CN220574532U - Heat dissipation mechanism for die manufacturing - Google Patents

Abstract

The utility model discloses a heat dissipation mechanism for manufacturing a die, which comprises a die main body and a gear plate, wherein the left side of the die main body is provided with the heat dissipation mechanism, the upper end surface of the die main body is provided with a diversion groove, the tail end of the diversion groove is provided with a diversion pipe, the four ends of the upper end surface of the die main body are provided with supporting rods, the upper ends of the supporting rods are provided with top seats, when a water pump is arranged for working, a water source in the water tank can be extracted, then circulation work is carried out between a spraying hose and a spraying head, the upper end surface of the die main body is subjected to spraying heat dissipation work, the long-time working surface temperature of equipment is avoided, the damage is caused to workers, then the water source for heat dissipation is sprayed on the upper surface of the die main body, the water source can flow into the inside of the diversion groove, then the water source flows into the inside of the water tank through the diversion pipe, certain cyclic utilization can be carried out, a large amount of waste of the water source is avoided, and resources are better saved.

Description

Heat dissipation mechanism for die manufacturing

Technical Field

The utility model relates to the technical field of heat dissipation mechanisms, in particular to a heat dissipation mechanism for die manufacturing.

Background

The mould is a tool for manufacturing shaped articles, which is composed of various parts, and different moulds are composed of different parts, and the processing of the appearance of the articles is realized mainly through the change of the physical state of the shaped materials.

However, in the current process of manufacturing the die, the die is not prevented from using processing flows such as punching and cutting, so that the die manufacturing flow can generate high temperature for the die and used equipment, and once the high temperature is not timely and effectively radiated, the quality of a finished product of the die is easily affected, and the working personnel are easily injured.

Disclosure of Invention

The utility model aims to provide a heat dissipation mechanism for die manufacture, which solves the problems that in the process of manufacturing a die, the die cannot avoid using processing flows such as punching cutting and the like in the process of manufacturing, so that the die and equipment in use can generate high temperature in the process of manufacturing the die, and the quality of a finished product of the die is easily affected once the high temperature is not timely and effectively dissipated, and the staff is injured.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a heat dissipation mechanism for mould manufacturing, includes mould main part and gear board, heat dissipation mechanism is installed in the left side of mould main part, the guiding gutter has been seted up to the up end of mould main part, the honeycomb duct is installed to the end of guiding gutter, the bracing piece is installed to the up end four ends of mould main part, the footstock is installed to the upper end of bracing piece, the slide rail has been seted up to the inboard installation of footstock, the internally mounted of slide rail has the connecting block, the gear board is installed to the lateral wall of connecting block, the up end meshing of gear board is connected with connecting gear, install the holding ring on the left side wall of bracing piece, the limiting plate is installed to the upper end both sides of footstock.

Preferably, the heat dissipation mechanism comprises a water tank, a water pump, a spray hose and a spray head, wherein the water tank is arranged on the left side of the die main body, the water pump is arranged at the upper end of the water tank, the spray hose is arranged in the water pump, and the spray head is arranged at the tail end of the spray hose.

Preferably, the spraying hose and the spraying head form a circulation structure with the water tank through the water pump.

Preferably, the diversion trenches are arranged in two groups, and the two groups of diversion trenches are symmetrically distributed relative to the die main body.

Preferably, the connecting block forms a sliding structure with the top seat through a sliding rail, and the gear plate is in meshed connection with the connecting gear.

Preferably, the limiting plates are arranged in two groups, and the supporting rings are fixedly connected with the supporting rods.

Compared with the prior art, the utility model has the beneficial effects that;

1. the utility model discloses a set up the water tank, the water pump of setting carries out the during operation, can extract the inside water source of water tank, then circulate work through spraying between hose and the sprinkler head, spray the heat dissipation work to the mould main part up end, avoid equipment long-time working surface temperature overheated, cause the injury to the staff, then spray the water source that carries out the heat dissipation at the mould main part upper surface, can flow into in the inside of guiding gutter, then flow into in the inside of water tank through the honeycomb duct, can carry out certain cyclic utilization, avoid causing the waste of a large amount of water sources, better resources are saved;

2. the utility model discloses a set up connecting gear, be sliding connection between connecting block that sets up through slide rail and footstock, then connecting gear rotates the during operation through the motor, drives the sliding operation of gear board, carries out sliding action with the connecting block of installation inside the slide rail, is convenient for adjust the position of spraying the hose and carries out work, carries out accurate heat dissipation to the higher region of temperature.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of a heat dissipation mechanism according to the present utility model;

fig. 3 is a schematic view of the structure of the top base of the present utility model.

In the figure: 1. a mold body; 2. a heat dissipation mechanism; 201. a water tank; 202. a water pump; 203. a spray hose; 204. a spray head; 3. a connecting block; 4. a gear plate; 5. a connecting gear; 6. a support rod; 7. a top base; 8. a slide rail; 9. a limiting plate; 10. a diversion trench; 11. a flow guiding pipe; 12. and a support ring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a heat dissipation mechanism for mould manufacturing, including mould main part 1 and gear plate 4, heat dissipation mechanism 2 is installed in the left side of mould main part 1, guiding gutter 10 has been seted up to the up end of mould main part 1, honeycomb duct 11 is installed to the end of guiding gutter 10, bracing piece 6 is installed to the up end four ends of mould main part 1, footstock 7 is installed to the upper end of bracing piece 6, slide rail 8 has been seted up to the inboard installation of footstock 7, connecting block 3 is installed to the internally mounted of slide rail 8, gear plate 4 is installed to the lateral wall of connecting block 3, gear plate 4's up end meshing is connected with connecting gear 5, support ring 12 is installed on the left lateral wall of bracing piece 6, limiting plate 9 is installed to the upper end both sides of footstock 7.

