CN218366184U - High-efficient cooling body is used to mould - Google Patents

Abstract

The utility model discloses a mould is with high-efficient cooling body, including main part rack structure, go up film cooling structure and lower membranous structure, main part rack structure's inside upper end is provided with film cooling structure, and goes up film cooling structure's lower extreme outer wall a week and be provided with extension heat radiation structure, extension heat radiation structure's below is provided with lower membranous structure, extension heat radiation structure includes that middle-end moulding piece, first movable block, second movable block and third movable block, and the inside one side of middle-end moulding piece is provided with first movable block. This high-efficient cooling body is used to mould plastics to cold liquid import water conservancy diversion coolant, and the built-in pipeline that the cooperation was buckled adsorbs the last mould piece heat and shifts and export from hydrothermal solution export, carries out quick cooling work, can stretch out and draw back through numerical control injection molding machine with control regulation push rod certainly and promote work, expandes the area of first movable block, second movable block and third movable block in back, improvement and the air between the contact.

Description

High-efficient cooling body is used to mould

Technical Field

The utility model relates to the technical field of mold, specifically be a high-efficient cooling body is used to mould.

Background

The mold is used for obtaining various molds and tools of required products by injection molding, blow molding, extrusion, die casting or forging molding, smelting, stamping and other methods in industrial production.

The high-efficiency cooling mechanism for the mold in the market does not have an extension structure, generally accelerates air flow through a fan to perform auxiliary heat dissipation, or performs heat dissipation through water cooling, has poor water cooling effect on the large and single large-size coarse blank injection mold, and has slow heat dissipation effect through the auxiliary fan, so that the high-efficiency cooling mechanism for the mold is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mould is with high-efficient cooling body to put forward mould on the market among the above-mentioned background art and do not have extending structure with high-efficient cooling body, and usually flow through the fan with higher speed the air and assist the heat dissipation, or carry out the work of dispelling the heat through the water-cooling, just not good to the water-cooling radiating effect of its great single of large-scale coarse embryo injection mold volume, assist the fan to dispel the heat its effect also comparatively slow problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mould is with high-efficient cooling body, includes main part ore deposit frame structure, goes up film cooling structure and lower membranous structure, main part ore deposit frame structure's inside upper end is provided with film cooling structure, and goes up film cooling structure's lower extreme outer wall a week and be provided with extension heat radiation structure, extension heat radiation structure's below is provided with lower membranous structure, extension heat radiation structure includes middle-end plastic block, first movable block, second movable block and third movable block, and just the inside one side of middle-end plastic block is provided with first movable block, the inside of first movable block is provided with the second movable block, and the inside of second movable block is provided with the third movable block.

Furthermore, the first movable block and the third movable block form an extension structure, and the first movable block, the second movable block and the third movable block are in a honeycomb hollow shape.

Further, main part ore deposit frame structure is including connecting the support body, adjusting push rod and the push rod of moulding plastics, and the outer wall both sides through connection of connecting the support body have adjusting push rod, the upper and lower outer wall both sides through connection of connecting the support body have the push rod of moulding plastics.

Furthermore, the adjusting push rod is fixedly connected with the extended heat dissipation structure, and the extended heat dissipation structure forms a transmission structure with the connecting frame body through the adjusting push rod.

Furthermore, the upper film cooling structure comprises an upper die block, a cold liquid inlet, a built-in pipeline, a hot liquid outlet and a limiting groove, one side of the outer wall of the upper die block is connected with the cold liquid inlet, the built-in pipeline is arranged inside the upper die block, one end of the outer wall of the built-in pipeline is connected with the hot liquid outlet, and the limiting groove is formed in the periphery of the outer wall of the upper die block.

Furthermore, the built-in pipeline is communicated with the cold liquid inlet and the hot liquid outlet, and the built-in pipeline is matched with the upper die block.

Furthermore, lower membrane structure includes module and injection molding hole down, and the middle-end inner wall of module has run through and has seted up the injection molding hole down.

Compared with the prior art, the beneficial effects of the utility model are that: this high-efficient cooling body is used to mould plastics to cold liquid import water conservancy diversion coolant, and the built-in pipeline that the cooperation was buckled adsorbs the transfer with last mould piece heat and exports from hydrothermal solution export, carries out quick cooling work, can stretch out and draw back promotion work with control regulation push rod certainly through the numerical control injection molding machine, and the first movable block of expansion back, second movable block and third movable block improve and the air between the area of contact.

The adjusting push rod is fixedly connected with the extended radiating structure, one end of the adjusting push rod is fixed to the outer wall of the third movable block, and the adjusting push rod can be controlled to stretch and retract to push through the numerical control injection molding machine, so that the switching between heat preservation and heat radiation of mold preheating can be realized.

