KR20190002407A - Photothermal source of fluid pumping device driven by self photovoltaic power - Google Patents

Abstract

Disclosed is a photothermic source of a fluid pumping device operated by self-photovoltaic power generation. A photovoltaic power generator of which a photothermic source device self-converts light energy into electric energy, and a fluid pumping device which is operated by electric energy of the photovoltaic power generator, are installed in a light projection space of the photothermic source device which is positioned at a place adjacent to each other, and which self-generates light energy and heat energy. Therefore, fluid in a gas form or in a liquid form is pumped, thereby delivering heat energy to a part of or all of the three of the photothermic source device itself, a heat diffusion device arranged at the photothermic source device, and a space to which heat is applied by the photothermic source device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a photovoltaic device for a fluid pumping device,

The present invention relates to a photovoltaic (PV) photovoltaic device capable of converting light energy into electric energy by itself in a light projection space of a photothermal device that generates light energy and thermal energy, A fluid pumping device driven by the electric energy of a solar generator is installed to pump a gas or a liquid fluid to heat the space between the heat source device itself and the heat radiator disposed in the heat source device and the heat source device To a photovoltaic source of a fluid pumping device driven by its own photovoltaic power generation having a function of transferring heat energy to all or a part of three.

Conventional photothermal thermal generators generally have their own characteristics of generating light or heat. For example, a light emitting diode (LED), a gas lamp light emitting device, or a heating element light emitting device driven by electric energy has an influence on the lifetime of a lighting device due to a temperature rise due to heat loss caused by current flow, The efficiency of converting energy into light energy is lowered. Generally, a large heat dissipator is required to solve such a problem, and when the light emitting device is used, heat generation also occurs. In addition, when a boiler or a combustion heat source that emits light by combustion or a quartz discharge tube that generates heat and jelly energy by itself or a combustion heat source is used, generally a fluid pumping device driven by the electric energy of the power source is installed A heat fluid must be pumped to pump the warm fluid of the gas phase or the pumping air must be introduced through the pumping to assist the combustion. The problem is to increase the cost and increase the energy consumption by inducing external electric energy .

In order to solve the above-mentioned problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar- A fluid pumping device driven by the electric energy of the solar generator and the solar generator is installed to pump the vapor or liquid fluid and the heat is generated by the heat source device and the heat source device disposed in the photo- A light source of a fluid pumping device driven by its own solar power generator having a function of transferring heat energy to all or a part of the space.

The light source of the fluid pumping device driven by the own solar power generation according to the present invention is provided with a solar light generator in which light energy is converted into electric energy, Since the light energy of the light is converted into electric energy to drive the fluid pumping device, there is no need to supply external power, so it is possible to obtain an electric energy saving effect, and there is no need to consider the safety problem. It is possible to lower the temperature of the photothermal source device by transferring the airflow or fluid through the pumping device to the fluid pumping device driven by the electric energy of the photovoltaic generator, To increase the efficiency of converting electrical energy into light energy and to extend the lifetime of lighting fixtures. In the case of application to a petroleum boiler or a combustion type light source or an electric heating device in which thermal energy and light energy are formed by themselves, a solar energy generator that converts light energy into electric energy is used to heat the heat source device and heat energy And the heat pump unit is driven by the electric energy to heat the heat source unit or the heat source unit disposed in the heat source unit or the heat source unit, A gas or a liquid fluid is pumped into the whole or a part thereof to transfer heat energy or pumped air to help combustion. As a result, there is no need to supply an external power source, so it is possible to obtain an electric energy saving effect, and there is no need to consider the safety problem. By operating in synchronism with the light source device, efficiency of converting electric energy into light energy is increased, It is possible to extend the service life of the battery.

Conventional photothermal thermal generators generally have their own characteristics of generating light or heat. For example, a light emitting diode, a gas lamp light emitting device, or a heating element light emitting device driven by electric energy may affect the lifetime of the lighting device due to the temperature rise due to the heat loss due to the current conduction, Energy conversion efficiency. Generally, a large heat dissipating device is required to solve such a problem, and when the light emitting device is used, heat generation is also problematic. In addition, when a boiler or a combustion heat source that emits light by combustion or a quartz discharge tube that generates heat and jelly energy by itself or a combustion heat source is used, generally a fluid pumping device driven by the electric energy of the power source is installed A heat fluid must be pumped to pump the warm fluid of the gas phase or the pumping air must be introduced through the pumping to assist the combustion. The problem is to increase the cost and increase the energy consumption by inducing external electric energy .

