CN219328210U - High-efficient heat preservation formula solar heat storage water tank suitable for severe cold district - Google Patents

Abstract

The utility model provides a high-efficiency heat-preservation type solar heat storage water tank suitable for severe cold areas, which belongs to the technical field of solar water tanks and comprises the following components: the solar water heater comprises two solar heat storage water tanks, a water outlet assembly, a solar water and electricity dual-purpose fan heater, a water return pipeline, a stainless steel corrugated pipe, a first three-way valve and a control system; the outer sides of the solar heat storage water tanks are provided with heat preservation layers, and the two solar heat storage water tanks are communicated through a silica gel pipe; the water outlet assembly comprises an upper left water outlet, a middle left water outlet, a lower left water outlet, an upper right water outlet, a middle right water outlet and a lower right water outlet, wherein the upper left water outlet, the middle left water outlet and the lower left water outlet are all arranged on the left side of the solar heat storage water tank, and the lower right water outlet, the middle right water outlet and the lower right water outlet are all arranged on the right side of the solar heat storage water tank; the device has reduced the heat loss, make full use of solar energy and adjust the heat of heating according to the demand, realizes furthest's governing equipment's use value, and practice thrift use cost.

Description

High-efficient heat preservation formula solar heat storage water tank suitable for severe cold district

Technical Field

The utility model belongs to the technical field of solar water tanks, and particularly relates to a high-efficiency heat-preservation type solar heat storage water tank suitable for severe cold areas.

Background

Solar photo-thermal and multi-energy complementary heating technology products are commonly used, and the products are used by combining a solar heat source with an air source heat pump, a water-ground source heat pump, an electric boiler, a gas wall-mounted heating furnace, an alcohol-based fuel heating furnace, a biomass heating furnace and the like.

At present, the popularization and application of centralized and distributed clean energy of photo-thermal and clean energy are more and more popularized and applied, but how to improve the thermal efficiency of the vacuum heat collecting pipe and the solar heat storage water tank and degrade heat loss, so that the conversion of all the energy is realized with higher efficiency, the use cost is saved to the greatest extent, and a plurality of improvement and improvement places still exist.

Disclosure of Invention

Based on the technical problems, the utility model provides the high-efficiency heat-preservation type solar heat storage water tank suitable for the severe cold region, which reduces heat loss, fully utilizes solar energy and adjusts the heat of heating according to requirements, realizes the maximum use value of adjusting equipment, and saves the use cost.

The specific technical scheme is as follows:

high-efficient heat preservation formula solar heat storage water tank suitable for severe cold district includes: the solar water heater comprises two solar heat storage water tanks, a water outlet assembly, a solar water and electricity dual-purpose fan heater, a water return pipeline, a stainless steel corrugated pipe, a first three-way valve and a control system; the outer sides of the solar heat storage water tanks are provided with heat preservation layers, and the two solar heat storage water tanks are communicated through a silica gel pipe; the water outlet assembly comprises an upper left water outlet, a middle left water outlet, a lower left water outlet, an upper right water outlet, a middle right water outlet and a lower right water outlet, wherein the upper left water outlet, the middle left water outlet and the lower left water outlet are all arranged on the left side of the solar heat storage water tank, and the lower right water outlet, the middle right water outlet and the lower right water outlet are all arranged on the right side of the solar heat storage water tank; the water inlet of the solar water-electricity dual-purpose fan heater is communicated with the upper right water outlet through a heating water inlet pipeline and a circulating water pump; two ends of the water return pipeline are respectively communicated with the upper right water outlet and the upper left water outlet, and the water return pipeline is embedded into the heat insulation layer; the left upper water outlet and the left middle water outlet are communicated through a stainless steel corrugated pipe; the first three-way valve is provided with two input ports and an output port, the lower right water outlet is communicated with one input port of the first three-way valve through a heating return water pipeline, and the output port of the first three-way valve is communicated with a return water port of the solar water and electricity dual-purpose fan heater; the control system is provided with a full-automatic integrated controller which is connected with the solar water and electricity dual-purpose warm air blower.

