CN111158442A

CN111158442A - Computer waste heat utilization device and utilization method

Info

Publication number: CN111158442A
Application number: CN201911196313.8A
Authority: CN
Inventors: 郜东瑞; 王征炬; 周辉; 冯李逍; 彭茂琴; 张云霞; 张永清; 陈海宁
Original assignee: Chengdu University of Information Technology
Current assignee: Chengdu University of Information Technology
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-05-15

Abstract

The embodiment of the invention discloses a computer waste heat utilization device and a utilization method, and particularly relates to the field of computers. The invention can regulate and control the utilization of waste heat according to the change of seasons, when the climate is cold, the waste heat is utilized by the first waste heat utilization mechanism, when the climate is suitable or hot, the waste heat is utilized by the second waste heat utilization mechanism, the interior of the main case is conveniently cooled in the using process, and the service life of the main case is prolonged.

Description

Computer waste heat utilization device and utilization method

Technical Field

The embodiment of the invention relates to the field of computers, in particular to a computer waste heat utilization device and a computer waste heat utilization method.

Background

The existing computer can generate a large amount of heat during working, the heat is discharged from the computer shell by a heat dissipation device of the computer, at first, because the working frequency of the computer is lower, the heat productivity of some working elements of the computer, such as a central processing unit, a display card chip and the like is smaller, along with the upgrading and updating of the computer chip, the working frequency of the working elements of the central processing unit, the display card chip and the like is continuously increased, the heat productivity is also continuously increased, and thus, a large amount of generated waste heat is discharged from the computer, which is energy waste.

The prior art has the following defects: the existing computer waste heat utilization device has poor utilization mode of waste heat generated by a computer, can only simply extract internal heat, and cannot be applied more reasonably.

Disclosure of Invention

Therefore, the invention provides a computer waste heat utilization device and a utilization method thereof, which can regulate and control the utilization of waste heat according to the change of seasons, utilize the waste heat through a first waste heat utilization mechanism when the climate is cold, utilize the waste heat through a second waste heat utilization mechanism when the climate is suitable or hot, effectively utilize the waste heat in the use process, conveniently cool the interior of a main case, and prolong the service life of the main case, so as to solve the problem that the prior art can only simply extract the heat in the interior and cannot be more reasonably applied due to poor utilization mode of the waste heat generated by a computer.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions: a computer waste heat utilization device comprises a mainframe box, wherein an induced air cover is installed on the outer wall of a rear wall heat exhaust hole of the mainframe box, a net rack is connected to the inner side, corresponding to the port of the induced air cover, of the inner wall of the mainframe box, a filter screen is installed inside the net rack, a control switch is arranged on the rear wall of the mainframe box, close to the upper side of the induced air cover, one end of the induced air cover is connected with a first air pipe, one end of the first air pipe is connected with an air inlet end of a first negative pressure fan, an air outlet end of the first negative pressure fan is connected with a three-way pipe through a pipe body, one port of the three-way pipe is connected with a second air pipe, a first valve is installed on the second air pipe, one end of the second air pipe is connected with a first waste heat utilization mechanism, and the first waste heat utilization mechanism is composed of a silica gel sleeve, an air pipe interface, the outer wall connection of silica gel cover has the trachea interface, trachea interface and the tracheal tip sealing connection of second, the tapetum has been cup jointed to the outside of silica gel cover, the top on tapetum is sewed up and is connected with the cotton cover of weaving, be provided with the warm hand groove between cotton cover of weaving and the tapetum, the inside that is located the trachea interface of silica gel cover is connected with the metal and connects the trachea, metal connects trachea and trachea interface intercommunication, and metal connects tracheal one end to be connected with metal gas distribution pipe, metal gas distribution pipe's both ends all are connected with metal coil pipe, and the outer wall of silica gel cover all extends out to the port of giving vent to anger of two metal coil pipes.

