CN202902446U - Energy storage type phase change heating device - Google Patents
Energy storage type phase change heating device Download PDFInfo
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- CN202902446U CN202902446U CN 201220570742 CN201220570742U CN202902446U CN 202902446 U CN202902446 U CN 202902446U CN 201220570742 CN201220570742 CN 201220570742 CN 201220570742 U CN201220570742 U CN 201220570742U CN 202902446 U CN202902446 U CN 202902446U
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- main box
- heat
- electric heater
- air
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Abstract
The utility model provides an energy storage type phase change heating device and relates to the technical field of heating. The energy storage type phase change heating device needs to solve the technical problem of reducing non-renewable energy resource consumption. The energy storage type phase change heating device comprises a main box body and a draught fan. The main body is a box body, and openings are formed at two ends of the box body. The opening which is formed at one end of the main box body is a main box air supply outlet, and the opening which is formed at the other end of the main box body is a main box air inlet. At least one heating coil is arranged in the main box body. An air outlet of the draught fan is connected with the main box air inlet in a butt joint mode through an air pipe. The heating coil comprises a heat exchanging pipe shell and an electric heater. The electric heater is arranged in the heat exchanging pipe shell, and phase change working medium is filled between the inner wall of the heat exchanging pipe shell and the outer wall of the electric heater. The energy storage type phase change heating device is suitable for heating of an indoor environment.
Description
Technical field
The utility model relates to heating technology, particularly relates to a kind of technology of energy-storage type phase transformation heating plant.
Background technology
In the present municipal electrical network, in the paddy electricity period of night 22 up to 6 o'clock mornings of next day, the green electric power supplies such as water power, wind-powered electricity generation have accounted for very large ratio, morning 6 up to peak of power consumption period in 22 o'clock nights then take non-green electric power supplies such as thermoelectricitys as main.
Heating is the main method of winter protection in winter, and the lower cold district of a lot of temperature on average is arranged, and heating was for up to 5 months in 1 year.
Existing heating system mainly contains following several: 1) utilize the radiator central heating, this heating system is very common at north of China, because the radiator temperature is higher, be laid in indoor easy scald human body, and the adjustment of radiator is also very inconvenient, and the mode of central heating is undoubtedly huge energy waste for vacant house.2) utilize air-conditioning heating, this heating system often can need to start air conditioning and heating in the peak of power consumption period, when increasing municipal electrical network burden, has also increased the consumption of non-renewable energy resources.
The utility model content
For the defective that exists in the above-mentioned prior art, technical problem to be solved in the utility model provides and a kind ofly can alleviate heating and give the burden brought of municipal electrical network in the peak of power consumption period, reduces the energy-storage type phase transformation heating plant that non-renewable energy resources consume.
In order to solve the problems of the technologies described above, a kind of energy-storage type phase transformation heating plant provided by the utility model is characterized in that: comprise main box, blower fan;
Described main box is the casing of a both ends open, and an end opening of main box is the main tank air outlet, and other end opening is the main tank air inlet, is provided with at least one heat(ing) coil in the main box;
The air outlet of described blower fan docks with the main tank air inlet of main box through an airduct;
Described heat(ing) coil comprises heat exchange shell, electric heater, and described electric heater is installed in the heat exchange shell, and is filled with phase-change working substance between heat exchange inner wall of tube shell and electric heater outer wall.
Further, comprise that also one is used for the controller of control blower fan and the operation of each electric heater;
Described blower fan is received civil power through an air-supply switch, and each electric heater is received civil power through a heater switch, and described air-supply switch, heater switch are electric-controlled switch;
Described controller is provided with air-supply control end and heating control end, and the air-supply control end of controller is received the control end of air-supply switch, and the heating control end of controller is received the control end of heater switch.
Further, described controller also is provided with the temperature detection end, and described heat(ing) coil is provided with temperature sensor, and the temperature detection end of described controller is connected to the temperature sensor on the heat(ing) coil.
