CN207615640U - A kind of high efficiency die-casting mould runner structure - Google Patents

Abstract

The utility model discloses a kind of high efficiency die-casting mould runner structures, including shunt conduit, the shunt conduit top is connected with raw material buffering pipe, and material inlet is installed at the top of raw material buffering pipe right end, the first die casting cave flow path bodies are installed on the left of the shunt conduit front end, and first die casting cave flow path bodies be internally connected with first flow through-hole, the second die casting cave flow path bodies are installed on the right side of the shunt conduit front end, and second die casting cave flow path bodies be internally connected with second flow channel through-hole, third die casting cave flow path bodies are installed on the left of the shunt conduit rear end, and third die casting cave flow path bodies are internally connected with third flow channel through-hole, the 4th die casting cave flow path bodies are installed on the right side of the shunt conduit rear end, and the 4th die casting cave flow path bodies be internally connected with the 4th runner through-hole.The high efficiency die-casting mould runner structure runner is shorter will not to waste a large amount of liquid metals, and can improve the Uniform Flow effect and production efficiency of liquid metal.

Description

A kind of high efficiency die-casting mould runner structure

Technical field

The utility model is related to die-casting mould runner structure technical field, specially a kind of high efficiency die-casting mould runner structure.

Background technology

Die casting is the abbreviation of compression casting.It is under high pressure effect, at a high speed to pass through liquid or semi-liquid metal Runner fills die casting cavity, and quickly solidifies and obtain a kind of method of casting under stress, and the die casting used claims For compression mod, runner refers to the access that fluid flows in element in hydraulic system, and common flow passage system is also referred to as running channel system System or running gate system, are necessary channel of the molten plastic from ejaculator nozzle to die cavity.

There are the long wastes for easily causing liquid metal of runner for common die-casting mould runner structure, and liquid metal is uniform Flow effect is poor, the relatively low situation of production efficiency.

Utility model content

The purpose of this utility model is to provide a kind of high efficiency die-casting mould runner structures, to solve in above-mentioned background technology The common die-casting mould runner structure proposed is there are the long waste for easily causing liquid metal of runner, and the uniform flow of liquid metal Dynamic effect is poor, the relatively low problem of production efficiency.

To achieve the above object, the utility model provides the following technical solutions：A kind of high efficiency die-casting mould runner structure, packet Shunt conduit is included, the shunt conduit top is connected with raw material buffering pipe, and is equipped with original at the top of raw material buffering pipe right end Expect import, the first die casting cave flow path bodies is installed on the left of the shunt conduit front end, and inside the first die casting cave flow path bodies It is connected with first flow through-hole, the second die casting cave flow path bodies, and the second die casting cave are installed on the right side of the shunt conduit front end Flow path bodies are internally connected with second flow channel through-hole, and third die casting cave flow path bodies are equipped on the left of the shunt conduit rear end, And third die casting cave flow path bodies are internally connected with third flow channel through-hole, and the 4th die casting is equipped on the right side of the shunt conduit rear end Cave flow path bodies, and the 4th die casting cave flow path bodies are internally connected with the 4th runner through-hole.

Preferably, the axis of the shunt conduit and first flow through-hole, second flow channel through-hole, third flow channel through-hole and the The intersection point of four runner through-holes overlaps, and shunt conduit internal diameter is equal to raw material buffering pipe internal diameter.

Preferably, first die casting cave flow path bodies, the second die casting cave flow path bodies, third die casting cave flow path bodies and 4th die casting cave flow path bodies constitute X-shaped structure, and the first die casting cave flow path bodies, the second die casting cave flow path bodies, third pressure It casts cave flow path bodies and the 4th die casting cave flow path bodies outermost end line constitutes rectangular configuration.

