CN102759221A

CN102759221A - Energy-storage residence self-circulation constant temperature system

Info

Publication number: CN102759221A
Application number: CN2012102713926A
Authority: CN
Inventors: 苏彬诚
Original assignee: Individual
Current assignee: SHENZHEN HAIJIYUAN TECHNOLOGY CO LTD
Priority date: 2012-08-01
Filing date: 2012-08-01
Publication date: 2012-10-31
Anticipated expiration: 2032-08-01
Also published as: CN102759221B

Abstract

The invention relates to an energy-storage residence self-circulation constant temperature system, which comprises a temperature adjusting system and a self-circulating drive system, wherein the temperature adjusting system comprises an energy storage tank (4), a heat-supply adjusting system and a cold-supply adjusting system; the energy storage tank (4) comprises a facade wall (41) of a house; the self-circulating drive system comprises a heating drive vertical pipe (8) and a refrigerating drive vertical pipe (5) which are vertically arranged indoors; and the energy-storage residence self-circulation constant temperature system can be used for heating and refrigerating and supplying cold and heat to a plurality of rooms in a plurality of floors. Due to utilization of temperature difference and density difference of water, water can naturally circulate in a pipeline, a coiler circulating water pump does not need to be installed, so that energy sources can be saved. The energy-storage residence self-circulation constant temperature system disclosed by the invention is low in application cost and beneficial to popularization and application.

Description

Accumulation of energy dwelling house self-loopa constant temperature system

[technical field]

The present invention relates to the heating of dwelling house room temperature and the constant temperature system of refrigeration, relate in particular to a kind of accumulation of energy dwelling house self-loopa constant temperature system.

[background technology]

At present, the air conditioning of dwelling house has begun applied solar energy and energy accumulation air conditioner is regulated the dwelling house room temperature, promptly below dwelling house, builds the accumulation of energy pond and utilizes the solar-heating accumulation of energy, reaches the effect to the room heat supply.But have several problems not solve like this: 1, can not be between housing types cooling; 2, be difficult to a plurality of rooms heat supply more than two-layer; 3, the accumulation of energy pond is built in undergroundly, and the building difficulty is big, and cost is high.4, the hot water in the accumulation of energy pond need use water pump to carry out the heat release circulation, and water pump expends certain electric energy.

[summary of the invention]

To the shortcoming of prior art, the object of the present invention is to provide a kind of accumulation of energy dwelling house self-loopa constant temperature system, with solve the adjustment pattern that prior art exists single, need working power equipment and construction and operating cost problem of higher.

The technical solution adopted for the present invention to solve the technical problems is: a kind of accumulation of energy dwelling house self-loopa constant temperature system is provided, includes humidity control system and self-loopa drive system, it is characterized in that:

Said humidity control system comprises accumulation of energy groove, heating Regulation system and cooling regulating system;

Said accumulation of energy groove comprises the vertical plane wall in house, and last water-distributing device, following water-distributing device are loaded on the top and the bottom of accumulation of energy groove respectively;

Said heating Regulation system be connected with in turn heat power supply device, the first accumulation of heat valve, accumulation of energy groove bottom, down water-distributing device, heat coil pipe, heat drive standpipe, heat supply valve, accumulation of energy groove top, go up water-distributing device, the second accumulation of heat valve and the company's of returning heat power supply device;

Said cooling regulating system is connected with low-temperature receiver device, the first cold-storage valve, accumulation of energy groove top in turn, upward water-distributing device, refrigeration coil, refrigeration drive standpipe, cooling valve, accumulation of energy groove bottom, following water-distributing device, the second cold-storage valve and the company's of returning low-temperature receiver device;

Said self-loopa drive system comprises that setting is installed on indoor heating and drives standpipe and refrigeration driving standpipe.

The said driving standpipe that heats can be straight tube or coil pipe with refrigeration driving standpipe.

During the winter accumulation of heat; Open the first and second accumulation of heat valves, close the first and second cold-storage valves and cooling valve, hold over system is devoted oneself to work; The hot water that heat power supply device provides is transported to the accumulation of energy groove through last water-distributing device; Cold water in the accumulation of energy groove heats through descending water-distributing device to be recycled to heat power supply device, after the hot water in the accumulation of energy groove holds completely, closes the first and second accumulation of heat valves, and accumulation of energy groove accumulation of heat operating mode finishes.

