CN219628228U - Constant temperature and humidity oil cooling cabinet air conditioner - Google Patents

Abstract

The utility model relates to a constant temperature and humidity oil-cooled cabinet air conditioner, which aims to solve the technical problems that the heat dissipation is affected by the adhesion of current oil-gas mixed dust on a heat dissipation plate, and the heat dissipation plate is not easy to detach from a coil pipe for cleaning; the oil cooling heat dissipation structure is arranged at an opening at the inner side of the outer casing of the air conditioner outer machine main body; the oil cooling heat dissipation structure comprises a connecting frame, a coil pipe and a heat dissipation assembly; the two connecting frames are respectively arranged on the inner wall of the opening at the inner side of the outer casing of the main body of the air conditioner through bolts; the coil pipe is arranged on the two connecting frames in a penetrating way; the plurality of heat dissipation components are equidistantly arranged between the two connecting frames; the utility model has the advantages that once the adhesive oil on the radiating fin A and the radiating fin B can affect heat dissipation too much, the radiating component is convenient to detach from the coil pipe for cleaning.

Description

Constant temperature and humidity oil cooling cabinet air conditioner

Technical Field

The utility model relates to the technical field of cabinet air conditioners, in particular to a constant temperature and humidity oil-cooled cabinet air conditioner.

Background

Cabinet air conditioners are devices that can regulate the temperature, relative humidity, and flow rate of air within an electrical control cabinet.

The cabinet air conditioner in the prior art comprises an inner machine and an outer machine, wherein a control system in the inner machine can control temperature and humidity, the working environment is kept in a constant temperature and humidity state, the outer machine is used for radiating, blowing and radiating can be adopted in the outer machine, cooling oil is conveyed to a coil pipe in the outer machine after being absorbed by the inner machine, cooling oil passing through the coil pipe is radiated by a radiating fin, the cooling oil is blown outwards through a fan of the outer machine, and the cooled cooling oil is conveyed into the inner machine again for absorbing heat. However, the existing coil pipe passes through the radiating fins, and a plurality of radiating fins are stacked, so that oil is used for cooling, the joint of the oil pipe is sealed and aged for a long time, oil and gas can be dispersed, oil and gas mixed dust is adhered to the radiating fins to influence the heat dissipation, and the radiating fins are not easy to detach from the coil pipe for cleaning. In view of this, we propose a constant temperature and humidity oil cooled cabinet air conditioner.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, adapt to the actual needs, and provide a constant temperature and humidity oil-cooled cabinet air conditioner so as to solve the technical problems that the heat dissipation is affected by the adhesion of the current oil-gas mixed dust on a heat dissipation piece, and the heat dissipation piece is not easy to detach from a coil pipe for cleaning.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model is as follows: the constant temperature and humidity oil cooling cabinet air conditioner comprises an air conditioner outer machine main body and an oil cooling heat dissipation structure;

the oil cooling heat dissipation structure is arranged at an opening at the inner side of the outer casing of the air conditioner outer machine main body;

the oil cooling heat dissipation structure comprises a connecting frame, a coil pipe and a heat dissipation assembly;

the two connecting frames are respectively arranged on the inner wall of the opening at the inner side of the outer casing of the main body of the air conditioner through bolts; the coil pipe is arranged on the two connecting frames in a penetrating way; the plurality of heat dissipation components are equidistantly arranged between the two connecting frames; the two radiating parts of the radiating component are spliced on the coil pipe.

Preferably, the heat dissipation assembly comprises a heat dissipation fin A and a heat dissipation fin B;

the radiating fins A and B are spliced on the coil pipe through positioning pieces; and the coil pipe penetrates through the mounting openings.

Preferably, the mounting openings on the radiating fin A and the radiating fin B are staggered.

Preferably, a clamping ring is arranged on the inner arc-shaped wall of the mounting opening, and the opening of the clamping ring corresponds to the opening of the mounting opening; wherein the arc length of the clamping ring exceeds a semicircle.

