CN113048679A

CN113048679A - A high-efficient heat transfer device for clean air conditioner energy-saving technology of hospital

Info

Publication number: CN113048679A
Application number: CN202110337380.8A
Authority: CN
Inventors: 杨翠翠; 李金林; 朱景平
Original assignee: China Construction Second Bureau Installation Engineering Co Ltd
Current assignee: China Construction Second Bureau Installation Engineering Co Ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2021-06-29
Anticipated expiration: 2041-03-30
Also published as: CN113048679B

Abstract

The invention provides a high-efficiency heat exchange device for a clean air conditioner energy-saving technology of a hospital, relates to the technical field of air conditioner manufacturing, and aims to solve the problems that energy loss and heat exchange efficiency are reduced because a heat exchange plate is a fixed structure and carries heat which cannot be sufficiently taken away by wind of an air blower; the base is of a plate-shaped structure; the mounting piece A is mounted above the base; the first conveying pipe is arranged above the base; the limiting sleeve is arranged on the left side of the first conveying pipe; the limiting plate is arranged above the first conveying pipe; the collecting box is arranged below the base. The installed part A, the bimetallic strip has been installed through the connecting block to installed part B, and heat transfer spare temperature change can make the bimetallic strip take place deformation, and installed part B pivoting certain angle drives the heat transfer spare and rotates, makes the heat transfer spare form certain contained angle, and then increases the area of contact of wind process heat transfer spare, improves heat exchange efficiency.

Description

A high-efficient heat transfer device for clean air conditioner energy-saving technology of hospital

Technical Field

The invention belongs to the technical field of air conditioner manufacturing, and particularly relates to a high-efficiency heat exchange device for a clean air conditioner energy-saving technology in a hospital.

Background

The main use of hospital now is large-scale central air conditioning, needs the air conditioner to carry out high-efficient heat transfer in the hospital moreover, and then guarantees patient and staff's comfort, still needs to reduce the dust in the air to reduce the energy loss.

For example, application No.: CN201911321. X relates to a heat pipe formula high efficiency heat exchanger, heat transfer device, including heat exchange assembly, heat exchange assembly includes: the upper end of the shell is communicated with the upper circulating cold water pipe, and the lower end of the shell is connected with the lower circulating cold water pipe; a mounting member disposed inside the housing; at least one group of heat pipes, wherein the at least one group of heat pipes are fixed on the mounting piece; one end of at least one water inlet pipe is communicated with the inside of the mounting part, and the other end of the at least one water inlet pipe extends out of the shell; at least one outlet pipe, at least one the one end of outlet pipe is linked together with the inside of installed part, and its other end stretches out the shell, this disclosed technical scheme need not to derive the circulating water, can realize high-efficient heat transfer under the prerequisite that does not change the circulating water flow path.

Based on prior art discovery, current heat transfer device's heat transfer board is fixed knot structure, carries the heat and can not fully be taken away by the wind of air-blower, leads to the loss of energy and heat exchange efficiency to reduce, and current heat transfer device is not perfect enough to heat transfer medium's control simultaneously, is not convenient for directly adjust heat transfer efficiency according to heat transfer medium's transport, has reduced heat transfer efficiency.

Disclosure of Invention

In order to solve the technical problems, the invention provides a high-efficiency heat exchange device for a hospital clean air conditioner energy-saving technology, which aims to solve the problems that a heat exchange plate of the existing heat exchange device is of a fixed structure, carried heat cannot be sufficiently taken away by air of an air blower, energy loss and heat exchange efficiency are reduced, meanwhile, the existing heat exchange device is not perfect in control of a heat exchange medium, the heat exchange efficiency is not convenient to adjust directly according to conveying of the heat exchange medium, and the heat exchange efficiency is reduced.

