CN219081636U - Underground explosion-proof radiator - Google Patents

Abstract

The utility model discloses an underground explosion-proof radiator, which comprises a radiating substrate, wherein an upper object placing groove is formed in the central position of the top of the radiating substrate, a plurality of groups of radiating fins are arranged at the top end of the upper object placing groove, the top ends of the radiating fins extend to the outer part of the upper object placing groove, the outer walls of adjacent radiating fins are fixedly connected, equidistant heat conducting copper pipes are arranged at the top ends of the radiating substrates on two sides of the radiating fins, the outer walls of the heat conducting copper pipes are connected with the outer walls of the radiating fins, equidistant positioning holes are formed in the edge positions of the top of the radiating substrate, the bottom ends of the positioning holes penetrate to the outer part of the radiating substrate, a condenser pipe is arranged in the radiating substrate, the condenser pipe is in a snake-shaped structure, a lower object placing groove is formed in the bottom of the radiating substrate at the position of the condenser pipe, and the lower object placing groove is in a rectangular structure. The utility model not only achieves the effect of accelerating cooling and heat dissipation, but also improves the stability of the radiator during arrangement, and ensures the explosion-proof performance of the radiator.

Description

Underground explosion-proof radiator

Technical Field

The utility model relates to the technical field of radiators, in particular to an underground explosion-proof radiator.

Background

The underground equipment is a set of comprehensive units for maintaining or replacing underground pipe columns or well bodies to provide power, the equipment for well repair operation is relatively large, the equipment can be divided into power equipment, tripping equipment, rotating equipment, circulating equipment, wellhead control devices and the like according to performances and purposes, and electronic devices of the underground equipment are large in heating value due to the adoption of integrated circuits, so that corresponding radiators are needed for radiating the electronic devices.

The existing radiator can better perform heat dissipation treatment on underground equipment, is mainly provided with a substrate, a condenser pipe, a liquid inlet, a liquid outlet and other parts, and is particularly characterized in that the condenser pipe is arranged in the substrate, the liquid inlet and the liquid outlet are arranged at two ends of the condenser pipe, when the radiator is used, the radiator is installed underground, cooling liquid is injected into the condenser pipe through the liquid inlet, then the cooling liquid circularly flows in the condenser pipe and is discharged through the liquid outlet, the purpose of performing water-cooling heat dissipation on the underground equipment can be achieved, and according to the above, although the radiator can perform water-cooling heat dissipation treatment on the underground equipment, the radiator is generally inconvenient to conduct guiding-out transfer on heat energy, so that the heat dissipation efficiency is difficult to reach the set expectation, and people are bothered frequently.

Disclosure of Invention

The utility model aims to provide an underground explosion-proof radiator, which solves the problems that although the radiator can perform water cooling heat dissipation treatment on underground equipment in the background technology, the radiator is generally inconvenient to conduct out and transfer heat energy, so that the heat dissipation efficiency is difficult to reach a preset expected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an explosion-proof radiator in pit, includes the radiating basal plate, the central point department at radiating basal plate top is provided with puts the thing groove, the top of putting the thing groove is provided with multiunit radiating fin, radiating fin's top extends to the outside of putting the thing groove, outer wall fixed connection between the adjacent radiating fin, radiating basal plate top of radiating fin both sides all is provided with equidistant heat conduction copper pipe, heat conduction copper pipe's outer wall is connected with radiating fin's outer wall, radiating basal plate top's edge is provided with equidistant locating hole, the bottom of locating hole runs through to radiating basal plate's outside.

Preferably, a condenser tube is arranged in the heat dissipation substrate, and the condenser tube is of a snake-shaped structure, and is arranged in the heat dissipation substrate, so that the cooling liquid level circularly flows in the condenser tube to perform water cooling treatment underground.

Preferably, the bottom of the heat dissipation substrate at the position of the condensing tube is provided with a lower storage groove, the lower storage groove is in a rectangular structure, and the lower storage groove is arranged at the bottom of the heat dissipation substrate so as to carry out arrangement treatment on the anti-skid column.

Preferably, equidistant anti-skidding columns are arranged at the edge positions of the tops of the lower storage tanks, the plane where the bottom ends of the anti-skidding columns are located is coplanar with the plane where the bottom ends of the radiating substrates are located, and the bottom ends of the anti-skidding columns are contacted with the underground platform so as to achieve the purpose of skid prevention of the radiator.

Preferably, a cooling liquid outlet is arranged at the bottom end of the heat dissipation substrate at one side of the lower storage tank, the top end of the cooling liquid outlet extends to the inside of the heat dissipation substrate and is communicated with one end of the condensation pipe, and the cooling liquid outlet is arranged at one end of the condensation pipe, so that cooling liquid in the condensation pipe is discharged through the cooling liquid outlet.

