CN115060035A

CN115060035A - Heat recovery type modularized air-cooled hot water unit capable of operating at low temperature in heat accumulating mode

Info

Publication number: CN115060035A
Application number: CN202210562286.7A
Authority: CN
Inventors: 夏林; 夏晓宏; 肖靖东
Original assignee: Baosteel Air Conditioning Taizhou Co ltd
Current assignee: Baosteel Air Conditioning Taizhou Co ltd
Priority date: 2022-05-23
Filing date: 2022-05-23
Publication date: 2022-09-16
Anticipated expiration: 2042-05-23
Also published as: CN115060035B

Abstract

The invention discloses a heat-accumulating and low-temperature-running heat-recovery modular air-cooled water heater unit, which belongs to the technical field of air-cooled water heaters, equipment is placed outdoors and penetrates through and is fixedly installed outdoors, when the equipment moves, the equipment moves and buffers through the mutual matching of a buffer cross, an end hinged slide block, an end fixed plate frame and a wall slide rail, a double-end motor is started to adjust a horizontal adjusting screw rod to rotate, a horizontal adjusting plate is adjusted through the horizontal adjusting screw rod to drive a supporting plate to adjust the distance, an adjusting seat is adjusted through a starting end fixed plate frame to drive an arc-shaped solar panel to rotate in the direction, so that the reflected light of the arc-shaped solar panel irradiates the outer side of a cooling bin, the reflected light irradiates the cooling bin and penetrates through the cooling bin to irradiate an air guide cylinder to insulate the inner spiral cooling pipe in winter, and is guided into a winding pipe through cold water in summer, and the winding pipe is wound on the outer side of the air duct to carry out cooling and heat exchange treatment on the hot water of the inner spiral cooling pipe in the air duct.

Description

Heat recovery type modularized air-cooled hot water unit capable of operating at low temperature in heat accumulating mode

Technical Field

The invention relates to an air-cooled hot water unit, in particular to a heat-accumulating type heat-recovery modular air-cooled hot water unit capable of operating at low temperature, and belongs to the technical field of air-cooled hot water units.

Background

The air-cooled heat pump unit is a circulating system formed by a compressor, a heat exchanger, a restrictor, a heat absorber, a compressor and other devices, wherein a refrigerant circularly flows in the system under the action of the compressor, the refrigerant completes a gas-state pressure-boosting and temperature-raising process (the temperature is up to 100 ℃) in the compressor, the refrigerant enters the heat exchanger to exchange heat with air, is cooled and converted into a liquid state, after the refrigerant runs to the heat absorber, the liquid state quickly absorbs heat, evaporates and is converted into a gas state again, the temperature is reduced to minus 20 ℃ to minus 30 ℃, air around the heat absorber can continuously transfer low-temperature heat to the refrigerant, and the process of converting the low-temperature heat in the air into high-temperature heat and heating cold water is realized by continuous circulation of the refrigerant.

The existing approximate air-cooled water heater unit has the following problems:

1. in the prior art, the air-cooled water heater set placed outdoors cannot realize the function of well collecting external new energy, so that the energy is wasted;

2. the air-cooled water heater unit in the prior art cannot well utilize energy generated by rainwater;

3. the air-cooled water heater unit in the prior art cannot realize the adjusting function and has single function;

therefore, the heat recovery type modularized air-cooled water heater unit which can store heat and operate at low temperature is designed to solve the problems.