The invention relates to a high-efficiency heat exchange device for a clean air conditioner energy-saving technology of a hospital, which is achieved by the following specific technical means:

a high-efficiency heat exchange device for a clean air-conditioning energy-saving technology of a hospital comprises a base, a mounting piece A, a first conveying pipe, a limiting sleeve, a limiting plate and a collecting box; the base is of a plate-shaped structure, and six rectangular columnar bulges which are linearly arranged are arranged above the base; the mounting piece A is arranged above the base, and the lower part of the mounting piece A is inserted into the rectangular groove of the base; the first conveying pipe is arranged above the base and inserted into the rectangular groove of the heat exchange piece of the mounting piece A; the limiting sleeve is arranged on the left side of the first conveying pipe and is connected with a three-way pipe of the first conveying pipe through a connecting valve of the fixing sleeve; the limiting plate is arranged above the first conveying pipe and is connected with the base through a screw; the collecting box is arranged below the base and is of a rectangular box body structure;

the mounting piece A comprises a mounting piece B, a connecting block and a heat exchange piece, the mounting piece A is of a rectangular plate-shaped structure, and a rectangular groove is formed in the mounting piece A; two mounting pieces B are mounted on the left side and the right side of the mounting piece A, and the mounting pieces B are of rectangular plate-shaped structures; a rectangular groove is formed in the mounting piece B, and a columnar bulge is arranged below the mounting piece B; two connecting blocks are mounted in a gap between the mounting piece A and the mounting piece B through screws, the connecting blocks are of rectangular structures, and a bimetallic strip element is mounted between the two connecting blocks;

the limiting sleeve comprises a fixed sleeve, a sealing block and a connecting pipe, and is of a circular tubular structure, and through holes are formed in the left side and the right side of the limiting sleeve; the connecting valve is arranged outside the through hole on the left side of the limiting sleeve, and the surface of the through hole on the right side of the limiting sleeve is of an arc structure; a fixed sleeve is arranged on the right side of the limiting sleeve and is of a circular tubular structure; a tubular bulge is arranged on the right side of the fixed sleeve, a cross-shaped plate is arranged inside the tubular bulge of the fixed sleeve, and an inclined plane with an inclination angle of 60 degrees is arranged inside the fixed sleeve; a sealing block is arranged in the fixed sleeve and is of a hemispherical structure; the surface of the sealing block is tightly attached to the arc-shaped surface of the through hole in the right side of the limiting sleeve, and the sealing block is connected with the cross-shaped plate of the fixing sleeve through the spring.

Furthermore, the base comprises a clamping groove and a baffle, a rectangular bulge is arranged above the base, and seven rectangular grooves which are linearly arranged are formed in the rectangular bulge of the base; a circular counter bore is formed in the rectangular bulge of the base, and the columnar bulge of the mounting piece B is inserted into the circular counter bore of the base; the upper surface of the base is an inclined plane with an inclination angle of 10 degrees, and a rectangular hole is formed in the base; the front end of the base is provided with a clamping groove which is of a T-shaped structure; a baffle is arranged above the columnar bulge of the base and is of an L-shaped plate structure; seven rectangular bulges are arranged below the baffle plate, rectangular grooves are formed in the rectangular bulges of the baffle plate, and screw holes are formed in the baffle plate.

Further, the mounting piece A also comprises a heat exchange piece, the front end of the mounting piece A is provided with the heat exchange piece, and the heat exchange piece is of a plate-shaped structure with three straight lines arranged; three plate-shaped structures of the heat exchange piece are respectively inserted into the rectangular grooves of the mounting piece A and the mounting piece B, and two rectangular holes are formed in the heat exchange piece.

Furthermore, the first conveying pipe comprises a second conveying pipe and an output pipe, the first conveying pipe is of an S-shaped bent tubular structure, and a connecting valve is mounted at the inlet of the first conveying pipe; a three-way pipe is arranged on the left side of the first conveying pipe, and a connecting valve is installed at the pipe orifice of the three-way pipe of the first conveying pipe; the first conveying pipe three-way pipe is connected with the fixed sleeve through a connecting valve, and the outlet of the first conveying pipe is provided with the connecting valve; the second conveying pipe is of an S-shaped bent tubular structure, the bending direction of the second conveying pipe is opposite to that of the first conveying pipe, and the second conveying pipe and the first conveying pipe are installed in a crossed mode; the inlet of the second conveying pipe is provided with a connecting valve, and the outlet of the second conveying pipe is connected with an output pipe; the output pipe is of a tubular structure and is connected with the outlet of the first conveying pipe, and the diameter of the output pipe is larger than the sum of the diameters of the first conveying pipe and the second conveying pipe.

Further, limiting sleeve still including the connecting pipe, the connecting pipe is installed in the limiting sleeve left side connecting valve outside, and the connecting pipe is the tubular structure to the connecting pipe passes through the entry linkage of connecting valve and second conveyer pipe.

