CN201141668Y - Energy-accumulation heat exchange system - Google Patents

Abstract

The utility model discloses an energy storage heat exchange system, which comprises an energy storage device, an outdoor heat exchange device, a the first circulating tube, an indoor heat exchange device, an energy circulating device, a storage battery, a controller, and a the second circulating tube linked together. Compared with the past, with this heat exchange system, the energy in outside and the energy in a confined space can be in a controlled exchange when the external environment temperature meets the use requirements. Moreover, according to the change of the external environment temperature, a certain energy can be saved inside the energy storage device in a right time. Thus when the external environment temperature cannot meet the use requirement, the saved energy is extracted to meet the temperature requirement of a confined space. Thereby when the power use is in tension and the environment temperature is changed, a self-adaptive balance is available, so that the energy saving and cost reduction purposes can be achieved. Moreover, the energy storage medium is recycled water that does not lead to environmental pollution.

Description

The accumulation of energy heat-exchange system

Technical field

The utility model belongs to air handling system, particularly relates to a kind of accumulation of energy heat-exchange system.

Background technology

Along with the attention of people to environment, modern society is towards the social development of energy conservation type, but people's quality of life is also improving gradually, to the also corresponding raising of the requirement of indoor environment temperature, the extensive application of numerous in addition industry high, precision and frontier equipment must have the temperature environment of a lasting stability; But when electricity usage is nervous, the peak valley contradiction of power supply is more outstanding, existing air-conditioning system basically can not this situation of self adaptation, unnecessary waste many energy, in the big area of some day and night temperatures, this situation is more obvious, be easy to make air-conditioning system to break down, so both increase cost of investment, and be inconvenient to again keep in repair, needed to drop into a large amount of man power and materials.The policy of using electricity in off-peak hours that has country just wideling popularize again, market presses for low, the free of contamination energy-storage air conditioner system of a kind of cost.

(patent No.: 96204844.5) disclose a kind of accumulating type air-conditioner, be that group has been gone into accumulator in existing air-conditioner system to Chinese patent, and accumulator is made up of airtight container body and heat exchange pipe, protects thermosphere and external protection in addition, is filled with water in the container body.Because group has been gone into accumulator, though can solve effectively to a certain extent at cooling, the contradiction that produces with variation of ambient temperature between heating period " ability " and " needs ", balance peak of power consumption.But easy leakage that the cold-producing medium in this air-conditioner has used of a specified duration causes the pollution to environment easily, and adding cold-producing medium in addition once more also needs input cost, does not still well address the above problem.

Summary of the invention

It is higher that the utility model has solved air-conditioning system cost of the prior art; between the electricity consumption peak valley and the big area of the temperature difference can not adaptive equalization needs; unnecessary wastes energy; easily break down; the technical problem of contaminated environment provides a kind of saving cost, but when electricity usage adaptive equalization during nervous and environment temperature change; energy savings, the accumulation of energy heat-exchange system of protection environment.

The technical solution of the utility model is achieved in that a kind of accumulation of energy heat-exchange system, and this system comprises indoor section and outdoor section, and wherein indoor section includes:

Energy storage equipment, energy-accumulating medium is equipped with in portion within it, in order to store and the required energy of room air heat exchange.

Indoor heat-exchange device is in order to carry out energy exchange with the energy-accumulating medium in room air and the energy storage equipment.

Energy circulation device in order to the energy-accumulating medium in the energy storage equipment is transported to indoor heat-exchange device, will be transported in the energy storage equipment through the energy-accumulating medium after the heat exchange with room air again.

First circulation pipe is in order to connect into a closed-loop path with energy storage equipment, indoor heat-exchange device, energy circulation device;

Outdoor section includes:

Outdoor heat-exchange device is in order to carry out energy exchange with the energy-accumulating medium in outdoor air and the energy storage equipment;

Energy circulation device in order to the energy-accumulating medium in the energy storage equipment is transported to outdoor heat-exchange device, will be transported in the energy storage equipment through the energy-accumulating medium after the heat exchange with outdoor air again;

Second circulation pipe is in order to connect into a closed-loop path with energy storage equipment, energy circulation device, outdoor heat-exchange device;

Described indoor section also includes controller, links to each other with described indoor heat-exchange device, outdoor heat-exchange device, energy circulation device respectively, in order to control the normal operation of these devices.

In order to guarantee that air-conditioning system still can normally be moved under powering-off state, as preferably, described controller also is connected with battery.

As preferably, described energy-accumulating medium is a water.

As preferably, described energy circulation device is a circulating pump.

As preferably, described indoor heat-exchange device and outdoor heat-exchange device are fan coil.

In order to keep the energy in the energy storage equipment not run off,, outside described energy storage equipment, be covered with heat-insulation layer as preferably.

Compared in the past, major advantage of the present utility model is, when externally environment temperature satisfies instructions for use, the energy of outside and the energy of confined space (indoor) controlledly can be exchanged, and can be according to the variation of ambient temperature, in energy storage equipment, save certain energy in good time, thereby when externally environment temperature does not satisfy instructions for use, extract the energy of savings, to satisfy the temperature requirement of confined space (indoor), but thereby in electricity usage adaptive equalization during nervous and environment temperature change, thereby reach energy-conservation, the purpose that reduces cost, and energy-accumulating medium is a recirculated water, can not cause the pollution of environment, and in addition native system can not change indexs such as the cleanliness factor of confined space (indoor) and humidity yet.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Among the figure: 1, energy storage equipment; 2, outdoor heat-exchange device; 3, the first circulation pipes; 4, indoor heat-exchange device; 5, energy circulation device; 6, battery; 7, controller; 8, the second circulation pipes; 9, heat-insulation layer.