During the winter heat supply, open the heat supply valve, close the first and second cold-storage valves and cooling valve; The heating Regulation system devotes oneself to work, and the accumulation of energy groove gets into through following water-distributing device and heats the driving standpipe, erects the indoor effect that the driving standpipe receives outdoor low temperature that heats that is installed on this moment; Water temperature in the standpipe descends, and the density of water increases, downward sedimentation under the gravity effect; What get into the below, room heats coil pipe to the room heat supply, makes the water in the heating Regulation system get into the self-loopa state.

Summer is during cold-storage; Open the first and second cold-storage valves, close the first and second accumulation of heat valves and heat supply valve, cold accumulation system is devoted oneself to work; The cold water that cool source apparatus provides is transported to the accumulation of energy groove through following water-distributing device; Hot water in the accumulation of energy groove is recycled to the low-temperature receiver device through last water-distributing device lowers the temperature, and after the cold water in the accumulation of energy groove holds completely, closes the first and second cold-storage valves, and accumulation of energy groove cold-storage operating mode finishes.

Open cooling valve during cooling summer, closes the first and second accumulation of heat valves and heat supply valve; The cooling regulating system is devoted oneself to work, and the accumulation of energy groove passes through water-distributing device entering refrigeration driving standpipe down, erects the effect that indoor refrigeration driving standpipe receives outdoor high temperature that is installed at this moment; Water temperature rise in the standpipe, the density of water reduces, and under buoyancy, moves upward; The refrigeration coil that gets into the top, room makes the water in the cooling regulating system get into the self-loopa state to the room cooling.

The invention has the beneficial effects as follows: accumulation of energy dwelling house self-loopa constant temperature system not only can heat, and can freeze, and can be simultaneously to the even cold and heat supply in a plurality of rooms of a plurality of floors.The temperature difference of utilizing water is different with density, and Natural Circulation in pipeline need not installed the coil pipe water circulating pump, energy savings, and application cost is low, and in addition, construction of the present invention is easily, cost is lower, is beneficial to penetration and promotion.

[description of drawings]

Below in conjunction with accompanying drawing the present invention is done further description.

Fig. 1 is a structural representation of the present invention.

Among the figure: 1 for heat power supply device, 3 for heat coil pipe, 4 for the accumulation of energy groove, 41 for the vertical plane wall in house, 5 for refrigeration drive standpipe, 6 for the low-temperature receiver device, 7 for refrigeration coil, 8 for heat drive standpipe, 21,22,23 for the room, 51 for last water-distributing device, 52 for water-distributing device, 11 down be that the first accumulation of heat valve, 12 is that the second accumulation of heat valve, 13 is that heat supply valve, 61 is that the first cold-storage valve, 62 is that the second cold-storage valve, 63 is that cooling valve, 71 is the second cooling valve.

[specific embodiment]

Referring to accompanying drawing, a kind of accumulation of energy dwelling house of the present invention self-loopa constant temperature system includes humidity control system and self-loopa drive system, it is characterized in that:

Said humidity control system comprises accumulation of energy groove 4, heating Regulation system and cooling regulating system;

Said accumulation of energy groove 4 comprises the vertical plane wall 41 in house;

Last water-distributing device 51, water-distributing device 52 is loaded on the top and the bottom of accumulation of energy groove 4 respectively down;

Said heating Regulation system be connected with in turn heat power supply device 1, the first accumulation of heat valve 11, accumulation of energy groove 4 bottoms, down water-distributing device 52, heat coil pipe 3, heat and drive standpipe 8, heat supply valve 13, accumulation of energy groove 4 tops, go up water-distributing device 51, the second accumulation of heat valve 12 and the company's of returning heat power supply device 1;

Said cooling regulating system is connected with low-temperature receiver device 6, the first cold-storage valve 61, accumulation of energy groove 4 tops in turn, goes up water-distributing device 51, refrigeration coil 7, refrigeration drive standpipe 5, cooling valve 63, accumulation of energy groove 4 bottoms, water-distributing device 52, the second cold-storage valve 62 and the company's of returning low-temperature receiver device 6 down;

Said self-loopa drive system comprises that setting is installed on indoor heating and drives standpipe 8 and refrigeration driving standpipe 5.