Disclosure of Invention

The invention mainly aims to provide a heat-accumulating type modular air-cooled water heater unit capable of operating at low temperature, wherein equipment is placed outdoors, penetrates through and is fixedly installed outdoors, when the equipment moves, the equipment moves and buffers through the mutual matching of a buffer cross frame, an end hinged sliding block, an end fixing plate frame and a wall sliding rail, a double-end motor is started to adjust a horizontal adjusting screw rod to rotate, the horizontal adjusting plate is adjusted through the horizontal adjusting screw rod to drive a supporting plate to adjust the distance, an adjusting seat is adjusted through a starting end fixing plate frame to drive an arc-shaped solar panel to rotate in an azimuth direction, reflected light of the arc-shaped solar panel irradiates the outer side of a cooling bin, the reflected light irradiates the cooling bin and irradiates an air guide cylinder to insulate heat of an inner spiral cooling pipe in winter, cold water is guided into a winding pipe in summer, and the winding pipe is wound on the outer side of the air guide cylinder to cool and exchange heat for the hot water of the inner spiral cooling pipe in the air guide cylinder In rainy days, rainwater is guided into the liquid guide inner frame through the arc-shaped liquid guide seat and the arc-shaped solar panel, the rainwater collides with the outer side edge of the power generation roller to drive the power generation roller to rotate and adjust the power generator to generate power, and the fan is started to lead wind into the fan through the wind guide cover and enter the wind guide cylinder through the wind guide cylinder to cool the inner spiral cooling pipe.

The purpose of the invention can be achieved by adopting the following technical scheme:

a heat-accumulating and low-temperature-running heat-recovery modular air-cooled water heater unit comprises a base, wherein side slide rails are arranged on two sides of the top of the base, horizontal adjusting plates capable of sliding on the side slide rails are sleeved at two outer ends of the side slide rails, a buffer frame assembly is arranged at the top of each horizontal adjusting plate, a supporting plate is arranged at the top of the buffer frame assembly, an arc-shaped liquid guide seat is arranged at the top of the supporting plate, an angle adjusting assembly is arranged in the middle of the top of the arc-shaped liquid guide seat, an arc-shaped solar panel is arranged on the angle adjusting assembly, a horizontal adjusting assembly capable of driving each horizontal adjusting plate is arranged in the middle of the top of the base, U-shaped frames are arranged on two sides of the top of the base, a hydraulic power generation assembly is arranged in the middle of the U-shaped frames, and the hydraulic power generation assembly is matched with the arc-shaped liquid guide seats and the arc-shaped solar panels, the utility model discloses a cooling device, including U type frame, drain board, cooling storehouse, the top department of U type frame installs the drain board, the cooling storehouse is equipped with water cooling component in the inside, the both ends department in cooling storehouse communicates windy cooling component.

Preferably, buffering frame subassembly includes wall slide rail, end hinge slider, buffering cross and fixed grillage, the wall slide rail is all installed with the bottom of backup pad in the top of level adjusting plate, the outside cover of wall slide rail is equipped with end hinge slider, just it has the buffering cross to articulate between the end hinge slider, and it has fixed grillage to articulate between the buffering cross.

Preferably, the angle adjusting component includes the articulated seat of side, adjusts seat and accommodate motor, the articulated seat of side is installed to the side middle part department of arc drain seat, accommodate motor is installed at the articulated seat of one side top department of side, accommodate motor's output runs through the articulated seat of side and installs the regulation seat, the outer tip department of adjusting the seat installs arc solar panel.

Preferably, the horizontal adjusting component comprises a double-end motor and a horizontal adjusting screw rod, the double-end motor is installed at the middle of the top of the base, the horizontal adjusting screw rod is installed at two output ends of the double-end motor, and the horizontal adjusting screw rod penetrates through the horizontal adjusting plate and is meshed with the horizontal adjusting plate.

Preferably, hydroelectric generation subassembly includes generator, drain inner tower, connection bull stick and power generation cylinder, the inboard middle part department of U type frame installs the drain inner tower, the generator is installed at one side both ends of drain inner tower, the output of generator runs through the drain inner tower and installs the connection bull stick, the outside cover of connecting the bull stick is equipped with the power generation cylinder.

Preferably, the water cooling assembly comprises an end fixing plate frame, an air guide cylinder, an inner spiral cooling pipe and a winding pipe, the end fixing plate frame is installed at two ends of the inside of the air guide cover, and the air guide cylinder is installed inside the end fixing plate frame.

