CN216620319U - Self-driven balcony solar water heater - Google Patents

Abstract

The utility model discloses a self-driven balcony solar water heater which comprises a water tank shell, a water tank inner container and a heat collector, wherein a controller is arranged on the lower left side of the water tank shell, the water tank inner container is arranged inside the water tank shell, a jacket shell is arranged on the outer side of the water tank inner container, a direct-current micro-circulation pump is arranged on a connecting pipe on the lower left side of the water tank shell, the heat collector is arranged on the right side of the direct-current micro-circulation pump through a connecting pipe, and a connecting pipeline is connected to the upper right side of the water tank shell. According to the utility model, through the arrangement of the double-circulation heat exchange system, the problem that the solar water heater cannot be frozen to supply hot water in cold weather can be solved, and meanwhile, the water quality is pure and pollution-free when the solar water heater supplies water.

Description

Self-driven balcony solar water heater

Technical Field

The utility model relates to the technical field of self-driven solar water heater equipment, in particular to a self-driven balcony solar water heater.

Background

Solar energy is a durable energy which can be freely utilized, has no pollution and low energy density, is the richest energy which can be utilized by human beings, is the cheapest, cleanest and most promising energy for development, and the solar water heater converts solar energy into heat energy to heat water from low temperature to high temperature so as to meet the requirement of hot water in life and production of people.

The existing self-driven balcony solar water heater does not have a double-circulation heat exchange system in use, for example, an electric heating temperature control type solar water heater disclosed in application number CN201320820740.0, the existing solar water heater cannot solve the problem of freeze prevention in cold weather, so that the solar water heater cannot normally provide hot water under the condition of no solar radiation, meanwhile, the existing solar water heater needs to be additionally connected with a strong power supply to supply power to a water pump, and instability of solar energy can cause difficulty in continuous supply of solar energy.

Therefore, it is necessary to invent a self-driven balcony solar water heater to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a self-driven balcony solar water heater, which aims to solve the problems that a double-circulation heat exchange system is not available in the technology, the existing solar water heater cannot solve the problem of freezing prevention in cold weather, so that the solar water heater cannot normally provide hot water under the condition of no solar radiation, meanwhile, the existing solar water heater needs to be additionally connected with a strong power supply to supply power to a water pump, and the instability of solar energy can cause the difficulty in continuously supplying the solar energy.

In order to achieve the above purpose, the utility model provides the following technical scheme: the utility model provides a self-driven balcony solar water heater, includes water tank shell, water tank inner bag and heat collector, the left side below of water tank shell is provided with the controller, the inside of water tank shell is provided with the water tank inner bag, the outside of water tank inner bag is provided with presss from both sides the cover shell, be provided with direct current micro-circulating pump on the connecting pipe of the left side below of water tank shell, direct current micro-circulating pump's right side is provided with the heat collector through the connecting pipe, the right side top of water tank shell is connected with the connecting tube.

Preferably, the inner water tank is designed to be of a cylindrical structure, and the outer diameter of the inner water tank is smaller than that of the outer water tank shell, so that the outer water tank shell can have certain protection on the inner water tank.

Preferably, the jacket shell is arranged inside the water tank shell, and the outer diameter of the jacket shell is equal to the inner diameter of the water tank shell, so that the medium inside the jacket shell can realize the heat exchange of the water in the water tank liner.

Preferably, a temperature sensor is arranged on the inner wall of the right side of the water tank inner container, and the temperature sensor and the water tank inner container are perpendicular to each other, so that the temperature sensor can automatically sense the temperature of water, and the heat storage system can be ensured to normally work under the conditions of safe pressure and temperature.

Preferably, a liquid supplementing port is formed in the inner water tank, and the liquid supplementing port is formed in the center of the inner water tank, so that water can be supplemented to the inner water tank through the liquid supplementing port, and the inner water tank is kept in a water-retaining state.

Preferably, the heat collector is designed to be of a rectangular structure, and the left side of the heat collector is connected with a medium circulation port, so that the medium circulation port can realize the circulation work of the medium in the jacket shell.

Preferably, the top of heat collector is provided with solar energy collection department, the left side of heat collector is provided with photovoltaic power generation department for solar energy collection department can produce the electric energy with photovoltaic power generation department and realize the medium heating.

Preferably, a check valve is connected to the lower right of the tank case, and a tap water pipe is connected to the lower side of the check valve, so that the check valve can control hot water to be introduced into the tap water pipe and the connecting pipe.

In the technical scheme, the utility model provides the following technical effects and advantages:

1. through the arrangement of the double-circulation heat exchange system, the problem that the solar water heater cannot freeze and lead hot water in cold weather can be solved, and meanwhile, the water quality can be pure and pollution-free when the solar water heater supplies water;

2. through the setting of self-driven formula micro-circulating pump, need not to connect in addition forceful electric power supply feed pump water supply through self-driven formula micro-circulating pump, adopt self-driven formula micro-circulating pump can relapse the water heating with water tank shell inside, make the mounted position of water tank more have the flexibility simultaneously, the pipeline is more pleasing to the eye.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Description of reference numerals:

1. a water tank housing; 2. a controller; 3. a water tank inner container; 4. a jacket housing; 5. a temperature sensor; 6. a fluid infusion port; 7. a direct current micro-circulation pump; 8. a media circulation port; 9. a heat collector; 10. a solar heat collection place; 11. a photovoltaic power generation place; 12. a one-way valve; 13. a tap water pipeline; 14. and connecting the pipelines.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

The utility model provides a self-driven balcony solar water heater as shown in figure 1, which comprises a water tank shell 1, a water tank inner container 3 and a heat collector 9, wherein a controller 2 is arranged at the lower left of the water tank shell 1, the water tank inner container 3 is arranged inside the water tank shell 1, a jacket shell 4 is arranged at the outer side of the water tank inner container 3, a direct-current micro-circulation pump 7 is arranged on a connecting pipe at the lower left of the water tank shell 1, the heat collector 9 is arranged at the right side of the direct-current micro-circulation pump 7 through the connecting pipe, and a connecting pipeline 14 is connected above the right side of the water tank shell 1.

