CN210453423U - Temperature-saving cover die - Google Patents

Abstract

The utility model provides a temperature-saving cover mould, in particular to the production field of automobile accessories, which comprises an upper mould and a lower mould, wherein two molding cavities are symmetrically arranged on the side surface of the upper mould, a communicating groove is arranged between the molding cavities, and the molding cavities are communicated through the communicating groove; a pouring groove is also formed in the side face of the upper die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the upper die; two molding cavities are also symmetrically arranged on the side surface of the lower die, a communicating groove is arranged between the molding cavities, and the molding cavities are communicated through the communicating groove; a pouring groove is also formed in the side face of the lower die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the lower die; the upper die is arranged above the lower die to form a complete die. The utility model discloses can improve the fashioned efficiency of mould.

Description

Temperature-saving cover die

Technical Field

The utility model belongs to auto-parts production field, concretely relates to temperature-saving cover mould.

Background

The thermostat automatically regulates the water amount entering the radiator according to the temperature of cooling water, changes the circulation range of water to regulate the heat dissipating capacity of the cooling system and ensure that the engine works in a proper temperature range. The thermostat must maintain a good technical state, otherwise the normal operation of the engine is seriously influenced; the thermostat cover is an external shell protection device of the thermostat, the existing thermostat cover is generally formed by pouring through a mold, but the existing mold pouring forming efficiency needs to be improved;

in view of the above disadvantages, a mold for a temperature-saving cover is needed, which can improve the molding efficiency of the mold.

SUMMERY OF THE UTILITY MODEL

Not enough to the aforesaid, the utility model provides a festival temperature cover mould can improve the fashioned efficiency of mould.

The utility model provides a following technical scheme:

a temperature-saving cover die comprises an upper die and a lower die, wherein two forming cavities are symmetrically arranged on the side surface of the upper die, a communicating groove is formed between the forming cavities, and the forming cavities are communicated through the communicating groove; a pouring groove is further formed in the side face of the upper die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the upper die;

two molding cavities are also symmetrically arranged on the side surface of the lower die, a communicating groove is arranged between the molding cavities, and the molding cavities are communicated through the communicating groove; a pouring groove is further formed in the side face of the lower die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the lower die;

the upper die is arranged above the lower die to form a complete die;

preferably, a pouring device is arranged on the die, the cross section of the pouring device is in a direct trapezoid shape, and the right-angle side of the direct trapezoid is attached to the side face of the die; and the bottom edge of the direct trapezoid faces upwards;

an irrigation cavity is arranged in the center of the irrigation device, a connecting pipe is arranged at one end of the irrigation cavity, and the other end of the irrigation cavity is communicated with the outside; the connecting pipe can be embedded into the pouring groove.

Preferably, the cross section of the pouring cavity is in an inverted cone shape.

Preferably, the irrigation device comprises a first half and a second half, the first half and the second half being incorporated into the irrigation device; and the contact surfaces of the first half body and the second half body are connected in a concave-convex matching way.

Preferably, the outer side surfaces of the upper die and the lower die are both provided with heat dissipation pipelines; the side surfaces of the upper die and the lower die are provided with semi-arc grooves matched with the heat dissipation pipelines; a fixing plate is arranged on the outer side of the heat dissipation pipeline, and a semi-arc groove matched with the heat dissipation pipeline is also formed in the lower side surface of the fixing plate;

the fixing plate is connected with the side surfaces of the upper die and the lower die through counter bore bolts;

one end of the heat dissipation pipeline penetrates through the fixing plate to be provided with an inlet, and the other end of the heat dissipation pipeline penetrates through the fixing plate to be provided with an outlet;

preferably, the cooling tube is the S type and arranges, just the outside of cooling tube is equipped with the screw thread arch, go up the mould with all be equipped with in the recess of bed die with screw thread arch assorted recess.

Preferably, the outer side surface of the fixing plate is provided with a plurality of heat dissipation grooves which are arranged in parallel.

The utility model has the advantages that:

the utility model is provided with two molding cavities, a plurality of temperature-saving covers can be molded at one time, and the molding efficiency can be improved; and the heat dissipation efficiency of the die can be improved through the heat dissipation pipeline, the forming time of the die can be reduced, and the forming efficiency can be further improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a front view of the present invention;

FIG. 2 is a front view of the upper or lower mold;

FIG. 3 is a cross-sectional view of the irrigation device;

FIG. 4 is a front view of a heat sink circuit;

fig. 5 is an exploded view of a heat dissipation circuit.