Preferably, an inner spiral cooling pipe is arranged inside the air duct, two ends of the inner spiral cooling pipe penetrate through the air duct and the cooling bin, a winding pipe is wound on the outer side of the air duct, and two ends of the winding pipe penetrate through the cooling bin

Preferably, the wind heat dissipation assembly comprises a fan, an end fan bin and a wind scooper, the end fan bin is installed at two ends of the cooling bin, the fan is arranged in the end fan bin, and the wind scooper is communicated with the outer side of the end fan bin.

Preferably, the air-cooled water heater unit further comprises the following use methods:

the method comprises the following steps: placing the equipment outdoors and fixedly installing the equipment outdoors in a penetrating way;

step two: when the movable buffer frame moves, the buffer cross frame, the end hinge sliding block, the end fixing plate frame and the wall sliding rail are matched with each other to buffer the movement;

step three: starting a double-end motor to adjust the horizontal adjusting screw to rotate, and adjusting the horizontal adjusting plate through the horizontal adjusting screw to drive the supporting plate to adjust the distance;

step four: the adjusting seat is adjusted by the starting end fixing plate frame to drive the arc-shaped solar panel to perform azimuth rotation adjustment, so that the reflected light of the arc-shaped solar panel irradiates the outer side of the cooling bin;

step five: in winter, the light is reflected to irradiate the cooling bin and penetrates through the cooling bin to irradiate the air guide cylinder to insulate the inner spiral cooling pipe;

step six: in summer, cold water is led into the winding pipe, and the winding pipe is wound on the outer side of the air duct to carry out cooling and heat exchange treatment on hot water of the inner spiral cooling pipe in the air duct;

step seven: in rainy days, rainwater is guided into the liquid guiding inner frame through the arc-shaped liquid guiding seat and the arc-shaped solar panel, so that the rainwater collides with the outer side edge part of the power generation roller to drive the power generation roller to rotate to adjust the power generator to generate power;

step eight: and starting the fan to lead the air into the fan through the air guide cover and enter the air guide cylinder through the air guide cylinder to cool the inner spiral cooling pipe.

The invention has the beneficial technical effects that:

the invention provides a heat-accumulating type modularized air-cooled water heater unit capable of running at low temperature, which is characterized in that equipment is placed outdoors and penetrates through and is fixedly installed outdoors, when the equipment moves, the equipment moves and buffers through the mutual matching of a buffer cross, an end hinged slide block, an end fixing plate frame and a wall slide rail, a double-end motor is started to adjust a horizontal adjusting screw rod to rotate, the horizontal adjusting plate is adjusted through the horizontal adjusting screw rod to drive a support plate to adjust the distance, an adjusting seat is adjusted through the starting end fixing plate frame to drive an arc-shaped solar panel to perform azimuth rotation adjustment, reflected light of the arc-shaped solar panel irradiates the outer side of a cooling bin, the reflected light irradiates the cooling bin and penetrates through the cooling bin to irradiate an air guide cylinder to perform heat preservation on an inner spiral cooling pipe in winter, cold water is guided into a winding pipe in summer, and the winding pipe is wound on the outer side of the air guide cylinder to perform heat exchange and cooling treatment on hot water of the inner spiral cooling pipe in the air guide cylinder, in rainy days, rainwater is guided into the liquid guiding inner frame through the arc-shaped liquid guiding seat and the arc-shaped solar panel, the rainwater collides with the outer side edge of the power generation roller to drive the power generation roller to rotate and adjust the power generator to generate power, and the fan is started to lead wind into the fan through the wind guide cover and enter the wind guide cylinder through the wind guide cylinder to penetrate through the wind guide cylinder to cool the inner spiral cooling pipe.

