WO2015089760A1

WO2015089760A1 - Energy accumulating tank-type geothermal energy acquisition device and air conditioning system using same

Info

Publication number: WO2015089760A1
Application number: PCT/CN2013/089810
Authority: WO
Inventors: 徐生恒
Original assignee: 徐生恒
Priority date: 2013-12-18
Filing date: 2013-12-18
Publication date: 2015-06-25

Abstract

Disclosed is an energy accumulating tank-type geothermal energy acquisition device, comprising a tank body (1) filled with water, wherein heat exchange tubes (2) filled with a liquid medium are provided in the tank body (1), the tank body (1) has a first inlet end (1a) connected to the outside, support frames (3) are provided in the tank body (1), the heat exchange tubes (2) surround the support frames (3) in a plurality of coils and are held on the support frames (3), and two ends of the heat exchange tubes (2) are connected to the outside of the tank body (1). Further disclosed is an air conditioning system using the device.

Description

Energy storage tank type ground energy collecting device and air conditioning system using the same

Technical field

The present invention relates to a heat exchange energy storage device, and more particularly to a device for collecting shallow ground heat for heat exchange and heat storage.

Background technique

In order to meet the increasing quality of life requirements, air conditioners are used more and more, and they consume electricity for cooling or heating, which consumes a lot of energy and brings a series of environmental problems. The Chinese invention patent obtained by the applicant before

CN1339677A describes an accumulator capable of heat exchange for cooling and heating purposes, and the accumulator is placed in a subterranean constant temperature layer, and a phase change substance (such as water) is installed in the accumulator. The cylinder can improve the heat exchange efficiency, and the liquid medium (such as antifreeze) circulates between the accumulator housing and the outer wall of the accumulator cylinder, and the phase change material in the accumulator tube exchanges energy with the earth, and the circulating liquid medium The phase change material in the energy storage cylinder is heat exchanged, and the circulating liquid medium is used for heating in winter, and the circulating liquid medium is used for cooling in summer.

The accumulator collecting area can be cooled and heated, saving energy, environmental protection and no pollution. However, the phase change material of the structure accumulator needs to be pre-packaged in the energy storage cylinder, the manufacturing process is complicated, the weight of the finished product is large, and the energy storage is performed. The installation and transportation of the device are inconvenient, and the circulating liquid medium is charged in the accumulator housing, and the amount is large and the cost is high.

Summary of the invention

The technical problem to be solved by the present invention is to provide an energy storage tank type energy collecting device which has a simple structure, low cost, simple manufacturing process, convenient transportation and installation, and an air conditioning system using the same.

The energy storage tank type energy collecting device of the present invention comprises a tank filled with water, wherein the tank body is provided with a heat exchange tube filled with a liquid medium, and the tank body has a first inlet end connected to the outside, and the tank body is provided There is a support frame, the heat exchange tube is spirally wound around the support frame, and is held on the support frame, and both ends of the heat exchange tube are connected to the outside of the tank body.

The energy storage tank type energy collecting device of the present invention, wherein the tank body is further provided with a first outlet end, and the first inlet end and the first outlet end of the tank body are disposed on the top wall of the tank body, and the tank body is further provided There is an inlet pipe that extends from the first inlet end to the lower part of the tank.

The energy storage tank type energy collecting device of the present invention, wherein the top wall of the tank body is further provided with a second inlet end and a second outlet end, and the two ends of the heat exchange tube respectively pass through the second inlet end and the second outlet end Connect to the outside of the tank.

The energy storage tank type energy collecting device of the present invention, wherein the supporting frame comprises at least two horizontally arranged circular rings and a plurality of longitudinal beams vertically fixed on the outer wall of the annular ring, wherein the two ends of the longitudinal beam are respectively fixed to the can body On the top and bottom walls, The heat exchange tube is spirally wound around the stringer.

The energy storage tank type energy collecting device of the present invention, wherein the longitudinal beam is provided with a plurality of pallets, and the spiral coil heat exchange tubes are supported on the pallet.

The energy storage tank type energy collecting device of the present invention, wherein the heat exchange tube adopts a PE tube.

