CN110844380A

CN110844380A - Automatic cryogenic transport storehouse

Info

Publication number: CN110844380A
Application number: CN201910953508.6A
Authority: CN
Inventors: 李垣江; 陈梦; 王丽鹃
Original assignee: Jiangsu Austria Tian Engineering Technology Co Ltd
Current assignee: Jiangsu Austria Tian Engineering Technology Co Ltd
Priority date: 2019-10-09
Filing date: 2019-10-09
Publication date: 2020-02-28

Abstract

The invention discloses an automatic-refrigerating low-temperature transport bin which comprises a transport bin body, a vibration-damping placing seat and a refrigerating system, wherein the vibration-damping placing seat and the refrigerating system are arranged inside the transport bin; the cold chain logistics transportation is provided with one set of low-temperature transportation bin capable of being independently refrigerated, the power is supplied to the whole system through thermoelectric generation, the energy is saved, the environment is protected, the sealing door is good in sealing effect, air conditioning is difficult to leak, the vibration reduction of the inside of the transportation bin is placed, the vibration reduction effect is good, the road jolt is effectively avoided to damage articles, and the automatic exhaust pipeline connected with the dry ice storage bin automatically adjusts the air pressure of the dry ice storage bin.

Description

Automatic cryogenic transport storehouse

Technical Field

The invention relates to the technical field of cold-chain logistics, in particular to an automatic-refrigerating low-temperature transport bin.

Background

In recent years, the cold-chain logistics industry is rapidly developing in China. The cold chain logistics refers to the systematic engineering that the refrigerated frozen products are always in a low-temperature environment in all links from production, storage, transportation and sale to the moment of consumption so as to ensure the product quality and reduce the loss of the products, and is suitable for the fields of fruits and vegetables, poultry eggs, aquatic products, quick-frozen foods, dairy products, flowers, medicines and the like. The goods in the transport bin are often damaged because of the road jolt in the cold chain logistics transportation process, and the transport bin is poor in sealing effect, so that cold air leakage is easily caused, and cold air in the bin is insufficient.

Disclosure of Invention

The invention aims to provide an automatic refrigeration low-temperature transport bin aiming at the defects in the prior art.

The technical scheme for solving the problems comprises the following steps: an automatic refrigeration low-temperature transport bin comprises a transport bin body, a vibration reduction placing seat and a refrigeration system, wherein the vibration reduction placing seat and the refrigeration system are arranged in the transport bin, the transport bin body comprises an inner heat insulation layer and an outer heat insulation layer, an L-shaped interlayer is formed between the inner heat insulation layer and the outer heat insulation layer, a sealing door is arranged at the rear part of the transport bin body, one side of the sealing door is hinged and connected with the outer wall of the transport bin body, sealing rings are arranged on the peripheral side walls of the sealing door, and an encryption device is arranged between the sealing door and a support of the transport;

the vibration reduction placing seat comprises a bottom plate, a front plate arranged at the upper end of the bottom plate and side plates arranged at two sides of the bottom plate, and the bottom plate is arranged at the bottom of the inner wall of the transportation bin through a vibration reduction connecting mechanism;

the refrigerating system comprises a dry ice storage bin, a fifth pump body, an automatic exhaust pipeline and a cold accumulation unit, wherein the dry ice storage bin and the fifth pump body are arranged in an L-shaped interlayer, the cold accumulation unit comprises a dry ice and cold air circulating pipeline, the dry ice and cold air circulating pipeline is arranged above the inner heat-insulating layer and comprises a plurality of straight pipes and a bent pipe connected with the two straight pipes, the straight pipe arranged at one end is connected with the air outlet end of the fifth pump body through a pipeline, the air inlet end of the fifth pump body is connected with the dry ice storage bin through a pipeline, the straight pipe arranged at the other end is connected with the dry ice storage bin through a pipeline, a cold accumulation sleeve is arranged outside each straight pipe, the two ends of each cold accumulation sleeve are fixedly connected with the straight pipes through welding, a plurality of groups of heat conduction and cold accumulation fins are arranged on the outer wall of each cold accumulation, the cold accumulation sleeve is also provided with an inlet and an outlet;

the low-temperature transport bin also comprises a thermoelectric generation system, an energy storage module and a controller, wherein the thermoelectric generation system comprises a plurality of thermoelectric generation sheet groups, and each thermoelectric generation sheet group is connected in series or in parallel to the energy storage module to store electricity for the energy storage module;