Drawings

Fig. 1 is a schematic view of an overall first perspective structure of a heat-accumulating and low-temperature-operable heat-recovery-type modular air-cooled water heater unit according to a preferred embodiment of the present invention;

fig. 2 is a perspective view of a second perspective view of the whole device of a heat-accumulating and low-temperature-operable heat-recovery-type modular air-cooled water heater unit according to a preferred embodiment of the present invention;

fig. 3 is a perspective view of the third perspective view of the whole device of a preferred embodiment of a heat accumulating type and low temperature operation heat recovery type modular air-cooled water heater unit according to the present invention;

fig. 4 is a schematic view of an overall fourth perspective view of an apparatus of a heat accumulating type and low temperature operation heat recovery type modular air-cooled water heater set according to a preferred embodiment of the present invention;

fig. 5 is an enlarged view of a structure at a point a of a preferred embodiment of a heat accumulating type and low temperature operable heat recovery type modular air-cooled water heater unit according to the present invention;

fig. 6 is a schematic view of a buffering cross frame assembly of a preferred embodiment of a regenerative and low-temperature operation heat recovery type modular air-cooled hot water unit according to the present invention;

fig. 7 is a schematic view of a combined structure of a cooling tube assembly and an air-cooled cooling assembly of a heat recovery type modular air-cooled water heater set capable of heat storage and low-temperature operation according to a preferred embodiment of the present invention;

fig. 8 is a perspective view illustrating the combined structure of the horizontal stand assembly, the buffering stand assembly and the hydroelectric power generation assembly according to a preferred embodiment of the heat accumulating and low temperature operation heat recovery type modular air-cooled water heating unit;

fig. 9 is a schematic perspective view of a water power generation assembly according to a preferred embodiment of a heat accumulating type and low temperature operable heat recovery type modular air-cooled water heater assembly of the present invention;

fig. 10 is a perspective view of the combination of the horizontal adjusting rack assembly and the buffering rack assembly of the heat-accumulating and low-temperature-operating heat-recovery type modular air-cooled water heater unit according to a preferred embodiment of the present invention.

In the figure: 1-base, 2-side slide rail, 3-level adjusting plate, 4-support plate, 5-arc liquid guide seat, 6-level adjusting screw, 7-generator, 8-U-shaped frame, 9-end hinged slide block, 11-buffer cross, 12-liquid guide plate, 13-arc solar panel, 14-cooling bin, 15-end fan bin, 16-wind scooper, 17-liquid guide inner frame, 18-generating roller, 19-side hinged seat, 20-double-head motor, 21-fan, 22-adjusting seat, 23-adjusting motor, 24-end fixed plate frame, 25-wind guide cylinder, 26-inner spiral cooling pipe, 27-winding pipe and 28-wall slide rail.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-10, the heat accumulating type modular air-cooled water heater unit capable of operating at low temperature provided in this embodiment includes a base 1, side slide rails 2 are installed on two sides of the top of the base 1, level adjusting plates 3 capable of sliding on the side slide rails 2 are sleeved on two outer ends of the side slide rails 2, a buffer frame assembly is arranged on the top of the level adjusting plates 3, a support plate 4 is installed on the top of the buffer frame assembly, an arc liquid guide seat 5 is installed on the top of the support plate 4, an angle adjusting assembly is installed in the middle of the top of the arc liquid guide seat 5, an arc solar panel 13 is installed on the angle adjusting assembly, a level adjusting assembly capable of driving the level adjusting plates 3 is installed in the middle of the top of the base 1, U-shaped frames 8 are installed on two sides of the top of the base 1, a hydroelectric component is installed in the middle of the U-shaped frames 8, and the hydroelectric component is matched with the arc liquid guide seat 5 and the arc solar panel 13, liquid guide plate 12 is installed at the top of U type frame 8, and cooling storehouse 14 is installed at the top of liquid guide plate 12, and the inside in cooling storehouse 14 is equipped with water cooling component, and the both ends department of cooling storehouse 14 communicates windy radiating component.

