CN201885486U - Underground water source cold-heat exchange system - Google Patents

Abstract

The utility model discloses an underground water source cold-heat exchange system, which comprises a ground source heat exchange well (1) and a heat pump (2). The underground water source cold-heat exchange system is provided with a cold-heat exchange tube (3); water flow in the cold-heat exchange tube (3) is isolated from an underground water source in the ground source heat exchange well (1), namely the cold-heat exchange tube (3) is supplied with a water source by an individual water supply system (4); and the cold-heat exchange tube (3) is made of corrosion-resistant heat conducting materials. By adopting the technical scheme, the heat exchange efficiency of the system is increased, namely the utilization rate of the underground water source is increased, heat exchange media with excellent water quality are obtained and can be used directly, engineering investment and service cost are reduced, and the influence of sand, stone, earth, toxic and harmful substances in underground water on environments, staff and equipment is avoided.

Description

The cold and hot exchange system of a kind of underground water source

Technical field

The utility model belongs to the technical field of renewable energy utilization, relates to the geothermal heat pump technology, and more particularly, the utility model relates to the cold and hot exchange system of a kind of underground water source.

Background technology

The earth source heat pump utilization is stored in the regenerative resource of shallow surface, for building air conditioning provides low-temperature receiver and thermal source.The temperature at the shallow-layer water source under the earth surface is relatively stable throughout the year, be generally 10～25 ℃, winter is than ambient air temperature height, summer is lower than ambient air temperature, be good source heat pump heat and cold source of air conditioning, water resource heat pump has solved the Cooling and Heat Source of air-conditioning system simultaneously, has guaranteed the high efficiency and the economy of system.

Existing underground water source heat-exchange system must adopt the mode of drawing water, recharging when using underground water, promptly in extracting phreatic process out, simultaneously toward underground recharging, generally adopt the mode of " takes out two fillings ".

But, the source water of traditional water source heat pump system directly enters the water resource heat pump main frame, chilled water system or cooling water system adopt the open type expansion tank, feasible like this cold water that links to each other with the water resource heat pump main frame and the water in the cooling water system are easy to evaporimeter and the condenser water side deposition at the water resource heat pump main frame, and then influence the water resource heat pump host performance.In order to reduce the generation of incrustation scale, guarantee heat exchange property, have only the flow velocity that increases water.Thereby it is big to cause traditional water resource heat pump ubiquity source water water intaking to recharge flow, the problem that utilization has a narrow range of temperature, be generally 5～10 ℃, especially the water utilization temperature difference is reduced to 1～3 ℃ gradually when sub-load, the power consumption height of pump is recharged in water intaking, water withdrawal greatly also can bring the influence of relevant geological hydrology when adopting well water, and these have limited further developing of water resource heat pump.

There is very big uncertainty in phreatic water quality, contain a large amount of sandstone earth in the underground water, what have also contains poisonous, harmful substance, as heavy metal element and other chemical substance, carry out in the process of heat exchange in extraction, may cause to environment, to the user of service, to equipment to have a strong impact on.Therefore, in the above-mentioned underground water source heat-exchange system course of work, need filter, remove impurity such as sandstone earth, and carry out harmless treatment underground water.This is very big to the heat exchanger effectiveness influence, and needs special equipment, consumes energy.

In sum, existing underground water source heat-exchange system is bigger to phreatic natural form influence, even damages, and whole construction investment is big, has certain risk.

The utility model content

Problem to be solved in the utility model provides the cold and hot exchange system of a kind of underground water source, not its objective is directly underground water to be extracted out, but carries out heat exchange by the medium of cleaning.

To achieve these goals, the technical scheme taked of the utility model is:

The cold and hot exchange system of underground water source provided by the utility model, comprise ground source heat exchange well, heat pump, the cold and hot exchange system of described underground water source is established cold and hot exchange pipe, underground water source in liquid medium in the described cold and hot exchange pipe or current and the described ground source heat exchange well is isolated, and promptly described cold and hot exchange pipe provides liquid medium or water source by independent water system; Described cold and hot exchange pipe is that corrosion-resistant Heat Conduction Material is made.

Described cold and hot exchange pipe adopts upper and lower reciprocal structure in described ground source heat exchange well, " U " shape pipe connecting structure is adopted in its turning point.