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a photo-thermal device, which is capable of generating light energy and thermal energy, And a fluid pumping device driven by the electric energy of the solar power generator is installed to pump the vapor or liquid fluid to the heat source device itself, the heat radiator disposed in the heat source device, and the heat source device Which has a function of transferring heat energy to all or a part of the three spaces in the space where the heat is applied by the solar battery.

According to the present invention, a photovoltaic source of a fluid pumping apparatus driven by solar power generation according to the present invention is provided with a photovoltaic generator for converting light energy into electric energy, Since the optical pumping device is driven by converting the optical energy of light remaining in the original device into electric energy, there is no need to input external power, so there is no need to consider the safety problem, When the apparatus is applied to a lighting apparatus that emits light by its own heat due to its operation by synchronizing with the original apparatus, a fluid pumping apparatus driven by the electric energy of the photovoltaic generator transmits pneumatic flow or fluid through pumping, Thereby increasing the efficiency of converting electrical energy into light energy, In the case of application to a petroleum boiler or a combustion type light source or an electric heating device in which thermal energy and light energy are formed by themselves, it is possible to use a solar generator, in which light energy is converted into electric energy, The heat energy generated by the device itself and the heat energy is converted into electric energy, the fluid pumping device is driven by the electric energy, and heat generated by the heat source device or the heat source device disposed in the heat source device, A gas or liquid fluid is pumped into the three or all of the three spaces to transfer heat energy or pumped air to assist combustion. As a result, there is no need to supply an external power source, so it is possible to obtain an electric energy saving effect, and there is no need to consider the safety problem. By operating in synchronism with the light source device, efficiency of converting electric energy into light energy is increased, It is possible to extend the service life of the battery.

In order to solve the above problem, there is provided a solar energy generator and a solar power generator, which can convert light energy into electric energy by itself in a light projection space of a photo- A fluid pumping device driven by the electric energy of a photogenerator is installed to pump a fluid of a gas phase or a liquid phase so that the heat source device, the heat dissipator disposed in the heat source device, Has a function of transferring heat energy to all or a part thereof,

The main constitution thereof comprises a photo-thermal source apparatus 101, a solar generator 102, and a fluid pumping apparatus assembly 103,

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction,

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the light energy of the device 101 into electrical energy to drive the fluid pumping device assembly 103, thereby pumping the vapor or liquid fluid through it,

The fluid pumping device assembly 103 is composed of a fluid pumping device that converts the electric energy output from the solar generator 102 into mechanical energy. The fluid pumping device assembly 103 includes a vapor or liquid fluid flowing through the photo- The present invention provides a heat source of a fluid pumping apparatus driven by the solar power generation system, wherein the heat source device 101 is pumped to transfer heat energy to the outside.

In summary, the light source of the fluid pumping device driven by the solar power generation according to the present invention has the following effects.

According to the present invention, the fluid pumping device assembly 103 includes a heat dissipator 1013 installed in the photo-thermal device 101.

According to the present invention, in the light source of the fluid pumping apparatus driven by the solar power generation apparatus according to the present invention, the fluid pumping apparatus assembly 103 is installed in the heat source apparatus 101 and / 1013, respectively.

According to the present invention, in the light source of the fluid pumping device driven by the own solar power generation according to the present invention, the fluid pumping device assembly 103 includes being installed alone.

According to the present invention, there is provided a light source of a fluid pumping apparatus driven by a solar power generation system according to the present invention, wherein the fluid pumping apparatus assembly 103 includes a fluid pumping apparatus 1031 driven by the electric motor And the liquid fluid pumped thereby flows through the heat exchanger 1013 and the fluid channel 1014 and the flow type heat exchanger 1015 which conducts heat exchange with the outside, (1013) to constitute a fluid circuit and conduct heat exchange to the outside.

According to the present invention, in the light source of a fluid pumping apparatus driven by its own solar power generation according to the present invention, the fluid pumping apparatus assembly (103) comprises the electromagnetic force oscillatory fluid pump (1021) The fluid in the liquid phase pumped by the first heat exchanger 1013 flows through the heat exchanger 1013 and the fluid channel 1014 and the flow type heat exchanger 1015 which conducts heat exchange with the outside, 1013) to constitute a fluid circuit and proceed heat exchange with the outside.