The equipment is placed outdoors and fixedly installed outdoors in a penetrating way, when the equipment moves, the buffer cross 11, the end hinged slide block 9, the end fixed plate frame 24 and the wall slide rail 28 are matched with each other to carry out moving buffer, the double-end motor 20 is started to adjust the horizontal adjusting screw 6 to rotate, the horizontal adjusting plate 3 is adjusted by the horizontal adjusting screw 6 to drive the supporting plate 4 to carry out interval adjustment, the adjusting seat 22 is adjusted by the starting end fixed plate frame 24 to drive the arc-shaped solar panel 13 to carry out azimuth rotation adjustment, so that the reflected light of the arc-shaped solar panel 13 irradiates the outer side of the cooling bin 14, the reflected light irradiates the cooling bin 14 in winter and irradiates the air guide cylinder 25 to insulate the inner spiral cooling pipe 26 through the air guide cylinder 14, cold water is guided into the winding pipe 27 in summer, the winding pipe 27 is wound on the outer side of the air guide cylinder 25 to carry out cooling and heat exchange treatment on the hot water of the inner spiral cooling pipe 26 inside the air guide cylinder 25, in rainy days, rainwater is guided into the liquid guiding inner frame 17 through the arc-shaped liquid guiding seat 5 and the arc-shaped solar panel 13, the rainwater collides with the outer side edge of the power generation roller 18 to drive the power generation roller 18 to rotate and adjust the power generator 7 to generate power, the fan 21 is started to lead wind into the fan 21 through the wind guide cover 16, and the wind enters the wind guide cylinder 25 through the fan 21 to cool the inner spiral cooling pipe 26.

In this embodiment, the buffer frame assembly includes wall slide rail 28, end hinge slider 9, buffering cross 11 and end retainer plate frame 24, and wall slide rail 28 is all installed with the bottom of backup pad 4 to the top of level adjusting plate 3, and the outside cover of wall slide rail 28 is equipped with end hinge slider 9, and articulates between the end hinge slider 9 has buffering cross 11, and articulates between the buffering cross 11 to have end retainer plate frame 24.

In this embodiment, the angle adjustment subassembly includes the articulated seat of side 19, adjusts seat 22 and accommodate motor 23, and the articulated seat of side 19 is installed in the side middle part department of arc drain seat 5, and accommodate motor 23 is installed at the articulated seat of one side top department of 19 of side, and accommodate motor 23's output runs through the articulated seat of side 19 and installs and adjust seat 22, adjusts the outer tip department of seat 22 and installs arc solar panel 13.

In this embodiment, horizontal adjustment subassembly includes double-end motor 20 and horizontal adjusting screw 6, and double-end motor 20 is installed to the top middle part department of base 1, and horizontal adjusting screw 6 is installed to double-end motor 20's two output ends, and horizontal adjusting screw 6 runs through horizontal adjusting plate 3 and with horizontal adjusting plate 3 intermeshing.

In this embodiment, the hydroelectric generation assembly comprises a generator 7, a liquid guiding inner frame 17, a connecting rotating rod and a generating roller 18, the liquid guiding inner frame 17 is installed at the middle part of the inner side of the U-shaped frame 8, the generator 7 is installed at two ends of one side of the liquid guiding inner frame 17, the output end of the generator 7 penetrates through the liquid guiding inner frame 17 and is installed with the connecting rotating rod, and the generating roller 18 is sleeved on the outer side of the connecting rotating rod.

In the present embodiment, the water cooling assembly includes an end plate frame 24, an air guiding duct 25, an internal spiral cooling duct 26 and a winding duct 27, the end plate frame 24 is installed at two ends of the inside of the air guiding cover 16, and the air guiding duct 25 is installed inside the end plate frame 24.

In this embodiment, an inner spiral cooling pipe 26 is disposed inside the air duct 25, two ends of the inner spiral cooling pipe 26 penetrate through the air duct 25 and the cooling chamber 14, a winding pipe 27 is wound outside the air duct 25, and two ends of the winding pipe 27 penetrate through the cooling chamber 14

In this embodiment, the wind heat dissipation assembly includes a fan 21, an end fan bin 15 and an air guiding cover 16, the end fan bin 15 is installed at two ends of the cooling bin 14, the fan 21 is arranged inside the end fan bin 15, and the air guiding cover 16 is communicated with the outer side of the end fan bin 15.