Preferably, the positioning piece comprises a connecting block, a spring piece A and a clamping block;

one end of the connecting block is fixedly arranged in a groove B formed in the inner side of the end part of the radiating fin B; one end of the elastic sheet A is fixedly arranged in a groove A formed in the inner side of the end part of the radiating fin A; wherein, the connecting block is in plug-in fit with a cavity formed at the inner side of the elastic sheet A; the clamping block is fixedly arranged on the inner side of the other end of the elastic sheet A; the clamping blocks are matched with clamping grooves formed in the connecting blocks in a clamping mode.

Preferably, the fixture block adopts a semicircular structure design, and the fixture block is matched with the clamping groove.

Preferably, a spring plate B is arranged in front of the outer wall of one end of the spring plate a and the inner wall of the groove a, and the spring plate B is arc-shaped.

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

1. the utility model has the advantages that the radiating fins A, the radiating fins B and the positioning piece are arranged, the radiating fins A and the radiating fins B are spliced and installed on the coil pipe, and once the adhesion oil on the radiating fins A and the radiating fins B can affect the heat dissipation too much, the radiating fins A and the radiating fins B are convenient to detach from the coil pipe for cleaning. The problem of the adhesion of oil gas mixture dust influence the heat dissipation on the radiating member, the radiating member is not good again from dismantling the clearance on the coil pipe is solved.

2. According to the utility model, the coil pipe positioned in the mounting port is clamped and positioned by the clamping ring, so that the spliced radiating fin A and radiating fin B are stable relative to the coil pipe, and stable radiating gaps are reserved in front of a plurality of radiating components.

3. According to the utility model, the connecting block, the elastic sheet A and the clamping block are arranged, so that the radiating fin A and the radiating fin B can be spliced and positioned quickly, and meanwhile, the radiating fin A and the radiating fin B can be detached conveniently, and the operation is convenient and efficient.

4. According to the utility model, the elastic piece B is arranged, so that the elastic piece B is extruded when the elastic piece A is extruded until the clamping block is clamped with the clamping groove, and the elastic force provided by the elastic piece B props against the elastic piece A, so that the clamping block is clamped with the clamping groove more stably.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

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

FIG. 3 is a schematic diagram of an oil-cooled heat dissipating structure according to the present utility model;

FIG. 4 is a schematic diagram of a heat dissipating assembly according to the present utility model;

FIG. 5 is an enlarged schematic view of FIG. 4A in accordance with the present utility model;

in the figure: 1. an air conditioner external unit main body; 2. an oil-cooled heat dissipation structure;

201. a connecting frame; 202. a heat dissipation assembly; 203. a coiled pipe;

2021. a heat sink A; 2022. a heat sink B; 2023. a mounting port; 2024. a clasp; 2025. a groove A; 2026. a groove B; 2027. a connecting block; 2028. a clamping groove; 2029. a spring piece A; 20210. a clamping block; 20211. and a spring plate B.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

example 1: referring to fig. 1 to 5, the constant temperature and humidity oil-cooled cabinet air conditioner comprises an air conditioner outer machine main body 1 and an oil-cooled heat dissipation structure 2; the oil cooling heat dissipation structure 2 is arranged at an opening at the inner side of the outer shell of the air conditioner outer machine main body 1; the oil-cooled heat-dissipating structure 2 includes a connection rack 201, a coil 203, and a heat-dissipating assembly 202; the two connecting frames 201 are respectively arranged on the inner wall of the opening at the inner side of the outer shell of the air conditioner outer unit body 1 through bolts; the coil 203 is arranged on the two connecting frames 201 in a penetrating way; a plurality of heat dissipation components 202 are equidistantly arranged between the two connecting frames 201; wherein, two heat dissipation parts of the heat dissipation assembly 202 are spliced on the coil 203. The utility model has the advantages that the heat radiation component 202 is arranged, the coil 203 is quickly assembled or disassembled, the heat radiation component 202 adhered with putty is convenient to disassemble and clean, and the problems that the heat radiation is affected by the adhesion of oil-gas mixed dust on a heat radiation piece, and the heat radiation piece is not easy to disassemble from the coil 203 for cleaning are solved.

