CN220134136U - Waste heat recovery device of air compressor unit - Google Patents

Abstract

The utility model discloses an air compressor unit waste heat recovery device which comprises an air compressor main body, a heat exchange mechanism, a recovery mechanism, a filtering mechanism and a storage tank, wherein the heat exchange mechanism is arranged on one side of the air compressor main body, the recovery mechanism is connected to one side of the heat exchange mechanism, the filtering mechanism is arranged at the bottom of the recovery mechanism, and one side of the bottom of the recovery mechanism is connected to the storage tank. This heat exchange mechanism can carry out the extraction with the inside waste heat of air compressor machine main part, retrieve the conduction with the heat, can effectually reduce the operating temperature of air compressor machine main part, guarantee simultaneously that the waste heat carries out the reutilization, can carry out abundant absorption to the waste heat of retrieving through retrieving the mechanism, make the waste heat can process the water resource, can carry out impurity filtration through the air after the filter mechanism will heating the water, carry out the filtration transmission with this hot air again, be transmitted to indoor by the blast pipe, provide the heating air for indoor, can be the at utmost to the recovery and the utilization of waste heat.

Description

Waste heat recovery device of air compressor unit

Technical Field

The utility model relates to the technical field of air compressors, in particular to an air compressor unit waste heat recovery device.

Background

An air compressor is a device for compressing air, which is a device for converting mechanical energy of a prime motor into air pressure energy and is a pressure generating device for compressing air; the air compressor can be used for compressing fuel gas to enable the pressure of the fuel gas to reach specified requirements. Because the air compressor machine work in-process produces unnecessary waste heat easily, influences the environment, among the prior art, can utilize waste heat recovery device to retrieve the heat in the air compressor machine.

In use, the air compressor waste heat recovery device on the market mostly introduces cold water into the air compressor, then absorbs heat in the air compressor through the cold water, and simultaneously heats the cold water.

Disclosure of Invention

The utility model aims to provide an air compressor unit waste heat recovery device so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an air compressor unit waste heat recovery device, includes air compressor machine main part, heat exchange mechanism, recovery mechanism, filtering mechanism and holding vessel, one side of air compressor machine main part is provided with heat exchange mechanism, and one side of heat exchange mechanism is connected with recovery mechanism, recovery mechanism's bottom is provided with filtering mechanism, recovery mechanism's bottom one side is connected in the holding vessel, heat exchange mechanism includes heat exchange host computer, first heat conduction pipeline and second heat conduction pipeline, and heat exchange host computer's outside one side is provided with first heat conduction pipeline, first heat conduction pipeline's perpendicular bottom is provided with the second heat conduction pipeline.

Furthermore, the first heat conducting pipeline and the second heat conducting pipeline are distributed horizontally and vertically, and the inside of the first heat conducting pipeline and the inside of the second heat conducting pipeline conduct and transport liquid and gaseous heat respectively.

Further, recovery mechanism includes circulation tank, outer insulation box, heat flow pipeline, inlet tube, outlet pipe and control valve, and circulation tank's outside is provided with outer insulation box, circulation tank's surface is provided with the heat flow pipeline, and circulation tank's top is provided with the inlet tube, circulation tank's bottom one side is provided with the outlet pipe, and the top middle part of outlet pipe is provided with the control valve.

Further, the outer heat insulation box body is connected with the circulating water tank in a sleeving manner, and the surface of the circulating water tank is circumferentially attached with a heat flow pipeline.

Furthermore, the water inlet pipe is connected with the top end of the circulating water tank in an embedded mode, and the circulating water tank is connected with the water outlet pipe in an embedded mode.

Further, filtering mechanism includes filter house, filter screen rack, supporting ring frame, sealing washer, blast pipe and outer heat preservation, and the top of filter house is provided with the filter screen rack, the bottom of filter screen rack is connected with the supporting ring frame, and the top of filter screen rack is provided with the sealing washer, one side of filter house is provided with the blast pipe, and the outside of blast pipe is provided with outer heat preservation.

Further, the filter bin is a cylindrical hollow bin body, and a circular opening is formed in the top end of the filter bin.

Further, the filter screen frame is connected with the support ring frame in a clamping way, and the periphery of the top end of the filter screen frame is connected with the sealing ring in a fitting way.

Compared with the prior art, the utility model has the beneficial effects that: this air compressor unit waste heat recovery device is provided with heat exchange mechanism, recovery mechanism and filtering mechanism, and this heat exchange mechanism can carry out the extraction with the inside waste heat of air compressor machine main part, retrieves the conduction with the heat, can effectually reduce the operating temperature of air compressor machine main part, guarantees that the waste heat carries out the reutilization simultaneously, improves energy utilization, reduces the loss.