According to the present invention, in the light source of the fluid pumping apparatus driven by the own solar power generation according to the present invention, the fluid pumping apparatus assembly 103 comprises the electromagnetic force oscillatory air flow pump 1022, Periodic vibration drives the fluid in the gas phase.

In accordance with the present invention, there is provided a light source of a fluid pumping apparatus driven by a solar power generation system according to the present invention, wherein the fluid pumping apparatus assembly 103 includes an airflow blower 1032 driven by the electric motor And it drives the fluid in the gaseous phase.

According to the present invention, in the light source of a fluid pumping apparatus driven by its own solar power generation according to the present invention, the fluid pumping apparatus assembly (103) comprises the electromagnetic force oscillatory fluid pump (1021) The fluid pumped by the positional movement of the fluid is passed through the heat dissipator 1013 and the fluid conduit 1014 and the fluid storage and heat dissipating device 1016 which conducts heat exchange with the outside, Flows into the diverging unit 1013 to constitute a fluid circuit and proceeds heat exchange to the outside.

According to the present invention, there is provided a light source of a fluid pumping apparatus driven by a solar power generation system according to the present invention, wherein the fluid pumping apparatus assembly 103 includes a fluid pumping apparatus 1031 driven by the electric motor And the fluid pumped by the fluid flows through the heat dissipator 1013 and the fluid conduit 1014 and the fluid storage and heat dissipating device 1016 for heat exchange with the outside, Flows into the heat dissipator 1013, forms a fluid circuit, and conducts heat exchange to the outside.

In accordance with the present invention, there is provided a photovoltaic source of a fluid pumping apparatus driven by its own photovoltaic power generation system, comprising: the fluid pumping apparatus assembly (103) driven by electric energy output from the photovoltaic generator (102) Is supplied to the heat source device (101), the heat dissipator (1013) disposed in the heat source device (101) and the heat source device (101) A space in which the heat is applied by the heat dissipating device 1013 and the photo heat source device 101 disposed in the photo-thermal source device 101 or the photo-thermal source device 101, The heat is dissipated for all or a portion of the three, thereby achieving the effect of lowering the temperature.

In accordance with the present invention, there is provided a photovoltaic source of a fluid pumping apparatus driven by its own photovoltaic power generation system, comprising: the fluid pumping apparatus assembly (103) driven by electric energy output from the photovoltaic generator (102) Pumped airflow to transfer the direction of the thermal energy of the photo-thermal source device 101 in a specific direction.

According to the present invention, in the light source of the fluid pumping device driven by the own solar power generation according to the present invention, the fluid pumped by the fluid pumping device assembly 103 includes a vapor or liquid fluid.

In accordance with the present invention, there is provided a photovoltaic source of a fluid pumping apparatus driven by its own photovoltaic power generation system, comprising: the fluid pumping apparatus assembly (103) driven by electric energy output from the photovoltaic generator (102) Comprises an electro-magnetic vibratory fluid pump, or a rotary fluid pump or a piston-type fluid pump driven by an electric motor, or a propeller-type pump driven by an electric motor and advanced by rotation.

According to the present invention, the light source of the fluid pumping device driven by the own solar power generation according to the present invention is an electricity source such as a light emitting diode lamp, a gas lamp, a mercury lamp, an incandescent lamp, The present invention is applied to the photo-thermal source device 101 that generates light energy and heat energy at the same time of energy input, thereby raising the heat dissipation effect by pumping a fluid having a relatively high temperature generated by the operation of the fluid pumping device assembly 103.

According to the present invention, in the light source of the fluid pumping apparatus driven by the own solar power generation according to the present invention, the fluid pumping apparatus assembly 103 supplies the fluid having a relatively low temperature to the photo- ), The space to which heat is applied by the heat dissipator 1013 and the photo-thermal source device 101 disposed in the photo-thermal source device 101 is pumped to all or part of the three to achieve the effect of lowering the temperature do.

