CN214371932U - Air compressor machine waste heat conversion cyclic utilization device - Google Patents

Abstract

The utility model discloses an air compressor machine waste heat conversion cyclic utilization device, including the waste heat conversion device main part, the outer wall of waste heat conversion device main part is provided with heat preservation stabilizing mean. A air compressor machine waste heat conversion cyclic utilization device, it can effectually prevent calorific loss to increase heat preservation stabilizing mean, further increase the efficiency of air compressor machine waste heat conversion, can also keep warm to the converter at the in-process of conversion, the volatilization of reduction energy, wherein the buffer layer material is natural rubber, rocking and the leakage that can effectual slow device, secondly increase heat dissipation mechanism can effectually cool down for the control room, can effectually prevent that remaining waste heat can heat up the electronic component in the control room, make the inside electronic component of control room work under high temperature and lead to the condition of harm not taking place, bring better use prospect for air compressor machine waste heat conversion.

Description

Air compressor machine waste heat conversion cyclic utilization device

Technical Field

The utility model relates to a fields such as air compressor machine waste heat conversion specifically are an air compressor machine waste heat conversion cyclic utilization device.

Background

The heat energy hot water machine set of the air compressor, it is a kind of heat energy-conserving apparatus utilizing the high-temperature oil gas heat energy of the compressor, the heat energy fully utilizes through the heat exchange, the heat energy hot water machine set of the air compressor is through energy exchange and energy-conserving control, collect the heat energy produced in the running process of the air compressor, improve the operating condition of the air compressor at the same time, it is an energy-conserving apparatus of high-efficient waste heat utilization, zero-cost operation, in the long-term continuous running process of the screw compressor, change the electric energy into mechanical energy, the mechanical energy is changed into the wind energy, in the course of changing into the wind energy, the air obtains the strong high-pressure compression in the mechanical energy, make its temperature rise suddenly, this is the mechanical energy conversion phenomenon of the ordinary physics, the high-temperature heat that the high-speed rotation of the air compressor screw rod, also rub and generate heat at the same time, these high-temperature heat are mixed by the addition of the lubricating oil of the air compressor and become oil, the gas is discharged from the organism, this part of high-temperature oil, The heat of the air flow is equal to 3/4 of the input power of the air compressor, the temperature of the air flow is usually 80-100 ℃, the heat energy is wastefully wasted and discharged to the atmosphere due to the requirement of the operation temperature of the machine, namely, the heat dissipation system of the air compressor is used for completing the requirement of the operation temperature of the machine.

Present useful air compressor machine waste heat conversion device, in the use, because the heat is converted in the machine is inside, wherein can some heat can remain inside the machine, remaining heat can have certain harm to control room and conversion controller, make control room and controller be heated and lead to efficiency to descend, secondly waste heat conversion device has certain temperature to spread, make the energy of the waste heat that needs the conversion become very low, the degree of conversion is relative to be reduced, can not further improvement conversion efficiency, certain adverse effect has been brought to people's use, for this reason, we propose an air compressor machine waste heat conversion cyclic utilization device.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides an air compressor machine waste heat conversion cyclic utilization device possesses advantages such as heat preservation stability and heat dissipation, can effectively solve the problem in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides an air compressor machine waste heat conversion cyclic utilization device main part, includes waste heat conversion device main part, the outer wall of waste heat conversion device main part is provided with heat preservation stabilizing mean, the upper end one side surface of waste heat conversion device main part is provided with heat dissipation mechanism, the inside of waste heat conversion device main part is provided with the water pump, the inside of waste heat conversion device main part is provided with the heat converter, heat preservation stabilizing mean includes heat preservation, waterproof layer and buffer layer.