the thermoelectric generation system is arranged in an L-shaped interlayer of the transportation bin, the thermoelectric generation sheet group, the heat medium end, the refrigerant end, the energy storage module and the dry ice storage module are all arranged in the L-shaped interlayer, the hot water tank is arranged on the side wall of the outer heat insulation layer, the refrigerant coil pipe is arranged in the inner heat insulation layer, a partition plate is arranged in the inner heat insulation layer, and the partition plate divides the interior of the inner heat insulation layer into a refrigerant coil pipe area and a storage area;

the hot water tank is further connected with a first heating mechanism and a second heating mechanism, the first heating mechanism is an engine waste heat recovery device, the second heating mechanism is a solar heating device, a temperature sensor is further arranged at the top of the inner heat insulation layer, the temperature sensor, the first pump body, the second pump body, the third pump body, the fourth pump body and the fifth pump body are connected into the controller, and the energy storage module is connected into the controller and supplies power for the environment temperature control device.

The invention has the following beneficial effects:

the invention provides an automatic refrigeration low-temperature transportation bin, which provides a set of independent refrigeration low-temperature transportation bin for cold chain logistics transportation, supplies power to the whole system through thermoelectric generation, is energy-saving and environment-friendly, has good sealing effect of a sealing door, is difficult to leak cold air, has good vibration damping effect of a vibration damping placing seat arranged in the transportation bin, effectively avoids damage to articles caused by road bump, and automatically adjusts air pressure for a dry ice storage bin through an automatic exhaust pipeline connected with the dry ice storage bin.

Drawings

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

FIG. 2 is a schematic diagram of an encryption apparatus;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic structural diagram of a refrigeration system and a thermoelectric generation system;

FIG. 5 is an electrical schematic of the present invention;

FIG. 6 is a schematic structural view of a thermoelectric power generation system;

FIG. 7 is a top view of the second heating mechanism;

FIG. 8 is a side view of a second heating mechanism;

FIG. 9 is a schematic structural view of a dry ice storage module;

FIG. 10 is a schematic structural view of a cold storage sleeve;

FIG. 11 is a schematic structural view of an automatic degassing membrane;

in the figure: 100-a thermoelectric power generation system, 200-an energy storage module, 300-a dry ice storage module, 400-an inner heat insulation layer, 500-an outer heat insulation layer, 600- "L" -shaped interlayer, 700-a partition plate, 800-a refrigerant coil pipe area, 900-a placing area, 1000-a controller, 1100-a temperature sensor, 1200-a vibration reduction placing seat, 1300-a sealing door and 1400-an encryption device;

101-thermoelectric power generation sheet group, 102-heat medium end, 103-refrigerant end, 104-heat medium inlet pipe, 105-heat medium outlet pipe, 106-refrigerant inlet pipe, 107-refrigerant outlet pipe, 108-first pump body, 109-hot water tank, 110-second pump body, 111-refrigerant coil pipe, 112-third pump body, 113-arc-shaped light-gathering plate, 114-second heat exchange coil pipe, 115-mounting bracket and 116-fourth pump body;

301-dry ice storage bin, 302-fifth pump body, 303-automatic exhaust pipeline, 304-straight pipe, 305-bent pipe, 306-cold accumulation sleeve, 307-heat conduction fin, 308-inlet, 309-outlet, 310-automatic exhaust membrane, and 311-rice-shaped exhaust port;

1201-bottom plate, 1202-front plate, 1203-side plate, 1204-damping spring;

1401-a first encryption frame, 1402-a second encryption frame, 1403-an insertion strip, 1404-a locking sleeve, 1405-a first anti-falling seat, 1406-a second anti-falling seat, 1407-a first limiting seat, 1408-a first limiting ring, 1409-a second limiting seat and 1410-a second limiting ring.