Further, the limiting plate comprises an installation block and an installation groove, the limiting plate is of a plate-shaped structure, a plate-shaped bulge is arranged at the rear end of the limiting plate, and a screw hole is formed in the plate-shaped bulge of the limiting plate; an installation block is arranged below the limiting plate and is of a rectangular structure; the mounting groove has been seted up to the inside of installation piece, and the mounting groove is the rectangle structure to the inside of mounting groove has inserted heat transfer spare.

Furthermore, the collecting box comprises a volatilization box and a drainage piece, the collecting box is a rectangular box body, and the volatilization box is arranged above the collecting box; the volatilization box is a rectangular box body, and a rectangular hole is formed above the volatilization box; the rear end of the volatilization box is provided with a T-shaped block, and the T-shaped block of the volatilization box is inserted into the clamping groove.

Further, the collecting box is further provided with a drainage piece, the drainage piece is arranged above the collecting box and fixedly connected with the volatilization box, the front end of the drainage piece is connected with a rectangular drainage plate through a rotating shaft, and the drainage plate of the drainage piece is 3 centimeters higher than the upper part of the base.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the mounting part A is arranged, the heat exchange part is made of a material with better heat conductivity, the first conveying pipe and the second conveying pipe are inserted into the heat exchange part, so that after heat-conducting media enter the first conveying pipe and the second conveying pipe, the heat exchange part can be rapidly heated and cooled, and wind with corresponding temperature is blown out through a blowing mechanism at the rear end of the device;

2. in the invention, the limiting sleeve is arranged, when a low-efficiency heat exchange mode is required, a heat exchange medium enters the inside of the first conveying pipe through the inlet of the first conveying pipe, heat is conducted along the first conveying pipe, the heat exchange member is made of a material with better heat conductivity, the heat can be conducted quickly in the heat exchange member, and further the heat exchange member can be heated or cooled quickly, and when the heat exchange medium passes through the three-way pipe of the first conveying pipe, the pressure of the heat exchange medium is increased, namely the unit flow of the heat exchange medium is increased, so that the heat exchange medium can impact the sealing block to enable the heat exchange medium to enter the second conveying pipe through the connecting pipe when the heat exchange medium passes through the limiting sleeve, form two circulations in first conveyer pipe and second conveyer pipe, and then promote heat exchange efficiency, fixed sleeve is inside to have the inclined plane, can reduce partly pressure when heat transfer medium gets into fixed sleeve, is used for preventing that heat transfer medium pressure is too high to cause the destruction to the sealed piece in the spacing sleeve.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the internal part structure of the present invention.

Fig. 3 is a schematic perspective view of the base of the present invention.

Fig. 4 is a schematic perspective view of the spacing sleeve of the present invention.

Fig. 5 is a schematic cross-sectional structure of the spacing sleeve of the present invention.

Fig. 6 is a partially enlarged view of a portion a of fig. 2 according to the present invention.

Fig. 7 is a schematic view of the present invention at a part B of fig. 2.

Fig. 8 is a partially enlarged view of fig. 1C according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a base; 101. a card slot; 102. a baffle plate; 2. a mounting member A; 201. a mounting member B; 202. connecting blocks; 203. a heat exchange member; 3. a first delivery pipe; 301. a second delivery pipe; 302. an output pipe; 4. a limiting sleeve; 401. fixing the sleeve; 402. a sealing block; 403. a connecting pipe; 5. a limiting plate; 501. mounting blocks; 502. mounting grooves; 6. a collection box; 601. a volatilization box; 602. a drainage member.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a high-efficiency heat exchange device for a clean air-conditioning energy-saving technology of a hospital, which comprises a base 1, a mounting piece A2, a first conveying pipe 3, a limiting sleeve 4, a limiting plate 5 and a collecting box 6, wherein the mounting piece A2 is arranged on the base; the base 1 is of a plate-shaped structure, and six rectangular columnar bulges which are linearly arranged are arranged above the base 1; the mounting piece A2 is arranged above the base 1, and the lower part of the mounting piece A2 is inserted into the rectangular groove of the base 1; the first delivery pipe 3 is installed above the base 1, and the first delivery pipe 3 is inserted into the rectangular groove of the heat exchange member 203 of the installation member a 2; the limiting sleeve 4 is arranged on the left side of the first delivery pipe 3, and the limiting sleeve 4 is connected with a three-way pipe of the first delivery pipe 3 through a connecting valve of the fixing sleeve 401; the limiting plate 5 is arranged above the first conveying pipe 3, and the limiting plate 5 is connected with the base 1 through a screw; the collecting box 6 is arranged below the base 1, and the collecting box 6 is of a rectangular box body structure;

