fig. 2;

In accompanying drawing, the mark of each parts is as follows: 1-runner plate, 2-liftout plate, 3-mother module core, 4-stayed mast, 5-runner, 6-thimble, 7-thimble cover plate, 8-guide pillar guide pin bushing, 9-and main filling mouth. detailed description of the invention

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, to make advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection domain of the present utility model.

Refer to Fig. 1 to Fig. 3, the utility model embodiment comprises:

One is energy-conservation pours in down a chimney mechanism, comprising: runner plate 1, liftout plate 2, mother module core 3, stayed mast 4, runner 5, thimble 6, thimble cover plate 7, guide pillar guide pin bushing 8 and main filling mouth 9.

Described runner plate 1, liftout plate 2, mother module core 3 connect from top to bottom successively.The upper end of described stayed mast 4 is connected with liftout plate 2 through mother module core 3, and in the present embodiment, shutter is equipped with in the upper end of described stayed mast 4, and described liftout plate 2 offers shutter hole, and described shutter is arranged in described shutter hole.Pull stayed mast 4 during mould die sinking, pull liftout plate 2 by the frictional force of shutter.

Described runner 5 is arranged on mother module core 3 back side, described runner plate 1 comprises the bottom of matching with described runner 5, and the bottom of described runner plate 1 is arranged among described liftout plate 2, main filling mouth 9 is arranged among the top of runner plate 1, and described main filling mouth 9 is communicated with described runner 5, one end of thimble 6 is fixed among liftout plate 2 by cover plate 7, and the other end is arranged in described mother module core 3.Runner 5 described in the present embodiment comprises a flow channel, multiple flow pass and multiple interconnection, and described flow channel is communicated with described main filling mouth; Connected by interconnection between described flow channel and flow pass.Described interconnection and flow pass are positioned among the back side of mother module core.

Described liftout plate 2 is connected by guide pillar guide pin bushing 8 with mother module core 3, can slide safely and effectively.In the present embodiment, there are two cover guide pillar guide sleeve structures.During second time die sinking, runner plate 1 pulls out runner 5 from liftout plate 2.

The utility model is energy-saving pours in down a chimney mechanism, efficiently solves tradition and pours in down a chimney the many defects of the long waste material of mould runner.The structure that tradition pours in down a chimney mould is that glue-feeding system and ejection system are in the same side, and being ejection system above product, is glue-feeding system above ejection system, glue-feeding system and product, apart from longer, cause runner very long, and when mould is produced, waste material is more, production cost is high, and the wasting of resources is large.Glue-feeding system and ejection system combine together by the energy-conservation mechanism of pouring in down a chimney of the utility model, and glue-feeding system and product distance closely, do not affect by ejection system.This mechanism greatly reduces runner weight, and the few environmental protection and energy saving of waste material, have saved production cost.Particularly when running into the higher product of appearance requirement, entering glue point and can only design inside product, causing glue-feeding system and ejection system to be in the same side like this, using this mechanism to save raw material, effectively raise the competitiveness of industry.

The utility model is energy-conservation, and to pour in down a chimney mechanical stability very high, thus avoid maintenance cost, reaches safety and become to produce, the object of High-efficient Production.This mechanism researches and develops and successfully serves obviously effect to the technological innovation ability promoting our company.The accessory that this mechanism forms standardization, thus decrease design time, standardized production reduces the production cost of part.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (5)

1. energy-conservationly pour in down a chimney a mechanism, it is characterized in that, comprising: runner plate, liftout plate, mother module core, stayed mast, runner, thimble, thimble cover plate and main filling mouth;

Described runner plate, liftout plate, mother module core connect from top to bottom successively; The upper end of described stayed mast is connected with described liftout plate through described mother module core; Described runner is arranged on the described mother module core back side, described runner plate comprises the bottom of matching with described runner, and the bottom of described runner plate is arranged among described liftout plate, described main filling mouth is arranged among the top of runner plate, and described main filling mouth and described flow passage, described thimble is fixed among described liftout plate by described cover plate.

2. according to claim 1ly energy-conservationly pour in down a chimney mechanism, it is characterized in that, shutter is equipped with in the upper end of described stayed mast, and described liftout plate offers shutter hole, and described shutter is arranged in described shutter hole.

3. according to claim 1ly energy-conservationly pour in down a chimney mechanism, it is characterized in that, described runner comprises the flow channel and flow pass that are interconnected, and described flow channel is communicated with described main filling mouth.

4. according to claim 3ly energy-conservationly pour in down a chimney mechanism, it is characterized in that, described runner comprises multiple flow pass, is connected between described flow channel and flow pass by interconnection.

5. according to claim 1ly energy-conservationly pour in down a chimney mechanism, it is characterized in that, described liftout plate is connected by guide pillar guide pin bushing with mother module core.