The said driving standpipe 8 that heats can be straight tube or coil pipe with refrigeration driving standpipe 5.

During the winter accumulation of heat; Open the first and second accumulation of

heat valves

11,12, close first and second cold-

storage valve

61,62 and the cooling valves 63, hold over system is devoted oneself to work; The hot water that heat power supply device 1 provides is transported to accumulation of energy groove 4 through last water-distributing device 51; Cold water in the accumulation of energy groove 4 heat through descending water-distributing device 52 to be recycled to heat power supply device 1, after the hot water in the accumulation of energy groove 4 holds completely, close the first and second accumulation of

heat valves

11,12, and accumulation of energy groove 4 accumulation of heat operating modes finish.

During the winter heat supply, open heat supply valve 13, close first and second cold-

storage valve

61,62 and the cooling valves 63; The heating Regulation system devotes oneself to work; Accumulation of energy groove 4 gets into to heat through following water-distributing device 52 and drives standpipe 8, erects this moment and is installed on the indoor effect that driving standpipe 8 receives outdoor low temperature that heats, and the water temperature in the standpipe descends; The density of water increases; Downward sedimentation under the gravity effect, what get into 21,22,23 belows, room heats coil pipe 3 to the room heat supply, makes the water in the heating Regulation system get into the self-loopa state.

Summer is during cold-storage; Open the first and second cold-

storage valves

61,62, close first and second accumulation of

heat valve

11,12 and the heat supply valves 13, cold accumulation system is devoted oneself to work; The cold water that cool source apparatus 6 provides is transported to accumulation of energy groove 4 through following water-distributing device 52; Hot water in the accumulation of energy groove 4 are recycled to low-temperature receiver device 6 through last water-distributing device 51 lowers the temperature, and after the cold water in the accumulation of energy groove 4 holds completely, closes the first and second cold-

storage valves

61,62, and accumulation of energy groove 4 cold-storage operating modes finish.

Open cooling valve 63 during cooling summer, closes first and second accumulation of

heat valve

11,12 and the heat supply valves 13; The cooling regulating system is devoted oneself to work; Accumulation of energy groove 4 passes through water-distributing device 52 entering refrigeration driving standpipes 5 down, erects at this moment and is installed on the effect that indoor refrigeration driving standpipe 5 receives outdoor high temperature, the water temperature rise in the standpipe; The density of water reduces; Under buoyancy, move upward, the refrigeration coil 7 that gets into 21,22,23 tops, room makes the water in the cooling regulating system get into the self-loopa state to the room cooling.

Claims

1. an accumulation of energy dwelling house self-loopa constant temperature system includes humidity control system and self-loopa drive system, it is characterized in that:

Said humidity control system comprises accumulation of energy groove (4), heating Regulation system and cooling regulating system;

Said accumulation of energy groove (4) comprises the vertical plane wall (41) in house, last water-distributing device (51), down water-distributing device (52 are loaded on the top and the bottom of accumulation of energy groove (4) respectively;

Said heating Regulation system be connected with in turn heat power supply device (1), the first accumulation of heat valve (11), accumulation of energy groove (4) bottom, down water-distributing device (52), heat coil pipe (3), heat drive standpipe (8), heat supply valve (13), accumulation of energy groove (4) top, go up water-distributing device (51), the second accumulation of heat valve (12) and the company's of returning heat power supply device (1);

Said cooling regulating system is connected with low-temperature receiver device (6), the first cold-storage valve (61), accumulation of energy groove (4) top in turn, goes up water-distributing device (51), refrigeration coil (7), refrigeration drive standpipe (5), cooling valve (63), accumulation of energy groove (4) bottom, water-distributing device (52), the second cold-storage valve (62) and the company's of returning low-temperature receiver device (6) down;

Said self-loopa drive system comprises that setting is installed on indoor heating and drives standpipe (8) and refrigeration driving standpipe (5).

2. accumulation of energy dwelling house self-loopa constant temperature system according to claim 1 is characterized in that: saidly heat that to drive standpipe (8) can be straight tube or coil pipe with refrigeration driving standpipe (5).