In addition, the high-efficiency heat-preservation type solar heat storage water tank suitable for severe cold areas can also have the following additional technical characteristics:

in the above technical solution, further includes: a water supplementing pipeline, a water supplementing self-priming pump and a water supplementing tank; one end of the water supplementing pipeline is communicated with the other input port of the first three-way valve; the output end of the water supplementing self-priming pump is communicated with the other end of the water supplementing pipeline; the water supplementing tank is communicated with the input end of the water supplementing self-priming pump.

In the above technical solution, further includes: the graphene electric kang heating system; the graphene electric kang heating system is connected with a full-automatic integrated controller.

In the above technical solution, further includes: all-glass vacuum solar heat collecting tube; the all-glass evacuated solar collector tubes are respectively arranged on the two solar heat storage water tanks.

In the above technical solution, further includes: a second three-way valve and a drain pipe; the second three-way valve comprises an input port and two output ports, the input port of the second three-way valve is communicated with a heating return water pipeline, and one output port of the second three-way valve is communicated with a return water port of the solar water-electricity dual-purpose fan heater; the drain pipe is communicated with the other output port of the second three-way valve.

In the above technical solution, further includes: a solar energy support; the solar bracket is fixed on the wall body, and the two solar heat storage water tanks are respectively fixed on the solar bracket.

In the above technical solution, further includes: a valve; the valve is arranged at the drain pipe.

Compared with the prior art, the efficient heat-preservation type solar heat storage water tank suitable for severe cold areas has the beneficial effects that:

1. the water return pipeline is arranged in the heat preservation layer of the solar heat storage water tank, so that heat loss caused by excessive contact of the water return pipeline with external air is avoided, and the heat efficiency of the product is improved.

2. In the daytime, when solar energy irradiation is good, solar energy is converted into heat energy to be stored in a solar heat storage water tank, and heat is supplied to a heating terminal through a control system and a circulating water pump; at night, the waste heat of the solar heat storage water tank supplies heat to the heating terminal through the control system and the circulating water pump, and when the solar heat supply is insufficient, the solar water and electricity dual-purpose warm air blower of the auxiliary heat source equipment supplies heat to the heating terminal directly; when the solar energy is insufficient due to yin, rain and snow weather, the auxiliary heat source equipment is adopted to directly supply heat by the solar water and electricity dual-purpose warm air blower, so that automatic switching in the operation of the whole system is realized, and the use is convenient.

3. Through setting up two storage water tanks, guarantee energy storage and system operation incessantly in succession to make full use of solar energy, and according to the heat of season user demand regulation heating, reduce the expense of heating season operation, and then realize furthest's governing equipment's use value.

4. By adopting the solar water-electricity dual-purpose warm air blower as the heat radiating device, no additional boiler assistance is needed, so that the cost and the use cost of the whole system are reduced.

Drawings

Fig. 1 is a front view of a high-efficiency heat preservation type solar heat storage water tank suitable for severe cold areas of the utility model;

fig. 2 is a cross-sectional view of a solar heat storage water tank of the present utility model;

fig. 3 is a right side view of the solar heat storage water tank of the present utility model;

fig. 4 is a left side view of the solar heat storage water tank of the present utility model;

wherein, the correspondence between the reference numerals and the component names in fig. 1 to 4 is:

the solar energy heat storage water tank 1, the all-glass evacuated solar collector tube 2, the solar energy support 3, the stainless steel corrugated tube 4, the water return pipeline 5, the heating water inlet pipeline 6, the heating water return pipeline 7, the water circulation pump 8, the dual-purpose electric fan heater of 9 solar energy water and electricity, the electric heated kang system of 10 graphite alkene, 11 moisturizing tank, 12 moisturizing pipeline, 13 full-automatic integrated controller, 14 moisturizing self priming pump, 15 upper right delivery port, 16 middle right delivery port, 17 lower right delivery port, 18 upper left delivery port, 19 middle left delivery port, 20 lower left delivery port, 21 heat preservation, 22 drain pipe.