the mounting piece A2 comprises a mounting piece B201, a connecting block 202 and a heat exchange piece 203, the mounting piece A is of a rectangular plate-shaped structure, and a rectangular groove is formed in the mounting piece A2; two mounting pieces B201 are mounted on the left side and the right side of the mounting piece A2, and the mounting pieces B201 are of rectangular plate-shaped structures; a rectangular groove is formed in the mounting piece B201, and a columnar bulge is arranged below the mounting piece B201; two connecting blocks 202 are mounted in a gap between the mounting piece A2 and the mounting piece B201 through screws, the connecting blocks 202 are of rectangular structures, and a bimetallic strip element is mounted between the two connecting blocks 202; the bimetallic strip is arranged between the mounting piece A2 and the mounting piece B201 through the connecting block 202, and the bimetallic strip deforms due to the temperature change of the heat exchange piece 203, so that the mounting piece B201 can rotate around a shaft by a certain angle and drive the heat exchange piece 203 to rotate, the heat exchange piece 203 forms a certain included angle, and the contact area of air blown by the blower passing through the heat exchange piece 203 is increased;

the limiting sleeve 4 comprises a fixed sleeve 401, a sealing block 402 and a connecting pipe 403, the limiting sleeve 4 is of a circular tubular structure, and through holes are formed in the left side and the right side of the limiting sleeve 4; a connecting valve is arranged outside the through hole on the left side of the limiting sleeve 4, and the surface of the through hole on the right side of the limiting sleeve 4 is of an arc structure; a fixed sleeve 401 is arranged on the right side of the limiting sleeve 4, and the fixed sleeve 401 is of a circular tubular structure; a tubular bulge is arranged on the right side of the fixed sleeve 401, a cross-shaped plate is arranged inside the tubular bulge of the fixed sleeve 401, and an inclined plane with an inclination angle of 60 degrees is arranged inside the fixed sleeve 401; a sealing block 402 is arranged in the fixed sleeve 401, and the sealing block 402 is of a hemispherical structure; the surface of the sealing block 402 is tightly attached to the arc-shaped surface of the through hole on the right side of the limiting sleeve 4, and the sealing block 402 is connected with the cross-shaped plate of the fixing sleeve 401 through a spring; the limiting sleeve 4 is used for installing the sealing block 402 and limiting the sealing block 402, the fixing sleeve 401 reduces primary pressure to a heat exchange medium through an inner inclined plane to prevent high pressure from damaging the sealing block 402, and the sealing block 402 is sealed at a through hole of the limiting sleeve 4 through a spring.

The base 1 comprises a clamping groove 101 and a baffle plate 102, a rectangular bulge is arranged above the base 1, and seven rectangular grooves which are linearly arranged are formed in the rectangular bulge of the base 1; a circular counter bore is formed in the rectangular bulge of the base 1, and a columnar bulge of the mounting piece B201 is inserted into the circular counter bore of the base 1; the upper surface of the base 1 is an inclined plane with an inclination angle of 10 degrees, and a rectangular hole is formed in the base 1; the front end of the base 1 is provided with a clamping groove 101, and the clamping groove 101 is of a T-shaped structure; a baffle plate 102 is arranged above the columnar bulge of the base 1, and the baffle plate 102 is of an L-shaped plate-shaped structure; seven rectangular bulges are arranged below the baffle plate 102, rectangular grooves are formed in the rectangular bulges of the baffle plate 102, and screw holes are formed in the baffle plate 102; the base 1 is used for installing other parts and collecting condensed water during refrigeration, and the clamping groove 101 is used for fixing the collecting box 6 and fixing the heat exchange piece 203 through the baffle plate 102.

The mounting piece A2 further comprises a heat exchange piece 203, the heat exchange piece 203 is mounted at the front end of the mounting piece A2, and the heat exchange piece 3 is of a plate-shaped structure with three straight lines arranged; three plate-shaped structures of the heat exchange piece 203 are respectively inserted into the rectangular grooves of the mounting piece A2 and the mounting piece B201, and two rectangular holes are formed in the heat exchange piece 203; the heat exchange member 203 is installed through a mounting member A2 and a mounting member B201; the bimetallic strip is arranged between the mounting piece A2 and the mounting piece B201 through the connecting block 202, and the bimetallic strip is deformed due to the temperature change of the heat exchange piece 203, so that the mounting piece B201 can rotate around the shaft by a certain angle.