The energy-storage type phase transformation heating plant that the utility model provides, can utilize phase-change working substance savings heat take green electric power supplies such as water power, wind-powered electricity generations as the main paddy electricity period, preferentially utilizing the heating of phase-change working substance savings heat take non-green electric power supplies such as thermoelectricitys as the main peak of power consumption period, phase-change working substance savings heat is finished the electric heating that supplies of the municipal electrical network of rear recycling, therefore can alleviate municipal electrical network in the burden of peak of power consumption period, reduce non-renewable energy resources consumption.
Description of drawings
Fig. 1 is the structural representation of the energy-storage type phase transformation heating plant of the utility model embodiment;
Fig. 2 is the structural representation of the heat(ing) coil in the energy-storage type phase transformation heating plant of the utility model embodiment.
The specific embodiment
Below in conjunction with description of drawings embodiment of the present utility model is described in further detail, but present embodiment is not limited to the utility model, every employing analog structure of the present utility model and similar variation thereof all should be listed protection domain of the present utility model in.
Such as Fig. 1-shown in Figure 2, a kind of energy-storage type phase transformation heating plant that the utility model embodiment provides is characterized in that: comprise main box 4, blower fan 1;
Described main box 4 is casings of a both ends open, and an end opening of main box 4 is main tank air outlet 6, and other end opening is the main tank air inlet, is provided with at least one heat(ing) coil 5 in the main box 4;
The air outlet of described blower fan 1 docks with the main tank air inlet of main box 4 through an airduct 2;
Described heat(ing) coil 5 comprises heat exchange shell 7, electric heater 8, and described electric heater 8 is installed in the heat exchange shell 7, and is filled with phase-change working substance 9 between heat exchange shell 7 inwalls and electric heater 8 outer walls.
The utility model embodiment comprises that also one is used for the controller 3 of control blower fan 1 and 8 operations of each electric heater;
Described blower fan 1 is received civil power through an air-supply switch (not shown), and each electric heater 8 is received civil power through a heater switch (not shown), and described air-supply switch, heater switch are electric-controlled switch;
Described controller 3 is provided with air-supply control end and heating control end, and the air-supply control end of controller 3 is received the control end of air-supply switch, and the heating control end of controller 3 is received the control end of heater switch.
Among the utility model embodiment, described controller 3 also is provided with the temperature detection end, and described heat(ing) coil 5 is provided with the temperature sensor (not shown), and the temperature detection end of described controller 3 is connected to the temperature sensor on the heat(ing) coil 5.
Among the utility model embodiment, described air-supply switch, heater switch are relay, and described blower fan 1 is vortex fan, is built-in with single-chip microcomputer in the described controller, and controller is provided with for the button to its built-in single-chip microcomputer input of control commands.
Among the utility model embodiment, described phase-change working substance 9 adopts is phase transition temperature at 40~60 ℃ inorganic hydrous salt phase transition material, is specially acetate trihydrate and receives, and its molecular formula is CH3COONa3H2O, and its fusing point is 58.2 ℃, and its heat of fusion is 265kJ/kg.
Among other embodiment of the utility model, described phase-change working substance 9 also can adopt four water-calcium nitrate or five water sodium thiosulfate; The molecular formula of four water-calcium nitrate is Ca(NO3) 24H2O, its fusing point is 47 ℃, its heat of fusion is 153kJ/kg; The molecular formula of five water sodium thiosulfate is Na2S2O35H2O, and its fusing point is 48.5 ℃, and its heat of fusion is 210kJ/kg.
Among the utility model embodiment, what described heat exchange shell 7 adopted is that diameter is the copper pipe of 9~20mm, among other embodiment of the utility model, it is other heat conduction tubing such as steel pipe of 9~20mm that described heat exchange shell 7 also can adopt diameter, and the diameter of heat exchange shell 7 also is not limited to 9~20mm.
Among the utility model embodiment, what described electric heater 8 adopted is electric resistor heater, and among other embodiment of the utility model, described electric heater 8 also can adopt existing other electric heater.