According to the present invention, in the light source of the fluid pumping device driven by the own solar power generation according to the present invention, the fluid pumping device assembly 103 can supply the fluid having a relatively high temperature to the photo- ), The application of heat to the space where heat is applied by the heat-dissipating device 1013 and the photo-thermal source device 101 disposed in the photo-thermal source device 101 is pumped to all or a part thereof Thereby preventing the temperature of the photo-thermal source device 101 from being excessively lowered.

According to the present invention, the light source of the fluid pumping device driven by the solar power generation system according to the present invention is a boiler or a small light source that simultaneously generates heat energy and light energy, And an electric heater that generates light energy, and pumps heat energy generated by the operation of the fluid pumping device assembly 103 to output heat energy.

According to the present invention, the light source of the fluid pumping device driven by the own solar power generation according to the present invention includes the application to the inflow of the combustion assist gas flow from outside into the small light heat source.

1 is a perspective view showing the structure and principle of the present invention.
Figure 2 illustrates the flow of fluid in the fluid heat exchanger 1015 pumped by driving the fluid pump 1011 with an electric motor according to a preferred embodiment of the present invention flows through the fluid conduit 1014 and the heat exhauster 1013 And then flows back to the flow-type heat exchanger 1015 to transfer heat energy between the heat-exchanger 1013 and the flow-type heat exchanger 1015. FIG.
FIG. 3 is a schematic view showing a state in which the fluid in the fluid type heat exchanger 1015 pumped by the electromotive force type fluid pump 1021 according to the preferred embodiment of the present invention flows through the fluid pipe 1014 and the heat dissipator 1013, Is a perspective view showing a structure that flows into the heat exchanger 1015 and transfers heat energy between the heat exchanger 1013 and the flow type heat exchanger 1015.
4 is a perspective view illustrating a structure for pumping a fluid in a gas phase by an airflow blower 1032 driven by an electric motor according to a preferred embodiment of the present invention to dissipate heat by helping the photo-thermal device.
FIG. 5 is a perspective view illustrating a structure for pumping airflow by an electromagnetic force type airflow pump 1022 according to a preferred embodiment of the present invention to dissipate heat by supporting a photothermal source device.
Figure 6 is a schematic diagram of a fluid storage and heat release device 1016 in which fluid within a fluid storage and heat release device 1016 pumped by driving a fluid pump 1011 with an electric motor according to a preferred embodiment of the present invention is connected to a fluid conduit 1014 and a heat dissipator 1013 And then flows back to the fluid storage and heat releasing device 1016 to transfer the heat energy between the heat releasing device 1013 and the fluid storing and heat releasing device 1016. FIG.
7 shows a state in which the fluid inside the fluid storage and heat releasing apparatus 1016 that has been pumped by the electromagnetic force oscillatory fluid pump 1021 according to the preferred embodiment of the present invention flows through the fluid conduit 1014 and the heat emitter 1013 And then flows back to the fluid storage and heat releasing device 1016 to transfer heat energy between the heat releasing device 1013 and the fluid storing and heat releasing device 1016. FIG.
8 is a perspective view showing a structure in which a light transmission and thermal insulating device 1019 is provided between a photo-thermal source device 101 and a solar generator 102 according to a preferred embodiment of the present invention.
9 is a perspective view showing a structure in which a light transmitting and adiabator 1020 is installed in a solar generator 102 according to a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, aspects and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 is a perspective view showing the structure and principle of the present invention.

1, a photovoltaic source of a fluid pumping apparatus driven by solar power generation according to the present invention includes a photovoltaic apparatus 101, a photovoltaic generator 102, Device assembly (103).

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the light energy of the device 101 into electrical energy to drive the fluid pumping device assembly 103 to pump the vapor or liquid fluid therethrough.

The fluid pumping device assembly 103 is composed of a fluid pumping device that converts the electric energy output from the solar generator 102 into mechanical energy. The fluid pumping device assembly 103 includes a vapor or liquid fluid flowing through the photo- And the heat source device 101 is supplied with heat energy to the outside.

Figure 2 illustrates the flow of fluid in the fluid heat exchanger 1015 pumped by driving the fluid pump 1011 with an electric motor according to a preferred embodiment of the present invention flows through the fluid conduit 1014 and the heat exhauster 1013 And then flows back to the flow-type heat exchanger 1015 to transfer heat energy between the heat-exchanger 1013 and the flow-type heat exchanger 1015. FIG.