The energy storage tank type energy collecting device of the present invention, wherein the top wall of the tank body is provided with a lifting lug.

The energy storage tank type energy collecting device of the present invention, wherein the liquid medium in the heat exchange tube is an antifreeze liquid having a freezing point lower than -5 °C.

The present invention relates to an air conditioning system using the above-described energy storage tank type energy collecting device, the air conditioning system including a water source side heat exchanger, and the water source side heat exchanger including an energy input connected to the energy storage tank type ground energy collecting device On the side, the inlet and outlet of the energy input side of the water source side heat exchanger are respectively connected to the two ends of the heat exchange tube of the energy storage tank type energy collecting device.

The air conditioning system of the present invention, wherein the air conditioning system is provided with first and second energy storage tank type ground energy collecting devices, and the first and second energy storage tank type ground energy collecting devices are arranged in parallel, and the water source side heat exchanger The communication between the energy input sides is controlled by the first valve and the second valve, respectively.

In the air conditioning system of the present invention, the first and second valves are respectively installed with temperature sensors, and the opening and closing of the first and second valves are controlled according to the temperature sensor.

The energy storage tank type energy collecting device of the present invention is different from the prior art in that the energy storage tank type energy collecting device of the present invention is provided with a heat exchange tube spiral disk disposed in the tank body, and both ends of the heat exchange tube and the outer portion of the tank body In connection, the tank body also has a first inlet end that communicates with the outside. The energy storage tank type energy collecting device of the structure has a simple manufacturing process, and the water in the tank body and the liquid medium in the heat exchange tube are installed. Re-access, which greatly reduces the weight of the finished product, makes installation and transportation more convenient, and the liquid medium is filled in the heat exchange tube, which reduces the amount and reduces the cost.

The air conditioning system of the present invention uses the above-mentioned energy storage tank type ground energy collecting device to collect the energy of the circulating liquid medium in the heat exchange tube, thereby achieving the purpose of cooling and heating, saving energy, environmental protection and no pollution.

DRAWINGS

1 is a schematic structural view of a preferred embodiment of an energy storage tank type energy collecting device according to the present invention;

Figure 2 is a cross-sectional view taken along line A-A of Figure 1;

3 is a schematic structural view of a support frame in a preferred embodiment of the present invention;

4 is a view showing a state of use of an air conditioning system using an energy storage tank type ground energy collecting device according to the present invention;

Fig. 5 is a view showing another use state of the air conditioning system using the energy storage tank type ground energy collecting device of the present invention.

The energy storage tank type energy collecting device of the present invention and the air conditioning system using the same will be further described below with reference to the accompanying drawings. detailed description

As shown in FIG. 1, 2, and 3, the energy storage tank type energy collecting device of the present embodiment includes a tank body 1 placed in a soil constant temperature layer and a heat exchange tube 2 located in the tank body 1. The tank body is made of steel plate. The cylindrical cylinder is provided with a lifting lug 5 for lifting on its top wall. The tank body 1 has a first inlet end la and a first outlet end lb connected to the outside, and is disposed on the top wall of the tank body 1. The tank body 1 is further provided with an inlet pipe 4 communicating with the first inlet end la, The water pipe 4 extends from the first inlet end la to the lower portion of the tank body 1.

A support frame 3 is disposed in the tank body 1. The support frame 3 includes four horizontally disposed steel rings 3a distributed equidistantly in the vertical direction, and six longitudinal beams 3b are arranged along the circumference of the ring 3a. The longitudinal beams 3b A steel pipe is used, which is vertically welded to the outer wall of the ring, and both ends of the longitudinal beam 3b are welded to the top and bottom walls of the can body 1.

The heat exchange tube 2 adopts a PE tube, and a spiral disk is arranged around the support frame 3, and a gap L is arranged between the adjacent two coils, and a plurality of pallets 3c are welded on each of the longitudinal beams 3b, and the support is arranged on the spiral disk. Below the heat exchange tubes 2, the heat exchange tubes 2 are held on the support frame 3. The top wall of the can body 1 is further provided with a second inlet end lc and a second outlet end ld, and the two ends of the heat exchange tube 2 are communicated to the outside of the can body 1 through the second inlet end lc and the second outlet end Id, respectively.