Detailed Description

The invention is further described with reference to the following drawings and detailed description.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

As shown in the figure, the automatic refrigeration low-temperature transportation bin comprises a transportation bin body, a vibration reduction placing seat 1200 and a refrigeration system, wherein the vibration reduction placing seat 1200 and the refrigeration system are arranged inside the transportation bin, the transportation bin body comprises an inner heat insulation layer 400 and an outer heat insulation layer 500, an L-shaped interlayer 600 is formed between the inner heat insulation layer 400 and the outer heat insulation layer 500, a sealing door 1300 is arranged at the rear part of the transportation bin body, one side of the sealing door 1300 is hinged with the outer wall of the transportation bin body, sealing rings are arranged on the peripheral side walls of the sealing door 1300, an encryption device 1400 is arranged on a bracket of the sealing door 1300 and the transportation bin body, the encryption device 1400 comprises a first encryption frame 1401 and a second encryption frame 1402, the first encryption frame 1401 and the second encryption frame 1402 are rectangular frame structures with one sides opened, one side of the opening is hinged with one side, the first encryption frame 1401 is arranged at the opening of the transportation bin, the second, the inner wall of the first encryption frame 1401 is attached to the outer wall of the second encryption frame 1402, the first encryption frame 1401 is connected with the second encryption frame 1402 in a sealing manner through a first sealing strip and a second sealing strip, the first sealing strip is arranged on the inner wall of the first encryption frame 1401, the second encryption strip is arranged on the outer wall of the second encryption frame 1402, the first encryption frame 1401 is connected with the second encryption frame 1402 through a plurality of locking mechanisms, each locking mechanism comprises an inserting strip 1403, a locking sleeve 1404, a first anti-falling seat 1405 and a second anti-falling seat 1406, the first anti-falling seat 1405 is fixedly arranged on the outer wall of the first encryption frame 1401, the second anti-falling seat 1406 is fixedly arranged on the inner wall of the second encryption frame 1402, the inserting strip 1403 is adjustably arranged on the second anti-falling seat 1406, a first limit seat 1407 is arranged at the outer end of the inserting strip 1403, a first limit ring 1408 is arranged on the outer wall of the inserting strip 1403, the locking sleeve 1404 is adjustably arranged on the first anti-falling seat 1405, the outer end of the locking sleeve 1404 is provided with a second limiting seat 1409, the outer wall of the locking sleeve 1404 is provided with a second limiting ring 1410, and the locking sleeve 1404 is in threaded connection with the plug-in strip 1403;

the vibration reduction placing seat 1200 comprises a bottom plate 1201, a front plate 1202 arranged at the upper end of the bottom plate 1201 and side plates 1203 arranged at two sides of the bottom plate, wherein the bottom plate 1201 is installed at the bottom of the inner wall of the transportation bin through a vibration reduction connecting mechanism, the vibration reduction connecting mechanism comprises a plurality of vibration reduction springs 1204, the upper ends of the vibration reduction springs 1204 are fixedly connected to the bottom surface of the bottom plate 1201, and the lower ends of the vibration reduction springs 1204 are fixedly connected to the bottom;

the refrigerating system comprises a dry ice storage bin 301, a fifth pump body 302, an automatic exhaust pipeline 303 and a cold accumulation unit, wherein the dry ice storage bin 301 and the fifth pump body 302 are arranged in an L-shaped interlayer 600, the cold accumulation unit comprises a dry ice and cold air circulating pipeline, the dry ice and cold air circulating pipeline is arranged above the inner heat-insulating layer 400 and comprises a plurality of straight pipes 304 and an elbow pipe 305 connected with the two straight pipes 304, the straight pipe 304 arranged at one end is connected with the air outlet end of the fifth pump body 302 through a pipeline, the air inlet end of the fifth pump body 302 is connected with the dry ice storage bin 301 through a pipeline, the straight pipe 304 arranged at the other end is connected with the dry ice storage bin 301 through a pipeline, a cold accumulation sleeve 306 is arranged outside each straight pipe 304, two ends of the cold accumulation sleeve 306 are fixedly connected with the straight pipes 304 through welding, a plurality of groups of heat conduction fins 307 are arranged on the outer wall of the cold accumulation, the sealed cavity is filled with phase change cold storage materials, the cold storage sleeve 306 is also provided with an inlet 308 and an outlet 309, the automatic exhaust pipeline 303 is provided with 6-8 groups, the inner end of the automatic exhaust pipeline 303 is connected to the side wall of the dry ice storage bin 301, the other end of the automatic exhaust pipeline extends outwards and is arranged outside the transportation bin, 2 automatic exhaust membranes 310 are arranged inside the automatic exhaust pipeline 303, the inner wall of the automatic exhaust pipeline 303 is provided with an installation groove matched with the automatic exhaust membranes 310, the automatic exhaust membranes 310 are installed in the installation groove, the automatic exhaust membranes 310 protrude outwards to form an arc-shaped surface, the center of the automatic exhaust membranes 310 is provided with a 'meter' -shaped exhaust port 311, the automatic exhaust membranes 310 are specially designed by adopting elastic membrane materials, dry ice sublimates in dry ice refrigeration, when the pressure rises to the pressure value of the automatic opening exhaust membranes, the exhaust is automatically carried out, the material has long service life and exhaust frequency more than ten thousand times after the above steps. The larger the elasticity of the material is, the larger the opening pressure is, the size of the rice-shaped exhaust port is inversely proportional to the opening pressure, and the automatic exhaust membrane 310 is designed to be outwards protruded to form an arc-shaped surface, so that only internal gas is outwards exhausted, and no external gas enters the interior, and the material is simple and energy-saving;