Built-in pipeline is linked together between being linked together with cold liquid import, the hydrothermal fluid export, can be connected water cycle temperature regulating device through connecting tube and cold liquid import, hydrothermal fluid export, can be behind the cold liquid import water conservancy diversion coolant medium of moulding plastics, and the built-in pipeline of cooperation buckling will go up mould block heat and adsorb the transfer and export from the hydrothermal fluid export, carries out circulation heat dissipation after cooling through water cycle temperature regulating device, can assist the cooperation to carry out quick cooling work for the shaping effect.

First movable block passes through the second movable block and constitutes the extension structure with the third movable block, first movable block, the second movable block is inside honeycomb and intercommunication each other with the third movable block, the cooperation is adjusted the push rod and can be unfolded honeycomb first movable block, second movable block and third movable block in proper order, make its and external area of contact increase, improve and the air between the area of contact, the speed that the cooperation auxiliary fan adds fast hot air and flows, thereby improve large-scale coarse blank injection mold radiating efficiency.

Drawings

FIG. 1 is a schematic view of the internal top view structure of the present invention;

FIG. 2 is a schematic view of the interior of the upper film cooling structure according to the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the extended heat dissipation structure of the present invention.

In the figure: 1. a main rack structure; 101. connecting the frame body; 102. adjusting the push rod; 103. injection molding a push rod; 2. a film-coating cooling structure; 201. an upper die block; 202. a cold liquid inlet; 203. a pipeline is arranged inside; 204. a hot liquid outlet; 205. a limiting groove; 3. an extended heat dissipation structure; 301. a middle-end plastic block; 302. a first movable block; 303. a second movable block; 304. a third movable block; 4. a lower membrane structure; 401. a lower module; 402. and (5) injection molding holes.

Detailed Description

As shown in fig. 1, a high-efficiency cooling mechanism for a mold includes: main part ore deposit frame structure 1, main part ore deposit frame structure 1's inside upper end is provided with film cooling structure 2, and lower extreme outer wall a week of going up film cooling structure 2 is provided with extension heat radiation structure 3, extension heat radiation structure 3's below is provided with down film structure 4, main part ore deposit frame structure 1 is including connecting support body 101, adjust push rod 102 and the push rod 103 of moulding plastics, and the outer wall both sides through connection of connecting support body 101 have adjust push rod 102, the upper and lower outer wall both sides through connection of connecting support body 101 have the push rod 103 of moulding plastics, be fixed connection between adjust push rod 102 and the extension heat radiation structure 3, and extension heat radiation structure 3 constitutes transmission structure through adjust push rod 102 and connecting support body 101, adjust push rod 102 one end and third movable block 304 outer wall and fix, can adjust push rod 102 with self-operated control through the numerical control injection molding machine and stretch out and draw back the push work, thereby can realize the heat preservation that the mould preheated, switching between the heat dissipation, film structure 4 includes lower module 401 and injection molding hole 402 down, and the middle-end inner wall of lower module 401 runs through and has seted up injection molding hole 402.

As shown in fig. 2, an efficient cooling mechanism for a mold, the upper film cooling structure 2 includes an upper mold block 201, a cold liquid inlet 202, a built-in pipe 203, a hot liquid outlet 204, and a limiting groove 205, one side of an outer wall of the upper mold block 201 is connected with the cold liquid inlet 202, the built-in pipe 203 is disposed inside the upper mold block 201, one end of the outer wall of the built-in pipe 203 is connected with the hot liquid outlet 204, the limiting groove 205 is disposed around the outer wall of the upper mold block 201, the built-in pipe 203 is communicated with the cold liquid inlet 202 and the hot liquid outlet 204, and the built-in pipe 203 and the upper mold block 201 are matched with each other, so that a water circulation temperature control device can be connected with the cold liquid inlet 202 and the hot liquid outlet 204 through a connecting pipe, a cooling medium can be guided to the cold liquid inlet 202 after injection molding, the heat of the upper mold block 201 is absorbed and transferred through the bent built-in pipe 203, and then is output from the hot liquid outlet 204, and the water circulation heat dissipation is performed after cooling through the water circulation temperature control device, which can assist in matching to perform rapid cooling work, thereby accelerating the molding effect.

As shown in fig. 3, an efficient cooling mechanism for a mold, wherein an extended heat dissipation structure 3 includes a middle-end plastic block 301, a first movable block 302, a second movable block 303 and a third movable block 304, the first movable block 302 is disposed on one side of the inside of the middle-end plastic block 301, the second movable block 303 is disposed inside the first movable block 302, the third movable block 304 is disposed inside the second movable block 303, the first movable block 302 and the third movable block 304 form an extended structure through the second movable block 303, the first movable block 302, the second movable block 303 and the third movable block 304 are in a honeycomb hollow shape, the first movable block 302, the second movable block 303 and the third movable block 304 are in a honeycomb shape and are communicated with each other, and the honeycomb first movable block 302, the second movable block 303 and the third movable block 304 can be sequentially unfolded by matching with an adjusting push rod 102, so that the contact area between the first movable block 302, the second movable block 303 and the third movable block 304 with the outside is increased, the contact area between the first movable block 302, the auxiliary fan is matched with the heated air, and the rough injection molding efficiency of a large-sized blank is improved.