As shown in FIG. 2, the main configuration thereof includes a photothermal heat source apparatus 101, a solar generator 102, a fluid pumping apparatus 1031 driven by an electric motor, and a fluid heat exchanger 1015.

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the light energy of the device 101 into electric energy to drive a fluid pumping device 1031 driven by the electric motor to pump fluid of a gaseous or liquid state.

The fluid pumping device 1031 driven by the electric motor is composed of an electric motor EM100 and a fluid pump 1011 driven by the electric motor EM100 and is driven by receiving the electric energy outputted from the solar generator 102 The fluid in the fluid heat exchanger 1015 pumped by the fluid flows through the fluid pipe 1014 and the heat exchanger 1013 and then flows into the fluid heat exchanger 1015 and flows into the heat exchanger 1013, And the flow-type heat exchanger (1015).

The fluid heat exchanger 1015 is made of a thermally conductive material and includes a fluid passage for passing a gaseous or liquid fluid pumped by a fluid pumping device 1031 driven by the electric motor, The device 101 is used to heat exchange with the outside.

FIG. 3 is a schematic view showing a state in which the fluid in the fluid type heat exchanger 1015 pumped by the electromotive force type fluid pump 1021 according to the preferred embodiment of the present invention flows through the fluid pipe 1014 and the heat dissipator 1013, Is a perspective view showing a structure that flows into the heat exchanger 1015 and transfers heat energy between the heat exchanger 1013 and the flow type heat exchanger 1015.

As shown in Fig. 3, the main constitution thereof includes a photothermal source device 101, a solar generator 102, an electromagnetic force oscillatory fluid pump 1021, and a flow type heat exchanger 1015. Fig.

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the optical energy of the apparatus 101 into electric energy to drive the electromagnetic force vibration type fluid pump 1021, thereby pumping the gaseous or liquid fluid.

The electromagnetic vibration type fluid pump 1021 is composed of a fluid pump in which repetitive driving is generated according to magnetization by current application having an electromagnetic coil. The electromagnetic pump 1021 is driven by receiving the electric energy outputted from the solar generator 102 The fluid in the fluid heat exchanger 1015 pumped by the fluid flows through the fluid pipe 1014 and the heat exchanger 1013 and then flows into the fluid heat exchanger 1015 and flows into the heat exchanger 1013, And the flow-type heat exchanger (1015).

The fluid heat exchanger 1015 is made of a thermally conductive material and includes a fluid passage for passing a gaseous or liquid fluid pumped by the electromagnetic force vibration type fluid pump 1021, Heat exchange with the outside is carried out.

4 is a perspective view illustrating a structure for pumping a fluid in a gas phase by an airflow blower 1032 driven by an electric motor according to a preferred embodiment of the present invention to dissipate heat by helping the photo-thermal device.

As shown in Fig. 4, the main constitution thereof comprises a photo-thermal source device 101, a solar generator 102, and an air blower 1032 driven by an electric motor.

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the light energy of the apparatus 101 into electric energy, drives the air blower 1032 driven by the electric motor, and pumps the gas or liquid fluid through the air blower 1032.

The airflow blower 1032 driven by the electric motor is constituted by an air blower 1012 driven by an electric motor EM100 and is driven by receiving the electric energy outputted from the solar generator 102, (101), a heat dissipator disposed in the heat source device (101), and a space to which heat is applied by the heat source device (101) And the heat is dissipated by the photothermode device 101.

FIG. 5 is a perspective view illustrating a structure for pumping airflow by an electromagnetic force type airflow pump 1022 according to a preferred embodiment of the present invention to dissipate heat by supporting a photothermal source device.

As shown in Fig. 5, its main configuration is made up of a photo-thermal source device 101, a photovoltaic generator 102, and an electromagnetic force oscillatory airflow pump 1022.

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the optical energy of the apparatus 101 into electrical energy to drive the electromagnetic force oscillatory air pump 1022, and pumps the gaseous or liquid fluid therethrough.

The electromagnetic force oscillatory air pump 1022 is an air flow pump that generates repetitive drive according to the magnetization by the electric current having the electromagnetic coil and is driven by receiving the electric energy outputted from the solar generator 102 And a space through which heat is applied by the heat source device 101, the heat radiation device disposed in the heat source device 101, and the heat source device 101, And the heat is dissipated by the photothermode device 101.