Preferably, be provided with the fixed glue No. one between waste heat conversion device main part and the heat preservation stabilizing mean, and the outer wall of waste heat conversion device main part is through the inner wall fixed connection of a fixed glue and heat preservation stabilizing mean, be provided with fixing bolt No. one between waste heat conversion device main part and the heat dissipation mechanism, and one side surface fixed connection of upper end one side surface of waste heat conversion device main part through a fixing bolt and heat dissipation mechanism, be provided with fixing bolt No. two between waste heat conversion device main part and the heat converter, and the inside of waste heat conversion device main part is through the rear end surface fixed connection of fixing bolt No. two with the heat converter, waste heat conversion device main part and water pump are integrated into one piece.

Preferably, the heat preservation layer is located one side of waterproof layer, the buffer layer is located the opposite side of waterproof layer.

Preferably, be provided with the fixed glue No. two between heat preservation and the waterproof layer, and the one side surface of heat preservation is connected through the fixed glue of No. two and one side surface fixed connection of waterproof layer, be provided with the fixed glue No. three between waterproof layer and the buffer layer, and the opposite side surface of waterproof layer is connected through the fixed glue of No. three and one side surface fixed connection of buffer layer.

Preferably, the heat dissipation mechanism comprises a fan plate, a heat dissipation fan, a heat dissipation port and a heat dissipation plate, the fan plate is located on one side of the heat dissipation port, the heat dissipation fan is located inside the fan plate, and the heat dissipation plate is located inside the heat dissipation port.

Preferably, be provided with fixing bolt No. three between fan plate and the thermovent, and one side surface of fan plate is through fixing bolt No. three and one side surface fixed connection of thermovent, be provided with the super glue No. one between fan plate and the heat dissipation fan, and the inside of fan plate is through the outer fixed connection all around of super glue and heat dissipation fan, be provided with the super glue No. two between thermovent and the heating panel, and the surface all around of thermovent is through the inside fixed connection of super glue and heating panel No. two.

(III) advantageous effects

Compared with the prior art, the utility model provides an air compressor machine waste heat conversion cyclic utilization device possesses following beneficial effect:

1. this air compressor machine waste heat conversion cyclic utilization device, through the heat preservation stabilizing mean that sets up, when air compressor machine waste heat conversion device during operation, all have some heat energy to lose, increase the heat preservation stabilizing mean and can effectually prevent calorific loss, further increase the efficiency of air compressor machine waste heat conversion, can also keep warm at the in-process of conversion to the converter, the volatilization of reduction energy, wherein the buffer layer material is natural rubber, can effectually slow rocking and leaking of device.

2. This air compressor machine waste heat conversion cyclic utilization device, through the heat dissipation mechanism that sets up, because air compressor machine waste heat conversion device has partly heat energy to remain in conversion equipment in energy conversion, increase heat dissipation mechanism and can effectually cool down for the control room, can effectually prevent that remaining waste heat can heat up the electronic component in the control room for the inside electronic component of control room work under the high temperature and lead to the condition of harm not taking place.

Drawings

Fig. 1 is the utility model relates to an air compressor machine waste heat conversion cyclic utilization device's overall structure schematic diagram.

Fig. 2 is the utility model relates to an air compressor machine waste heat conversion cyclic utilization device's heat preservation stabilizing mean structure chart.

Fig. 3 is the utility model relates to an air compressor machine waste heat conversion cyclic utilization device's heat dissipation mechanism structure chart.

In the figure: 1. a waste heat conversion device main body; 2. a heat preservation stabilizing mechanism; 3. a heat dissipation mechanism; 4. a heat converter; 5. a water pump; 201. a heat-insulating layer; 202. a waterproof layer; 203. a buffer layer; 301. A fan plate; 302. a heat dissipation fan; 303. a heat dissipation port; 304. a heat sink.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-3, an air compressor waste heat conversion recycling device includes a waste heat conversion device main body 1, an outer wall of the waste heat conversion device main body 1 is provided with a heat preservation stabilizing mechanism 2, an outer surface of one side of an upper end of the waste heat conversion device main body 1 is provided with a heat dissipation mechanism 3, a water pump 5 is arranged inside the waste heat conversion device main body 1, a heat converter 4 is arranged inside the waste heat conversion device main body 1, and the heat preservation stabilizing mechanism 2 includes a heat preservation layer 201, a waterproof layer 202 and a buffer layer 203, so that the air compressor waste heat conversion recycling device is more functional.