Another port of three-way pipe is connected with second waste heat utilization mechanism, and second waste heat utilization mechanism comprises third trachea, air compressor, condenser, album liquid box, third trachea, second negative pressure air fan and play wind cover, the tracheal one end of third is connected with the port of three-way pipe, and installs the second valve on the third trachea, the tracheal one end of third is connected with air compressor, air compressor's one end is connected with the condenser through the body, the bottom of condenser is provided with album liquid box, and the top of condenser is connected with the third trachea, the tracheal one end of third is connected at second negative pressure air fan's air inlet end, second negative pressure air fan sets up in top one side of mainframe box, and the air-out end of second negative pressure air fan is connected with out the wind cover through the body, it goes out wind cover fixed connection at the top outer wall of mainframe box to go out.

Further, the edge of the net rack is fixedly connected with the inner wall of the mainframe box through bolts.

Furthermore, the edge of the induced draft cover is fixedly connected with the outer wall of the mainframe box through bolts, and a rubber sealing ring is arranged at the edge of the connection position.

Further, the trachea interface is a component made of silica gel, and the trachea interface and the silica gel sleeve are bonded and fixed through hot melt adhesive.

Further, the metal coil pipe is communicated with the air pipe connector through a metal air receiving pipe, and an air hole is formed in the end portion, corresponding to the metal air receiving pipe, of the outer wall of the silica gel sleeve.

Furthermore, a through hole is formed in the outer wall of the mainframe box corresponding to the inner side of the air outlet cover.

Furthermore, the edge of the air outlet cover is fixedly connected with the outer wall of the mainframe box through a bolt, and a rubber sealing ring is arranged at the joint.

A computer waste heat utilization method comprises the following specific steps:

step one, regulating and controlling the utilization of waste heat according to the change of seasons, and when the climate is cold, opening a first valve by closing a second valve and starting a first negative pressure fan to operate so as to pump out heat in the main case and exhaust the heat to the interior of a second air pipe;

secondly, discharging heat into the first waste heat utilization mechanism through a second air pipe, enabling the heat to sequentially enter the metal air receiving pipe through an air pipe connector in the process of discharging the heat into the first waste heat utilization mechanism, then performing the inside of a metal air distributing pipe from the inside of the metal air receiving pipe, and then entering the inside of the metal coil pipe from the inside of the metal air distributing pipe;

step three, the structural design of the metal coil pipe enables heat to be dispersed to each position of the silica gel sleeve, and then the heat is transferred to the silica gel sleeve, so that the silica gel sleeve generates heat, and an effect similar to a hot water bag is formed, a user can use the metal coil pipe as required, and the arranged textile cotton sleeve enables the user to stretch hands into the hand warming groove for hand warming treatment;

step four, when the climate is suitable or hot, closing the first valve, opening the second valve, starting the first negative pressure fan and the second negative pressure fan, and pumping out the heat in the main case to the interior of the third air pipe;

and step five, compressing the hot air by an air compressor, discharging the compressed hot air into the condenser for condensation heat exchange treatment, collecting the dropped liquid by a liquid collecting box, flowing the cold air in the condenser into the third air pipe in a cold air flow mode by a second negative pressure fan, and finally discharging the cold air to the inside of the mainframe box through an air outlet cover to form circulation.

The embodiment of the invention has the following advantages: the invention can regulate and control the utilization of waste heat according to the change of seasons, when the climate is cold, the waste heat is utilized by the first waste heat utilization mechanism, the principle is that the second valve is closed, the first valve is opened, the first negative pressure fan is started to operate, the heat in the main case is extracted, the heat is discharged into the first waste heat utilization mechanism through the second air pipe, the heat sequentially enters the metal air receiving pipe through the air pipe connector in the process of being discharged into the first waste heat utilization mechanism, then the metal air distributing pipe is arranged in the metal air receiving pipe, and then the metal air distributing pipe enters the metal coil pipe from the metal air distributing pipe, the structural design of the metal coil pipe enables the heat to be dispersed to each position of the silica gel sleeve, further the heat is transferred to the silica gel sleeve, the silica gel sleeve heats, the effect similar to a hot water bag is formed, and a user can use the hot water bag as required, the arranged textile cotton sleeve enables a user to stretch hands into the hand warming groove for hand warming treatment, is convenient to carry and not easy to fall off, and further achieves effective utilization of waste heat generated inside the computer case in cold seasons; when the climate is suitable or hot, the waste heat is utilized through the second waste heat utilization mechanism, the principle is that the first valve is closed, the second valve is opened, the first negative pressure fan and the second negative pressure fan are started, the heat in the main case is extracted and discharged to the inside of the third air pipe, the hot air is compressed through the air compressor and then discharged to the inside of the condenser for condensation heat exchange treatment, the dripped liquid is collected through the liquid collection box, the cold air in the condenser flows into the inside of the third air pipe in a cold air flow mode through the second negative pressure fan, and finally is discharged to the inside of the main case through the air outlet cover to form circulation, the cooling treatment is conveniently carried out on the inside of the main case, and the service life of the main case is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of an induced draft cover according to the present invention;