Labeled as: 1. an upper die; 2. a lower die; 3. a watering device; 31. a first half body; 32. a second half body; 33. a watering chamber; 34. a connecting pipe; 4. a molding cavity; 5. a communicating groove; 6. pouring a trough; 7. a fixing plate; 8. a radiating pipe; 9. an inlet; 10. and (7) an outlet.

Detailed Description

As shown in fig. 1 to 5, a mold for a temperature-saving cover comprises an upper mold 1 and a lower mold 2, wherein two molding cavities 4 are symmetrically arranged on the side surface of the upper mold 1, a communicating groove 5 is arranged between the molding cavities 4, and the molding cavities 4 are communicated through the communicating groove 5; a pouring groove 6 is also arranged on the side surface of the upper die 1, one end of the pouring groove 6 is communicated with the middle part of the communicating groove 5, and the other end of the pouring groove 6 extends to the edge of the side surface of the upper die 1; two molding cavities 4 are also symmetrically arranged on the side surface of the lower die 2, a communicating groove 5 is arranged between the molding cavities 4, and the molding cavities 4 are communicated through the communicating groove 5; a pouring groove 6 is further formed in the side face of the lower die 2, one end of the pouring groove 6 is communicated with the middle of the communicating groove 5, and the other end of the pouring groove 6 extends to the edge of the side face of the lower die 2; the upper die 1 is arranged above the lower die 2 to form a complete die; by arranging the two molding cavities 4, a plurality of temperature-saving covers can be molded at one time, so that the molding efficiency can be improved;

wherein, the mould is provided with a pouring device 3, the cross section of the pouring device 3 is in a direct trapezoid shape, and the right-angle side of the direct trapezoid is attached to the side surface of the mould; and the bottom edge of the direct trapezoid faces upwards; thus improving the stability of the irrigation device 3; the center of the irrigation device 3 is provided with an irrigation cavity 33, one end of the irrigation cavity 33 is provided with a connecting pipe 34, and the other end of the irrigation cavity 33 is communicated with the outside; the connecting pipe 34 can be embedded into the pouring groove 33; the molding material is introduced through the pouring cavity 33, and the pouring device 3 is separated from and combined with the pouring groove 33 through the connecting pipe 34 to realize the disassembly and assembly of the pouring device; the cross section of the pouring cavity 33 is in an inverted cone shape, and the inverted cone structure is convenient for pouring molding materials;

wherein the irrigation device 3 comprises a first half 31 and a second half 32, the first half 31 and the second half 32 being combined to form the irrigation device 3; the contact surfaces of the first half body 31 and the second half body 32 are in concave-convex matching connection, and the concave-convex matching connection can improve the contact area, so that the firmness and the tightness of combination can be improved; the adoption of a separated structure can reduce the volume of the irrigation device 3 and facilitate the production, manufacture and maintenance of the device; the outer side surfaces of the upper die 1 and the lower die 2 are respectively provided with a heat dissipation pipeline 8; the side surfaces of the upper die 1 and the lower die 2 are provided with semi-arc grooves matched with the heat dissipation pipeline 8; a fixing plate 7 is arranged on the outer side of the heat dissipation pipeline 8, and a semi-arc groove matched with the heat dissipation pipeline 8 is also arranged on the lower side surface of the fixing plate 7; the fixing plate 7 is connected with the side surfaces of the upper die 1 and the lower die 2 through counter bore bolts; one end of the heat dissipation pipeline 8 penetrates through the fixing plate 7 to be provided with an inlet 9, and the other end of the heat dissipation pipeline penetrates through the fixing plate 7 to be provided with an outlet 10; the cooling liquid is introduced through the inlet 9 and is sent out from the outlet 10, the heat dissipation efficiency of the die can be improved through the heat dissipation pipeline 8, the forming time of the die can be reduced, and the forming efficiency can be further improved. The radiating pipes 8 are arranged in an S shape, threaded bulges are arranged outside the radiating pipes 8, and grooves matched with the threaded bulges are formed in the grooves of the upper die 1 and the lower die 2; the S-shaped structure and the thread protrusions can improve the contact area of the radiating pipe 8, and are beneficial to improving the radiating effect. A plurality of heat dissipation grooves which are arranged in parallel are arranged on the outer side surface of the fixing plate 7, so that the heat dissipation area of the fixing plate 7 can be increased through the heat dissipation grooves, and the heat dissipation efficiency of the fixing plate 7 is improved;