Further, be provided with the fixed glue No. one between waste heat conversion device main part 1 and the heat preservation stabilizing mean 2, and the outer wall of waste heat conversion device main part 1 is through the fixed glue and the inner wall fixed connection of heat preservation stabilizing mean 2, be provided with fixing bolt No. one between waste heat conversion device main part 1 and the heat dissipation mechanism 3, and the outer surface of one side of the upper end of waste heat conversion device main part 1 is through fixing bolt and the outer fixed surface of one side of heat dissipation mechanism 3 and be connected, be provided with fixing bolt No. two between waste heat conversion device main part 1 and the heat converter 4, and the inside of waste heat conversion device main part 1 is through the outer fixed surface of the rear end of fixing bolt No. two and heat converter 4 and be connected, waste heat conversion device main part 1 and water pump 5 are integrated into one piece, it is more firm to connect.

Furthermore, the insulating layer 201 is located on one side of the waterproof layer 202, and the buffer layer 203 is located on the other side of the waterproof layer 202, so that the conversion efficiency is increased.

Further, be provided with No. two fixed glue between heat preservation 201 and the waterproof layer 202, and the one side surface of heat preservation 201 is connected through No. two fixed glue and the one side surface fixed connection of waterproof layer 202, is provided with No. three fixed glue between waterproof layer 202 and the buffer layer 203, and the opposite side surface of waterproof layer 202 is connected through No. three fixed glue and the one side surface fixed connection of buffer layer 203, reduces the heat energy loss.

Further, the heat dissipation mechanism 3 includes a fan plate 301, a heat dissipation fan 302, a heat dissipation opening 303 and a heat dissipation plate 304, the fan plate 301 is located on one side of the heat dissipation opening 303, the heat dissipation fan 302 is located inside the fan plate 301, and the heat dissipation plate 304 is located inside the heat dissipation opening 303, so as to further protect the electronic component.

Further, be provided with fixing bolt No. three between fan plate 301 and the thermovent 303, and one side surface of fan plate 301 is through fixing bolt No. three and one side surface fixed connection of thermovent 303, be provided with a powerful glue between fan plate 301 and the heat dissipation fan 302, and the inside of fan plate 301 is through the surface fixed connection all around of a powerful glue and heat dissipation fan 302, be provided with No. two powerful glues between thermovent 303 and the heating panel 304, and the surface all around of thermovent 303 is through the inside fixed connection of No. two powerful glues and heating panel 304, make the control room can not be overheated.

Principle of operation

The utility model discloses a by waste heat conversion device main part 1, heat preservation stabilizing mean 2, heat dissipation mechanism 3, heat converter 4, water pump 5, heat preservation 201, waterproof layer 202, buffer layer 203, fan plate 301, heat dissipation fan 302, thermovent 303, parts such as heating panel 304 constitute, firstly, when needing to carry out waste heat conversion to the air compressor machine, the staff opens waste heat conversion device main part 1 and make it operate, then hot oil inside the air compressor machine gets into heat converter 4 inside waste heat conversion device main part 1, heat energy heats water in heat converter 4, then water pump 5 sucks away the water that has heated, cold water gets into heat converter 4 again and heats inherently, and the hot oil that flows in heat converter 4 can carry out heat conversion with water, make hot oil can cool down, because heat converter 4 can not hundred percent conversion, heat energy can be dispersed inside waste heat conversion device main part 1, the contact of remaining heat energy can with the heat preservation 201 among the heat preservation stabilizing mean 2, because the heat preservation 201 material is polyester fiber, can be effectual stay remaining heat inside waste heat conversion device main part 1, wherein buffer layer 203 can effectually reduce rocking of waste heat conversion device main part 1 at the conversion process, secondly because the inside waste heat of waste heat conversion device main part 1 can lead to the control room in waste heat conversion device main part 1 to be heated up, can effectively cool down through increasing heat dissipation mechanism 3, when the waste heat arrives the control room, heat dissipation fan 302 on fan board 301 rotates under the rotating electrical machines effect, rotatory heat dissipation fan 302 can drive the hot-air of control room the inside, the air that flows can follow heat dissipation fan 302 and the thermovent 303 on the heating panel 304 and flow to the external world, bring certain cooling effect for the control room.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention 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 (6)

