CN216420996U

CN216420996U - Novel ferroalloy water-cooling cover half

Info

Publication number: CN216420996U
Application number: CN202122613456.3U
Authority: CN
Inventors: 孙艳
Original assignee: Wenchuan Shun Power Generation Smelting Co ltd
Current assignee: Wenchuan Shun Power Generation Smelting Co ltd
Priority date: 2021-10-28
Filing date: 2021-10-28
Publication date: 2022-05-03
Anticipated expiration: 2031-10-28

Abstract

The utility model relates to a water-cooling cover half technical field especially relates to a new ferroalloy water-cooling cover half, has solved the unable even cooling problem of prior art normal water cooling mould. The utility model provides a novel ferroalloy water-cooling cover half, including the mould piece, the die cavity has been seted up to the inside of mould piece, the cooling bath, the intake chamber, water drainage tank and drainage chamber, the die cavity is the loop configuration, the cross-section of cooling bath is U-shaped structure and die cavity is located the inboard of cooling bath, the intake chamber is the loop configuration, the intake chamber is located the die cavity and is the loop configuration and is located the one side that the die cavity was kept away from to the cooling bath, water drainage chamber is located one side that the cooling bath was kept away from to the intake chamber, a plurality of is the inlet channel that the annular array distributes, water drainage channel and two sets of intercommunication water courses are seted up to the inside of mould piece, the inlet channel passes through the inlet channel intercommunication with the cooling bath. The utility model discloses an improve the passageway of cooling water for each position of die cavity can contact with the cooling water of the same temperature, thereby realizes even refrigerated effect.

Description

Novel ferroalloy water-cooling cover half

Technical Field

The utility model relates to a water-cooling cover half technical field especially relates to a new ferroalloy water-cooling cover half.

Background

The mould is one of the most common production tools in the industrial production process and can be used in the processes of various processing steps such as injection molding, die-casting molding, stamping and the like

In order to accelerate the cooling of the workpiece for the colleague to accelerate the heat dissipation of the die, the heat dissipation of the fixed die is usually accelerated by adopting a water-cooling mode, however, the water-cooling channel in the existing fixed die mostly adopts a single water inlet, when the die cavity is of an annular structure, cooling water can firstly contact with the local part of the die cavity, the cooling water flows through other positions after absorbing heat, the heat dissipation of all parts in the die cavity is uneven, blank materials in the die cavity can be shrunk and are not uniform in result due to the fact that the cooling speed is uneven, the product quality is finally influenced, aiming at the problem, a novel water-cooling fixed die can be provided, and the cooling effect is improved by improving the path of the cooling water.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a new ferroalloy water-cooling cover half has solved the unable even cooling problem of prior art normal water cooling mould.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a novel ferroalloy water-cooling fixed die comprises a die block, wherein a die cavity, a cooling groove, a water inlet groove, a water drainage groove and a water drainage cavity are arranged inside the die block, the die cavity is of an annular structure, the cross section of the cooling groove is of a U-shaped structure, the die cavity is positioned on the inner side of the cooling groove, the water inlet groove is of an annular structure, the water inlet groove is positioned on one side of the die cavity, which is far away from the die cavity, the water drainage cavity is positioned on one side of the water inlet groove, which is far away from the cooling groove, a plurality of water inlet channels distributed in an annular array, water drainage channels and two groups of communicated water channels are arranged inside the die block, the water inlet groove is communicated with the cooling groove through the water inlet channels, the cooling groove is communicated with the water drainage groove through the communicated water channels, elastic sealing elements are arranged in all the water inlet channels, the water drainage cavity is communicated with the water drainage groove through the water drainage channels, a water inlet pipe seat and a water drainage pipe seat are arranged on the outer side of the die block, the water inlet pipe seat is communicated with the water inlet groove, the drain pipeline seat is communicated with the drain cavity.

Preferably, the water drainage tank includes first water drainage tank and second water drainage tank, and first water drainage tank is located one side of cooling bath exterior wall, and second water drainage tank is located one side of cooling bath exterior wall, and two sets of intercommunication water courses are located before first water drainage tank and the cooling bath respectively and between second water drainage tank and the cooling bath, and the intercommunication water course that all is the annular array and distributes including a plurality of in the group of every group intercommunication water course.

Preferably, all the water communication channels are positioned on one side of the cooling tank far away from the water inlet tank and are communicated with the cooling tank.

Preferably, the size of the communicating water channel is smaller than that of the water inlet channel.

