1. The external energy collecting and using system is characterized by comprising a central computer (1), wherein the central computer (1) is respectively connected with a thermal energy polymerization device (2) and a solar power generation module (3), the thermal energy polymerization device (2) is connected with an absorption thermal energy lifting module (4), and the absorption thermal energy lifting module (4) is connected with a thermal energy conveying module (5); the solar power generation module (3) is connected with an electric energy transmission module (6); the heat energy conveying module (5) and the electric energy conveying module (6) are connected with a user side (7).

2. An outside energy collecting and using system according to claim 1, wherein the central computer (1) is respectively connected with a power supply module (8) and a water supply module (9), and the power supply module (8) and the water supply module (9) are both connected with the thermal energy polymerization equipment (2).

3. An ambient energy harvesting and use system according to claim 1, wherein the thermal energy aggregation equipment (2) is connected to the user terminals (7).

4. The external energy collecting and using system as claimed in claim 1, wherein the absorption heat energy lifting module (4) is internally provided with a negative pressure absorption device, a pressurized condensation device and an absorbent.

5. An ambient energy harvesting system according to claim 1 wherein the thermal energy absorber is lithium bromide.

Background

Under the background of a low-carbon energy-saving policy of double carbon and global climate warming control, the technology and the device for obtaining heat energy by burning non-renewable energy sources such as coal, petroleum, natural gas and the like are adopted, and the technology and the device are not suitable for the national industrial policy any more. The promotion of energy-saving technology and device with 0 carbon emission of air source, water source, ground source, solar energy and the like will become the global trend in the fields of central heating and energy saving.

In high-latitude, high-altitude and remote areas, energy-saving and efficient heat energy technology and device are designed, so that the centralized heat supply problem of the areas is fundamentally solved, the energy structure of the areas is greatly improved, the life quality of residents is improved, and the industrial target of carbon 0 emission is realized.

The above problems are problems that the art needs to solve.

Disclosure of Invention

The invention aims to provide an external energy collecting and using system, which can obtain external environment heat energy and electric energy with 0 pollution, 0 carbon emission and low price from the nature and is used for meeting the requirements of energy conservation, high efficiency, high quality and universal heat energy application.

In order to solve the technical problem, the invention provides the following scheme: an external energy collecting and using system comprises a central computer, wherein the central computer is respectively connected with a thermal energy polymerization device and a solar power generation module, the thermal energy polymerization device is connected with an absorption type thermal energy lifting module, and the absorption type thermal energy lifting module is connected with a thermal energy conveying module; the solar power generation module is connected with an electric energy transmission module; the heat energy conveying module and the electric energy conveying module are connected with a user side.

As a further improvement of the present invention, the central computer is respectively connected with a power supply module and a water supply module, and both the power supply module and the water supply module are connected with the thermal energy polymerization equipment.

As a further improvement of the present invention, the thermal energy polymerization equipment is connected to the user terminal.

As a further improvement of the invention, a negative pressure absorption device, a pressurization condensation device and an absorbent are arranged inside the absorption heat energy lifting module.

As a further improvement of the present invention, the thermal energy absorber is lithium bromide.

The invention has the beneficial effects that:

the central computer can control the heat energy polymerization equipment and the solar power generation module to respectively absorb heat and light energy from the external environment, and the heat quality absorbed by the heat energy polymerization equipment is low, and the transmission process is attenuated, so that the temperature and the pressure of the heat energy polymerization equipment are improved by the absorption type heat energy lifting module, the heat energy is converted into high-temperature and high-pressure water vapor or hot water medium, and the high-temperature and high-pressure water vapor or hot water medium is transmitted to a user side through the heat energy transmission module, so that the high-quality, energy-saving and high-efficiency centralized heat supply application effect is; meanwhile, the electric energy generated by the solar power generation module is transmitted to the user side for use through the electric energy transmission module.