Detailed Description

The utility model will be further described with reference to specific embodiments and figures 1-4, but the utility model is not limited to these embodiments.

An efficient thermal insulation type solar heat storage water tank suitable for severe cold regions, as shown in fig. 1-4, comprises: the solar water heater comprises two solar heat storage water tanks 1, a water outlet assembly, a solar water and electricity dual-purpose fan heater 9, a water return pipeline 5, a stainless steel corrugated pipe 4, a first three-way valve and a control system; the outer sides of the solar heat storage water tanks 1 are provided with heat preservation layers 21, and the two solar heat storage water tanks 1 are communicated through a silica gel pipe; the water outlet assembly comprises an upper left water outlet 18, a middle left water outlet 19, a lower left water outlet 20, an upper right water outlet 15, a middle right water outlet 16 and a lower right water outlet 17, wherein the upper left water outlet 18, the middle left water outlet 19 and the lower left water outlet 20 are all arranged on the left side of the solar heat storage water tank 1, and the lower right water outlet 17, the middle right water outlet 16 and the lower right water outlet 17 are all arranged on the right side of the solar heat storage water tank 1; the water inlet of the solar water and electricity dual-purpose warm air blower 9 is communicated with the upper right water outlet 15 through a heating water inlet pipeline 6 and a circulating water pump 8; two ends of the water return pipeline 5 are respectively communicated with the upper right water outlet 15 and the upper left water outlet 18, and the water return pipeline 5 is embedded into the heat insulation layer 21; the left upper water outlet 18 and the left middle water outlet 19 are communicated through the stainless steel corrugated pipe 4; the first three-way valve is provided with two input ports and an output port, the lower right water outlet 17 is communicated with one input port of the first three-way valve through a heating return water pipeline 7, and the output port of the first three-way valve is communicated with a return water port of the solar water and electricity dual-purpose fan heater 9; the control system is provided with a full-automatic integrated controller 13, and the full-automatic integrated controller 13 is connected with the solar water and electricity dual-purpose warm air blower 9.

The heat preservation layer 21 is arranged on the outer side of the solar heat storage water tank 1, and the two solar heat storage water tanks 1 are communicated through the silica gel pipe, so that the two solar heat storage water tanks 1 are communicated for use, and the water storage capacity is increased; thirdly, by arranging the water outlet assembly comprising an upper left water outlet 18, a middle left water outlet 19, a lower left water outlet 20, an upper right water outlet 15, a middle right water outlet 16 and a lower right water outlet 17, the upper left water outlet 18, the middle left water outlet 19 and the lower left water outlet 20 are all arranged on the left side of the solar heat storage water tank 1, the lower right water outlet 17, the middle right water outlet 16 and the lower right water outlet 17 are all arranged on the right side of the solar heat storage water tank 1, and the water inlet of the solar hydroelectric dual-purpose fan heater 9 is communicated with the upper right water outlet 15 through the heating water inlet pipeline 6 and the circulating water pump 8, so that the effect that water in the solar heat storage water tank 1 enters the solar hydroelectric dual-purpose fan heater 9 through the upper right water outlet 15, the heating water inlet pipeline 6 and the circulating water pump 8 is realized; thirdly, by respectively communicating the two ends of the water return pipeline 5 with the upper right water outlet 15 and the upper left water outlet 18, and embedding the water return pipeline 5 into the heat insulation layer 21, the heat loss caused by the excessive contact of the water return pipeline 5 with the outside air is avoided, and the heat efficiency of the product is fully improved; thirdly, by communicating the upper left water outlet 18 with the middle left water outlet 19 through the stainless steel corrugated pipe 4, the effect that water enters the middle left water outlet 19 through the upper left water outlet 18 is realized; thirdly, the first three-way valve is provided with two input ports and one output port, the right lower water outlet 17 is communicated with one input port of the first three-way valve through the heating water return pipeline 7, and the output port of the first three-way valve is communicated with the water return port of the solar water-electricity dual-purpose fan heater 9, so that hot water enters the solar water-electricity dual-purpose fan heater 9 through the right lower water outlet 17 and the heating water return pipeline 7 through the first three-way valve; and a full-automatic integrated controller 13 is arranged through the control system, and the full-automatic integrated controller 13 is connected with the solar water and electricity dual-purpose fan heater 9, so that the function of realizing automatic switching in the whole process of controlling the whole system to operate through the full-automatic integrated controller 13 is realized. By adopting the structure, the heat loss caused by excessive contact of the water return pipeline 5 with the outside air is avoided by arranging the water return pipeline 5 in the heat insulation layer 21 of the solar heat storage water tank 1, so that the heat efficiency of the product is improved; the two water storage tanks are arranged, so that energy storage and system operation are ensured to be continuous and uninterrupted, solar energy is fully utilized, heating heat is regulated according to seasonal use requirements, the operation cost in heating seasons is reduced, and the use value of the equipment is regulated to the greatest extent; and by adopting the solar water-electricity dual-purpose warm air blower 9 as a heat radiating device, no additional boiler assistance is needed, so that the cost and the use cost of the whole system are reduced.