Figure 6 is a schematic diagram of a fluid storage and heat release device 1016 in which fluid within a fluid storage and heat release device 1016 pumped by driving a fluid pump 1011 with an electric motor according to a preferred embodiment of the present invention is connected to a fluid conduit 1014 and a heat dissipator 1013 And then flows back to the fluid storage and heat releasing device 1016 to transfer the heat energy between the heat releasing device 1013 and the fluid storing and heat releasing device 1016. FIG.

6, the main configuration thereof includes a photothermal heat generating device 101, a solar generator 102, a fluid pumping device 1031 driven by an electric motor, and a fluid storage and heat releasing device 1016 .

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the light energy of the device 101 into electric energy to drive a fluid pumping device 1031 driven by the electric motor to pump fluid of a gaseous or liquid state.

The fluid pumping device 1031 driven by the electric motor is composed of an electric motor EM100 and a fluid pump 1011 driven by the electric motor EM100 and is driven by receiving the electric energy outputted from the solar generator 102 So that the fluid in the fluid storage and heat release device 1016 pumped thereby flows through the fluid pipe 1014 and the heat dissipater 1013 and then flows into the fluid storage and heat release device 1016 again, Transfers heat energy between the heat sink 1013 and the fluid storage and heat release device 1016.

The fluid storage and heat releasing device 1016 is a container structure of a kind that is used to store fluids and which is stored in the fluid storage and heat releasing device 1016 pumped to a fluid pumping device 1031 that is driven by the electric motor. Passes through the fluid conduit 1014 and the heat exchanger 1013 and then flows back to the fluid storage and heat release device 1016 which is in fluid communication with the thermally conductive or non- And the structure has a structure capable of opening / closing a closed type or an open type or a floating type stopper.

7 shows a state in which the fluid inside the fluid storage and heat releasing apparatus 1016 that has been pumped by the electromagnetic force oscillatory fluid pump 1021 according to the preferred embodiment of the present invention flows through the fluid conduit 1014 and the heat emitter 1013 And then flows back to the fluid storage and heat releasing device 1016 to transfer heat energy between the heat releasing device 1013 and the fluid storing and heat releasing device 1016. FIG.

As shown in FIG. 7, the main configuration thereof includes a photothermal heat source apparatus 101, a solar generator 102, an electromagnetic force oscillatory fluid pump 1021, and a fluid storage and heat release apparatus 1016.

The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 is a device that generates light and heat by itself. The photothermostatic apparatus 101 includes a light emitting diode, an arc light emitting device, a gas lamp light emitting device, Or a light source device that generates light energy and heat energy by itself, or a light source device that simultaneously emits light and generates heat by combustion, or is constituted by a petroleum boiler or a combustion light source Or an electric heater in which thermal energy and light energy are generated by current conduction.

The photovoltaic power generator 102 is a switching device that can convert the light energy of the photo-thermal source device 101 into electric energy. The photovoltaic power generator 102 includes a device such as a solar power generator that converts light energy into electric energy, Converts the optical energy of the apparatus 101 into electric energy to drive the electromagnetic force vibration type fluid pump 1021, thereby pumping the gaseous or liquid fluid.

The electromagnetic vibration type fluid pump 1021 is composed of a fluid pump in which repetitive driving is generated according to magnetization by current application having an electromagnetic coil. The electromagnetic pump 1021 is driven by receiving the electric energy outputted from the solar generator 102 , Whereby the fluid in the fluid storage and heat release device 1016 pumped thereby flows through the fluid channel 1014 and the heat dissipater 1013 and then flows back to the fluid storage and heat release device 1016, And transfers heat energy between the diverging device 1013 and the fluid storage and heat release device 1016.

The fluid storage and heat release device 1016 is a kind of container structure that is used to store fluid and which is stored in the fluid storage and heat release device 1016 pumped by the electromagnetic force oscillating fluid pump 1021, And a heat dissipator 1013 and then into the fluid storage and heat release device 1016. The fluid storage and heat release device 1016 comprises a thermally conductive or non-heat conductive material, The structure has a structure capable of opening and closing a closed or open or an opening stopper.