Specifically, heat sink assembly 202 includes heat sink a2021 and heat sink B2022; the radiating fin A2021 and the radiating fin B2022 are spliced on the coil 203 through positioning pieces; wherein, a plurality of mounting openings 2023 are formed on opposite sides of the heat sink A2021 and the heat sink B2022, and the coil 203 is disposed in the mounting openings 2023. The utility model has the advantages that the radiating fins A2021, the radiating fins B2022 and the positioning piece are arranged, the radiating fins A2021 and the radiating fins B2022 are spliced and installed on the coil 203, and once the radiating fins A2021 and the radiating fins B2022 are adhered with oil, the radiating fins are conveniently detached from the coil 203 for cleaning.

Further, the mounting openings 2023 on the fin a2021 and the fin B2022 are offset from each other. The mounting openings 2023 on the heat sink a2021 and the heat sink B2022 are staggered to facilitate docking of the coils 203 arranged obliquely between the two connection frames 201 so that the coils 203 are arranged obliquely.

Still further, a collar 2024 is arranged on the inner arc wall of the mounting hole 2023, and an opening of the collar 2024 corresponds to an opening of the mounting hole 2023; wherein the collar 2024 arc length exceeds a semicircle. According to the utility model, the clamping ring 2024 is arranged, and the coil 203 positioned in the mounting hole 2023 is clamped and positioned by utilizing the clamping ring 2024, so that the spliced radiating fin A2021 and radiating fin B2022 are stable relative to the coil 203, and stable radiating gaps are reserved in front of a plurality of radiating components 202.

It should be noted that the positioning element includes a connection block 2027, a spring piece a2029 and a clamping block 20210; one end of the connecting block 2027 is fixedly arranged in a groove B2026 formed in the inner side of the end part of the radiating fin B2022; one end of the elastic sheet A2029 is fixedly arranged in a groove A2025 formed in the inner side of the end part of the radiating fin A2021; wherein, the connecting block 2027 is spliced and matched with a cavity formed at the inner side of the elastic sheet A2029; the clamping block 20210 is fixedly arranged on the inner side of the other end of the elastic sheet A2029; the clamping block 20210 is in clamping fit with a clamping groove 2028 formed on the connecting block 2027. According to the utility model, through arranging the connecting block 2027, the elastic sheet A2029 and the clamping block 20210, the radiating fin A2021 and the radiating fin B2022 are quickly spliced and positioned, and meanwhile, the radiating fin A2021 and the radiating fin B2022 are convenient to detach, so that the operation is convenient and efficient.

It should be noted that the clamping block 20210 adopts a semicircular structure design, and the clamping block 20210 is adapted to the clamping groove 2028. The clamp block 20210 with a semicircular structure is beneficial to extruding the elastic sheet A2029 when the connecting block 2027 is pushed into a cavity formed inside the elastic sheet A2029, and is convenient for the connecting block 2027 to extrude the clamp block 20210 when the connecting block is pulled out.

It should be noted that, before the outer wall of one end of the elastic piece a2029 and the inner wall of the groove a2025, an elastic piece B20211 is disposed, and the elastic piece B20211 is configured into an arc shape. The elastic piece B20211 is arranged so that the elastic piece A2029 can also extrude the elastic piece B20211 when being extruded out until the elastic force provided by the elastic piece B20211 props against the elastic piece A2029 when the clamping block 20210 is clamped with the clamping groove 2028, so that the clamping block 20210 is clamped with the clamping groove 2028 more stably.