The distribution mode of described upper and lower reciprocal structure is: on the cross section of described ground source heat exchange well, downwards the central tube of water inlet is distributed in the central authorities of described ground source heat exchange well, each upper and lower reciprocal pipeline be looped around described central tube around.

On the cross section of described ground source heat exchange well, distribute on the circumference that described each upper and lower reciprocal pipeline is the center of circle at the axis with described center culvert.

The quantity of described ground source heat exchange well is more than two or two, between the cold and hot exchange pipe of each ground source heat exchange well, adopts the serial or parallel connection syndeton.

Serial or parallel connection syndeton between the cold and hot exchange pipe of described each ground source heat exchange well, be located at the above position of the water surface of the underground water source of source heat exchange well above Ground, the serial or parallel connection syndeton between the described cold and hot exchange pipe adopts insulation pipe structure.

Described cold and hot exchange pipe is airtight circulation line, and described water system is replenished the water source by low pressure automatic water supplement control device to cold and hot exchange pipe, and described low pressure automatic water supplement control device is established force (forcing) pump and check valve.

Described cold and hot exchange pipe is communicated with the water device, and described water system is the resident living running water system.

Described cold and hot exchange pipe approaches the junction with described " U " shape pipe in the down-hole, establish under the cold and hot exchange pipe well and set upright support, sets upright under the described cold and hot exchange pipe well to prop up and sets up centralizer;

Described cold and hot exchange pipe is established on the cold and hot exchange pipe well and is set upright lid in aboveground junction of approaching with described " U " shape pipe, sets upright lid on the described cold and hot exchange pipe well and establishes centralizer;

Described centralizer is the platy structure perpendicular to cold and hot exchange pipe, and the outer rim of described centralizer contacts with the shaft in wall of described ground source heat exchange well, and described cold and hot exchange pipe passes from described centralizer and is fastenedly connected with it.

The junction of described cold and hot exchange pipe is established and is set upright shaft coupling, the described shaft coupling of setting upright is established centralizer and tube connector, the described shaft coupling of setting upright connects described cold and hot exchange pipe coaxially by tube connector, described centralizer is the platy structure perpendicular to cold and hot exchange pipe, the outer rim of described centralizer contacts with the shaft in wall of described ground source heat exchange well, and described tube connector passes from described centralizer and is fastenedly connected with it.

The utility model adopts technique scheme, improved the heat exchanger effectiveness of system, promptly improved the underground water rate of energy, obtain the good heat transferring medium of water quality, and can directly use, reduce the cost of construction investment and use, avoided the sandstone earth in the underground water and the influence of venomous injurant confrontation environment, personnel and equipment.

Description of drawings

Below expressed content of each width of cloth accompanying drawing of this specification and the mark among the figure are briefly explained:

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

Fig. 2 is the structural representation that is connected in series of the cold and hot exchange pipe of a plurality of ground source heat exchange wells;

Fig. 3 is cold and hot exchange pipe upper and lower reciprocal distributed architecture schematic diagram in ground source heat exchange well;

Fig. 4 is the structural representation of low pressure automatic water supplement control device;

Fig. 5 is for being provided with the structural representation of water device in the system;

Fig. 6 sets upright the support schematic diagram under the cold and hot exchange pipe well;

Fig. 7 is the schematic top plan view of structure shown in Figure 6;

Fig. 8 is for setting upright and the shaft coupling structure schematic diagram in the middle of the cold and hot exchange pipe;

Fig. 9 is the schematic top plan view of structure shown in Figure 8;

Figure 10 is the aboveground support schematic diagram of setting upright of cold and hot exchange pipe;

Figure 11 is the schematic top plan view of structure shown in Figure 10.

Be labeled as among the figure:

1, ground source heat exchange well, 2, heat pump, 3, cold and hot exchange pipe, 4, water system, 5, low pressure automatic water supplement control device, 6, force (forcing) pump, 7, check valve, 8, the resident living running water system, 9, central tube, 10, water device, 11, aircondition, 12, " U " shape pipe, 13, centralizer, 14, set upright shaft coupling, 15, tube connector.

The specific embodiment

Contrast accompanying drawing below, by description to embodiment, to effect and operation principle, the manufacturing process of the mutual alignment between the shape of the specific embodiment of the present utility model such as related each member, structure, the each several part and annexation, each several part and manipulate method etc., be described in further detail, inventive concept of the present utility model, technical scheme had more complete, accurate and deep understanding to help those skilled in the art.