In this embodiment, the air-cooling and water-heating unit further includes the following usage methods:

step two: when moving, the buffer cross 11, the end hinge slide block 9, the end fixing plate frame 24 and the wall slide rail 28 are matched with each other to buffer the movement;

step three: starting the double-head motor 20 to adjust the horizontal adjusting screw 6 to rotate, and adjusting the horizontal adjusting plate 3 through the horizontal adjusting screw 6 to drive the supporting plate 4 to adjust the distance;

step four: the adjusting seat 22 is adjusted by the starting end fixing plate frame 24 to drive the arc solar panel 13 to perform azimuth rotation adjustment, so that the reflected light of the arc solar panel 13 irradiates the outer side of the cooling bin 14;

step five: in winter, the light is reflected to irradiate the cooling bin 14 and penetrates through the cooling bin 14 to irradiate the air duct 25 to insulate the inner spiral cooling pipe 26;

step six: in summer, cold water is led into the winding pipe 27, and the winding pipe 27 is wound on the outer side of the air guide cylinder 25 to carry out cooling and heat exchange treatment on hot water of the inner spiral cooling pipe 26 in the air guide cylinder 25;

step seven: in rainy days, rainwater is guided into the liquid guiding inner frame 17 through the arc-shaped liquid guiding seat 5 and the arc-shaped solar panel 13, so that the rainwater collides with the outer side edge part of the power generation roller 18 to drive the power generation roller 18 to rotate and adjust the power generator 7 to generate power;

step eight: the fan 21 is started to lead the air into the fan 21 through the air guide cover 16, and the air enters the air guide duct 25 through the fan 21 and penetrates through the air guide duct 25 to carry out cooling treatment on the inner spiral cooling pipe 26.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims

1. The utility model provides a but heat recovery type modularization forced air cooling hot water unit of heat accumulation formula and low temperature operation which characterized in that: comprises a base (1), side slide rails (2) are installed on two sides of the top of the base (1), a horizontal adjusting plate (3) capable of sliding on the side slide rails (2) is sleeved at two ends of the outer side of each side slide rail (2), a buffering frame assembly is arranged at the top of each horizontal adjusting plate (3), a supporting plate (4) is installed at the top of each buffering frame assembly, an arc-shaped liquid guiding seat (5) is installed at the top of each supporting plate (4), an angle adjusting assembly is installed at the middle of the top of each arc-shaped liquid guiding seat (5), an arc-shaped solar panel (13) is installed on each angle adjusting assembly, a horizontal adjusting assembly capable of driving each horizontal adjusting plate (3) is installed at the middle of the top of the base (1), U-shaped frames (8) are installed at two sides in the top of the base (1), and a hydroelectric generation assembly is installed at the middle of the U-shaped frames (8), and hydroelectric generation subassembly with arc drain seat (5) and arc solar panel (13) mutually support, the top department of U type frame (8) installs drain board (12), cooling storehouse (14) are installed at the top of drain board (12), the inside in cooling storehouse (14) is equipped with water cooling assembly, the both ends department in cooling storehouse (14) communicates windy radiating component.

2. The modular air-cooled water heater unit of claim 1, wherein: buffer frame subassembly includes wall slide rail (28), end articulated slider (9), buffering cross (11) and fixed end grillage (24), wall slide rail (28) are all installed to the top of level regulating plate (3) and the bottom of backup pad (4), the outside cover of wall slide rail (28) is equipped with end articulated slider (9), just it has buffering cross (11) to articulate between end articulated slider (9), and it has fixed end grillage (24) to articulate between buffering cross (11).

3. A regenerative, low temperature operated heat recovery type modular air-cooled water heater unit as set forth in claim 2, wherein: the angle adjusting component comprises a side hinging seat (19), an adjusting seat (22) and an adjusting motor (23), the side hinging seat (19) is installed at the middle part of the side of the arc liquid guiding seat (5), the adjusting motor (23) is installed at the top part of one side of the side hinging seat (19), the adjusting seat (22) is installed by penetrating through the side hinging seat (19) at the output end of the adjusting motor (23), and the arc solar panel (13) is installed at the outer end part of the adjusting seat (22).