The specific embodiment

The specific embodiment of the present utility model is as follows: as shown in Figure 1, according to a kind of accumulation of energy heat-exchange system of the present utility model, include indoor section and outdoor section, described indoor section includes energy storage equipment 1, indoor heat-exchange device 4, energy circulation device 5, the first circulation pipes 3.Described energy storage equipment 1, energy-accumulating medium is equipped with in portion within it, in order to store and the required energy of room air heat exchange, on energy storage equipment 1, be provided with pipe joint, in order to prevent that energy runs off, outside energy storage equipment 1, be covered with heat-insulation layer 9, heat-insulation layer 9 also can be made into integration with energy storage equipment 1; In order to reach energy-conserving and environment-protective, the purpose of protection environment, energy-accumulating medium employing water; Indoor heat-exchange device 4 adopts fan coil, and fan coil includes silent ventilator and coil pipe, is provided with fin on coil pipe, and coil pipe has two pipe joints, in order to the energy-accumulating medium in room air and the energy storage equipment 1 is carried out energy exchange; Energy circulation device 5 adopts circulating pump, in order to the energy-accumulating medium in the energy storage equipment 1 is transported to indoor heat-exchange device 4, will be transported in the energy storage equipment 1 through the energy-accumulating medium after the heat exchange with room air again; First circulation pipe 3 adopts stainless steel tube, and stainless steel tube is added with heat-insulation layer (invisible among the figure) outward, in order to energy storage equipment 1, indoor heat-exchange device 4, energy circulation device 5 are connected into a closed loop.

Described outdoor section includes: outdoor heat-exchange device 2, and the energy circulation device 5 and second circulation pipe 8, described outdoor heat-exchange device 2 adopts fan coil equally, in order to the energy-accumulating medium in outdoor air and the energy storage equipment 1 is carried out energy exchange; Energy circulation device 5 adopts circulating pump equally, in order to the energy-accumulating medium in the energy storage equipment 1 is transported to outdoor heat-exchange device 2, will be transported in the energy storage equipment 1 through the energy-accumulating medium after the heat exchange with outdoor air again; Second circulation pipe 8 adopts stainless steel tube equally, in order to energy storage equipment 1, energy circulation device 5, outdoor heat-exchange device 2 are connected into a closed-loop path.

This system also includes controller 7, respectively with described indoor heat-exchange device 4, outdoor heat-exchange device 2, energy circulation device 5 links to each other, in order to control the normal operation of these devices, but and make it between the electricity consumption peak valley and environment temperature adaptive equalization when changing, when promptly externally environment temperature satisfies instructions for use, the energy of outside and the energy of confined space (indoor) controlledly can be exchanged, and can be according to the variation of ambient temperature, in energy storage equipment, save certain energy in good time, thereby when externally environment temperature does not satisfy instructions for use, extract the energy of savings, to satisfy the temperature requirement of confined space (indoor).

In order to guarantee that air-conditioning system still can normally be moved under powering-off state, controller 7 also is connected with battery 6, in order to energy circulation device 5, the needed electric energy of heat-exchange device 4 operations to be provided when cutting off the power supply, keeps the stable of indoor temperature.

Claims (6)

1, a kind of accumulation of energy heat-exchange system is characterized in that this system comprises indoor section and outdoor section, and wherein indoor section includes:

Energy storage equipment (1), energy-accumulating medium is equipped with in portion within it, in order to store and the required energy of room air heat exchange;

Indoor heat-exchange device (4) is in order to carry out energy exchange with the energy-accumulating medium in room air and the energy storage equipment (1);

Energy circulation device (5) in order to the energy-accumulating medium in the energy storage equipment (1) is transported to indoor heat-exchange device (4), will be transported in the energy storage equipment (1) through the energy-accumulating medium after the heat exchange with room air again;

First circulation pipe (3) is in order to connect into a closed-loop path with energy storage equipment (1), indoor heat-exchange device (4), energy circulation device (5);

Outdoor section includes:

Outdoor heat-exchange device (2) is in order to carry out energy exchange with the energy-accumulating medium in outdoor air and the energy storage equipment (1);

Energy circulation device (5) in order to the energy-accumulating medium in the energy storage equipment (1) is transported to outdoor heat-exchange device (2), will be transported in the energy storage equipment (1) through the energy-accumulating medium after the heat exchange with outdoor air again;

Second circulation pipe (8) is in order to connect into a closed-loop path with energy storage equipment (1), energy circulation device (5), outdoor heat-exchange device (2);

Described indoor section also includes controller (7), links to each other with described indoor heat-exchange device (4), outdoor heat-exchange device (2), energy circulation device (5) respectively, in order to control the normal operation of these devices.

2, accumulation of energy heat-exchange system according to claim 1 is characterized in that described controller (7) also is connected with battery (6).

3, accumulation of energy heat-exchange system according to claim 1 is characterized in that described energy-accumulating medium is a water.

4, accumulation of energy heat-exchange system according to claim 1 is characterized in that described energy circulation device (5) is a circulating pump.

5, accumulation of energy heat-exchange system according to claim 1 is characterized in that described indoor heat-exchange device (4) and outdoor heat-exchange device (2) are fan coil.

6, accumulation of energy heat-exchange system according to claim 1 is characterized in that being covered with heat-insulation layer (9) outside described energy storage equipment (1).