CN210495840U - Energy-saving adsorption type gas drying device - Google Patents

Abstract

An energy-saving adsorption type gas drying device comprises a base, a box body, a water absorption layer and a heat exchange bin; the box body is provided with an air extractor which is arranged at an air outlet of the box body; the box body is provided with a display panel and a control area; the heat exchange bin is arranged inside the box body; a plurality of matrix-type condenser pipes are arranged in the heat exchange bin, and guide pipes are arranged at two ends of each condenser pipe; the top of the box body is provided with a radiator; the top of the heat exchange bin is provided with a compressor and an expansion valve; the guide pipe at one side of the condensing pipe is connected to the inlet end of the radiator through the compressor; the conduit on the other side of the condenser pipe is connected to the discharge end of the radiator through an expansion valve; the water absorption layer is inserted into the box body from the mounting groove on the box body, is positioned on one side of the box body facing the air draft device, and is detachably connected with the box body; the utility model dehumidifies in a cooling mode, and has good dehumidification effect; compared with a heating and drying mode, the energy consumption is low, and the energy is saved.

Description

Energy-saving adsorption type gas drying device

Technical Field

The utility model relates to a drying device technical field especially relates to an energy-saving absorption formula gas drying device.

Background

For basements and underground garages with large spaces, the air in the basements and the underground garages is humid; moisture-proof measures are required when articles are stored in a basement or an underground garage, the moisture-proof measures are generally taken in the prior art by a method of splashing a desiccant, the moisture degree of air directly influences the using amount of the desiccant, the desiccant is wasted when the using amount is large, and the moisture-proof effect is poor when the using amount is too small; the device that also has some air to carry out the drying among the prior art, but most of them are through the mode of electrical heating, heat the air and make the steam evaporate, carry out the drying, through this kind of mode power consumption higher, use cost is higher.

In order to solve the above problems, the present application provides an energy-saving adsorption type gas drying device.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

In order to solve the technical problems that the prior art in the background art also has a device for partially drying air, but most of the devices heat the air in an electric heating mode to evaporate water vapor and dry the air, so that the power consumption is higher and the use cost is higher, the utility model provides an energy-saving adsorption type gas drying device, the utility model dehumidifies in a cooling mode, and has good dehumidification effect; compared with a heating and drying mode, the energy consumption is low, and the energy is saved.

(II) technical scheme

In order to solve the problems, the utility model provides an energy-saving adsorption type gas drying device, which comprises a base, a box body, a water absorption layer and a heat exchange bin;

the box body is arranged on the base, one side of the box body is provided with an air inlet, and the other side of the box body is provided with an air outlet; the box body is provided with an air extractor which is arranged at an air outlet of the box body; the box body is provided with a display panel and a control area; the top of the box body is provided with an installation groove;

the heat exchange bin is arranged in the box body, a guide plate is arranged on one side of the heat exchange bin, which faces the air inlet, the guide plate is arranged in a horn shape, and the diameter of the guide plate is gradually increased in the direction of the air inlet; a plurality of matrix-type condenser pipes are arranged in the heat exchange bin, and guide pipes are arranged at two ends of each condenser pipe; the top of the box body is provided with a radiator; the top of the heat exchange bin is provided with a compressor and an expansion valve; the guide pipe at one side of the condensing pipe is connected to the inlet end of the radiator through the compressor; the conduit on the other side of the condenser pipe is connected to the discharge end of the radiator through an expansion valve; the bottom of the heat exchange bin is provided with a water storage tank which is communicated and connected with the heat exchange bin through a pipeline, and the bottom of the water storage tank is provided with a drain pipe which is discharged out of the device from the base;

the water absorption layer is inserted into the box body from the mounting groove on the box body, is positioned on one side of the box body facing the air draft device, is detachably connected with the box body, and is provided with an air channel between the water absorption layer and the heat exchange bin; the air duct is obliquely arranged, and the height of the air duct is gradually reduced from the heat exchange bin to the water absorption layer.

Preferably, the box body is provided with a dust screen which is arranged on an air inlet of the box body.

Preferably, the radiator, the conduit, the expansion valve, the condenser pipe and the compressor constitute a refrigeration cycle; refrigerant circulates in the radiator, the guide pipe, the expansion valve, the condensation pipe and the compressor.