Preferably, the bottom end of the heat dissipation substrate at one side of the lower object placing groove far away from the cooling liquid outlet is provided with a cooling liquid inlet, the top end of the cooling liquid inlet extends to the inside of the heat dissipation substrate and is communicated with one end of the condensing pipe, and the bottom of the cooling liquid inlet is connected to the liquid injection mechanism so as to inject cooling liquid into the inside of the condensing pipe through the cooling liquid inlet.

Compared with the prior art, the utility model has the beneficial effects that: the underground explosion-proof radiator not only achieves the effect of accelerating cooling and heat dissipation, but also improves the stability of the radiator during arrangement, and ensures the explosion-proof performance of the radiator;

(1) Through arranging a plurality of groups of radiating fins in an upper object groove arranged at the top of the radiating substrate, and arranging a plurality of groups of heat conducting copper pipes at the tops of the radiating substrates positioned at two sides of the radiating fins, when heat is transferred to the radiating substrate, the radiating substrate transfers the heat to the radiating fins and the heat conducting copper pipes, so that the heat can be led out and transferred to an external environment, and if necessary, underground compressed air can be blown to the radiating fins, thereby achieving the effect of accelerating cooling and radiating;

(2) By arranging a plurality of groups of equidistant positioning holes at the edge position of the top of the heat dissipation substrate, the heat dissipation substrate can be penetrated through the positioning holes by means of external positioning pins and connected to the underground platform, so that the purpose of positioning and mounting the heat dissipation substrate is achieved, and the stability of the heat dissipation substrate during placement is improved;

(3) The radiator is made of copper material, a fan is not needed, the use of the environment with high temperature and high humidity in the pit is guaranteed, and meanwhile, no electronic driving device is needed due to the fact that the fan is not needed, and therefore the explosion-proof performance of the radiator is guaranteed.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic view illustrating a bottom cross-sectional structure of a heat dissipating substrate according to the present utility model;

FIG. 4 is a schematic top view of the present utility model;

fig. 5 is a schematic view of the bottom structure of the present utility model.

In the figure: 1. a heat-dissipating substrate; 2. an upper storage tank; 3. a heat radiation fin; 4. a heat conducting copper pipe; 5. positioning holes; 6. a cooling liquid inlet; 7. a cooling liquid outlet; 8. a condensing tube; 9. a lower object placing groove; 10. a non-slip column.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. 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. 1-5, an embodiment of the present utility model is provided: the underground explosion-proof radiator comprises a radiating substrate 1, wherein a condensing tube 8 is arranged in the radiating substrate 1, and the condensing tube 8 is of a snake-shaped structure;

when in use, the condensing tube 8 is arranged in the heat dissipation substrate 1, so that the cooling liquid level is circularly flowing in the condensing tube 8 to perform water cooling treatment underground;

the bottom of the heat dissipation substrate 1 at the position of the condensation pipe 8 is provided with a lower storage groove 9, and the lower storage groove 9 is of a rectangular structure;

in use, the lower object placing groove 9 is arranged at the bottom of the heat radiating substrate 1 so as to carry out arrangement treatment on the anti-skid column 10;

equidistant anti-skidding columns 10 are arranged at the edge positions of the top of the lower storage groove 9, and the plane where the bottom ends of the anti-skidding columns 10 are positioned is coplanar with the plane where the bottom ends of the heat dissipation substrates 1 are positioned;

when in use, the bottom end of the anti-skid column 10 is contacted with the underground platform so as to achieve the aim of skid resistance of the radiator;

the bottom end of the heat dissipation substrate 1 at one side of the lower storage groove 9 is provided with a cooling liquid outlet 7, and the top end of the cooling liquid outlet 7 extends into the heat dissipation substrate 1 and is communicated with one end of a condensation pipe 8;

in use, the cooling liquid outlet 7 is arranged at one end of the condensation pipe 8, so that the cooling liquid in the condensation pipe 8 is discharged through the cooling liquid outlet 7;

the bottom end of the radiating substrate 1 at one side of the lower storage groove 9 far away from the cooling liquid outlet 7 is provided with a cooling liquid inlet 6, and the top end of the cooling liquid inlet 6 extends into the radiating substrate 1 and is communicated with one end of a condensing pipe 8;

when in use, the bottom of the cooling liquid inlet 6 is connected with the liquid injection mechanism so as to inject cooling liquid into the condensation pipe 8 through the cooling liquid inlet 6;

an upper object placing groove 2 is formed in the center position of the top of the heat radiating base plate 1, a plurality of groups of heat radiating fins 3 are arranged at the top end of the upper object placing groove 2, the top ends of the heat radiating fins 3 extend to the outside of the upper object placing groove 2, and the outer walls between the adjacent heat radiating fins 3 are fixedly connected;

the top ends of the radiating base plates 1 on the two sides of the radiating fins 3 are provided with equidistant heat conducting copper pipes 4, the outer walls of the heat conducting copper pipes 4 are connected with the outer walls of the radiating fins 3, the edge position of the top of the radiating base plate 1 is provided with equidistant positioning holes 5, and the bottom ends of the positioning holes 5 penetrate to the outside of the radiating base plate 1.