Specifically, in the daytime, when solar energy irradiation is good, solar energy is converted into heat energy to be stored in the solar heat storage water tank 1, and heat is supplied to a heating terminal through the control system and the circulating water pump 8; at night, the waste heat of the solar heat storage water tank 1 supplies heat to a heating terminal through a control system and the circulating water pump 8, and when the solar heat supply is insufficient, the solar water and electricity dual-purpose warm air blower 9 serving as an auxiliary heat source device supplies heat to the heating terminal directly; when the solar energy is insufficient due to yin, rain and snow weather, the solar water and electricity dual-purpose warm air blower 9 of the auxiliary heat source equipment is adopted to directly supply heat, so that automatic switching in the operation of the whole system is realized, and the use is convenient.

Specifically, the heating flow of the solar water and electricity dual-purpose fan heater 9 system is as follows: when the solar heat collection temperature reaches the heating requirement, the heating system enters a large circulation mode, and the circulating water pump 8 conveys the solar high-temperature water to a coil pipe system in the solar water and electricity dual-purpose fan heater 9 in the room to supply heat for the room. When the solar heat collection temperature does not reach the heating temperature requirement, the heating system enters a small circulation mode, the large circulation is stopped at the moment, the circulating water pump 8 stops running, and the electric auxiliary module of the solar water and electricity dual-purpose fan heater 9 automatically starts heating. The system should adopt intelligent control dual supply dual storage module design, adopts "portable" mode of operation, and intelligent conversion independently operates the heating. When the heating period is entered, the system enters a heating mode to operate, and after the heating period is ended, the domestic hot water supply mode can be operated, so that the annual operation of the solar heat collection system is realized. The system has the function of acquiring and transmitting App big data, and the heat collecting temperature of the solar heat storage water tank 1 of the system, the backwater temperature of the solar water and electricity dual-purpose fan heater 9, the indoor actual temperature, the electric auxiliary heating state and other data are uploaded to the background. The system adopts the principle of solar heat collection priority design, namely when the temperature Tx of the solar heat storage water tank 1 is greater than the set temperature Ts, the solar heat storage water tank enters a solar heating mode, the circulating water pump 8 of the whole heating system operates, the indoor temperature is guaranteed to meet the heating requirement, when the backwater temperature Th is less than or equal to Ts, the circulating system of the solar heat collection system is cut off by the control system of the solar water-power dual-purpose fan heater 9, the system automatically enters an electric auxiliary heating mode, and the circulating water pump 8 stops operating.