Working principle: by using the device, the control system in the cabinet air conditioner indoor unit can control the temperature and the humidity, the working environment is ensured to be in a constant temperature and constant humidity state, and the air conditioner outdoor unit main body 1 is used for radiating heat. When the putty adhered to the radiating fins A2021 and B2022 influences the heat radiation, opening the shell of the air conditioner external unit main body 1, respectively deviating and pulling out the radiating fins A2021 and B2022, and moving the connecting block 2027 outwards along with the radiating fins B2022 relative to the radiating fins A2021, extruding the clamping blocks 20210 from the clamping grooves 2028, and bending the elastic sheets A2029 outwards until the radiating fins A2021 and B2022 are detached to clean the putty; after cleaning, the mounting openings 2023 on the radiating fins a2021 and B2022 are respectively opposite to the coil 203, the radiating fins a2021 and B2022 relatively move, the connecting block 2027 is inserted into the cavity formed inside the elastic sheet a2029 along with the inward movement of the radiating fin B2022 relative to the radiating fin a2021, the clamping block 20210 is squeezed out, the elastic sheet a2029 is bent outwards, the elastic sheet B20211 is pressurized until the clamping block 20210 is clamped with the clamping groove 2028, the elastic sheet a2029 rebounds, the elastic force provided by the elastic sheet B20211 props against the elastic sheet a2029, the coil 203 positioned in the mounting opening 2023 is clamped and positioned by the clamping ring 2024, and the radiating assembly 202 can be used continuously.

The embodiments of the present utility model are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various modifications and variations can be made without departing from the spirit of the present utility model.

Claims (7)

1. The utility model provides a constant temperature and humidity oil cooling rack air conditioner, includes outer machine main part (1) of air conditioner, its characterized in that still includes:

the oil cooling heat dissipation structure (2) is arranged at an opening at the inner side of the outer shell of the air conditioner outer unit main body (1);

the oil-cooled heat dissipation structure (2) comprises:

the two connecting frames (201) are respectively arranged on the inner wall of the opening at the inner side of the outer shell of the air conditioner outer machine main body (1) through bolts;

the coil pipes (203) are arranged on the two connecting frames (201) in a penetrating way;

a plurality of heat dissipation components (202) which are equidistantly arranged between the two connecting frames (201);

wherein, two radiating parts of the radiating component (202) are spliced on the coil pipe (203).

2. The constant temperature and humidity oil cooled cabinet air conditioner of claim 1 wherein said heat dissipating assembly (202) comprises:

a radiating fin A (2021) and a radiating fin B (2022) are spliced on the coil pipe (203) through a positioning piece;

wherein, a plurality of mounting openings (2023) are respectively formed on one side opposite to the radiating fins A (2021) and the radiating fins B (2022), and the coil pipes (203) are arranged in the mounting openings (2023) in a penetrating way.

3. A constant temperature and humidity oil cooled cabinet air conditioner as claimed in claim 2 wherein said mounting openings (2023) in said fin a (2021) and fin B (2022) are offset from each other.

4. A constant temperature and humidity oil cooled cabinet air conditioner as claimed in claim 2 wherein a collar (2024) is disposed on an inner arcuate wall of said mounting opening (2023), said collar (2024) opening corresponding to said mounting opening (2023) opening;

wherein the arc length of the clamping ring (2024) exceeds a semicircle.

5. The constant temperature and humidity oil cooled cabinet air conditioner of claim 2 wherein the positioning member comprises:

one end of the connecting block (2027) is fixedly arranged in a groove B (2026) formed in the inner side of the end part of the radiating fin B (2022);

one end of the elastic sheet A (2029) is fixedly arranged in a groove A (2025) formed in the inner side of the end part of the radiating fin A (2021);

wherein, the connecting block (2027) is in plug-in connection with a cavity formed at the inner side of the elastic sheet A (2029);

the clamping block (20210) is fixedly arranged on the inner side of the other end of the elastic sheet A (2029);

wherein, the clamping block (20210) is matched with a clamping groove (2028) formed on the connecting block (2027) in a clamping way.

6. The constant temperature and humidity oil cooling cabinet air conditioner as claimed in claim 5, wherein the clamping block (20210) adopts a semicircular structure design, and the clamping block (20210) is adapted to the clamping groove (2028).

7. The air conditioner of claim 5, wherein an elastic sheet B (20211) is disposed in front of an outer wall of one end of the elastic sheet a (2029) and an inner wall of the groove a (2025), and the elastic sheet B (20211) is configured to be arc-shaped.