Preferably, the water absorbing layer is filled with silica gel desiccant.

Preferably, the bottom of the box body is provided with a clamping part, and the clamping part is in matched clamping connection with the bottom of the water absorption layer; the clamping part is provided with a rotating part, and the rotating part is provided with a pressing plate rotating around the rotating part; the rotating piece is sleeved with a volute spiral spring; the bottom of the clamping part is provided with a contact piece which is in communication connection with the control area.

Preferably, the top of the water absorption layer is provided with a handle convenient for installation.

Preferably, the air extraction means extracts air from the air inlet towards the air outlet.

Preferably, the inner wall of the heat exchange bin is provided with a heat insulation layer, and the thickness of the heat insulation layer is larger than or equal to 50 mm.

Preferably, a plurality of heat exchange fins for increasing the contact area with air are arranged on the periphery of the condensing pipe in an annular array.

The above technical scheme of the utility model has following profitable technological effect: starting an air draft device; the moist air enters the interior of the box body from the air inlet of the box body; the air inlet is provided with a horn-shaped guide plate, so that moist air entering the box body is more easily contacted with the guide plate; the radiator, the guide pipe, the expansion valve, the condensation pipe and the compressor form a refrigeration cycle; refrigerant circularly flows in the radiator, the guide pipe, the expansion valve, the condenser pipe and the compressor; when moist air enters the heat exchange bin, the moist air is contacted with the condensing tube, and a plurality of heat exchange fins for increasing the contact area with the air are arranged on the periphery of the condensing tube in an annular array; the temperature of the condensing pipe is low, the moist air is continuously contacted with the heat exchange sheet and the condensing pipe, so that the temperature of the moist air is gradually reduced, water vapor in the air is gradually condensed along with the reduction of the temperature of the air and reaches a saturated state, and when the dew point of the air is continuously reduced, the water vapor in the air is changed into condensed water and is separated out; the separated water is discharged out of the device through the water storage tank and the water outlet pipe; then the air enters the water absorption layer through the air duct, a small amount of water in the air is absorbed by the water absorption layer, and the air finally discharged out of the device from the air outlet is dry air; the utility model dehumidifies in a cooling mode, and has good dehumidification effect; compared with a heating and drying mode, the energy consumption is low, and the energy is saved.

Drawings

Fig. 1 is a schematic structural diagram of the energy-saving adsorption gas drying device provided by the utility model.

Fig. 2 is the internal structure schematic diagram of the energy-saving adsorption type gas drying device provided by the utility model.

Fig. 3 is a schematic structural diagram of a condenser tube in the energy-saving adsorption gas drying device provided by the present invention.

Fig. 4 is a schematic structural view of the clamping portion in the energy-saving adsorption gas drying device provided by the present invention.

Reference numerals: 1. an air extraction device; 2. a box body; 3. mounting grooves; 4. a heat sink; 5. a dust screen; 6. an air inlet; 7. a base; 8. a drain pipe; 9. a display panel; 10. a control area; 11. a water-absorbing layer; 12. a handle; 13. a clamping part; 131. a rotating member; 132. pressing a plate; 133. a contact piece; 14. an expansion valve; 15. a compressor; 16. a condenser tube; 17. a water storage tank; 18. a baffle; 19. an air duct; 20. a heat exchanger fin; 21. and a heat exchange bin.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the energy-saving adsorption-type gas drying device provided by the present invention comprises a base 7, a box body 2, a water absorption layer 11 and a heat exchange chamber 21;

the box body 2 is arranged on the base 7, one side of the box body 2 is provided with an air inlet 6, and the other side is provided with an air outlet; the box body 2 is provided with an air extractor 1, and the air extractor 1 is arranged at an air outlet of the box body 2; the box body 2 is provided with a display panel 9 and a control area 10; the top of the box body 2 is provided with a mounting groove 3;