Preferably, elastic sealing element includes connecting plate and baffle, and the inside of mould piece is seted up with connecting plate matched with mounting groove, mounting groove and inlet channel intercommunication, and the bottom of connecting plate is rotated through torsion spring and is connected with the baffle, and the baffle size suits with the size of inlet channel.

Preferably, the center shafts of the cavity, the cooling tank, the water inlet tank, the water discharge cavity, the first water discharge tank and the second water discharge tank are overlapped, and the mounting grooves and the array center of the communicated water channel are located on the center shafts.

The utility model discloses possess following beneficial effect at least:

the cooling water can get into the cooling bath simultaneously from a plurality of inlet channels for the temperature difference with the cooling water of each position department contact of die cavity is less, can effectively avoid the inhomogeneous problem of material cooling in the die cavity.

The utility model discloses still possess following beneficial effect:

the cooperation of first water drainage tank, second water drainage tank, cooling bath and intercommunication water course can provide the multichannel for the cooling water can be followed the die cavity outside fast and passed through, promotes the radiating efficiency.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a side sectional view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a side view of the drainage channel, drainage chamber and drainage channel in alignment;

fig. 4 is a schematic view of an elastic connector.

In the figure: 1. a mold block; 2. a cavity; 3. a cooling tank; 4. a water inlet groove; 5. a water inlet channel; 6. mounting grooves; 7. an elastomeric seal; 8. a water discharge tank; 9. a first drainage tank; 10. a second water discharge tank; 11. a drainage cavity; 12. a water inlet pipeline seat; 13. a water channel is communicated; 14. a connecting plate; 15. a baffle plate; 16. a water drain; 17. a drain pipe seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, a novel ferroalloy water-cooling fixed die comprises a die block 1, a die cavity 2, a cooling groove 3, a water inlet groove 4, a water drainage groove 8 and a water drainage cavity 11 are arranged in the die block 1, the die cavity 2 is of an annular structure, the cross section of the cooling groove 3 is of a U-shaped structure, the die cavity 2 is positioned on the inner side of the cooling groove 3, the water inlet groove 4 is of an annular structure, the water inlet groove 4 is positioned on the annular structure of the die cavity 2 and is positioned on one side of the cooling groove 3 away from the die cavity 2, the water drainage cavity 11 is positioned on one side of the water inlet groove 4 away from the cooling groove 3, a plurality of water inlet channels 5, water drainage channels 16 and two groups of communicating water channels 13 are arranged in the die block 1, the water inlet groove 4 is communicated with the cooling groove 3 through the water inlet channel 5, the cooling groove 3 is communicated with the water drainage groove 8 through the communicating water channels 13, elastic sealing elements 7 are arranged in all the water inlet channels 5, the water drainage cavity 11 is communicated with the water drainage groove 8 through the water drainage channel 16, the outside of mould piece 1 is installed and is advanced water pipe seat 12 and water drainage pipe seat 17, advances water pipe seat 12 and inlet channel 4 intercommunication, water drainage pipe seat 17 and drainage cavity 11 intercommunication.

The scheme has the following working processes:

from water inlet pipe seat 12 and water outlet pipe seat 17 department installation condenser tube, after the cooling water was full of inlet channel 4, elastic sealing element 7 was backed down in the water pressure effect, and the cooling water can be simultaneously through a plurality of inlet channels 5 get into in the cooling bath 3, and the cooling water gets into water drainage tank 8 after taking away the heat in the die cavity 2 and on the mould piece 1 behind the cooling bath 3 in, and follow water outlet pipe seat 17 after 16 departments of water outlet get into water drainage cavity 11 at last and discharge.

According to the working process, the following steps are known:

this water-cooling cover half can guide cooling water to get into cooling bath 3 from a plurality of departments in, has reduced the difference in temperature of the cooling water's of 2 each position departments of die cavity contact temperature, is favorable to the blank in the die cavity 2 evenly to cool off and shrink, is favorable to promoting finished product quality.

Further, water drainage tank 8 includes first water drainage tank 9 and second water drainage tank 10, first water drainage tank 9 is located the one side of the outer table wall of cooling bath 3, second water drainage tank 10 is located the one side of the outer table wall of cooling bath 3, two sets of intercommunication water courses 13 are located respectively before first water drainage tank 9 and cooling bath 3 and between second water drainage tank 10 and the cooling bath 3, the intercommunication water course 13 that all includes a plurality of in every group intercommunication water course 13 is the distribution of annular array, first water drainage tank 9 and the cooperation of second water drainage tank 10 intercommunication water course 13 can provide a plurality of circulation routes for the cooling water, can accelerate the circulation speed of cooling water, thereby accelerate the heat dissipation.

