CN203810753U - Indirect three-stage serial heat collection device for temperature rising storage - Google Patents

Abstract

The utility model relates to the technical field of heat devices for energy storage and discloses an indirect three-stage serial heat collection device for temperature rising storage. The indirect three-stage serial heat collection device is characterized by being at least formed by an indirect heat device for energy storage of a from machine and an indirect heat device for energy storage of a host through serial combination; each indirect heat device for the energy storage is formed by a solar energy heat exchanger 2 and an energy storage heat exchanger 3, wherein the solar energy heat exchanger 2 which is arranged at a focal point of a sunlight reflector 1 is communicated with the energy storage heat exchanger 3 through an oil guide pipe; each energy storage heat exchanger 3 is formed by heat storage materials 3.1 in a heat storage chamber and a double circulation heat exchange device which is arranged in the heat storage materials 3.1. According to the indirect three-stage serial heat collection device for the temperature rising storage, the solar energy can be collected and stored to serve daily lives such as food processing, hearing and bathing of people through full utilization of the collected and stored solar heat energy in case of no sunlight at night and accordingly the increasing energy shortage can be alleviated, the energy can be saved, and the energy-saving and environment-friendly effect can be achieved.

Description

Three grades of series connection of indirect type heat up to store up and use hot gathering-device

Technical field

The utility model relates to energy storage hot charging and puts technical field, relates in particular to three grades of hot gathering-devices of series connection intensification storage of a kind of indirect type.

Background technology

In the situation that the current energy is day by day in short supply, utilize solar energy to be used for processed food, heating, bathing, can save the energy, reduce fuel consumption and greenhouse gas emission.But because the sun rises in east and drop in west every day, so, there is no sunlight evening.In order to serve daily life with the energy of the sun with evening by day, especially need a kind of device that can collect, store solar thermal energy.

Summary of the invention

For overcoming the deficiencies in the prior art, the utility model provides three grades of series connection of a kind of indirect type to heat up to store up and uses hot gathering-device, can rationally utilize solar energy, collects, stores solar thermal energy.

In order to realize foregoing invention object, the utility model adopts technical scheme as follows:

Hot gathering-device use in three grades of series connection of a kind of indirect type storage that heats up, and has the indirect type energy storage hot charging that is at least a slave and puts with the indirect type energy storage hot charging of main frame and put tandem compound formation; Described indirect type energy storage is put by the solar energy heat exchanger 2 in solar reflector 1 focus and is communicated with and forms with energy storage heat exchanger 3 by oil guide pipe with hot charging; Described energy storage heat exchanger 3 is made up of the heat accumulating 3.1 in heat accumulation cavity and the two circulating heat-exchanging devices in heat accumulating 3.1; Described pair of circulating heat-exchanging device is two circulation helical tubes 3.2, two circulation helical tubes 3.2 are two alternate or overlapping helical form stainless steel heat-conducting oil pipes compositions, the first circulation helical tube upper end is connected with solar energy heat exchanger 2, and lower end is communicated with the oil guide pipe of solar energy heat exchanger 2 lower ends by the high temperature oil pump 6 arranging on oil storage tank 5; The oil circuit that three grades of series connection of described indirect type heat up is that the first circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is respectively independent oil path, and the second circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is series connection oil circuit.

Three grades of series connection of a kind of indirect type heat up to store up and use hot gathering-device, and the series connection oil circuit of slave and main frame the second circulation helical tube oil circuit is communicated with the oil circuit input of the second circulation helical tube of the energy storage heat exchanger of the second slave by high temperature oil pump 6 on the oil storage tank 5 of main frame to the oil circuit output of energy storage heat exchanger 3 second circulation helical tubes of main frame by the energy storage heat exchanger 3 second circulation helical tube oil circuits of the first slave; The oil circuit output of second slave the second circulation helical tube is by being communicated with the oil circuit input of the first slave with energy heat exchanger.

Owing to adopting technical scheme as above, the utlity model has following superiority:

Three grades of series connection of a kind of indirect type heat up to store up and use hot gathering-device, solar energy collecting can be stored, for evening while thering is no sunlight, the heat energy that can also make full use of the collection storage sun is served daily life: processed food, heating, bathing, and can alleviate the problem that the current energy is day by day in short supply, can save the energy, reach the effect of environmental protection and energy saving.