The first conveying pipe 3 comprises a second conveying pipe 301 and an output pipe 302, the first conveying pipe 3 is of an S-shaped bent tubular structure, and a connecting valve is mounted at the inlet of the first conveying pipe 3; a three-way pipe is arranged on the left side of the first conveying pipe 3, and a connecting valve is arranged at the pipe orifice of the three-way pipe of the first conveying pipe 3; the three-way pipe of the first delivery pipe 3 is connected with the fixed sleeve 401 through a connecting valve, and the outlet of the first delivery pipe 3 is provided with the connecting valve; the second conveying pipe 301 is of an S-shaped bent tubular structure, the bending direction of the second conveying pipe 301 is opposite to that of the first conveying pipe 3, and the second conveying pipe 301 and the first conveying pipe 3 are installed in a crossed mode; a connecting valve is arranged at the inlet of the second conveying pipe 301, and the outlet of the second conveying pipe 301 is connected with an output pipe 302; the output pipe 302 is of a tubular structure, the output pipe 302 is connected with the outlet of the first delivery pipe 3, and the diameter of the output pipe 302 is larger than the sum of the diameters of the first delivery pipe 3 and the second delivery pipe 301; the first transport pipe 3 and the second transport pipe 301 are used for transporting the heat exchange medium and are circulated through the output pipe 302.

The limiting sleeve 4 further comprises a connecting pipe 403, the connecting pipe 403 is installed on the outer side of the connecting valve on the left side of the limiting sleeve 4, the connecting pipe 403 is of a tubular structure, and the connecting pipe 403 is connected with the inlet of the second conveying pipe 301 through the connecting valve; a connecting tube 403 is used to connect the restraining sleeve 4 to the second delivery tube 301.

The limiting plate 5 comprises a mounting block 501 and a mounting groove 502, the limiting plate 5 is of a plate-shaped structure, a plate-shaped bulge is arranged at the rear end of the limiting plate 5, and a screw hole is formed in the plate-shaped bulge of the limiting plate 5; an installation block 501 is arranged below the limiting plate 5, and the installation block 501 is of a rectangular structure; an installation groove 502 is formed in the installation block 501, the installation groove 502 is of a rectangular structure, and the heat exchange piece 203 is inserted into the installation groove 502; the auxiliary base 1 of the limiting plate 5 is used for fixing internal parts, and the heat exchange piece 203 is fixed through the mounting groove 502 of the mounting block 501; the heat exchange member 203 is made of a material with good heat conductivity, so that heat can be quickly conducted on the heat exchange member 203, and the heat exchange member 203 can be quickly heated or cooled.

The collecting box 6 comprises a volatilization box 601 and a drainage piece 602, the collecting box 6 is a rectangular box body, and the volatilization box 601 is arranged above the collecting box 6; the volatilization box 601 is a rectangular box body, and a rectangular hole is formed above the volatilization box 601; a T-shaped block is arranged at the rear end of the volatilization box 601, and the T-shaped block of the volatilization box 601 is inserted into the clamping groove 101; the collecting box 6 collects the condensed water, and disinfectant can be put into the volatilization box 601.

The collecting box 6 further comprises a drainage piece 602, the drainage piece 602 is arranged above the collecting box 6, and the drainage piece 602 is fixedly connected with the volatilization box 601; the front end of the drainage piece 602 is connected with a rectangular drainage plate through a rotating shaft, and the drainage plate of the drainage piece 602 is 3 cm higher than the upper part of the base 1; the drainage piece 602 leads out a part of the air of the blower to the volatilization box 601 through the drainage plate, so that the disinfectant in the volatilization box 601 is volatilized and is brought out along with the air to disinfect the external environment.