The utility model embodiment is applicable to the heating of indoor environment, and its operation principle is as follows:
Utilize controller 3 control blower fans 1 and 8 operations of each electric heater;
Night 22 when 6 o'clock mornings of next day, paddy electricity period that the green electric power supply such as this section water power, wind-powered electricity generation accounts for significant proportion needed heating, the air-supply of controller control fan starting, and the control electric heater heats, this moment, blower fan extracted room air, and send into main box by airduct, by sending indoor environment back to by the main tank air outlet again after the heating of the heat(ing) coil in the main box, indoor environment temperature is raise gradually; When heat(ing) coil heats, electric heater is with heat transferred heat exchange shell, heated through the air of main box inner chamber by the convection current of heat exchange shell, when the heat that provides when electric heater surpasses the heat that indoor environment needs, the temperature of phase-change working substance and heat exchange shell raises, after the temperature of phase-change working substance is increased to its fusing point, phase-change working substance begins the phase transformation store heat, when the heat that provides when electric heater can not satisfy the heat demand of indoor environment, the temperature of phase-change working substance and heat exchange shell reduces, the temperature of phase-change working substance is down to its fusing point when following, and phase-change working substance begins the phase transformation release heat;
Night 22 when 6 o'clock mornings of next day, paddy electricity period that the green electric power supply such as this section water power, wind-powered electricity generation accounts for significant proportion did not need heating, controller control fan parking, in controller, preset a regenerator temperature threshold value, controller is by the temperature of the temperature sensor monitors heat(ing) coil on the heat(ing) coil, when the temperature of heat(ing) coil is lower than predefined regenerator temperature threshold value, the control electric heater heats to start and heats, improve the phase-change working substance temperature in the heat exchange shell, make the phase-change working substance phase-transition heat-storage;
Claims (3)
1. an energy-storage type phase transformation heating plant is characterized in that: comprise main box, blower fan;
Described main box is the casing of a both ends open, and an end opening of main box is the main tank air outlet, and other end opening is the main tank air inlet, is provided with at least one heat(ing) coil in the main box;
The air outlet of described blower fan docks with the main tank air inlet of main box through an airduct;
Described heat(ing) coil comprises heat exchange shell, electric heater, and described electric heater is installed in the heat exchange shell, and is filled with phase-change working substance between heat exchange inner wall of tube shell and electric heater outer wall.
2. energy-storage type phase transformation heating plant according to claim 1 is characterized in that: comprise that also one is used for the controller of control blower fan and the operation of each electric heater;
Described blower fan is received civil power through an air-supply switch, and each electric heater is received civil power through a heater switch, and described air-supply switch, heater switch are electric-controlled switch;
Described controller is provided with air-supply control end and heating control end, and the air-supply control end of controller is received the control end of air-supply switch, and the heating control end of controller is received the control end of heater switch.
3. energy-storage type phase transformation heating plant according to claim 2, it is characterized in that: described controller also is provided with the temperature detection end, described heat(ing) coil is provided with temperature sensor, and the temperature detection end of described controller is connected to the temperature sensor on the heat(ing) coil.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220570742 CN202902446U (en) | 2012-11-01 | 2012-11-01 | Energy storage type phase change heating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220570742 CN202902446U (en) | 2012-11-01 | 2012-11-01 | Energy storage type phase change heating device |
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CN202902446U true CN202902446U (en) | 2013-04-24 |
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CN 201220570742 Expired - Fee Related CN202902446U (en) | 2012-11-01 | 2012-11-01 | Energy storage type phase change heating device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106642452A (en) * | 2016-11-24 | 2017-05-10 | 王占军 | Device for supplying cool and heat |
-
2012
- 2012-11-01 CN CN 201220570742 patent/CN202902446U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106642452A (en) * | 2016-11-24 | 2017-05-10 | 王占军 | Device for supplying cool and heat |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130424 Termination date: 20151101 |
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EXPY | Termination of patent right or utility model |