1. The utility model provides an air compressor machine waste heat conversion cyclic utilization device, includes waste heat conversion device main part (1), its characterized in that: the outer wall of waste heat conversion device main part (1) is provided with heat preservation stabilizing mean (2), the upper end one side surface of waste heat conversion device main part (1) is provided with heat dissipation mechanism (3), the inside of waste heat conversion device main part (1) is provided with water pump (5), the inside of waste heat conversion device main part (1) is provided with heat converter (4), heat converter (4) are located one side of water pump (5), heat preservation stabilizing mean (2) include heat preservation (201), waterproof layer (202) and buffer layer (203).

2. The air compressor waste heat conversion and recycling device of claim 1, characterized in that: a first fixing glue is arranged between the waste heat conversion device main body (1) and the heat preservation stabilizing mechanism (2), the outer wall of the waste heat conversion device main body (1) is fixedly connected with the inner wall of the heat preservation stabilizing mechanism (2) through a first fixing glue, a first fixing bolt is arranged between the waste heat conversion device main body (1) and the heat dissipation mechanism (3), and the outer surface of one side of the upper end of the waste heat conversion device main body (1) is fixedly connected with the outer surface of one side of the heat dissipation mechanism (3) through a first fixing bolt, a second fixing bolt is arranged between the waste heat conversion device main body (1) and the heat converter (4), the interior of the waste heat conversion device main body (1) is fixedly connected with the outer surface of the rear end of the heat converter (4) through a second fixing bolt, the waste heat conversion device main body (1) and the water pump (5) are integrally formed.

3. The air compressor waste heat conversion and recycling device of claim 1, characterized in that: the heat-insulating layer (201) is located on one side of the waterproof layer (202), and the buffer layer (203) is located on the other side of the waterproof layer (202).

4. The air compressor waste heat conversion and recycling device of claim 3, characterized in that: be provided with the fixed glue No. two between heat preservation (201) and waterproof layer (202), and the one side surface of heat preservation (201) is connected through the fixed glue of No. two and one side surface fixed connection of waterproof layer (202), be provided with the fixed glue No. three between waterproof layer (202) and buffer layer (203), and the opposite side surface of waterproof layer (202) is connected through the fixed glue of No. three and one side surface fixed connection of buffer layer (203).

5. The air compressor waste heat conversion and recycling device of claim 3, characterized in that: the heat dissipation mechanism (3) comprises a fan plate (301), a heat dissipation fan (302), a heat dissipation port (303) and a heat dissipation plate (304), wherein the fan plate (301) is located on one side of the heat dissipation port (303), the heat dissipation fan (302) is located inside the fan plate (301), and the heat dissipation plate (304) is located inside the heat dissipation port (303).

6. The air compressor waste heat conversion and recycling device of claim 5, characterized in that: be provided with fixing bolt No. three between fan plate (301) and thermovent (303), and the one side surface of fan plate (301) is through the one side fixed surface connection of fixing bolt No. three and thermovent (303), be provided with a powerful glue between fan plate (301) and heat dissipation fan (302), and the inside of fan plate (301) is through the surface fixed connection all around of a powerful glue and heat dissipation fan (302), be provided with No. two powerful glues between thermovent (303) and heating panel (304), and the surface all around of thermovent (303) is through the inside fixed connection of No. two powerful glues and heating panel (304).

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