The recovery mechanism can fully absorb the recovered waste heat, bear the recovery medium, enable the waste heat to process water resources, effectively save the energy loss required by enterprises for heating the water body, achieve multiple uses of the energy, and save the use cost.

The filtering mechanism can filter impurities in air heated by the water body, then the hot air is filtered and transmitted to the room through the exhaust pipe, heating is provided for the room, the waste heat can be recovered and utilized to the greatest extent, and the problem of energy loss waste is fully solved.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a schematic perspective view of a heat exchange mechanism according to the present utility model.

Fig. 3 is a schematic diagram of a three-dimensional splitting structure of the filtering mechanism of the present utility model.

In the figure: 1. an air compressor main body; 2. a heat exchange mechanism; 201. a heat exchange host; 202. a first heat conducting pipe; 203. a second heat conducting pipe; 3. a recovery mechanism; 301. a circulation water tank; 302. an outer insulation box body; 303. a heat flow conduit; 304. a water inlet pipe; 305. a water outlet pipe; 306. a control valve; 4. a filtering mechanism; 401. a filtering bin; 402. a filter screen frame; 403. a support ring frame; 404. a seal ring; 405. an exhaust pipe; 406. an outer thermal insulation layer; 5. a storage tank.

Detailed Description

Example 1

Referring to fig. 1-2, the present utility model provides a technical solution: the utility model provides an air compressor unit waste heat recovery device, including air compressor machine main part 1, heat exchange mechanism 2, retrieve mechanism 3, filtering mechanism 4 and holding vessel 5, one side of air compressor machine main part 1 is provided with heat exchange mechanism 2, and one side of heat exchange mechanism 2 is connected with retrieve mechanism 3, the bottom of retrieve mechanism 3 is provided with filtering mechanism 4, the bottom one side of retrieve mechanism 3 is connected with holding vessel 5, heat exchange mechanism 2 includes heat exchange host 201, first heat conduction pipeline 202 and second heat conduction pipeline 203, and the outside one side of heat exchange host 201 is provided with first heat conduction pipeline 202, the vertical bottom of first heat conduction pipeline 202 is provided with second heat conduction pipeline 203, first heat conduction pipeline 202 and second heat conduction pipeline 203 are the horizontal vertical distribution, and the inside conduction transport to liquid and gaseous heat respectively of first heat conduction pipeline 202 and second heat conduction pipeline 203, the heat exchange mechanism 2 can extract the waste heat in the air compressor main body 1, recover and conduct the heat, can effectively reduce the operation temperature of the air compressor main body 1, simultaneously ensure the secondary utilization of the waste heat, improve the energy utilization rate and reduce the loss, the recovery mechanism 3 comprises a circulating water tank 301, an outer heat insulation box 302, a heat flow pipeline 303, a water inlet pipe 304, a water outlet pipe 305 and a control valve 306, the outer part of the circulating water tank 301 is provided with the outer heat insulation box 302, the surface of the circulating water tank 301 is provided with the heat flow pipeline 303, the top end of the circulating water tank 301 is provided with the water inlet pipe 304, one side of the bottom end of the circulating water tank 301 is provided with the water outlet pipe 305, the middle part of the top end of the water outlet pipe 305 is provided with the control valve 306, the outer heat insulation box 302 is connected with the circulating water tank 301 in a sleeved mode, the surface of the circulating water tank 301 is annularly attached with the heat flow pipeline 303, the water inlet pipe 304 is connected with the top end of the circulating water tank 301 in an embedded mode, and the circulating water tank 301 is connected with the water outlet pipe 305 in an embedded way, the recycling mechanism 3 can fully absorb the recycled waste heat and bear the recycled medium, so that the waste heat can process water resources, the energy loss required by enterprises for heating the water body can be effectively saved, the multiple use of the energy is achieved, and the use cost is saved.

Example 2

Referring to fig. 3, the present utility model provides a technical solution: the utility model provides an air compressor unit waste heat recovery device, including air compressor machine main part 1, heat exchange mechanism 2, retrieve mechanism 3, filter mechanism 4 and holding vessel 5, one side of air compressor machine main part 1 is provided with heat exchange mechanism 2, and one side of heat exchange mechanism 2 is connected with retrieve mechanism 3, the bottom of retrieve mechanism 3 is provided with filter mechanism 4, the bottom one side of retrieve mechanism 3 is connected in holding vessel 5, filter mechanism 4 includes filter cartridge 401, filter screen frame 402, support ring 403, the sealing washer 404, blast pipe 405 and outer thermal insulation layer 406, and the top of filter screen frame 401 is provided with filter screen frame 402, the bottom of filter screen frame 402 is connected with support ring 403, and the top of filter screen frame 402 is provided with sealing washer 404, one side of filter screen frame 401 is provided with blast pipe 405, and the outside of blast pipe 405 is provided with outer thermal insulation layer 406, filter screen frame 401 is cylindric hollow chamber body, and circular opening has been seted up on the top of filter screen frame 401, filter screen frame 402 and support ring 403 block are connected, and a week on the top of filter screen frame 402 is connected with sealing washer 404, this filter mechanism 4 can carry out the filtration to the air after the water heating, the waste can be fully solved to the waste heat recovery, the indoor waste can be solved to the waste of the air, the waste can be fully by the waste of heat can be solved to the indoor waste of the filter screen frame 405.