In addition, in order to prevent the solar generator 102 from being excessively heated due to its proximity to the heat source device 101, the heat source of the fluid pumping device driven by the solar power generator It is possible to prevent the solar battery 102 from being overheated by additionally providing a light transmitting and adiabatic device 1019 between the solar generator 102 and the heat source device 101.

8 is a perspective view showing a structure in which a light transmission and thermal insulating device 1019 is provided between a photo-thermal source device 101 and a solar generator 102 according to a preferred embodiment of the present invention.

As shown in FIG. 8, in the light source of the fluid pumping device driven by the solar power generation according to the present invention, the light source 101 is connected to the solar generator 102, An additional heat insulating device 1019 is provided to protect the photovoltaic generator 102 to damage the photovoltaic generator 102 due to the high temperature of the photovoltaic device 101, ) From being deteriorated.

In addition, in order to prevent the solar generator 102 from being excessively heated due to its proximity to the heat source device 101, the heat source of the fluid pumping device driven by the solar power generator It is possible to prevent the solar battery 102 from overheating by additionally providing a light transmitting and adiabatic device 1020 coupled to the solar battery 102 on the light receiving surface of the solar battery 102.

9 is a perspective view showing a structure in which a light transmitting and adiabator 1020 is installed in a solar generator 102 according to a preferred embodiment of the present invention.

As shown in FIG. 9, in the light source of a fluid pumping apparatus driven by solar power generation according to the present invention, the light source of the fluid pump 102 is connected to the light receiving surface of the solar generator 102, The solar thermal energy generator 102 is protected by the additional transparent heat insulating device 1020 to damage the solar thermal power generator 102 due to the high temperature of the solar thermal power generator 101, 102 is prevented from deteriorating.

EM100: Electric motor
101: Photothermal source device
102: Solar generator
103: fluid pumping device assembly
1011: Fluid pump
1012: Air blower
1013: Heat Exchanger
1014: fluid channel
1015: Flow type heat exchanger
1016: Fluid storage and heat release device
1019: Light transmitting and insulating equipment
1020: a light-transmitting and insulating device coupled to the solar generator 102
1021: Electromagnetic force vibrating fluid pump
1022: Electromagnetic force vibration type air pump
1031: Fluid pumping device driven by an electric motor
1032: air flow blower driven by electric motor

Claims (29)