4. A regenerative, low temperature operated heat recovery type modular air-cooled water heater unit as set forth in claim 3, wherein: horizontal adjustment subassembly includes double-end motor (20) and horizontal adjusting screw (6), the top middle part department of base (1) installs double-end motor (20), horizontal adjusting screw (6) are installed to two outputs of double-end motor (20), horizontal adjusting screw (6) run through horizontal adjusting plate (3) and with horizontal adjusting plate (3) intermeshing.

5. The modular air-cooled water heater unit of claim 4, wherein: hydroelectric power generation subassembly includes generator (7), drain inner tower (17), connects bull stick and power generation cylinder (18), the inboard middle part department of U type frame (8) installs drain inner tower (17), generator (7) are installed at one side both ends of drain inner tower (17), the output of generator (7) runs through drain inner tower (17) and installs the connection bull stick, the outside cover of connecting the bull stick is equipped with power generation cylinder (18).

6. The modular air-cooled water heater unit of claim 5, wherein: the water cooling assembly comprises end fixing plate frames (24), an air guide cylinder (25), an inner spiral cooling pipe (26) and a winding pipe (27), the end fixing plate frames (24) are installed at two ends of the interior of the air guide cover (16), and the air guide cylinder (25) is installed inside the end fixing plate frames (24).

7. The modular air-cooled water heater unit of claim 6, wherein: an inner spiral cooling pipe (26) is arranged inside the air duct (25), two ends of the inner spiral cooling pipe (26) penetrate through the air duct (25) and the cooling bin (14), a winding pipe (27) is wound on the outer side of the air duct (25), and two ends of the winding pipe (27) penetrate through the cooling bin (14).

8. The modular air-cooled water heater unit of claim 7, wherein: the wind heat dissipation assembly comprises a fan (21), an end fan bin (15) and a wind guide cover (16), the end fan bin (15) is installed at two ends of the cooling bin (14), the fan (21) is arranged inside the end fan bin (15), and the wind guide cover (16) is communicated with the outer side of the end fan bin (15).

9. The modular air-cooled water heater assembly of claim 8, further comprising: the air-cooled water heating unit also comprises the following use method:

step two: when the movable buffer frame moves, the buffer cross frame (11), the end hinged sliding block (9), the end fixed plate frame (24) and the wall sliding rail (28) are matched with each other to buffer the movement;

step three: the double-head motor (20) is started to adjust the horizontal adjusting screw (6) to rotate, and the horizontal adjusting plate (3) is adjusted through the horizontal adjusting screw (6) to drive the supporting plate (4) to adjust the distance;

step four: the adjusting seat (22) is adjusted by the starting end fixing plate frame (24) to drive the arc-shaped solar panel (13) to rotate and adjust the direction, so that the reflected light of the arc-shaped solar panel (13) irradiates the outer side of the cooling bin (14);

step five: in winter, the light is reflected to irradiate the cooling bin (14) and penetrates through the cooling bin (14) to irradiate the air duct (25) to insulate the inner spiral cooling pipe (26);

step six: in summer, cold water is led into the winding pipe (27), and the winding pipe (27) is wound on the outer side of the air duct (25) to carry out cooling and heat exchange treatment on hot water of the inner spiral cooling pipe (26) in the air duct (25);

step seven: in rainy days, rainwater is guided into the liquid guiding inner frame (17) through the arc-shaped liquid guiding seat (5) and the arc-shaped solar panel (13), so that the rainwater collides with the outer side edge part of the power generation roller (18) to drive the power generation roller (18) to rotate to adjust the power generator (7) to generate power;

step eight: the fan (21) is started to lead the air into the fan (21) through the air guide cover (16) and enters the air guide cylinder (25) through the fan (21) to penetrate through the air guide cylinder (25) to carry out cooling treatment on the inner spiral cooling pipe (26).