Drawings

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

Reference numerals: 1. a central computer; 2. a thermal energy polymerization apparatus; 3. a solar power generation module; 4. an absorption heat energy hoisting module; 5. a thermal energy delivery module; 6. an electric energy delivery module; 7. a user side; 8. a power supply module; 9. and a water supply module.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1, an embodiment of the present invention includes a central computer 1, the central computer 1 is respectively connected to a thermal energy polymerization apparatus 2 and a solar power generation module 3, the thermal energy polymerization apparatus 2 is connected to an absorption thermal energy lifting module 4, and the absorption thermal energy lifting module 4 is connected to a thermal energy transmission module 5; the solar power generation module 3 is connected with an electric energy transmission module 6; the heat energy transmission module 5 and the electric energy transmission module 6 are both connected with a user side 7. The central computer 1 can control the heat energy polymerization equipment 2 and the solar power generation module 3 to respectively absorb heat and light energy from the external environment, and because the quality of the heat absorbed by the heat energy polymerization equipment 2 is low and the transmission process is attenuated, the temperature and the pressure of the heat energy polymerization equipment are improved by the absorption type heat energy lifting module 4 and are converted into high-temperature and high-pressure water vapor or hot water medium, and the high-temperature and high-pressure water vapor or hot water medium is transmitted to the user side 7 by the heat energy transmission module 5, so that the high-quality, energy-saving and high-efficiency centralized heat supply application effect is obtained; meanwhile, the electric energy generated by the solar power generation module 3 is transmitted to the user terminal 7 for use through the electric energy transmission module 6.

In this embodiment, since the thermal energy polymerization device 2 needs to use electricity and supply water, the central computer 1 is respectively connected with the power supply module 8 and the water supply module 9, and both the power supply module 8 and the water supply module 9 are connected with the thermal energy polymerization device 2. The central computer 1 can control the power supply module 8 and the water supply module 9 to supply water and power to the thermal energy aggregation equipment 2 according to the use requirement of the thermal energy aggregation equipment 2.

In this embodiment, the thermal energy aggregation device 2 is connected to the user terminal 7. For some users with low temperature use requirements, the thermal energy absorbed by the thermal energy polymerization equipment 2 can be directly transmitted to the user terminal 7 for use.

In this embodiment, the absorption heat energy increasing module 4 is internally provided with a negative pressure absorption device, a pressurizing and condensing device and an absorbent. The physical and chemical characteristics of the saturation temperature and the saturation pressure of the water (R718) are utilized, the heat value of the medium conveyed from the heat energy polymerization equipment 2 is improved through negative pressure absorption and pressurization condensation, and high-quality heat energy such as high-temperature and high-pressure water vapor, hot water and the like is obtained.

In this embodiment, the thermal energy absorbent is lithium bromide or a medium with the same physical and chemical characteristics.

During actual work, the central computer 1 can control the power supply module 8 and the water supply module 9 to supply water and power to the thermal energy polymerization equipment 2 according to the use requirement of the thermal energy polymerization equipment 2, and simultaneously the central computer 1 controls the thermal energy polymerization equipment 2 and the solar power generation module 3 to respectively absorb heat and light energy from the external environment, so that for some users with low use requirements, the heat obtained by the thermal energy polymerization equipment 2 can be directly transmitted to the user side 7 for use; for some users with high use requirements, the heat absorbed by the heat energy polymerization equipment 2 has low quality and the transmission process is attenuated, so that the temperature and the pressure of the heat energy are improved by the absorption type heat energy lifting module 4, the heat energy is converted into high-temperature and high-pressure water vapor or hot water medium, and the high-temperature and high-pressure water vapor or hot water medium is transmitted to the user side 7 by the heat energy transmission module 5, so that the high-quality, energy-saving and high-efficiency centralized heat supply application effect is obtained; meanwhile, the electric energy generated by the solar power generation module 3 is transmitted to the user terminal 7 for use through the electric energy transmission module 6.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Any substitution or change made by the person skilled in the art on the basis of the present invention is within the protection scope of the present invention. The protection scope of the invention is subject to the claims.