Furthermore, all the communication water channels 13 are located on one side of the cooling tank 3 far away from the water inlet tank 4 and communicated with the cooling tank 3, so that all the cooling water can be ensured to circulate along the longest path, and the heat dissipation can be accelerated.

Furthermore, the size of the communicating water channel 13 is smaller than that of the water inlet channel 5, so that the cooling water can be filled in the cooling groove 3 quickly, and quick heat dissipation is facilitated.

Further, elastic sealing element 7 includes connecting plate 14 and baffle 15, and the inside of mould piece 1 is seted up with connecting plate 14 matched with mounting groove 6, and mounting groove 6 and intake channel 5 intercommunication, the bottom of connecting plate 14 is connected with baffle 15 through torsion spring rotation, and the size of baffle 15 suits with the size of intake channel 5, and the elastic sealing element 7 of snap-on is convenient for demolish.

Furthermore, the center shafts of the cavity 2, the cooling tank 3, the water inlet tank 4, the water discharging cavity 11, the first water discharging tank 9 and the second water discharging tank 10 are overlapped, and the mounting groove 6 and the array center of the communicated water channel 13 are located on the center shaft, so that the weight distribution of the fixed die at the processing position is uniform and the fixed die is more durable.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a new ferroalloy water-cooling cover half, includes mould piece (1), its characterized in that: the die is characterized in that a cavity (2), a cooling groove (3), a water inlet groove (4), a water drainage groove (8) and a water drainage cavity (11) are formed in the die block (1), the cavity (2) is of an annular structure, the cross section of the cooling groove (3) is of a U-shaped structure, the cavity (2) is located on the inner side of the cooling groove (3), the water inlet groove (4) is of an annular structure, the water inlet groove (4) is located on one side, away from the cavity (2), of the cavity (2) and located on the cooling groove (3), the water drainage cavity (11) is located on one side, away from the cooling groove (3), of the water inlet groove (4), a plurality of water inlet channels (5), water drainage channels (16) and two sets of communicated water channels (13) which are distributed in an annular array are formed in the die block (1), the water inlet groove (4) is communicated with the cooling groove (3) through the water inlet channel (5), and the cooling groove (3) and the water drainage groove (8) are communicated through the communicated water channel (13), all be provided with elastic sealing element (7) in intake channel (5), drain chamber (11) and water drainage tank (8) through water drainage (16) intercommunication, advance water pipe seat (12) and drain pipe seat (17) are installed in the outside of mould piece (1), advance water pipe seat (12) and intake channel (4) intercommunication, drain pipe seat (17) and water drainage chamber (11) intercommunication.

2. The novel ferroalloy water-cooling fixed die as claimed in claim 1, wherein: drainage tank (8) are including first drainage tank (9) and second drainage tank (10), first drainage tank (9) are located one side of the outer table wall of cooling bath (3), second drainage tank (10) are located one side of the outer table wall of cooling bath (3), and are two sets of intercommunication water course (13) are located before first drainage tank (9) and cooling bath (3) and between second drainage tank (10) and cooling bath (3) respectively, every group intercommunication water course (13) all include that a plurality of is intercommunication water course (13) that the annular array distributes in organizing.

3. The novel ferroalloy water-cooling fixed die as claimed in claim 1, wherein: all the communicating water channels (13) are positioned on one side of the cooling tank (3) far away from the water inlet tank (4) and communicated with the cooling tank (3).

4. The novel ferroalloy water-cooling fixed die as claimed in claim 1, wherein: the size of the communicating water channel (13) is smaller than that of the water inlet channel (5).

5. The novel ferroalloy water-cooling fixed die as claimed in claim 1, wherein: elastic sealing element (7) include connecting plate (14) and baffle (15), mould piece (1) inside seted up with connecting plate (14) matched with mounting groove (6), mounting groove (6) and intake channel (5) intercommunication, the bottom of connecting plate (14) is connected with baffle (15) through torsion spring rotation, the size of baffle (15) suits with the size of intake channel (5).

6. The novel ferroalloy water-cooling fixed die as claimed in claim 2, wherein: the center shafts of the cavity (2), the cooling tank (3), the water inlet tank (4), the water discharging cavity (11), the first water discharging tank (9) and the second water discharging tank (10) are overlapped, and the array centers of the mounting groove (6) and the communicating water channel (13) are all located on the center shaft.