[brief description of the drawings]

Fig. 1 is the structural representation of three grades of hot gathering-devices of series connection intensification storage of indirect type;

[detailed description of the invention]

As shown in Figure 1, hot gathering-device use in three grades of a kind of indirect types series connection storage that heats up, and has the indirect type energy storage hot charging that is at least a slave and puts with the indirect type energy storage hot charging of main frame and put tandem compound formation; Described indirect type energy storage is put by the solar energy heat exchanger 2 in solar reflector 1 focus and is communicated with and forms with energy storage heat exchanger 3 by oil guide pipe with hot charging; Described energy storage heat exchanger 3 is made up of the heat accumulating 3.1 in heat accumulation cavity and the two circulating heat-exchanging devices in heat accumulating 3.1; Described pair of circulating heat-exchanging device is two circulation helical tubes 3.2, two circulation helical tubes 3.2 are two alternate or overlapping helical form stainless steel heat-conducting oil pipes compositions, the first circulation helical tube upper end is connected with solar energy heat exchanger 2, and lower end is communicated with the oil guide pipe of solar energy heat exchanger 2 lower ends by the high temperature oil pump 6 arranging on oil storage tank 5; The oil circuit that three grades of series connection of described indirect type heat up is that the first circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is respectively independent oil path, and the second circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is series connection oil circuit.The series connection oil circuit of slave and main frame the second circulation helical tube oil circuit is communicated with the oil circuit input of the second circulation helical tube of the energy storage heat exchanger of the second slave by high temperature oil pump 6 on the oil storage tank 5 of main frame to the oil circuit output of energy storage heat exchanger 3 second circulation helical tubes of main frame by the energy storage heat exchanger 3 second circulation helical tube oil circuits of the first slave; The oil circuit output of second slave the second circulation helical tube is by being communicated with the oil circuit input of the first slave with energy heat exchanger.Heat accumulating 3.1 is fused salt, by 60% NaNO ₃with 40% KNO ₃the fused salt that mixes composition, is ground into the Powdered fused salt that carries out filling.

When use, the oil circuit of energy storage heat exchanger second circulation helical tube of each slave and main frame is connected in series, and drives the heat conduction oil circuit circular flow after series connection by the high temperature oil pump of main frame; The solar thermal energy that slave, main frame are collected is converted into the heat energy of conduction oil.Under the driving of high temperature oil pump 6, heat energy is converted into the thermal energy transfer of conduction oil to energy storage heat exchanger 3, the energy storage material 3.1 of heating energy storage heat exchanger 3 the insides; The solar energy processed food heating up by connecting with 4 three grades of energy heat exchangers or heating, bathing are used, simultaneously, the energy storage material 3.1 of energy storage heat exchanger 3 interior splendid attires gets up thermal energy storage, in the time there is no sunshine, the energy storage material 3.1 of energy storage heat exchanger 3 interior splendid attires still can discharge heat energy by energy storage heat exchanger 3, by with energy heat exchanger 4 being: heating kettle or radiator, processed food or heating, bathing are used.

Claims (2)

1. a hot gathering-device use in three grades of the indirect types series connection storage that heats up, and it is characterized in that: have the indirect type energy storage hot charging that is at least a slave and put with the indirect type energy storage hot charging of main frame and put tandem compound formation; Described indirect type energy storage is put by the solar energy heat exchanger (2) in solar reflector (1) focus and is communicated with formation by oil guide pipe with energy storage heat exchanger (3) with hot charging; Described energy storage heat exchanger (3) is made up of the heat accumulating in heat accumulation cavity (3.1) and the two circulating heat-exchanging devices in heat accumulating (3.1); Described pair of circulating heat-exchanging device is two circulation helical tubes (3.2), two circulation helical tubes (3.2) are two alternate or overlapping helical form stainless steel heat-conducting oil pipes compositions, the first circulation helical tube upper end is connected with solar energy heat exchanger (2), and lower end is communicated with the oil guide pipe of solar energy heat exchanger (2) lower end by the upper high temperature oil pump (6) arranging of oil storage tank (5); The oil circuit that three grades of series connection of described indirect type heat up is that the first circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is respectively independent oil path, and the second circulation helical tube oil circuit that the indirect type energy storage of slave and main frame is put with hot charging is series connection oil circuit.

2. three grades of series connection of a kind of indirect type according to claim 1 heat up to store up and use hot gathering-device, it is characterized in that: the series connection oil circuit of slave and main frame the second circulation helical tube oil circuit is communicated with the oil circuit input of the second circulation helical tube of the energy storage heat exchanger of the second slave by upper high temperature oil pump (6) to the oil circuit output of energy storage heat exchanger (3) second circulation helical tubes of main frame of oil storage tank (5) of main frame by energy storage heat exchanger (3) the second circulation helical tube oil circuits of the first slave; The oil circuit output of second slave the second circulation helical tube is by being communicated with the oil circuit input of the first slave with energy heat exchanger.