During installation, the device is suspended in the underground constant temperature layer, and after being placed, water is introduced into the outer tank of the heat exchange tube through the first inlet end la, and the freezing point is introduced into the heat exchange tube 2 through the second inlet end lc. In liquid medium at -5 ° C, the liquid medium is obtained by mixing water with antifreeze, or other substances with a freezing point of -5 ° C, such as: brine, environmentally friendly refrigerant.

The device is applied in an air conditioning system, as shown in FIG. 4, the air conditioning system includes an indoor heat exchanger, a compressor, and a water source side heat exchanger, and the water source side heat exchanger includes a communication device capable of collecting energy storage tanks. The energy input side and the energy output side communicating with the compressor and the indoor heat exchanger, the inlet of the energy input side of the water source side heat exchanger is in communication with the second outlet end Id, and the outlet is in communication with the second inlet end lc.

In winter, the heat flow is shown by the dotted arrow in Fig. 4. The water in the tank 1 absorbs the heat of the constant temperature layer soil, and the liquid medium in the heat exchange tube 2 circulates and exchanges heat with the water in the tank 1, sucking the water. The circulating liquid medium after the stored heat is pumped into the water source side heat exchanger of the air conditioning system, and the liquid refrigerant in the water source side heat exchanger is released to evaporate, and the evaporated steam is compressed by the compressor and supplied to the room. The heat exchanger condenses heat in the indoor heat exchanger, heats the indoor air, and achieves the purpose of indoor heating. The liquid refrigerant after the heat release returns to the water source side heat exchanger, and the circulation absorption heat exchange tube 2 circulates. The ground energy collected by the liquid medium. After the circulating liquid medium in the heat exchange tube 2 absorbs the heat stored in the water, the temperature of the water in the tank body 1 is lowered, and the water exchanges heat with the soil outside the tank body 1 to continuously absorb the heat in the soil, thereby continuously The circulating liquid medium in the heat exchange tubes 2 releases heat.

In summer, the heat flow is shown by the solid arrow in Fig. 4, and the liquid medium in the heat exchange tube 2 circulates and exchanges heat with the water in the tank 1, and the heat of the circulating liquid medium is discharged into the water, and the circulating liquid medium after cooling Pumped into the air conditioning system In the water source side heat exchanger, the heat of the refrigerant vapor in the water source side heat exchanger is absorbed, the steam is condensed into a liquid state, the liquid refrigerant flows into the indoor heat exchanger, and the indoor heat is evaporated in the indoor heat exchanger to set the indoor air. Cooling, to achieve the purpose of indoor cooling, the endothermic vaporized refrigerant vapor is compressed by the compressor, enters the water source side heat exchanger, and circulates to the circulating liquid medium in the heat exchange tube 2 to release heat. After the circulating liquid medium in the heat exchange tube 2 releases heat to the water in the tank 1, the temperature of the water in the tank 1 rises, and the water exchanges heat with the soil outside the tank 1 to continuously release heat into the soil, and then Cold water is continuously supplied to the circulating liquid medium in the heat transfer tubes 2.

At the same time, in the summer, the first outlet end lb of the tank 1 can also be connected to the domestic water end as a source of domestic hot water. In order to further ensure the long-term continuous use of the air conditioning system, the first and second energy storage tank type energy collecting devices VIII and B can be arranged in parallel, as shown in FIG. 5, the two respectively pass through the first and second valves 10 20 controls the communication with the energy input side of the water source side heat exchanger, and the temperature sensors are respectively installed at the first and second valves 10 and 20 to open and close the first and second valves.

When the temperature of the circulating liquid medium in the heat exchange tube of the first energy storage tank type energy collecting device can meet the use requirement of the water source side heat exchanger, the first valve is opened, the second valve is closed, and the first energy storage tank is The ground energy collecting device supplies heat exchange requirements of the water source side heat exchanger.