the heat exchange bin 21 is arranged in the box body 2, one side of the heat exchange bin 21, which faces the air inlet 6, is provided with a guide plate 18, the guide plate 18 is arranged in a horn shape, and the diameter of the guide plate 18 is gradually increased in the direction facing the air inlet 6; a plurality of matrix-type condensation pipes 16 are arranged in the heat exchange bin 21, and guide pipes are arranged at two ends of each condensation pipe 16; the top of the box body 2 is provided with a radiator 4; the top of the heat exchange bin 21 is provided with a compressor 15 and an expansion valve 14; a conduit on the side of the condenser tube 16 is connected to the inlet end of the radiator 4 via a compressor 15; a conduit on the other side of the condenser pipe 16 is connected to the discharge end of the radiator 4 via the expansion valve 14; the bottom of the heat exchange bin 21 is provided with a water storage tank 17, the water storage tank 17 is communicated and connected with the heat exchange bin 21 through a pipeline, the bottom of the water storage tank 17 is provided with a drain pipe 8, and the drain pipe 8 is discharged out of the device from the base 7;

the water absorption layer 11 is inserted into the box body 2 from the mounting groove 3 on the box body 2, the water absorption layer 11 is positioned on one side of the box body 2 facing the air draft device, the water absorption layer 11 is detachably connected with the box body 2, and an air channel 19 is arranged between the water absorption layer 11 and the heat exchange bin 21; the air duct 19 is obliquely arranged, and the height of the air duct 19 gradually decreases from the heat exchange bin 21 to the water absorption layer 11.

In the utility model, the air draft device is started; the moist air enters the interior of the box body from the air inlet of the box body; the air inlet is provided with a horn-shaped guide plate, so that moist air entering the box body is more easily contacted with the guide plate; the radiator 4, the conduit, the expansion valve 14, the condenser pipe 16 and the compressor 15 constitute a refrigeration cycle; refrigerant circulates inside the radiator 4, the conduit, the expansion valve 14, the condenser pipe 16 and the compressor 15; when moist air enters the heat exchange bin, the moist air is contacted with the condensing tube, and a plurality of heat exchange fins 20 for increasing the contact area with the air are arranged on the periphery of the condensing tube 16 in an annular array; the temperature of the condensing pipe is low, the moist air is continuously contacted with the heat exchange sheet and the condensing pipe, so that the temperature of the moist air is gradually reduced, water vapor in the air is gradually condensed along with the reduction of the temperature of the air and reaches a saturated state, and when the dew point of the air is continuously reduced, the water vapor in the air is changed into condensed water and is separated out; the separated water is discharged out of the device through the water storage tank and the water outlet pipe; then the air enters the water absorption layer through the air duct, a small amount of water in the air is absorbed by the water absorption layer, and the air finally discharged out of the device from the air outlet is dry air; the utility model dehumidifies in a cooling mode, and has good dehumidification effect; compared with a heating and drying mode, the energy consumption is low, and the energy is saved.

In an alternative embodiment, the box body 2 is provided with a dust screen 5, and the dust screen 5 is covered on the air inlet 6 of the box body 2.

In an alternative embodiment, the radiator 4, the conduit, the expansion valve 14, the condensation duct 16, and the compressor 15 constitute a refrigeration cycle; refrigerant circulates inside the radiator 4, the pipe, the expansion valve 14, the condenser pipe 16, and the compressor 15.

In an alternative embodiment, the water absorbent layer 11 is filled with a silica gel desiccant.

In an optional embodiment, the bottom of the box body 2 is provided with a clamping portion 13, and the clamping portion 13 is in matched clamping connection with the bottom of the water absorption layer 11; the clamping part 13 is provided with a rotating part 131, and the rotating part 131 is provided with a pressing plate 132 rotating around the rotating part 131; a spiral spring is sleeved on the rotating part 131; the bottom of the clamping part 13 is provided with a contact piece 133, and the contact piece 133 is in communication connection with the control area 10; when the water-absorbing layer 11 is installed, the bottom of the water-absorbing layer 11 presses the pressing plate 132 to move downward, and when the pressing plate 132 contacts the contact sheet 133, the control area 10 obtains a feedback signal, determines that the water-absorbing layer 11 is installed correctly, and displays related information on the display panel 9.

In an alternative embodiment, the top of the water absorbent layer 11 is provided with a handle 12 for ease of installation.

In an alternative embodiment, the air extraction device 1 extracts air from the air inlet 6 towards the air outlet.

In an optional embodiment, an insulating layer is arranged on the inner wall of the heat exchange bin 21, and the thickness of the insulating layer is greater than or equal to 50mm, so that the heat exchange between the heat exchange bin 21 and outside air is reduced, the temperature in the heat exchange bin 21 is kept low, and the drying of humid air is facilitated.