Working principle: for the air compressor unit waste heat recovery device, firstly, waste heat in the air compressor main body 1 is led out through the first heat conducting pipeline 202 and the second heat conducting pipeline 203 of the heat exchange mechanism 2, then the first heat conducting pipeline 202 is communicated with the heat flow pipeline 303, the heat flow pipeline 303 is used for conducting heat to attach the circulating water tank 301, the external heat preservation box 302 is used for keeping the strength temperature of the circulating water tank 301, the water body after heating is transmitted to the storage tank 5 through the water inlet pipe 304 for storage, the subsequent use is facilitated, then the hot air is filtered through the filter screen frame 402 of the filter bin 401, the hot air is conveyed to the room at constant temperature through the exhaust pipe 405 and the external heat preservation layer 406, and indoor heating is completed, so that the use process of the whole air compressor unit waste heat recovery device is completed.

Claims (8)

1. The utility model provides an air compressor unit waste heat recovery device, includes air compressor machine main part (1), heat exchange mechanism (2), recovery mechanism (3), filtering mechanism (4) and holding vessel (5), its characterized in that: one side of air compressor machine main part (1) is provided with heat exchange mechanism (2), and one side of heat exchange mechanism (2) is connected with recovery mechanism (3), the bottom of recovery mechanism (3) is provided with filtering mechanism (4), bottom one side of recovery mechanism (3) is connected in holding vessel (5), heat exchange mechanism (2) are including heat exchange host computer (201), first heat conduction pipeline (202) and second heat conduction pipeline (203), and outside one side of heat exchange host computer (201) is provided with first heat conduction pipeline (202), the perpendicular bottom of first heat conduction pipeline (202) is provided with second heat conduction pipeline (203).

2. The air compressor unit waste heat recovery device according to claim 1, wherein: the first heat conducting pipeline (202) and the second heat conducting pipeline (203) are horizontally and vertically distributed, and the interiors of the first heat conducting pipeline (202) and the second heat conducting pipeline (203) conduct and transport liquid heat and gaseous heat respectively.

3. The air compressor unit waste heat recovery device according to claim 1, wherein: the recycling mechanism (3) comprises a circulating water tank (301), an outer heat-preserving box body (302), a heat flow pipeline (303), a water inlet pipe (304), a water outlet pipe (305) and a control valve (306), wherein the outer heat-preserving box body (302) is arranged outside the circulating water tank (301), the heat flow pipeline (303) is arranged on the surface of the circulating water tank (301), the water inlet pipe (304) is arranged at the top end of the circulating water tank (301), the water outlet pipe (305) is arranged at one side of the bottom end of the circulating water tank (301), and the control valve (306) is arranged in the middle of the top end of the water outlet pipe (305).

4. The air compressor unit waste heat recovery device according to claim 3, wherein: the outer heat insulation box body (302) is connected with the circulating water tank (301) in a sleeved mode, and a heat flow pipeline (303) is attached to the surface of the circulating water tank (301) in a surrounding mode.

5. The air compressor unit waste heat recovery device according to claim 3, wherein: the water inlet pipe (304) is connected with the top end of the circulating water tank (301) in an embedded mode, and the circulating water tank (301) is connected with the water outlet pipe (305) in an embedded mode.

6. The air compressor unit waste heat recovery device according to claim 1, wherein: the filter mechanism (4) comprises a filter bin (401), a filter screen rack (402), a support ring frame (403), a sealing ring (404), an exhaust pipe (405) and an outer heat preservation layer (406), wherein the filter screen rack (402) is arranged at the top of the filter bin (401), the bottom end of the filter screen rack (402) is connected with the support ring frame (403), the sealing ring (404) is arranged at the top end of the filter screen rack (402), the exhaust pipe (405) is arranged on one side of the filter bin (401), and the outer heat preservation layer (406) is arranged outside the exhaust pipe (405).

7. The air compressor unit waste heat recovery device of claim 6, wherein: the filter bin (401) is a cylindrical hollow bin body, and a circular opening is formed in the top end of the filter bin (401).

8. The air compressor unit waste heat recovery device of claim 6, wherein: the filter screen frame (402) is connected with the supporting ring frame (403) in a clamping way, and the periphery of the top end of the filter screen frame (402) is connected with the sealing ring (404) in a fitting way.