A photothermal device 101 for generating both light energy and heat energy;
A photogenerator 102 for converting the light emitted by the photothermostatic device 10 into electric power; And
A fluid pumping device assembly 103, which is driven by power from the photogenerator 102 to pump fluid through the photothermal device 101 and to dissipate the thermal energy generated by the photogenerator 102, 1031, 1032);
. The method according to claim 1,
Wherein the fluid pumping device assembly (103, 1031, 1032) pumps the fluid through a heat dissipator (1013) provided in the photothermostatic apparatus (101). The method according to claim 1,
Wherein the fluid pumped by the fluid pumping device is one of a gas, a liquid, and a fluid including both gas and liquid. The method according to claim 1,
The photo-thermal source device 101 may include a light-emitting diode (LED) lamp, an arc light-emitting device, a gas lamp tube, an electrothermal filament, a device for generating light and heat energy by combustion, . The method according to claim 1,
Wherein the fluid pumping device assembly (1031) comprises a fluid pump (1011) driven by an electric motor (EM100) supplied with electricity from the photogenerator (102). 6. The method of claim 5,
The fluid pump 1011 pumps the fluid through a heat dissipator 1013, a fluid duct 1014, and a flow type heat exchanger 1015 provided in the photo-thermal source apparatus 101. The method according to claim 6,
The fluid heat exchanger 1015 exchanges heat with the outside of the photo-thermal fluid pumping device and forms a closed loop with the fluid pump 1011, the fluid duct 1014, and the heat- . The method according to claim 1,
Wherein the fluid pumping device assembly (103) comprises an electromagnetic force oscillating liquid fluid pump (1021) driven by an electromagnetic coil powered from the photogenerator (102). 9. The method of claim 8,
The electromagnetic force oscillating liquid fluid pump 1021 pumps the fluid through a heat exchanger 1013, a fluid duct 1014 and a flow heat exchanger 1015 provided in the photo-thermal apparatus 101. [ 10. The method of claim 9,
The fluid heat exchanger 1015 exchanges heat with the outside of the photothermal fluid pumping device and forms a closed loop with the electromotive force oscillatory liquid fluid pump 1021, the fluid channel 1014, and the heat sink 1013 , Light heaters. The method according to claim 1,
Wherein the fluid pumping device assembly (1032) comprises an air blower (1012) driven by an electric motor (EM100) supplied with electricity from the photogenerator (102). 12. The method of claim 11,
The air blower 1012 pumps the fluid through a heat exchanger 1013, a fluid duct 1014 and a fluid heat exchanger 1015 provided in the photo-thermal source apparatus 101. [ The method according to claim 1,
Wherein the fluid pumping device assembly (103) comprises an electromagnetic vibrating fluid pump (1022) driven by one or more electromagnetic coils powered from the photogenerator (102). 14. The method of claim 13,
The electromagnetic force oscillatory type fluid pump 1022 pumps the fluid through a heat dissipator 1013, a fluid duct 1014 and a flow type heat exchanger 1015 provided in the photo heating device 101. The method according to claim 1,
The fluid pumping device assembly 1031 pumps the fluid from the fluid reservoir and heat release device 1016 to the heat dissipator 1013 provided in the photothermostatic device 101 via the fluid duct 1014, And a fluid pump (1011) driven by an electric motor (EM100) supplied with electricity from the photogenerator (102) for returning to the fluid reservoir and heat release device (1016). The method according to claim 1,
The fluid pumping device assembly 1031 pumps the fluid from the fluid reservoir and heat release device 1016 to the heat dissipator 1013 provided in the photothermostatic device 101 via the fluid duct 1014, (1102) driven by one or more electromagnetic coils powered from the photogenerator (102) for returning to a fluid reservoir and heat release device (1016). The method according to claim 1,
A light transmitting and isolating device (not shown) is installed between the photo-thermal source device 101 and the photogenerator 102 to protect the photogenerator 102 from damage or deterioration caused by a high temperature from the photo- 1019). ≪ / RTI > The method according to claim 1,
(101) and the photogenerator (102) in order to protect the photogenerator (102) from damage or deterioration caused by high temperature from the photothermal device (101) Further comprising an apparatus (1020). The method according to claim 1,
Wherein the heat dissipator (1013) provided in the photo-thermal source device (101) is included in the fluid pumping device assembly (103). The method according to claim 1,
Wherein the fluid pumping device assembly (103) comprises a housing installed in the photo-thermal unit (101). The method according to claim 1,
Wherein the fluid pumping device assembly (103) is separated from the photo-thermal source device (101). The method according to claim 1,
Wherein the fluid is a gas and the fluid pumping device assembly (103) pumps the gas in a predetermined direction. The method according to claim 1,
Wherein the fluid pumping device assembly (103) comprises at least one of an electromagnetic vibration fluid pump, a rotary fluid pump, a piston-type fluid pump, and a blade-type fluid pump. The method according to claim 1,
The photothermostatic apparatus 101 is configured to heat the fluid to a high temperature when the fluid is pumped by the fluid pumping apparatus assembly 103 through the photothermostatic apparatus 101, A photothermal device that removes heat energy. 25. The method of claim 24,
The photo heating apparatus (101) includes one of an electrically driven light emitting diode lamp, a gas lamp, a mercury lamp, an incandescent lamp, and an apparatus that emits light by combustion. The method according to claim 1,
The fluid is supplied to a part or the whole of the photo-thermal source device 101, the photo-thermal source device 101, and / or a part of the photo-thermal source device 101 to lower the temperature of at least one of the space heated by the photo- 101), and a space heated by the photo-thermal device (101). The method according to claim 1,
The fluid heated by passing through the heat source device 101 is supplied to a part or the whole of the heat source device 101, the heat dissipator 103 of the heat source device 101 and the heat source device 101, Is pumped through at least one of the surrounding spaces to prevent the part or the whole of the photo-thermal device (101) and the space around the photo-thermal device (101) from being excessively cooled. The method according to claim 1,
The photovoltaic apparatus 101 is one of a fuel combustion heater, a soft light source, and an electric heater,
Wherein the fluid carries heat energy from the photothermal device (101). The method according to claim 1,
The photo-thermal source device 101 is a combustion device,
Wherein the fluid is a gas introduced from the outside of the photo-thermal fluid pumping device.

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