In an alternative embodiment, the condenser tube 16 is provided with a plurality of fins 20 arranged in an annular array on the outer circumference thereof for increasing the contact area with the air.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. An energy-saving adsorption type gas drying device is characterized by comprising a base (7), a box body (2), a water absorbing layer (11) and a heat exchange bin (21);

the box body (2) is arranged on the base (7), one side of the box body (2) is provided with an air inlet (6), and the other side is provided with an air outlet; the box body (2) is provided with an air extractor (1), and the air extractor (1) is arranged at an air outlet of the box body (2); a display panel (9) and a control area (10) are arranged on the box body (2); the top of the box body (2) is provided with a mounting groove (3);

the heat exchange bin (21) is arranged in the box body (2), one side of the heat exchange bin (21) facing the air inlet (6) is provided with a guide plate (18), the guide plate (18) is arranged in a horn shape, and the diameter of the guide plate (18) in the direction facing the air inlet (6) is gradually increased; a plurality of matrix-type condensation pipes (16) are arranged in the heat exchange bin (21), and guide pipes are arranged at two ends of each condensation pipe (16); a radiator (4) is arranged at the top of the box body (2); the top of the heat exchange bin (21) is provided with a compressor (15) and an expansion valve (14); the conduit on one side of the condenser pipe (16) is connected to the inlet end of the radiator (4) through the compressor (15); a conduit on the other side of the condensation pipe (16) is connected to the discharge end of the radiator (4) through an expansion valve (14); a water storage tank (17) is arranged at the bottom of the heat exchange bin (21), the water storage tank (17) is in conduction connection with the heat exchange bin (21) through a pipeline, a drain pipe (8) is arranged at the bottom of the water storage tank (17), and the drain pipe (8) is discharged out of the device from the base (7);

the water absorbing layer (11) is inserted into the box body (2) from the mounting groove (3) on the box body (2), the water absorbing layer (11) is positioned on one side of the box body (2) facing the air draft device, the water absorbing layer (11) is detachably connected with the box body (2), and an air channel (19) is arranged between the water absorbing layer (11) and the heat exchange bin (21); the air duct (19) is obliquely arranged, and the height of the air duct (19) is gradually reduced from the heat exchange bin (21) to the inner part of the water absorption layer (11).

2. The energy-saving adsorption gas drying device according to claim 1, wherein the box body (2) is provided with a dust screen (5), and the dust screen (5) is covered on the air inlet (6) of the box body (2).

3. The energy-saving adsorption gas drying apparatus according to claim 1, wherein the radiator (4), the conduit, the expansion valve (14), the condensation pipe (16), and the compressor (15) constitute a refrigeration cycle; refrigerant circulates in the radiator (4), the conduit, the expansion valve (14), the condenser pipe (16) and the compressor (15).

4. Energy-saving adsorptive gas drying device according to claim 1, wherein said water-absorbing layer (11) is filled with silica gel desiccant.

5. The energy-saving adsorption type gas drying device according to claim 1, wherein a clamping portion (13) is arranged at the bottom of the box body (2), and the clamping portion (13) is connected with the bottom of the water absorbing layer (11) in a matched clamping manner; the clamping part (13) is provided with a rotating part (131), and the rotating part (131) is provided with a pressing plate (132) rotating around the rotating part (131); a volute spiral spring is sleeved on the rotating piece (131); the bottom of the clamping part (13) is provided with a contact piece (133), and the contact piece (133) is in communication connection with the control area (10).

6. The energy saving adsorption gas drying apparatus according to claim 1, wherein the top of the water absorbing layer (11) is provided with a handle (12) for easy installation.

7. Energy-efficient adsorption gas drying unit according to claim 1, characterized in that the gas extraction device (1) extracts gas from the gas inlet (6) towards the gas outlet.

8. The energy-saving adsorption gas drying device according to claim 1, wherein the inner wall of the heat exchange bin (21) is provided with an insulating layer, and the thickness of the insulating layer is greater than or equal to 50 mm.

9. The energy saving adsorptive gas drying unit according to claim 1, wherein said condensing tubes (16) are provided with a plurality of heat exchanging fins (20) in an annular array on the outer circumference thereof for increasing the contact area with air.

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