Preferably, the first flow through-hole, second flow channel through-hole, third flow channel through-hole and the 4th runner through-hole top are equal It is overlapped with shunt conduit bottom end, and first flow through-hole, second flow channel through-hole, third flow channel through-hole and the 4th runner through-hole are with close Shunt conduit end to the first die casting cave flow path bodies, the second die casting cave flow path bodies, third die casting cave flow path bodies or the 4th pressure The area of section of casting cave flow path bodies outer end is gradually reduced.

Preferably, the raw material buffering pipe is lateral zigzag configuration, and raw material buffering pipe and the first die casting cave runner master Body, the second die casting cave flow path bodies, third die casting cave flow path bodies and the 4th die casting cave flow path bodies are parallel.

Compared with prior art, the utility model has the beneficial effects that：The high efficiency die-casting mould runner structure runner is shorter A large amount of liquid metals will not be wasted, and the Uniform Flow effect and production efficiency of liquid metal can be improved.The die casting of this high efficiency The axis of the shunt conduit of mould flow passage structure and first flow through-hole, second flow channel through-hole, third flow channel through-hole and the 4th runner The intersection point of through-hole overlaps so that shunt conduit is in first flow through-hole, second flow channel through-hole, third flow channel through-hole and the 4th stream The position of road through-hole intersection point, enables the liquid metal in shunt conduit that can be evenly dispersed to first flow through-hole, second flow channel In through-hole, third flow channel through-hole and the 4th runner through-hole, ensure that first flow through-hole, second flow channel through-hole, third flow channel are logical The performances such as hole and liquid metal volume, flow velocity in the 4th runner through-hole are equal, improve the die casting effect of this structure, this high efficiency The first die casting cave flow path bodies, the second die casting cave flow path bodies, the third die casting cave flow path bodies and of die-casting mould runner structure Four die casting cave flow path bodies constitute X-shaped structure, and the first die casting cave flow path bodies, the second die casting cave flow path bodies, third die casting Cave flow path bodies and the 4th die casting cave flow path bodies outermost end line constitute rectangular configuration so that the first die casting cave flow path bodies, Second die casting cave flow path bodies, third die casting cave flow path bodies and the distance between the 4th die casting cave flow path bodies and crosspoint are equal It is equal, enable the first die casting cave flow path bodies, the second die casting cave flow path bodies, third die casting cave flow path bodies and the 4th die casting cave stream Road main body is on the direct line between crosspoint and each mold well number, to shorten the length of runner, is avoided Waste a large amount of liquid metals.

Description of the drawings

Fig. 1 is the utility model main structure diagram；

Fig. 2 is the utility model left view structural representation.

In figure：1, shunt conduit, the 2, first die casting cave flow path bodies, 3, first flow through-hole, 4, second flow channel through-hole, 5, Second die casting cave flow path bodies, 6, raw material buffering pipe, 7, material inlet, 8, third die casting cave flow path bodies, 9, third flow channel Through-hole, the 10, the 4th runner through-hole, the 11, the 4th die casting cave flow path bodies.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