FIG. 3 is a schematic structural diagram of a three-way pipe in the invention;

FIG. 4 is a schematic view of the connection structure of the strainer and the net frame of the present invention;

FIG. 5 is a schematic structural view of a waste heat utilizing mechanism according to the present invention;

FIG. 6 is a schematic view of the internal structure of the silica gel case of the present invention;

FIG. 7 is a schematic view of the installation structure of the metal coil pipe according to the present invention;

in the figure: the device comprises a main case 1, a control switch 2, a net rack 3, a draught hood 4, a first air pipe 5, a first negative pressure fan 6, a three-way pipe 7, a second air pipe 8, a first valve 9, a first waste heat utilization mechanism 10, a third air pipe 11, a second valve 12, an air compressor 13, a condenser 14, a liquid collection box 15, a third air pipe 16, a second negative pressure fan 17, an air outlet hood 18, a filter screen 31, a silica gel sleeve 101, an air pipe interface 102, a fluff layer 103, a textile cotton sleeve 104, a hand warming tank 105, a metal air receiving pipe 106, a metal air distributing pipe 107 and a metal coil pipe 108.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7 of the specification, the waste heat utilization device for the computer of this embodiment includes a main chassis 1, an induced air cover 4 is installed on an outer wall of a rear wall heat exhaust hole of the main chassis 1, a net rack 3 is connected to an inner side of an inner wall of the main chassis 1 corresponding to a port of the induced air cover 4, a filter screen 31 is installed inside the net rack 3, a control switch 2 is arranged on the rear wall of the main chassis 1 near the induced air cover 4, one end of the induced air cover 4 is connected with a first air pipe 5, one end of the first air pipe 5 is connected to an air inlet end of a first negative pressure fan 6, an air outlet end of the first negative pressure fan 6 is connected with a three-way pipe 7 through a pipe body, one port of the three-way pipe 7 is connected with a second air pipe 8, a first valve 9 is installed on the second air pipe 8, one end of the second air pipe 8 is connected with a first waste heat utilization mechanism 10, and, The outer wall of the silica gel sleeve 101 is connected with the air pipe interface 102, the end portion of the air pipe interface 102 and the second air pipe 8 is connected with the end portion of the second air pipe 8 in a sealing mode, the fluff layer 103 is sleeved outside the silica gel sleeve 101, the top end of the fluff layer 103 is connected with the textile cotton sleeve 104 in a sewing mode, the hand warming groove 105 is formed between the textile cotton sleeve 104 and the fluff layer 103, the metal air receiving pipe 106 is connected to the inner side, located on the air pipe interface 102, of the silica gel sleeve 101, the metal air receiving pipe 106 is communicated with the air pipe interface 102, one end of the metal air receiving pipe 106 is connected with the metal air distributing pipe 107, the two ends of the metal air distributing pipe 107 are connected with the metal coil pipes 108, and the air outlet ports of the two metal coil pipes 108 extend out of the outer wall of the silica gel sleeve 101.