Specifically, the water return pipeline 5 is a DN20 stainless steel pipe, when the heat preservation molding rear shell plays a role in supporting the stainless steel pipe, the welded junction deformation caused by the self weight of the stainless steel pipe is prevented, and the welded junction deformation is arranged at the position slightly higher than the left upper water outlet 18 and the right upper water outlet 15 of the solar heat storage water tank 1, so that when the electric auxiliary mode is switched, water in the stainless steel pipe can be discharged into the solar heat storage water tank 1, and the pipeline is prevented from being frosted.

Specifically, by arranging two solar heat storage water tanks 1, the water content can reach 320 liters, thereby ensuring continuous and uninterrupted energy storage and system operation.

Specifically, the solar water and electricity dual-purpose warm air blower 9 is provided with a 2000w electric auxiliary heating function, and boiler auxiliary is not required to be additionally added, so that the cost and the use cost of the whole system are reduced, the 2000w electric auxiliary can not bring capacity-increasing transformation pressure to a government electric power system, and the use effect can be achieved without capacity increase.

Specifically, the material of the inner container of the solar heat storage water tank 1 is the lowest SUS304-2B stainless steel sheet with anti-corrosion performance, and the thickness is not less than 0.4mm; the material of the shell of the solar heat storage water tank 1 is the lowest steel plate with an anti-corrosion protection layer, and the nominal thickness is not less than 0.4mm; and the surfaces of the inner container and the outer shell are not required to be provided with defects such as pits, scratches, dirt and the like.

Specifically, the heat preservation layer 21 of the solar heat storage water tank 1 is formed by integrally foaming high-density polyurethane at high temperature and high pressure, the foaming density is 40-45kg/m, the thickness of the heat preservation layer 21 is not less than 60 mm, and the water return pipeline 5 is embedded into the heat preservation layer 21 and is completely welded with water outlets at two ends.

Specifically, the heat energy conversion device is a universal solar energy conversion device, and comprises the functions of electric auxiliary heating, overtemperature protection, water temperature control, water level control and the like, and can limit the water temperature to be not more than 85 ℃. When the system is operated, when the return water temperature of the input terminal heating system reaches the heating requirement, the circulating water pump 8 enters an intermittent operation mode, heat collection of the solar heat collection system is continuously carried out on heat accumulation in the solar heat accumulation water tank 1, heat energy is utilized in a delayed mode, the total capacity of the solar heat accumulation water tank 1 is preferably determined according to the heating building area and the energy saving condition of a house building, the bearing capacity of the solar heat accumulation water tank 1 is not less than 0.05MPa, and the daily effective heat gain of the whole system is not less than 80MJ.

Specifically, when the system works, the solar heating is prioritized, and the electric auxiliary heating is adopted as an auxiliary control principle. When the solar heating temperature is lower than the heating temperature requirement, the solar water and electricity dual-purpose fan heater 9 automatically converts an electric auxiliary heating mode, and the heating is divided into two steps of 1000/2000 w.

Specifically, when the water temperature of the solar heat storage water tank 1 reaches the set upper limit, the electric auxiliary heating system of the solar water and electricity dual-purpose fan heater 9 stops working, and when the water temperature is low to the set lower limit, the electric auxiliary heating system of the solar water and electricity dual-purpose fan heater 9 works again, so that continuous heating ensures that the indoor temperature reaches the requirement.

Specifically, the fully automatic integrated controller 13 is of a conventional controller model.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a water supplementing pipeline 12, a water supplementing self-priming pump 14 and a water supplementing tank 11; one end of the water supplementing pipeline 12 is communicated with the other input port of the first three-way valve; the output end of the water supplementing self-priming pump 14 is communicated with the other end of the water supplementing pipeline 12; the water supplementing tank 11 is communicated with the input end of the water supplementing self-priming pump 14.

By detecting the water level of the solar heat storage water tank 1, when the water level of the solar water tank drops to 60%, the water supplementing valve automatically opens water supplementing, and the buzzer alarms to prompt, so that the water supplementing self-priming pump 14 inputs the water in the water supplementing tank 11 into the solar heat storage water tank 1; and during the water supplementing period, the water supplementing icon flashes, and the water supplementing is automatically stopped when the water is full.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a graphene electric kang system 10; the graphene electric kang system 10 is connected with a full-automatic integrated controller 13.