the low-temperature transport bin further comprises a thermoelectric generation system 100, an energy storage module 200 and a controller 1000, the controller 1000 is installed on the outer wall of the transport bin, the thermoelectric generation system 100 comprises a plurality of thermoelectric generation sheet groups 101, each thermoelectric generation sheet group 101 is connected in series or in parallel to the energy storage module 200 to store electricity for the energy storage module 200, one side of each thermoelectric generation sheet group 101 is a hot end contact surface, the other side of each thermoelectric generation sheet group 101 is a cold end contact surface, in order to reduce the volume of the thermoelectric generation system 100 and improve the generating efficiency of the thermoelectric generation sheet groups 101, the hot end contact surfaces of two adjacent thermoelectric generation sheet groups 101 are correspondingly arranged or the cold end contact surfaces are correspondingly arranged, the hot end contact surfaces of the thermoelectric generation sheet groups 101 are provided with a heat medium end 102 in a contact manner, the cold end contact surfaces of the thermoelectric generation sheet groups 101 are provided with a refrigerant end 103 in a contact manner, one end of the, the refrigerant end 103 is connected with a refrigerant inlet pipe 106 through a pipeline, and the other end is connected with a refrigerant outlet pipe 107 through a pipeline; the heat medium inlet pipe 104 is connected to the water outlet end of the first pump body 108, the water inlet end of the first pump body 108 is connected to the hot water tank 109 through a pipeline, the heat medium outlet pipe 105 is connected to the hot water tank 109, the refrigerant inlet pipe 106 is connected to the water outlet end of the second pump body 110, the water inlet end of the second pump body 110 is connected to one end of the refrigerant coil 111 through a pipeline, and the refrigerant outlet pipe 107 is connected to the other end of the refrigerant coil 111;

the thermoelectric power generation system 100 is arranged in an interlayer of a transportation cabin, the transportation cabin comprises an inner heat insulation layer 400 and an outer heat insulation layer 500, an L-shaped interlayer 600 is formed between the inner heat insulation layer 400 and the outer heat insulation layer 500, the thermoelectric power generation sheet group 101, the heat medium end 102, the refrigerant end 103, the energy storage module 200 and the dry ice storage module 300 are all arranged in the L-shaped interlayer 600, the hot water tank 109 is arranged on the side wall of the outer heat insulation layer 500, the refrigerant coil pipe 111 is arranged in the inner heat insulation layer 400, a partition plate 700 is arranged in the inner heat insulation layer 400, and the partition plate 700 divides the interior of the inner heat insulation layer 400 into a refrigerant coil pipe 111 area 800 and an object placing area 900;

the hot water tank 109 is further connected with a first heating mechanism and a second heating mechanism, the first heating mechanism is an engine waste heat recovery device, the engine waste heat recovery device comprises a first heat exchange coil and a third pump body 112 which are spirally arranged outside an engine, the water inlet end of the third pump body 112 is connected with the hot water tank 109 through a pipeline, the water outlet end of the third pump body 112 is connected with one end of the first heat exchange coil through a pipeline, and the other end of the first heat exchange coil is connected with the hot water tank 109 through a pipeline; the second heating mechanism is a solar heating device, the solar heating device comprises an arc-shaped light collecting plate 113 and a second heat exchange coil 114 installed above the arc-shaped light collecting plate 113 through a support frame, two ends of the bottom of the arc-shaped light collecting plate 113 are installed at the top of the outer heat insulation layer 500 through an installation support 115, the arc-shaped light collecting plate 113 is connected with the installation support 115 in a welding mode, the arc-shaped light collecting plate 113 further improves the heating effect of the solar heating device, the installation support 115 is connected with the outer heat insulation layer 500 through a plurality of bolts, one end of the second heat exchange coil 114 is connected with the water outlet end of the fourth pump body 116, the water inlet end of the fourth pump body 116 is connected with the hot water tank 109 through a pipeline, the other end of the second heat exchange tube is connected with the hot water tank 109 through a pipeline, the top of the inner heat insulation layer 400 is further provided with a, The third pump body 112, the fourth pump body 116 and the fifth pump body 302 are connected to the controller 1000, and the energy storage module 200 is connected to the controller 1000 to supply power to the ambient temperature control device.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims

1. The utility model provides an automatic cryogenic transport storehouse which characterized in that: the transportation bin comprises a transportation bin body, a vibration reduction placing seat (1200) and a refrigerating system, wherein the vibration reduction placing seat (1200) and the refrigerating system are arranged inside the transportation bin, the transportation bin body comprises an inner heat insulation layer (400) and an outer heat insulation layer (500), an L-shaped interlayer (600) is formed between the inner heat insulation layer (400) and the outer heat insulation layer (500), a sealing door (1300) is arranged at the rear part of the transportation bin body, one side of the sealing door (1300) is hinged and connected with the outer wall of the transportation bin body, sealing rings are arranged on the peripheral side walls of the sealing door (1300), and an encryption device (1400) is arranged on the sealing door (;

the vibration reduction placing seat (1200) comprises a bottom plate (1201), a front plate (1202) arranged at the upper end of the bottom plate (1201) and side plates (1203) arranged on two sides of the bottom plate (1201), wherein the bottom plate (1201) is installed at the bottom of the inner wall of the transportation bin through a vibration reduction connecting mechanism, the vibration reduction connecting mechanism comprises a plurality of vibration reduction springs (1204), the upper ends of the vibration reduction springs (1204) are fixedly connected to the bottom surface of the bottom plate (1201), and the lower ends of the vibration reduction springs (1204) are fixedly;

the refrigeration system comprises a dry ice storage bin (301), a fifth pump body (302), an automatic exhaust pipeline (303) and a cold accumulation unit, wherein the dry ice storage bin (301) and the fifth pump body (302) are arranged in an L-shaped interlayer (600), the cold accumulation unit comprises a dry ice cold air circulating pipeline, the dry ice cold air circulating pipeline is arranged above the inner part of an inner heat insulation layer (400) and comprises a plurality of straight pipes (304) and an elbow (305) connected with the two straight pipes (304), the straight pipe (304) arranged at one end is connected with the air outlet end of the fifth pump body (302) through a pipeline, the air inlet end of the fifth pump body (302) is connected with the dry ice storage bin (301) through a pipeline, the straight pipe (304) arranged at the other end is connected with the dry ice storage bin (301) through a pipeline, a cold accumulation sleeve (306) is arranged outside each straight pipe (304), and the two ends of the cold accumulation sleeve (306) are fixedly connected with the, the cold accumulation sleeve (306) is provided with a plurality of groups of heat conduction fins (307) on the outer wall, a sealing cavity is formed between the cold accumulation sleeve (306) and the straight pipe (304), phase change cold accumulation materials are filled in the sealing cavity, and the cold accumulation sleeve (306) is further provided with an inlet (308) and an outlet (309).

2. An automatically refrigerated cold transport container as claimed in claim 1 wherein: the encryption device (1400) comprises a first encryption frame (1401) and a second encryption frame (1402), wherein the first encryption frame (1401) and the second encryption frame (1402) are of rectangular frame structures with one sides opened, one side opened is a hinged connection side, the first encryption frame (1401) is arranged at the opening of a transportation bin, the second encryption frame (1402) is arranged at the edge of a sealing door (1300), the inner wall of the first encryption frame (1401) is attached to the outer wall of the second encryption frame (1402), the first encryption frame (1401) is connected with the second encryption frame (1402) in a sealing mode through a first sealing strip and a second encryption strip, the first sealing strip is arranged on the inner wall of the first encryption frame (1401), the second encryption strip is arranged on the outer wall of the second encryption frame (1402), and the first encryption frame (1401) and the second encryption frame (1402) are connected through a plurality of locking mechanisms, locking mechanism includes grafting strip (1403), locking sleeve (1404), first anticreep seat (1405) and second anticreep seat (1406), first anticreep seat (1405) is fixed to be set up on first encryption frame (1401) outer wall, second anticreep seat (1406) is fixed to be set up on second encryption frame (1402) inner wall, setting that grafting strip (1403) are adjustable is on second anticreep seat (1406), grafting strip (1403) outer end is equipped with first spacing seat (1407), is equipped with first spacing ring (1408) on grafting strip (1403) outer wall, setting that locking sleeve (1404) are adjustable is on first anticreep seat (1405), locking sleeve (1404) outer end is equipped with spacing seat (1409) of second, is equipped with spacing ring (1410) of second on locking sleeve (1404) outer wall, threaded connection between locking sleeve (1404) and grafting strip (1403).