The other port of the three-way pipe 7 is connected with a second waste heat utilization mechanism, the second waste heat utilization mechanism is composed of a third air pipe 11, an air compressor 13, a condenser 14, a liquid collecting box 15, a third air pipe 16, a second negative pressure fan 17 and an air outlet cover 18, one end of the third air pipe 11 is connected with the port of the three-way pipe 7, a second valve 12 is installed on the third air pipe 11, one end of the third air pipe 11 is connected with the air compressor 13, one end of the air compressor 13 is connected with the condenser 14 through a pipe body, the liquid collecting box 15 is arranged at the bottom of the condenser 14, the top end of the condenser 14 is connected with the third air pipe 16, one end of the third air pipe 16 is connected with the air inlet end of the second negative pressure fan 17, the second negative pressure fan 17 is arranged on one side of the top of the main case 1, and the air outlet end of the second negative pressure fan 17, the air outlet cover 18 is fixedly connected to the outer wall of the top of the main case 1.

Further, pass through bolt fixed connection between the edge of rack 3 and the inner wall of mainframe box 1, the installation of the rack 3 of being convenient for is fixed.

Furthermore, the edge of the induced air cover 4 is fixedly connected with the outer wall of the mainframe box 1 through bolts, and a rubber sealing ring is arranged at the edge of the joint, so that the induced air cover 4 can be conveniently installed and fixed, and the sealing performance of the joint of the induced air cover 4 is improved.

Further, the air pipe connector 102 is a component made of a silica gel material, and the air pipe connector 102 and the silica gel sleeve 101 are bonded and fixed through a hot melt adhesive, so that the air pipe connector 102 and the silica gel sleeve 101 are conveniently connected and fixed.

Further, the metal coil 108 is communicated with the air pipe connector 102 through a metal air receiving pipe 106, and an air hole is formed in the outer wall of the silica gel sleeve 101 corresponding to the end of the metal air receiving pipe 106, so that hot air can flow in conveniently.

Furthermore, the outer wall of the main cabinet 1 is provided with a through hole at the position corresponding to the inner side of the air outlet cover 18, so that the cold air flowing out of the inside of the air outlet cover 18 can enter the inside of the main cabinet 1.

Furthermore, the edge of the air outlet cover 18 is fixedly connected with the outer wall of the mainframe box 1 through a bolt, and a rubber sealing ring is arranged at the joint, so that the air outlet cover 18 is convenient to install and fix, and the sealing performance of the joint of the air outlet cover 18 is improved.

step one, regulating and controlling the utilization of waste heat according to the change of seasons, and when the climate is cold, opening the first valve 9 by closing the second valve 12 and starting the first negative pressure fan 6 to operate, so that the heat in the main case 1 is extracted and discharged to the inside of the second air pipe 8;

secondly, discharging heat into the first waste heat utilization mechanism 10 through the second air pipe 8, wherein in the process of discharging the heat into the first waste heat utilization mechanism 10, the heat sequentially enters the metal air receiving pipe 106 through the air pipe connector 102, then enters the metal air distributing pipe 107 from the inside of the metal air receiving pipe 106, and then enters the metal coil pipe 108 from the inside of the metal air distributing pipe 107;

thirdly, the structural design of the metal coil 108 enables heat to be dispersed to each position of the silica gel sleeve 101, and then the heat is transferred to the silica gel sleeve 101, so that the silica gel sleeve 101 generates heat, an effect similar to a hot water bag is formed, a user can use the hot water bag as required, and the arranged textile cotton sleeve 104 enables the user to stretch hands into the hand warming groove 105 for hand warming treatment;

step four, when the climate is suitable or hot, the first valve 9 is closed, the second valve 12 is opened, the first negative pressure fan 6 and the second negative pressure fan 17 are started, and heat in the main case 1 is pumped out and exhausted to the inside of the third air pipe 11;

and step five, compressing the hot air by the air compressor 13, discharging the compressed hot air into the condenser 14 for condensation heat exchange treatment, collecting the dropped liquid by the liquid collecting box 15, flowing the cold air in the condenser 14 into the third air pipe 16 in a cold air flow mode by the second negative pressure fan 17, and finally discharging the cold air into the main case 1 through the air outlet cover 18 to form circulation.