The of the present utility model structure expressed as Fig. 1 to Fig. 5, the utility model is the cold and hot exchange system of a kind of underground water source, comprises ground source heat exchange well 1, heat pump 2, the cold and hot exchange system of described underground water source is established cold and hot exchange pipe 3.

Of the present utility model in order to realize directly with the underground water extraction, but, overcome the defective of prior art by the goal of the invention that the medium that cleans carries out heat exchange, the utility model has adopted following technical measures:

As shown in Figure 1, the cold and hot exchange system of underground water source provided by the utility model, underground water source in current in the wherein said cold and hot exchange pipe 3 and the described ground source heat exchange well 1 is isolated, and promptly described cold and hot exchange pipe 3 provides liquid medium or water source by independent water system 4.

For fear of the corrosion to cold and hot exchange pipe 3 of the corrosive deposit of underground water source, described cold and hot exchange pipe 3 is made for corrosion-resistant Heat Conduction Material.

Because the underground water source in current in the cold and hot exchange pipe 3 and the described ground source heat exchange well 1 is isolated, and can circulate independently, sandstone earth in the underground water of the prior art, poisonous, harmful substance have been solved, as heavy metal element and other chemical substance, to underground water source cold-heat exchange system, to environment and having a strong impact on to the user, and improved the heat exchanger effectiveness of system, promptly improved the underground water rate of energy; Simultaneously, reduce the cost of construction investment and use.

In order to improve the effect of heat exchange, as Fig. 1, Fig. 2 and shown in Figure 5, cold and hot exchange pipe 3 described in the utility model adopts upper and lower reciprocal structure in described ground source heat exchange well 1, and " U " shape tubular construction is adopted in its turning point.

Adopt upper and lower reciprocal structure, prolonged the length of cold and hot exchange pipe 3 greatly at ground source heat exchange well 1, just increased the heat exchanging liquid medium in the cold and hot exchange pipe 3, as the length of flow across of current in ground source heat exchange well 1, heat exchange better effects if, heat transferring medium current temperature are further near phreatic temperature; Simultaneously, " U " shape tubular construction is adopted in the turning point, has reduced the resistance of current.

In order reasonably to arrange of the distribution of cold and hot exchange pipe 3 at ground source heat exchange well 1, the distribution mode of described upper and lower reciprocal structure as shown in Figure 3, on the cross section of described ground source heat exchange well 1, the central tube 9 of water inlet is distributed in the central authorities of described ground source heat exchange well 1 downwards, each upper and lower reciprocal pipeline be looped around described central tube 9 around, and be to distribute on the circumference in the center of circle at axis with described central tube 9 tunnel.

The length of central tube 9 is greater than each upper and lower reciprocal pipeline.

Like this, central tube 9 and phreatic temperature difference maximum, and through repeatedly upper and lower back and forth after, around central tube 9, the temperature of the cold and hot exchange media current in the cold and hot exchange pipe 3 flows out at last more and more near phreatic temperature, the efficient height of its heat exchange.

As shown in Figure 2, the quantity of originally knowing described ground source heat exchange well 1 fairly well is more than two or two, adopts the serial or parallel connection syndeton between the cold and hot exchange pipe 3 of source, various places heat exchange well 1.

Because the effect in 1 heat exchange of a ground source heat exchange well does not also reach requirement, at this moment, can adopt the ground source heat exchange well 1 more than two or two, to increase the effect of heat exchange.

The syndeton of the cold and hot exchange pipe 3 between each ground source heat exchange well 1 is:

As shown in Figure 2, the serial or parallel connection syndeton between the described cold and hot exchange pipe 3 is located at the above position of the water surface of the underground water source of source heat exchange well 1 above Ground, promptly needs to stride across well head; Serial or parallel connection syndeton between the described cold and hot exchange pipe 3 is the plastic, thermal-insulation pipe.Adopting insulating tube, and also be " U " shape, is for reducing the resistance of media flow, reducing the energy consumption of pump equally.

Because until on the face of land, for preventing its energy loss, promptly prevent its temperature to variation of ambient temperature, " U " shape tube connector adopts the structure of insulating tube to the insulating tube that strides across well head in well.