Through adding the electrically warmed kang system 10 of graphite alkene in the terminal, and the electrically warmed kang of graphite alkene has high-efficient, energy-conserving, environmental protection's characteristics, provides energy for the electrically warmed kang of graphite alkene through control system to realize the effect for rural heating.

Specifically, graphene resistance is used as important equipment for replacing rural heated kang, and can be opened or closed at any time through a self-owned controller so as to be convenient to use.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a full glass vacuum solar heat collecting tube 2; the all-glass evacuated solar collector tubes 2 are respectively arranged on the two solar heat storage water tanks 1.

The all-glass evacuated solar collector tube 2 employed in the present application is not a conventional solar collector tube, and a water passing loop is not formed in the present application, thereby reducing the failure rate of the device.

Specifically, the application adopts 80 all-glass vacuum solar heat collecting pipes 2, the all-glass vacuum solar heat collecting pipes 2 adopt totally-enclosed double-vacuum super-energy pipes, the film layers of the all-glass vacuum solar heat collecting pipes adopt a sputtering multi-metal film system to overcome the discoloration, film falling and aging of the film layers, and the surface temperature of the film system can resist the high temperature of 800 ℃ without discoloration, so that the service life of the super-energy pipes is not influenced.

Specifically, the all-glass vacuum solar heat collecting tube 2 adopts a special glass material of a high boron silicon 3.3 super-hard pipeline, the glass density and the impact strength of the special glass material are about 15 percent higher than those of a common vacuum tube, the wall thickness is not less than 1.6mm, and the super-energy tube adopts secondary vacuum treatment to minimize the proportion of the tube explosion. The pipeline is totally closed, no water flows in the pipeline, 1/10 of the common area of the heating area is occupied, the heating area is high, and the water tank circulates fast, so that the super-energy pipe cannot generate scaling phenomenon, the heat transfer way is vacuum liquid medium vaporization conduction, and the heat transfer speed is improved by 10% compared with the heat efficiency of a common water storage vacuum pipe.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a second three-way valve and drain pipe 22; the second three-way valve comprises an input port and two output ports, the input port of the second three-way valve is communicated with the heating return water pipeline 7, and one output port of the second three-way valve is communicated with the return water port of the solar water and electricity dual-purpose fan heater 9; the drain pipe 22 communicates with the other output port of the second three-way valve.

Hot water selectively enters a water return port of the solar water-electricity dual-purpose fan heater 9 or enters a drain pipe 22 through a second three-way valve.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a solar rack 3; the solar bracket 3 is fixed on the wall body, and the two solar heat storage water tanks 1 are respectively fixed on the solar bracket 3.

The solar bracket 3 is connected and fastened by bolts, and is tied and fixed with the wall body by steel wire ropes, so that the position of the solar bracket 3 is determined.

In an embodiment of the present utility model, as shown in fig. 1 to 4, further comprising: a valve; the valve is disposed at the drain pipe 22.

By opening the valve, hot water is introduced into the drain pipe 22, and the hot water is discharged through the drain pipe 22.

The implementation process comprises the following steps: by arranging the water return pipeline 5 in the heat preservation layer 21 of the solar heat storage water tank 1, heat loss caused by excessive contact of the water return pipeline 5 with outside air is avoided, and therefore the heat efficiency of the product is improved; the two water storage tanks are arranged, so that energy storage and system operation are ensured to be continuous and uninterrupted, solar energy is fully utilized, heating heat is regulated according to seasonal use requirements, the operation cost in heating seasons is reduced, and the use value of the equipment is regulated to the greatest extent; and by adopting the solar water-electricity dual-purpose warm air blower 9 as a heat radiating device, no additional boiler assistance is needed, so that the cost and the use cost of the whole system are reduced. In the daytime, when solar energy irradiation is good, solar energy is converted into heat energy to be stored in the solar heat storage water tank 1, and heat is supplied to a heating terminal through the control system and the circulating water pump 8; at night, the waste heat of the solar heat storage water tank 1 supplies heat to a heating terminal through a control system and the circulating water pump 8, and when the solar heat supply is insufficient, the solar water and electricity dual-purpose warm air blower 9 serving as an auxiliary heat source device supplies heat to the heating terminal directly; when the solar energy is insufficient due to yin, rain and snow weather, the solar water and electricity dual-purpose warm air blower 9 of the auxiliary heat source equipment is adopted to directly supply heat, so that automatic switching in the operation of the whole system is realized, and the use is convenient.