The working principle is as follows: when the climate is cold, the waste heat is utilized by the first waste heat utilization mechanism, the principle is that the second valve 12 is closed, the first valve 9 is opened, the first negative pressure fan 6 is started to operate, the heat in the main cabinet 1 is extracted, the heat is discharged into the first waste heat utilization mechanism 10 through the second air pipe 8, in the process of being discharged into the first waste heat utilization mechanism 10, the heat sequentially enters the metal air receiving pipe 106 through the air pipe connector 102, then enters the metal air distributing pipe 107 from the inside of the metal air receiving pipe 106, and then enters the metal coil pipe 108 from the inside of the metal air distributing pipe 107, the structural design of the metal coil pipe 108 enables the heat to be dispersed to each position of the silica gel sleeve 101, and further transmits the heat to the silica gel sleeve 101, so that the silica gel sleeve 101 heats, the effect similar to a hot water bag is formed, and a user can use the heat as required, the arranged textile cotton sleeve 104 enables a user to stretch hands into the hand warming groove 105 for hand warming treatment, is convenient to carry and not easy to fall off, and further effectively utilizes waste heat generated in the computer case in cold seasons; when the climate is suitable or hot, the waste heat is utilized through the second waste heat utilization mechanism, the principle is that the first valve 9 is closed, the second valve 12 is opened, the first negative pressure fan 6 and the second negative pressure fan 17 are started, the heat inside the main case 1 is extracted and discharged to the inside of the third air pipe 11, the hot air is compressed through the air compressor 13 and then discharged to the inside of the condenser 14 for condensation heat exchange treatment, the dropped liquid is collected through the liquid collection box 15, the cold air inside the condenser 14 flows into the inside of the third air pipe 16 in a cold air flow mode through the second negative pressure fan 17 and finally is discharged to the inside of the main case 1 through the air outlet cover 18, circulation is formed, the temperature reduction treatment is conveniently performed on the inside of the main case, and the service life of the main case is prolonged.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A computer waste heat utilization device, comprising a main cabinet (1), characterized in that: an induced draft cover (4) is installed on the outer wall of a rear wall heat exhaust hole of the mainframe box (1), a net rack (3) is connected to the inner side, corresponding to the port of the induced draft cover (4), of the inner wall of the mainframe box (1), a filter screen (31) is installed inside the net rack (3), a control switch (2) is arranged above the rear wall of the mainframe box (1) close to the induced draft cover (4), one end of the induced draft cover (4) is connected with a first air pipe (5), one end of the first air pipe (5) is connected to the air inlet end of a first negative pressure fan (6), the air outlet end of the first negative pressure fan (6) is connected with a three-way pipe (7) through a pipe body, one port of the three-way pipe (7) is connected with a second air pipe (8), a first valve (9) is installed on the second air pipe (8), and one end of the second air pipe (8) is connected, the first waste heat utilization mechanism (10) comprises a silica gel sleeve (101), an air pipe interface (102), a fluff layer (103), a textile cotton sleeve (104), a hand warming groove (105), a metal air receiving pipe (106), a metal air distributing pipe (107) and a metal coil pipe (108), the outer wall of the silica gel sleeve (101) is connected with the air pipe interface (102), the air pipe interface (102) is hermetically connected with the end part of the second air pipe (8), the fluff layer (103) is sleeved outside the silica gel sleeve (101), the textile cotton sleeve (104) is connected with the top end of the fluff layer (103) in a sewing mode, the hand warming groove (105) is arranged between the textile cotton sleeve (104) and the fluff layer (103), the metal air receiving pipe (106) is connected with the inner side of the air pipe interface (102) inside the silica gel sleeve (101), the metal air receiving pipe (106) is communicated with the air pipe interface (102), and one end of the metal air receiving pipe (106) is connected with the metal air distributing pipe (107, the two ends of the metal gas distribution pipe (107) are connected with metal coil pipes (108), and the air outlet ports of the two metal coil pipes (108) extend out of the outer wall of the silica gel sleeve (101).