the utility model discloses a working method:

as shown in fig. 1 to 5, a molding material is poured into the pouring groove 6 through the pouring device 3, the molding material enters the molding cavities 4 through the communicating groove 5, and the two molding cavities 4 are arranged, so that a plurality of temperature-saving covers can be molded at one time, and the molding efficiency can be improved; cooling liquid is introduced through the inlet 9 and is sent out through the outlet 10, the heat dissipation efficiency of the die can be improved through the heat dissipation pipeline 8, the forming time of the die can be reduced, and the forming efficiency can be further improved; the radiating pipes 8 are arranged in an S shape, threaded bulges are arranged outside the radiating pipes 8, and grooves matched with the threaded bulges are formed in the grooves of the upper die 1 and the lower die 2; the S-shaped structure and the thread bulge can improve the contact area of the radiating pipe 8, and are beneficial to improving the radiating effect; the outer side surface of the fixing plate 7 is provided with a plurality of heat dissipation grooves which are arranged in parallel, so that the heat dissipation area of the fixing plate 7 can be increased through the heat dissipation grooves, and the heat dissipation efficiency of the fixing plate 7 is improved.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a temperature-saving cover mould which characterized in that: the die comprises an upper die and a lower die, wherein two molding cavities are symmetrically arranged on the side surface of the upper die, a communicating groove is formed between the molding cavities, and the molding cavities are communicated through the communicating groove; a pouring groove is further formed in the side face of the upper die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the upper die;

two molding cavities are also symmetrically arranged on the side surface of the lower die, a communicating groove is arranged between the molding cavities, and the molding cavities are communicated through the communicating groove; a pouring groove is further formed in the side face of the lower die, one end of the pouring groove is communicated with the middle of the communicating groove, and the other end of the pouring groove extends to the edge of the side face of the lower die;

the upper die is arranged above the lower die to form a complete die.

2. The mold for the temperature-saving cover according to claim 1, wherein: a pouring device is arranged on the die, the cross section of the pouring device is in a direct trapezoid shape, and the right-angle side of the direct trapezoid is attached to the side face of the die; and the bottom edge of the direct trapezoid faces upwards;

an irrigation cavity is arranged in the center of the irrigation device, a connecting pipe is arranged at one end of the irrigation cavity, and the other end of the irrigation cavity is communicated with the outside; the connecting pipe can be embedded into the pouring groove.

3. The mold for the temperature-saving cover according to claim 2, wherein: the cross section of the pouring cavity is in an inverted cone shape.

4. The mold for the temperature-saving cover according to claim 3, wherein: the irrigation device comprises a first half and a second half, the first half and the second half being combined to form the irrigation device; and the contact surfaces of the first half body and the second half body are connected in a concave-convex matching way.

5. The mold for the temperature-saving cover according to claim 4, wherein: the outer side surfaces of the upper die and the lower die are respectively provided with a heat dissipation pipeline; the side surfaces of the upper die and the lower die are provided with semi-arc grooves matched with the heat dissipation pipelines; a fixing plate is arranged on the outer side of the heat dissipation pipeline, and a semi-arc groove matched with the heat dissipation pipeline is also formed in the lower side surface of the fixing plate;

the fixing plate is connected with the side surfaces of the upper die and the lower die through counter bore bolts;

one end of the heat dissipation pipeline penetrates through the fixing plate to be provided with an inlet, and the other end of the heat dissipation pipeline penetrates through the fixing plate to be provided with an outlet.

6. The mold for the temperature-saving cover according to claim 5, wherein: the cooling tube is arranged in the S shape, the thread protrusions are arranged outside the cooling tube, and grooves matched with the thread protrusions are formed in the grooves of the upper die and the lower die.

7. The mold for the temperature-saving cover according to claim 6, wherein: the outer side surface of the fixing plate is provided with a plurality of radiating grooves which are arranged in parallel.

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