Be two examples that the utility model is used below:

Embodiment one, the medium sealing and circulating:

As shown in Figure 1 and Figure 4, cold and hot exchange pipe 3 described in the utility model is airtight circulation line, described water system 4 is replenished the water source by low pressure automatic water supplement control device 5 to cold and hot exchange pipe 3, and described low pressure automatic water supplement control device 5 is established force (forcing) pump 6 and check valve 7.

In theory, if complete airtight circulation line should not need to carry out replenishing of medium current, but consider inevitable existence leakage, so should carry out replenishing of medium current.Its mode of replenishing is: utilize low pressure automatic water supplement control device 5 to carry out moisturizing in circulating pipe system, when the hydraulic pressure in the pipe decreased, described force (forcing) pump 6 was started working, and carries out moisturizing; Pressure stops moisturizing after rising.

The start and stop control of its force (forcing) pump 6 is to be realized by the pressure switch on the circulation line.Check valve 7 prevents the refluence of current.

Embodiment two:

As shown in Figure 5, cold and hot exchange pipe 3 described in the utility model is communicated with water device 10, and described water system 4 is a resident living running water system 8.

In the ordinary course of things, it is described airtight fully that the medium current of cold and hot exchange pipe 3 are as above stated embodiment, heating or freeze as only supply, aircondition 11; But the medium current that needs directly use water quality to clean also may appear very, at this moment, just draw current at pipeline, deliver to water device 10, directly use for the user, simultaneously, replenish civilian running water by the cold and hot exchange pipe 3 of resident living running water system 8 in the cold and hot exchange system of underground water source described in the utility model.

Because the borehole wall of cold and hot exchange pipe 3 and described ground source heat exchange well 1 at intervals, and between the parallel pipeline also at intervals, cold and hot exchange pipe 3 need laterally support at it, prevent from the decline process or in running, to be offset, so the utility model has been taked following measure:

As shown in Figure 6 and Figure 7, cold and hot exchange pipe 3 described in the utility model approaches the junction with described " U " shape pipe 12 in the down-hole, establish under the cold and hot exchange pipe well and set upright support, sets upright under the described cold and hot exchange pipe well to prop up and sets up centralizer 13;

As shown in Figure 10 and Figure 11, cold and hot exchange pipe 3 described in the utility model is established on the cold and hot exchange pipe well and is set upright lid in aboveground junction of approaching with described " U " shape pipe 12, sets upright lid on the described cold and hot exchange pipe well and establishes centralizer 13;

Described centralizer 13 is the platy structure perpendicular to cold and hot exchange pipe 3, and the outer rim of described centralizer 13 contacts with the shaft in wall of described ground source heat exchange well 1, and described cold and hot exchange pipe 3 passes and is fastenedly connected with it from described centralizer 13.

As Fig. 6 and shown in Figure 10, centralizer 13 can be that polylith plate parallel to each other, separated by a distance is formed.Its shape can be as Fig. 7 and the structure that the polylith platelet splices, riveted joint forms shown in Figure 11.

Because the length of cold and hot exchange pipe 3 is very long, need connect cold and hot exchange pipe 3 in ground source heat exchanges well 1, to prolong its length, so the purpose identical with above technical scheme also needs to support in the junction, therefore, the utility model has been taked identical measure:

As Fig. 8 and shown in Figure 9, the junction of cold and hot exchange pipe 3 described in the utility model is established and is set upright shaft coupling 14, the described shaft coupling 14 of setting upright is established centralizer 13 and tube connector 15, the described shaft coupling 14 of setting upright connects described cold and hot exchange pipe 3 coaxially by tube connector 15, described centralizer 13 is the platy structure perpendicular to cold and hot exchange pipe 3, the outer rim of described centralizer 13 contacts with the shaft in wall of described ground source heat exchange well 1, and described tube connector 15 passes and is fastenedly connected with it from described centralizer 13.

As shown in Figure 8, centralizer 13 can be that polylith plate parallel to each other, separated by a distance is formed.Its shape can be polylith platelet splicing as shown in Figure 9, the structure that riveted joint forms.

In conjunction with the accompanying drawings the utility model has been carried out exemplary description above; obviously the utility model specific implementation is not subjected to the restriction of aforesaid way; as long as adopted the improvement of the various unsubstantialities that method of the present utility model design and technical scheme carry out; or design of the present utility model and technical scheme are directly applied to other occasion without improving, all within protection domain of the present utility model.