In summary, the efficient cooling mechanism for the mold includes that the connecting frame body 101 is installed and connected with an injection molding machine, then the water circulation temperature control device is connected with the cold liquid inlet 202 and the hot liquid outlet 204 through connecting pipelines, the upper mold block 201, the lower mold block 401 and the middle-end mold block 301 can be attached by opening the upper and lower injection push rods 103 in a normal injection molding process, then the first movable block 302, the second movable block 303 and the third movable block 304 are contracted by opening the adjusting push rod 102, the water circulation temperature control device is started to preheat the upper mold block 201, then the injection molding machine performs injection molding through the injection molding hole 402, the preheating mode of the water circulation temperature control device is closed, after the injection molding is completed, the water cooling mode of the water circulation temperature control device is started synchronously, cooling media are guided to the cold liquid inlet 202, heat of the upper mold block 201 is absorbed and transferred by matching with the bent built-in pipeline 203, the heat is output from the hot liquid outlet 204, the water circulation temperature control device performs circulation heat dissipation after cooling, the heat dissipation is performed by matching with the first movable block 302, the second movable block 303 and the third movable block 304, the air are in contact with the hot liquid inlet 202, the hot liquid outlet 304, the air cooling structure is increased, and the air cooling area of the mold is increased by matching with the air cooling device, and the air expansion speed of the mold is increased by matching with the cooling structure, and the cooling structure is increased by matching with the air expansion speed of the cooling structure, and the mold.

Claims (7)

1. The utility model provides a mould is with high-efficient cooling body, includes main part ore deposit frame structure (1), goes up film cooling structure (2) and lower film structure (4), its characterized in that: the utility model discloses a heat dissipation structure, including main part rack structure (1), extension heat radiation structure (3), and the inside upper end of going up film cooling structure (1) is provided with film cooling structure (2), and the lower extreme outer wall a week of going up film cooling structure (2) is provided with extension heat radiation structure (3), the below of extension heat radiation structure (3) is provided with down film structure (4), extension heat radiation structure (3) are including well end shaping block (301), first movable block (302), second movable block (303) and third movable block (304), and just the inside one side of well end shaping block (301) is provided with first movable block (302), the inside of first movable block (302) is provided with second movable block (303), and the inside of second movable block (303) is provided with third movable block (304).

2. The efficient cooling mechanism for the mold according to claim 1, wherein: the first movable block (302) forms an extension structure through the second movable block (303) and the third movable block (304), and the first movable block (302), the second movable block (303) and the third movable block (304) are in a honeycomb hollow shape.

3. The efficient cooling mechanism for the mold according to claim 1, wherein: the main body mine frame structure (1) comprises a connecting frame body (101), an adjusting push rod (102) and an injection molding push rod (103), wherein the adjusting push rod (102) is connected to the two sides of the outer wall of the connecting frame body (101) in a penetrating manner, and the injection molding push rod (103) is connected to the two sides of the upper outer wall and the lower outer wall of the connecting frame body (101) in a penetrating manner.

4. A high-efficiency cooling mechanism for a mold as claimed in claim 3, wherein: the adjusting push rod (102) is fixedly connected with the extended heat dissipation structure (3), and the extended heat dissipation structure (3) and the connecting frame body (101) form a transmission structure through the adjusting push rod (102).

5. The efficient cooling mechanism for the mold according to claim 1, wherein: go up film cooling structure (2) including last mould piece (201), cold liquid import (202), built-in pipeline (203), hydrothermal export (204) and spacing groove (205), and the outer wall one side of going up mould piece (201) is connected with cold liquid import (202), built-in pipeline (203) have been seted up to the inside of going up mould piece (201), and the outer wall one end of built-in pipeline (203) is connected with hydrothermal export (204), the outer wall a week of going up mould piece (201) is provided with spacing groove (205).

6. The efficient cooling mechanism for the mold according to claim 5, wherein: the built-in pipeline (203) is communicated with the cold liquid inlet (202) and the hot liquid outlet (204), and the built-in pipeline (203) is matched with the upper die block (201).

7. The efficient cooling mechanism for the mold according to claim 1, wherein: the lower membrane structure (4) comprises a lower module (401) and an injection molding hole (402), and the inner wall of the middle end of the lower module (401) penetrates through the injection molding hole (402).

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