When the embodiment of the application is used, firstly, a plurality of groups of equidistant positioning holes 5 are arranged at the edge position of the top of the heat radiating substrate 1, namely, the heat radiating substrate 1 can be connected to a downhole platform by penetrating the positioning holes 5 through external positioning pins so as to achieve the purpose of positioning and mounting the heat radiator, then, cooling liquid is injected into the condenser pipe 8 through the cooling liquid inlet 6, so that condensate is circulated in the condenser pipe 8 and is discharged through the cooling liquid outlet 7 so as to achieve the purpose of circulating water cooling in the pit, then, a plurality of groups of heat radiating fins 3 are arranged in the overhead object grooves 2 arranged at the top of the heat radiating substrate 1, a plurality of groups of heat conducting copper pipes 4 are arranged at the top of the heat radiating substrate 1 positioned at two sides of the heat radiating fins 3, and when heat is transferred to the heat radiating substrate 1, the heat radiating base plate 1 transmits heat to the heat radiating fins 3 and the heat conducting copper pipe 4, the heat can be led out and transmitted to the external environment, and if necessary, the underground compressed air can be blown to the heat radiating fins 3 so as to accelerate the cooling and radiating effects of the heat radiating base plate, the whole heat radiator adopts copper materials without fans, the underground high-temperature and high-humidity environment is ensured, meanwhile, as the fans are not adopted, no electronic driving device is adopted so as to ensure the explosion-proof performance of the heat radiator, and finally, a plurality of groups of anti-skid columns 10 are arranged inside the lower storage groove 9, when the bottom end of the heat radiating base plate 1 is contacted with an underground platform for being arranged, the bottom end of the anti-skid columns 10 can be contacted with the underground platform so as to ensure that the friction force between the heat radiator and the underground platform is improved, thus the use of the heat radiator is completed.

Claims (6)

1. The utility model provides an explosion-proof radiator in pit, its characterized in that, including radiating base plate (1), the central point department at radiating base plate (1) top is provided with puts thing groove (2), the top of putting thing groove (2) is provided with multiunit radiating fin (3), the top of radiating fin (3) extends to the outside of putting thing groove (2), outer wall fixed connection between adjacent radiating fin (3), radiating base plate (1) top of radiating fin (3) both sides all is provided with equidistant heat conduction copper pipe (4), the outer wall of heat conduction copper pipe (4) is connected with the outer wall of radiating fin (3), the edge department at radiating base plate (1) top is provided with equidistant locating hole (5), the bottom of locating hole (5) runs through to the outside of radiating base plate (1).

2. A downhole explosion-proof radiator according to claim 1, wherein: the inside of radiating base plate (1) is provided with condenser pipe (8), condenser pipe (8) set up to the snake structure.

3. A downhole explosion-proof radiator according to claim 2, wherein: the bottom of the radiating substrate (1) at the position of the condensing tube (8) is provided with a lower storage groove (9), and the lower storage groove (9) is in a rectangular structure.

4. A downhole explosion-proof radiator according to claim 3, wherein: equidistant anti-skidding columns (10) are arranged at the edge positions of the tops of the lower storage grooves (9), and the plane where the bottom ends of the anti-skidding columns (10) are located is coplanar with the plane where the bottom ends of the radiating base plates (1) are located.

5. A downhole explosion-proof radiator according to claim 3, wherein: the bottom end of the radiating substrate (1) at one side of the lower storage groove (9) is provided with a cooling liquid outlet (7), and the top end of the cooling liquid outlet (7) extends to the inside of the radiating substrate (1) and is communicated with one end of the condensing tube (8).

6. The downhole explosion-proof radiator according to claim 5, wherein: the bottom end of the radiating substrate (1) at one side, far away from the cooling liquid outlet (7), of the lower storage groove (9) is provided with a cooling liquid inlet (6), and the top end of the cooling liquid inlet (6) extends to the inside of the radiating substrate (1) and is communicated with one end of the condensing tube (8).

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