In the description of the present utility model, the term "plurality" means two or more, unless explicitly defined otherwise, the orientation or positional relationship indicated by the terms "upper", "lower", etc. are based on the orientation or positional relationship shown in the drawings, merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present utility model; the terms "coupled," "mounted," "secured," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In the present utility model, the schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. High-efficient heat preservation formula solar heat storage water tank suitable for severe cold district, its characterized in that includes:

the solar heat storage water tanks are provided with heat preservation layers at the outer sides, and are communicated through silica gel pipes;

the water outlet assembly comprises an upper left water outlet, a middle left water outlet, a lower left water outlet, an upper right water outlet, a middle right water outlet and a lower right water outlet, wherein the upper left water outlet, the middle left water outlet and the lower left water outlet are all arranged on the left side of the solar heat storage water tank, and the lower right water outlet, the middle right water outlet and the lower right water outlet are all arranged on the right side of the solar heat storage water tank;

the water inlet of the solar water-electricity dual-purpose fan heater is communicated with the upper right water outlet through a heating water inlet pipeline and a circulating water pump;

the two ends of the water return pipeline are respectively communicated with the upper right water outlet and the upper left water outlet, and the water return pipeline is embedded into the heat insulation layer;

the left upper water outlet and the left middle water outlet are communicated through the stainless steel corrugated pipe;

the first three-way valve is provided with two input ports and an output port, the lower right water outlet is communicated with one input port of the first three-way valve through a heating return water pipeline, and the output port of the first three-way valve is communicated with a return water port of the solar water and electricity dual-purpose fan heater;

the control system is provided with a full-automatic integrated controller, and the full-automatic integrated controller is connected with the solar water and electricity dual-purpose warm air blower.

2. The efficient heat preservation type solar heat storage water tank suitable for severe cold areas according to claim 1, further comprising:

one end of the water supplementing pipeline is communicated with the other input port of the first three-way valve;

the output end of the water supplementing self-priming pump is communicated with the other end of the water supplementing pipeline;

the water supplementing tank is communicated with the input end of the water supplementing self-priming pump.

3. The efficient heat preservation type solar heat storage water tank suitable for severe cold areas according to claim 2, further comprising:

the graphene electric kang heating system is connected with the full-automatic integrated controller.

4. A high efficiency thermal insulation solar thermal storage water tank suitable for severe cold areas as defined in claim 3 further comprising:

the all-glass vacuum solar heat collecting pipes are respectively arranged on the two solar heat storage water tanks.

5. The efficient thermal insulation type solar heat storage water tank suitable for severe cold regions according to claim 4, further comprising:

the second three-way valve comprises an input port and two output ports, the input port of the second three-way valve is communicated with the heating return water pipeline, and one output port of the second three-way valve is communicated with the return water port of the solar water and electricity dual-purpose fan heater;

and the drain pipe is communicated with the other output port of the second three-way valve.

6. The efficient heat preservation type solar heat storage water tank suitable for severe cold regions according to claim 5, further comprising:

the solar energy bracket is fixed on the wall body, and the two solar energy heat storage water tanks are respectively fixed on the solar energy bracket.

7. The efficient heat preservation type solar heat storage water tank suitable for severe cold regions according to claim 6, further comprising:

and the valve is arranged at the drain pipe.

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