Further, the heat dissipation mechanism 2 includes a water tank 201, a water pump 202, a spray hose 203 and a sprinkler head 204, the water tank 201 is installed on the left side of the mold main body 1, the water pump 202 is installed on the upper end of the water tank 201, the spray hose 203 is installed inside the water pump 202, and the sprinkler head 204 is installed at the end of the spray hose 203.

Further, the spraying hose 203 and the spraying head 204 form a circulation structure with the water tank 201 through the water pump 202, when the set water pump 202 works, the water source inside the water tank 201 can be extracted, then circulation work is carried out between the spraying hose 203 and the spraying head 204, spraying heat dissipation work is carried out on the upper end face of the die main body 1, and the condition that the temperature of the long-time working surface of equipment is overheated and hurts workers is avoided.

Further, the diversion trenches 10 are arranged into two groups, the two groups of diversion trenches 10 are symmetrically distributed with respect to the die main body 1, then water sources for radiating are sprayed on the upper surface of the die main body 1, the water sources can flow into the interior of the diversion trenches 10, then flow into the interior of the water tank 201 through the diversion pipe 11, certain cyclic utilization can be carried out, waste of a large amount of water sources is avoided, and resources are better saved.

Further, connecting block 3 constitutes sliding structure through slide rail 8 and footstock 7, and gear plate 4 is the meshing with connecting gear 5 and is connected, is sliding connection between connecting block 3 that sets up through slide rail 8 and footstock 7, then connecting gear 5 rotates the during operation through the motor, drives the sliding operation of gear plate 4, carries out the sliding action with connecting block 3 of installation inside slide rail 8, is convenient for adjust the position of spraying hose 203 and carries out work, carries out accurate heat dissipation to the higher region of temperature.

Further, the limiting plates 9 are arranged in two groups, the supporting rings 12 are fixedly connected with the supporting rods 6, the limiting plates 9 are arranged on two sides of the top seat 7 and used for limiting the sliding of the gear plate 4 to a certain extent, and then the supporting rings 12 are used for supporting the spraying hose 203.

Working principle: when the water pump 202 is arranged to work, the water source inside the water tank 201 can be extracted, then circulation work is carried out between the spraying hose 203 and the spraying head 204, spraying heat dissipation work is carried out on the upper end face of the die main body 1, the long-time working surface temperature overheat of equipment is avoided, damage is caused to workers, then the water source which is sprayed on the upper surface of the die main body 1 and used for heat dissipation can flow into the inside of the diversion trench 10, then the water source flows into the inside of the water tank 201 through the diversion trench 11, certain cyclic utilization can be carried out, waste of a large amount of water sources is avoided, better resources are saved, the connecting block 3 is connected with the top seat 7 in a sliding manner through the sliding rail 8, then the connecting gear 5 is driven to carry out sliding work of the gear plate 4 when rotating through a motor, the installed connecting block 3 carries out sliding action inside the sliding rail 8, the position of the spraying hose 203 is convenient to adjust to work, and accurate heat dissipation effect is carried out on a region with higher temperature.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cooling mechanism for mould manufacturing, includes mould main part (1) and gear plate (4), cooling mechanism (2) are installed in the left side of mould main part (1), guiding gutter (10) have been seted up to the up end of mould main part (1), honeycomb duct (11) are installed to the end of guiding gutter (10), bracing piece (6) are installed to the up end four ends of mould main part (1), footstock (7) are installed to the upper end of bracing piece (6), slide rail (8) have been installed to the inboard of footstock (7), internally mounted of slide rail (8) has connecting block (3), gear plate (4) are installed to the lateral wall of connecting block (3), the up end meshing of gear plate (4) is connected with connecting gear (5), support ring (12) are installed on the left side wall of bracing piece (6), limiting plate (9) are installed to the upper end both sides of footstock (7).

2. The heat dissipation mechanism for mold manufacturing according to claim 1, wherein: the heat dissipation mechanism (2) comprises a water tank (201), a water pump (202), a spray hose (203) and a spray head (204), wherein the water tank (201) is arranged on the left side of the die main body (1), the water pump (202) is arranged at the upper end of the water tank (201), the spray hose (203) is arranged in the water pump (202), and the spray head (204) is arranged at the tail end of the spray hose (203).

3. The heat dissipation mechanism for mold manufacturing according to claim 2, wherein: the spray hose (203) and the spray head (204) form a circulation structure with the water tank (201) through the water pump (202).

4. The heat dissipation mechanism for mold manufacturing according to claim 1, wherein: the two groups of the diversion trenches (10) are symmetrically distributed relative to the die main body (1).

5. The heat dissipation mechanism for mold manufacturing according to claim 1, wherein: the connecting block (3) and the top seat (7) form a sliding structure through a sliding rail (8), and the gear plate (4) is in meshed connection with the connecting gear (5).

6. The heat dissipation mechanism for mold manufacturing according to claim 1, wherein: the limiting plates (9) are arranged in two groups, and the supporting rings (12) are fixedly connected with the supporting rods (6).