The other port of the three-way pipe (7) is connected with a second waste heat utilization mechanism, the second waste heat utilization mechanism consists of a third air pipe (11), an air compressor (13), a condenser (14), a liquid collection box (15), a third air pipe (16), a second negative pressure fan (17) and an air outlet cover (18), one end of the third air pipe (11) is connected with the port of the three-way pipe (7), a second valve (12) is installed on the third air pipe (11), one end of the third air pipe (11) is connected with the air compressor (13), one end of the air compressor (13) is connected with the condenser (14) through a pipe body, the liquid collection box (15) is arranged at the bottom of the condenser (14), the top end of the condenser (14) is connected with the third air pipe (16), and one end of the third air pipe (16) is connected with the air inlet end of the second negative pressure fan (17), second negative pressure air fan (17) set up in top one side of mainframe box (1), and the air-out end of second negative pressure air fan (17) is connected with out fan housing (18) through the body, it covers (18) fixed connection at the top outer wall of mainframe box (1) to go out fan housing (18).

2. The computer waste heat utilization device according to claim 1, wherein: the edge of the net rack (3) is fixedly connected with the inner wall of the mainframe box (1) through bolts.

3. The computer waste heat utilization device according to claim 1, wherein: the edge of the induced draft cover (4) is fixedly connected with the outer wall of the mainframe box (1) through bolts, and a rubber sealing ring is arranged at the edge of the connection position.

4. The computer waste heat utilization device according to claim 1, wherein: the trachea interface (102) is a component made of silica gel, and the trachea interface (102) and the silica gel sleeve (101) are bonded and fixed through hot melt adhesive.

5. The computer waste heat utilization device according to claim 1, wherein: the metal coil pipe (108) is communicated with the air pipe connector (102) through a metal air receiving pipe (106), and an air hole is formed in the outer wall of the silica gel sleeve (101) corresponding to the end of the metal air receiving pipe (106).

6. The computer waste heat utilization device according to claim 1, wherein: the outer wall of the mainframe box (1) is provided with a through hole corresponding to the inner side position of the air outlet cover (18).

7. The computer waste heat utilization device according to claim 1, wherein: the edge of the air outlet cover (18) is fixedly connected with the outer wall of the mainframe box (1) through bolts, and a rubber sealing ring is arranged at the joint.

8. The computer waste heat utilization device according to any one of claims 1 to 7, further comprising a computer waste heat utilization method, wherein the computer waste heat utilization method comprises the following specific steps:

step one, regulating and controlling the utilization of waste heat according to the change of seasons, and when the climate is cold, opening a first valve (9) by closing a second valve (12), starting a first negative pressure fan (6) to operate, pumping out heat in a main case (1) and exhausting the heat to the inside of a second air pipe (8);

secondly, discharging heat into the first waste heat utilization mechanism (10) through the second air pipe (8), wherein in the process of discharging the heat into the first waste heat utilization mechanism (10), the heat sequentially enters the metal air connecting pipe (106) through the air pipe connector (102), then enters the metal air distributing pipe (107) from the inside of the metal air connecting pipe (106), and then enters the metal coil pipe (108) from the inside of the metal air distributing pipe (107);

thirdly, the metal coil pipe (108) is structurally designed, so that heat can be dispersed to each position of the silica gel sleeve (101), the heat is further transferred to the silica gel sleeve (101), the silica gel sleeve (101) generates heat, the effect similar to a hot water bag is formed, a user can use the hot water bag as required, and the hand can be stretched into the hand warming groove (105) by the aid of the arranged textile cotton sleeve (104) to be used for hand warming;

step four, when the climate is suitable or hot, the first valve (9) is closed, the second valve (12) is opened, the first negative pressure fan (6) and the second negative pressure fan (17) are started, and heat in the main case (1) is pumped out and exhausted to the inside of the third air pipe (11);

and fifthly, the hot gas is compressed by the air compressor (13) and then discharged into the condenser (14) for condensation heat exchange treatment, the dropped liquid is collected by the liquid collecting box (15), the cold air in the condenser (14) flows into the third air pipe (16) in a cold air flow mode by the second negative pressure fan (17), and finally is discharged into the main case (1) through the air outlet cover (18) to form circulation.