3. An automatically refrigerated cold transport container as claimed in claim 1 or 2 wherein: the automatic exhaust pipeline (303) is provided with 6-8 groups, the inner end of the automatic exhaust pipeline (303) is connected to the side wall of the dry ice storage bin (301), the other end of the automatic exhaust pipeline outwards extends to be arranged outside the transportation bin, 2 automatic exhaust membranes (310) are arranged inside the automatic exhaust pipeline (303), an installation groove matched with the automatic exhaust membranes (310) is formed in the inner wall of the automatic exhaust pipeline (303), the automatic exhaust membranes (310) are installed in the installation groove, the automatic exhaust membranes (310) are outwards protruded to form an arc-shaped surface, and the centers of the automatic exhaust membranes (310) are provided with 'meter' -shaped exhaust ports (311).

4. An automatically refrigerated cold transport container as claimed in claim 1 wherein: the low-temperature transport bin further comprises a temperature difference power generation system (100), an energy storage module (200) and a controller (1000), wherein the temperature difference power generation system (100) comprises a plurality of temperature difference power generation sheet groups (101), and each temperature difference power generation sheet group (101) is connected in series or in parallel to the energy storage module (200) to store electricity for the energy storage module (200);

the thermoelectric power generation system (100) is arranged in an L-shaped interlayer (600) of the transport bin, the thermoelectric power generation sheet group (101), the heat medium end (102), the refrigerant end (103), the energy storage module (200) and the dry ice storage module (300) are all arranged in the L-shaped interlayer (600), the hot water tank (109) is arranged on the side wall of the outer heat insulation layer (500), the refrigerant coil pipe (111) is arranged in the inner heat insulation layer (400), a partition plate (700) is arranged in the inner heat insulation layer (400), and the partition plate (700) partitions the inner heat insulation layer (400) into a refrigerant coil pipe (111) area (800) and an object storage area (900);

interior heat preservation (400) top still is equipped with temperature sensor (1100), first pump body (108), second pump body (110), third pump body (112), fourth pump body (116), fifth pump body (302) access controller (1000), energy storage module (200) access controller (1000) for this ambient temperature controlling means power supply.

5. An automatically refrigerated cold transport container as claimed in claim 4 wherein: one side of each thermoelectric generation sheet group (101) is a hot end contact surface, the other side of each thermoelectric generation sheet group is a cold end contact surface, the hot end contact surfaces of two adjacent thermoelectric generation sheet groups (101) are correspondingly arranged or the cold end contact surfaces of the two adjacent thermoelectric generation sheet groups are correspondingly arranged, the hot end contact surfaces of the thermoelectric generation sheet groups (101) are provided with hot medium ends (102) in a contact manner, the cold end contact surfaces of the thermoelectric generation sheet groups (101) are provided with cold medium ends (103) in a contact manner, one ends of the hot medium ends (102) are connected with a hot medium inlet pipe (104) through pipelines, the other ends of the hot medium ends are connected with a hot medium outlet pipe (105) through pipelines, the cold medium ends (103; the heat medium inlet pipe (104) is connected to the water outlet end of the first pump body (108), the water inlet end of the first pump body (108) is connected with the hot water tank (109) through a pipeline, the heat medium outlet pipe (105) is connected with the hot water tank (109), the refrigerant inlet pipe (106) is connected to the water outlet end of the second pump body (110), the water inlet end of the second pump body (110) is connected to one end of the refrigerant coil pipe (111) through a pipeline, and the refrigerant outlet pipe (107) is connected to the other end of the refrigerant coil pipe (111).