When in use: the device is connected with a compressor of heat exchange medium by manpower, the heat exchange medium enters the first conveying pipe 3 through the inlet of the first conveying pipe 3, heat is conducted along the first conveying pipe 3, the heat exchange piece 203 is made of material with better heat conduction performance, the first conveying pipe 3 and the second conveying pipe 301 are inserted into the heat exchange piece 203, after the heat conduction medium enters the first conveying pipe 3 and the second conveying pipe 301, the heat can be conducted quickly in the heat exchange piece 203, so that the heat exchange piece 203 can be heated or cooled quickly, wind with corresponding temperature is blown out through a blowing mechanism at the rear end of the device, the heat exchange piece 203 is installed through an installation piece A2 and an installation piece B201, the installation piece A2 is provided with bimetallic strips among the installation pieces B201 through a connecting block 202, and the bimetallic strips are deformed due to the temperature change of the heat exchange piece 203, so that the installation piece B201 can rotate around a certain angle, the heat exchange piece 203 is driven to rotate, so that a certain included angle is formed between the heat exchange piece 203, the contact area of air blown out by the air blower passing through the heat exchange piece 203 is increased, and the heat exchange efficiency is fully improved; when needing inefficiency heat transfer mode, when the three-way pipe of low pressure heat transfer medium through first conveyer pipe 3, because heat transfer medium's pressure is lower, can't trigger spacing sleeve 4's sealed piece 402, make heat transfer medium only at first conveyer pipe 3's internal loop, derive by first conveyer pipe 3's end, when needing high-efficient heat transfer, need increase heat transfer medium's pressure, increase heat transfer medium's unit flow promptly, make heat transfer medium pass through spacing sleeve 4, can strike and open sealed piece 402, make heat transfer medium pass through connecting pipe 403 and get into second conveyer pipe 301, form two circulations in first conveyer pipe 3 and second conveyer pipe 301, and then promote heat exchange efficiency.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a high-efficient heat transfer device for clean air conditioner energy-saving technology of hospital which characterized in that: the device comprises a base (1), a mounting piece A (2), a first conveying pipe (3), a limiting sleeve (4), a limiting plate (5) and a collecting box (6); the base (1) is of a plate-shaped structure, and six rectangular columnar bulges which are linearly arranged are arranged above the base (1); the mounting piece A (2) is mounted above the base (1), and the lower part of the mounting piece A (2) is inserted into the rectangular groove of the base (1); the first conveying pipe (3) is arranged above the base (1), and the first conveying pipe (3) is inserted into the rectangular groove of the heat exchange piece (203) of the mounting piece A (2); the limiting sleeve (4) is arranged on the left side of the first conveying pipe (3), and the limiting sleeve (4) is connected with a three-way pipe of the first conveying pipe (3) through a connecting valve of the fixing sleeve (401); the limiting plate (5) is arranged above the first conveying pipe (3), and the limiting plate (5) is connected with the base (1) through a screw; the collecting box (6) is arranged below the base (1), and the collecting box (6) is of a rectangular box body structure;

the mounting piece A (2) comprises a mounting piece B (201), a connecting block (202) and a heat exchange piece (203), the mounting piece A is of a rectangular plate-shaped structure (2), and a rectangular groove is formed in the mounting piece A (2); two mounting pieces B (201) are mounted on the left side and the right side of the mounting piece A (2), and the mounting pieces B (201) are of rectangular plate-shaped structures; a rectangular groove is formed in the mounting piece B (201), and a columnar bulge is arranged below the mounting piece B (201); two connecting blocks (202) are mounted in a gap between the mounting piece A (2) and the mounting piece B (201) through screws, the connecting blocks (202) are of a rectangular structure, and a bimetallic strip element is mounted between the two connecting blocks (202);

the limiting sleeve (4) comprises a fixed sleeve (401), a sealing block (402) and a connecting pipe (403), the limiting sleeve (4) is of a circular tubular structure, and through holes are formed in the left side and the right side of the limiting sleeve (4); a connecting valve is arranged outside the through hole on the left side of the limiting sleeve (4), and the surface of the through hole on the right side of the limiting sleeve (4) is of an arc structure; a fixing sleeve (401) is arranged on the right side of the limiting sleeve (4), and the fixing sleeve (401) is of a circular tubular structure; a tubular bulge is arranged on the right side of the fixed sleeve (401), a cross-shaped plate is arranged inside the tubular bulge of the fixed sleeve (401), and an inclined plane with an inclination angle of 60 degrees is arranged inside the fixed sleeve (401); a sealing block (402) is arranged in the fixed sleeve (401), and the sealing block (402) is of a hemispherical structure; the surface of the sealing block (402) is tightly attached to the arc-shaped surface of the through hole in the right side of the limiting sleeve (4), and the sealing block (402) is connected with the cross-shaped plate of the fixing sleeve (401) through a spring.

2. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the base (1) comprises a clamping groove (101) and a baffle (102), a rectangular bulge is arranged above the base (1), and seven rectangular grooves which are linearly arranged are formed in the rectangular bulge of the base (1); a circular counter bore is formed in the rectangular protrusion of the base (1), and a columnar protrusion of the mounting piece B (201) is inserted into the circular counter bore of the base (1); the upper surface of the base (1) is an inclined plane with an inclination angle of 10 degrees, and a rectangular hole is formed in the base (1); the front end of the base (1) is provided with a clamping groove (101), and the clamping groove (101) is of a T-shaped structure; a baffle (102) is arranged above the columnar protrusion of the base (1), and the baffle (102) is of an L-shaped plate-shaped structure; seven rectangular bulges are arranged below the baffle plate (102), a rectangular groove is formed in the rectangular bulges of the baffle plate (102), and a screw hole is formed in the baffle plate (102).

3. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the mounting piece A (2) further comprises a heat exchange piece (203), the heat exchange piece (203) is mounted at the front end of the mounting piece A (2), and the heat exchange piece (3) is of a plate-shaped structure with three straight lines arranged; the three plate-shaped structures of the heat exchange piece (203) are respectively inserted into the rectangular grooves of the mounting piece A (2) and the mounting piece B (201), and two rectangular holes are formed in the heat exchange piece (203).

4. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the first conveying pipe (3) comprises a second conveying pipe (301) and an output pipe (302), the first conveying pipe (3) is of an S-shaped bent tubular structure, and a connecting valve is mounted at the inlet of the first conveying pipe (3); a three-way pipe is arranged on the left side of the first conveying pipe (3), and a connecting valve is installed at the pipe orifice of the three-way pipe of the first conveying pipe (3); the three-way pipe of the first conveying pipe (3) is connected with the fixed sleeve (401) through a connecting valve, and the outlet of the first conveying pipe (3) is provided with the connecting valve; the second conveying pipe (301) is of an S-shaped bent tubular structure, the bending direction of the second conveying pipe (301) is opposite to that of the first conveying pipe (3), and the second conveying pipe (301) and the first conveying pipe (3) are installed in a crossed mode; a connecting valve is arranged at the inlet of the second conveying pipe (301), and the outlet of the second conveying pipe (301) is connected with an output pipe (302); the output pipe (302) is of a tubular structure, the output pipe (302) is connected with the outlet of the first conveying pipe (3), and the diameter of the output pipe (302) is larger than the sum of the diameters of the first conveying pipe (3) and the second conveying pipe (301).

5. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: spacing sleeve (4) are still including connecting pipe (403), connecting pipe (403) are installed to spacing sleeve (4) left side coupling valve outside, and connecting pipe (403) are the tubular structure to connecting pipe (403) are connected through the entry of coupling valve with second conveyer pipe (301).

6. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the limiting plate (5) comprises an installation block (501) and an installation groove (502), the limiting plate (5) is of a plate-shaped structure, a plate-shaped bulge is arranged at the rear end of the limiting plate (5), and a screw hole is formed in the plate-shaped bulge of the limiting plate (5); an installation block (501) is arranged below the limiting plate (5), and the installation block (501) is of a rectangular structure; the mounting block (501) is internally provided with a mounting groove (502), the mounting groove (502) is of a rectangular structure, and the heat exchange piece (203) is inserted into the mounting groove (502).

7. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the collection box (6) comprises a volatilization box (601) and a drainage piece (602), the collection box (6) is a rectangular box body, and the volatilization box (601) is arranged above the collection box (6); the volatilization box (601) is a rectangular box body, and a rectangular hole is formed above the volatilization box (601); the rear end of the volatilization box (601) is provided with a T-shaped block, and the T-shaped block of the volatilization box (601) is inserted into the clamping groove (101).

8. The high-efficiency heat exchange device for the hospital clean air-conditioning energy-saving technology as claimed in claim 1, is characterized in that: the collecting box (6) further comprises a drainage piece (602), the drainage piece (602) is arranged above the collecting box (6), and the drainage piece (602) is fixedly connected with the volatilization box (601); and the front end of the drainage piece (602) is connected with a rectangular drainage plate through a rotating shaft, and the drainage plate of the drainage piece (602) is 3 cm higher than the upper part of the base (1).