Claims (10)

1. cold and hot exchange system of underground water source, comprise ground source heat exchange well (1), heat pump (2), it is characterized in that: the cold and hot exchange system of described underground water source is established cold and hot exchange pipe (3), underground water source in liquid medium in the described cold and hot exchange pipe (3) and the described ground source heat exchange well (1) is isolated, and promptly described cold and hot exchange pipe (3) provides liquid medium by independent water system (4); Described cold and hot exchange pipe (3) is made for corrosion-resistant Heat Conduction Material.

2. according to the cold and hot exchange system of the described underground water source of claim 1, it is characterized in that: described cold and hot exchange pipe (3) adopts upper and lower reciprocal structure in described ground source heat exchange well (1), and " U " shape pipe (12) syndeton is adopted in its turning point.

3. according to claim 1 or the cold and hot exchange system of 2 described underground water sources, it is characterized in that: the distribution mode of described upper and lower reciprocal structure is: on the cross section of described ground source heat exchange well (1), downwards the central tube (9) of water inlet is distributed in the central authorities of described ground source heat exchange well (1), each upper and lower reciprocal pipeline be looped around described central tube (9) around.

4. according to the cold and hot exchange system of the described underground water source of claim 3, it is characterized in that: on the cross section of described ground source heat exchange well (1), distribute on the circumference that described each upper and lower reciprocal pipeline is the center of circle at the axis with described central tube (9) road.

5. according to claim 1 or the cold and hot exchange system of 2 or 4 described underground water sources, it is characterized in that: the quantity of described ground source heat exchange well (1) is more than two or two, between the cold and hot exchange pipe (3) of each ground source heat exchange well (1), adopt the serial or parallel connection syndeton.

6. according to the cold and hot exchange system of the described underground water source of claim 5, it is characterized in that: the serial or parallel connection syndeton between the cold and hot exchange pipe (3) of described each ground source heat exchange well (1), be located at the above position of the water surface of the underground water source of source heat exchange well (1) above Ground, the serial or parallel connection syndeton between the described cold and hot exchange pipe (3) adopts insulation pipe structure.

7. according to the cold and hot exchange system of the described underground water source of claim 6, it is characterized in that: described cold and hot exchange pipe (3) is airtight circulation line, described water system (4) is replenished the water source by low pressure automatic water supplement control device (5) to cold and hot exchange pipe (3), and described low pressure automatic water supplement control device (5) is established force (forcing) pump (6) and check valve (7).

8. according to the cold and hot exchange system of the described underground water source of claim 6, it is characterized in that: described cold and hot exchange pipe (3) is communicated with water device (10), and described water system (4) is resident living running water system (8).

9. according to the cold and hot exchange system of the described underground water source of claim 2, it is characterized in that:

Described cold and hot exchange pipe (3) approaches the junction with described " U " shape pipe (12) in the down-hole, establish under the cold and hot exchange pipe well and set upright support, sets upright under the described cold and hot exchange pipe well to prop up and sets up centralizer (13);

Described cold and hot exchange pipe (3) is established on the cold and hot exchange pipe well and is set upright lid in aboveground junction of approaching to manage with described " U " shape (12), sets upright lid on the described cold and hot exchange pipe well and establishes centralizer (13);

Described centralizer (13) is the platy structure perpendicular to cold and hot exchange pipe (3), the outer rim of described centralizer (13) contacts with the shaft in wall of described ground source heat exchange well (1), and described cold and hot exchange pipe (3) passes and is fastenedly connected with it from described centralizer (13).

10. according to the cold and hot exchange system of the described underground water source of claim 2, it is characterized in that: the junction of described cold and hot exchange pipe (3) is established and is set upright shaft coupling (14), the described shaft coupling (14) of setting upright is established centralizer (13) and tube connector (15), the described shaft coupling (14) of setting upright connects described cold and hot exchange pipe (3) coaxially by tube connector (15), described centralizer (13) is the platy structure perpendicular to cold and hot exchange pipe (3), the outer rim of described centralizer (13) contacts with the shaft in wall of described ground source heat exchange well (1), and described tube connector (15) passes and is fastenedly connected with it from described centralizer (13).

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