- 2 are please referred to Fig.1, the utility model provides a kind of technical solution：A kind of high efficiency die-casting mould runner structure, including Shunt conduit 1,1 top of shunt conduit is connected with raw material buffering pipe 6, and is equipped with raw material at the top of 6 right end of raw material buffering pipe Import 7, the axis and first flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and the 4th runner of shunt conduit 1 are logical The intersection point in hole 10 overlaps, and 1 internal diameter of shunt conduit is equal to 6 internal diameter of raw material buffering pipe, this structure makes shunt conduit 1 be in the The position of one runner through-hole 3,10 intersection point of second flow channel through-hole 4, third flow channel through-hole 9 and the 4th runner through-hole, enables shunt conduit 1 Interior liquid metal can be evenly dispersed to first flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and the 4th and flow In road through-hole 10, ensure in first flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and the 4th runner through-hole 10 Liquid metal volume, the performances such as flow velocity it is equal, improve the die casting effect of this structure, and the raw material of raw material buffering pipe 6 can It falls among shunt conduit 1 simultaneously, the raw material in raw material buffering pipe 6 will not be caused to overstock and cannot be introduced among shunt conduit 1 The case where increasing velocity of liquid assets, raw material buffering pipe 6 are lateral zigzag configuration, and raw material buffering pipe 6 and the first die casting cave runner Main body 2, the second die casting cave flow path bodies 5, third die casting cave flow path bodies 8 are parallel with the 4th die casting cave flow path bodies 11, this Structure so that quickly flowing liquid metal can slowly slow down in raw material buffering pipe 6, and will not tilt and cause to accelerate to flow The case where, 1 front end of shunt conduit left side is equipped with the first die casting cave flow path bodies 2, and connects inside the first die casting cave flow path bodies 2 It is connected to first flow through-hole 3, the first die casting cave flow path bodies 2, the second die casting cave flow path bodies 5, third die casting cave flow path bodies 8 With the 4th die casting cave flow path bodies 11 constitute X-shaped structure, and the first die casting cave flow path bodies 2, the second die casting cave flow path bodies 5, Third die casting cave flow path bodies 8 and 11 outermost end line of the 4th die casting cave flow path bodies constitute rectangular configuration, this structure makes the One die casting cave flow path bodies 2, the second die casting cave flow path bodies 5, third die casting cave flow path bodies 8 and the 4th die casting cave flow path bodies The distance between 11 and crosspoint are equal, and enable the first die casting cave flow path bodies 2, the second die casting cave flow path bodies 5, third die casting Cave flow path bodies 8 and the 4th die casting cave flow path bodies 11 be in the direct line between crosspoint and each mold well number it On, to shorten the length of runner, avoid wasting a large amount of liquid metals, and the first die casting cave flow path bodies 2, the second die casting cave Flow path bodies 5, third die casting cave flow path bodies 8 and the 4th die casting cave flow path bodies 11 constitute rectangular configuration and meet four cave of a mould The relationship of the rectangular state distribution in four acupuncture points of die casting, first flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and 10 top of the 4th runner through-hole overlapped with 1 bottom end of shunt conduit, and first flow through-hole 3, second flow channel through-hole 4, third Runner through-hole 9 and the 4th runner through-hole 10 are with 1 end of nearly shunt conduit to the first die casting cave flow path bodies 2, the second die casting cave runner The area of section of 11 outer end of main body 5, third die casting cave flow path bodies 8 or the 4th die casting cave flow path bodies is gradually reduced, this structure The liquid metal in shunt conduit 1 is enable to flow into first flow through-hole 3, second flow channel through-hole 4,9 and of third flow channel through-hole Among 4th runner through-hole 10, and first flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and the 4th runner through-hole Liquid metal among 10 can gradually increase supercharging in flow process, ensure the Uniform Flow effect of liquid metal, improve Production efficiency, 1 front end of shunt conduit right side are equipped with the second die casting cave flow path bodies 5, and inside the second die casting cave flow path bodies 5 It is connected with second flow channel through-hole 4, third die casting cave flow path bodies 8 are installed, and third die casting cave is flowed on the left of 1 rear end of shunt conduit Road main body 8 is internally connected with third flow channel through-hole 9, and the 4th die casting cave flow path bodies 11 are equipped on the right side of 1 rear end of shunt conduit, and 4th die casting cave flow path bodies 11 are internally connected with the 4th runner through-hole 10.