Water tank inner bag 3 is the design of cylindrical structure and forms, the external diameter of water tank inner bag 3 is less than water tank shell 1, press from both sides the setting of cover shell 4 in water tank shell 1's inside, the external diameter of pressing from both sides cover shell 4 equals water tank shell 1's internal diameter, be provided with temperature-sensing ware 5 on water tank inner bag 3's the right side inner wall, mutually perpendicular between temperature-sensing ware 5 and the water tank inner bag 3, the inside of water tank inner bag 3 is provided with fluid infusion mouth 6, fluid infusion mouth 6 sets up the central point department of putting at water tank inner bag 3.

The heat collector 9 is designed to be of a rectangular structure, the left side of the heat collector 9 is connected with a medium circulation port 8, a solar heat collection part 10 is arranged above the heat collector 9, a photovoltaic power generation part 11 is arranged on the left side of the heat collector 9, a check valve 12 is connected to the right lower part of the water tank shell 1, and a tap water pipeline 13 is connected to the lower part of the check valve 12.

This practical theory of operation:

referring to the attached figure 1 of the specification, when the device is used, firstly, a solar water heater is placed at a proper position, then a water tank shell 1 is connected with a heat collector 9 through a connecting pipe, the water tank shell is respectively connected with water using positions at different positions through a tap water pipeline 13 and a connecting pipeline 14, a double-circulation heat exchange system is adopted, so that a jacket shell 4 inside the water tank shell 1, a flow channel of the heat collector 9 and the connecting pipeline 14 form a circulation system, and a water tank inner container 3 and a pipeline outside the system form another circulation system;

referring to the attached figure 1 of the specification, when the device is used, when the solar water heater is used, the water in the water tank inner container 3 realizes heat exchange through the medium in the jacket shell 4, but the water is not communicated with the medium, under the irradiation of sunlight, the medium in the pipeline of the heat collector 9 is heated, the temperature of the medium rises, meanwhile, the photovoltaic power generation part 11 generates electric energy to drive the direct current micro-circulation pump 7 to start working, the high-temperature medium is circulated into the jacket shell 4, when the illumination is insufficient, the photovoltaic power generation part 11 stops working, the direct current micro-circulation pump 7 stops working, the water in the water tank inner container 3 is heated repeatedly, meanwhile, the temperature sensor 5 can automatically sense the temperature of water, so that the heat storage system can work normally under the conditions of safe pressure and temperature, the hot water in the tank inner container 3 is thereby led to various places through the water supply line 13 and the connection line 14 for use.

Claims (8)

1. The utility model provides a self-driven balcony solar water heater, includes water tank shell (1), water tank inner bag (3) and heat collector (9), its characterized in that: the water tank is characterized in that a controller (2) is arranged on the lower left side of the water tank shell (1), a water tank inner container (3) is arranged inside the water tank shell (1), a jacket shell (4) is arranged on the outer side of the water tank inner container (3), a direct-current micro-circulation pump (7) is arranged on a connecting pipe on the lower left side of the water tank shell (1), a heat collector (9) is arranged on the right side of the direct-current micro-circulation pump (7) through the connecting pipe, and a connecting pipeline (14) is connected to the upper right side of the water tank shell (1).

2. The self-driven balcony solar water heater as claimed in claim 1, wherein: the water tank inner container (3) is designed in a cylindrical structure, and the outer diameter of the water tank inner container (3) is smaller than that of the water tank shell (1).

3. The self-driven balcony solar water heater as claimed in claim 1, wherein: the jacket shell (4) is arranged inside the water tank shell (1), and the outer diameter of the jacket shell (4) is equal to the inner diameter of the water tank shell (1).

4. The self-driven balcony solar water heater as claimed in claim 2, wherein: a temperature sensor (5) is arranged on the inner wall of the right side of the water tank inner container (3), and the temperature sensor (5) and the water tank inner container (3) are perpendicular to each other.

5. The self-driven balcony solar water heater as claimed in claim 4, wherein: a liquid supplementing port (6) is arranged in the water tank inner container (3), and the liquid supplementing port (6) is arranged at the center of the water tank inner container (3).

6. The self-driven balcony solar water heater as claimed in claim 1, wherein: the heat collector (9) is designed to be of a rectangular structure, and the left side of the heat collector (9) is connected with a medium circulation port (8).

7. The self-driven balcony solar water heater as claimed in claim 6, wherein: a solar heat collection part (10) is arranged above the heat collector (9), and a photovoltaic power generation part (11) is arranged on the left side of the heat collector (9).

8. The self-driven balcony solar water heater as claimed in claim 1, wherein: the water tank is characterized in that a one-way valve (12) is connected to the lower right of the water tank shell (1), and a tap water pipeline (13) is connected to the lower side of the one-way valve (12).

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