When the temperature sensor detects that the temperature of the circulating medium flowing in the heat exchange tube cannot meet the heat exchange requirement, the control closes the first valve and opens the second valve, so that the first energy storage tank type energy collecting device enters the energy storage state, The second energy storage tank type energy collecting device supplies heat exchange demand of the water source side heat exchanger, and the two switch energy storage to ensure the continuous operation of the air conditioning system.

The embodiments described above are only intended to describe the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various embodiments of the present invention may be made by those skilled in the art without departing from the spirit of the invention. Modifications and improvements are intended to fall within the scope of the invention as defined by the appended claims. Industrial applicability

The energy storage tank type energy collecting device of the invention can be applied to the energy collection of the air conditioning system, and the energy storage tank type ground energy collecting device is installed in the underground constant temperature layer, and the energy supply of the heat exchanger of the air conditioning system can be used for collecting energy through the heat exchange. To achieve the purpose of heating or cooling, instead of power consumption, saving energy and protecting the environment.

Claims

Rights request

1. An energy storage tank type ground energy collection device, including a tank (1) filled with water, characterized in that: a heat exchange tube (2) filled with a liquid medium is provided in the tank α), The tank (1) has a first inlet end (la) connected to the outside. The tank (1) is provided with a support frame (3). The heat exchange tube (2) is arranged in a spiral disk around the support frame (3). circle and remain on the support frame (3). Both ends of the heat exchange tube (2) are connected to the outside of the tank (1).

2. The energy storage tank type ground energy collection device according to claim 1, characterized in that: the tank (1) is also provided with a first outlet end (lb), and a first inlet end (la) of the tank body and the first outlet end (lb) are arranged on the top wall of the tank (1). The tank (1) is also provided with a water inlet pipe (4), and the water inlet pipe (4) extends from the first inlet end (la ) extends to the lower part of the tank (1).

3. The energy storage tank type ground energy collection device according to claim 1 or 2, characterized in that: the top wall of the tank (1) is also provided with a second inlet end (lc) and a second outlet end ( ld), both ends of the heat exchange tube (2) are connected to the outside of the tank (1) through the second inlet end (lc) and the second outlet end (Id) respectively.

4. The energy storage tank type ground energy collection device according to claim 3, characterized in that: the support frame (3) includes at least two horizontally arranged rings (3a) and a plurality of vertically fixed rings on the outer wall of the ring. The two ends of the longitudinal beam (3b) are respectively fixed on the top wall and the bottom wall of the tank (1), and the heat exchange tubes (2) are spirally arranged around the longitudinal beam.

5. The energy storage tank type ground energy collection device according to claim 4, characterized in that: the longitudinal beam (3b) is provided with a plurality of supporting plates (3c), and the spiral disk heat exchange tube (2) Supported on pallet (3c).

6. The energy storage tank type ground energy collection device according to claim 5, characterized in that: the heat exchange tube (2) adopts a PE tube.

7. The energy storage tank type ground energy collection device according to claim 6, characterized in that: lifting lugs (5) are provided on the top wall of the tank (1).

8. The energy storage tank type ground energy collection device according to claim 7, characterized in that: the liquid medium in the heat exchange tube (2) adopts antifreeze with a freezing point lower than -5°C.

9. An air conditioning system using the energy storage tank type ground energy collection device according to any one of claims 1 to 8, characterized in that: the air conditioning system includes a water source side heat exchanger, and the water source side heat exchanger It includes an energy input side connected to the energy storage tank type ground energy collection device. The inlet and outlet of the energy input side of the water source side heat exchanger are respectively connected with both sides of the heat exchange tube (2) of the energy storage tank type ground energy collection device. The ends are connected.

10. The air conditioning system according to claim 9, characterized in that: the air conditioning system is provided with a first and a second energy storage tank type ground energy collection device, and the first and second energy storage tank type ground energy collection devices are The devices are set up in parallel to exchange heat with the water source side. The communication between the energy input sides of the device is controlled by the first valve (10) and the second valve (20) respectively.

11. The air conditioning system according to claim 10, characterized in that: temperature sensors are installed at the first and second valves (10, 20) respectively, and the opening and closing of the first and second valves (10, 20) Controlled by temperature sensor.