Operation principle：When using the high efficiency die-casting mould runner structure, first checking the present apparatus, whether there is or not damaged, crackings, dirty Situations such as dirty, begins to use if all are intact, and the liquid metal for needing progress die casting or semi-liquid metal are first poured into raw material Among import 7, the liquid metal or semi-liquid metal that are entered in raw material buffering pipe 6 by material inlet 7 are buffered along raw material The path of pipeline 6 is flowed, and liquid metal or semi-liquid metal inside raw material buffering pipe 6, which can slowly slow down, to be flowed into point Among flow tube road 1, the first die casting cave flow path bodies 2, the second die casting cave runner master then can be uniformly flow to by shunt conduit 1 First flow through-hole 3, second flow channel through-hole inside body 5, third die casting cave flow path bodies 8 and the 4th die casting cave flow path bodies 11 4, inside third flow channel through-hole 9 and the 4th runner through-hole 10, what liquid metal or semi-liquid metal were gradually reduced from area of section First flow through-hole 3, second flow channel through-hole 4, third flow channel through-hole 9 and 1 end of the 4th 10 nearly shunt conduit of runner through-hole gradually increase Pressure flow to first flow through-hole 3,1 end of second flow channel through-hole 4, third flow channel through-hole 9 and the 4th 10 remote shunt conduit of runner through-hole Enter in the pouring hole of compression mod afterwards, to complete a series of activities.

Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art is come Say, still can with technical scheme described in the above embodiments is modified, or to which part technical characteristic into Row equivalent replacement, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on should all It is included within the scope of protection of this utility model.

Claims (5)

1. a kind of high efficiency die-casting mould runner structure, including shunt conduit（1）, it is characterised in that：The shunt conduit（1）Top It is connected with raw material buffering pipe（6）, and raw material buffering pipe（6）Material inlet is installed at the top of right end（7）, the shunt conduit （1）The first die casting cave flow path bodies are installed on the left of front end（2）, and the first die casting cave flow path bodies（2）It is internally connected with first Runner through-hole（3）, the shunt conduit（1）The second die casting cave flow path bodies are installed on the right side of front end（5）, and the second die casting cave is flowed Road main body（5）It is internally connected with second flow channel through-hole（4）, the shunt conduit（1）Third die casting cave stream is installed on the left of rear end Road main body（8）, and third die casting cave flow path bodies（8）It is internally connected with third flow channel through-hole（9）, the shunt conduit（1）Afterwards End right side is equipped with the 4th die casting cave flow path bodies（11）, and the 4th die casting cave flow path bodies（11）It is internally connected with the 4th runner Through-hole（10）.

2. a kind of high efficiency die-casting mould runner structure according to claim 1, it is characterised in that：The shunt conduit（1） Axis and first flow through-hole（3）, second flow channel through-hole（4）, third flow channel through-hole（9）With the 4th runner through-hole（10）Friendship Point overlaps, and shunt conduit（1）Internal diameter is equal to raw material buffering pipe（6）Internal diameter.

3. a kind of high efficiency die-casting mould runner structure according to claim 1, it is characterised in that：It flows in first die casting cave Road main body（2）, the second die casting cave flow path bodies（5）, third die casting cave flow path bodies（8）With the 4th die casting cave flow path bodies（11） Constitute X-shaped structure, and the first die casting cave flow path bodies（2）, the second die casting cave flow path bodies（5）, third die casting cave flow path bodies （8）With the 4th die casting cave flow path bodies（11）Outermost end line constitutes rectangular configuration.

4. a kind of high efficiency die-casting mould runner structure according to claim 1, it is characterised in that：The first flow through-hole （3）, second flow channel through-hole（4）, third flow channel through-hole（9）With the 4th runner through-hole（10）Top is and shunt conduit（1）Bottom end It overlaps, and first flow through-hole（3）, second flow channel through-hole（4）, third flow channel through-hole（9）With the 4th runner through-hole（10）With close Shunt conduit（1）It holds to the first die casting cave flow path bodies（2）, the second die casting cave flow path bodies（5）, third die casting cave flow path bodies （8）Or the 4th die casting cave flow path bodies（11）The area of section of outer end is gradually reduced.

5. a kind of high efficiency die-casting mould runner structure according to claim 1, it is characterised in that：The raw material buffering pipe （6）For lateral zigzag configuration, and raw material buffering pipe（6）With the first die casting cave flow path bodies（2）, the second die casting cave flow path bodies （5）, third die casting cave flow path bodies（8）With the 4th die casting cave flow path bodies（11）It is parallel.