CN204786985U

CN204786985U - No humidity water matchmaker temperature control system is imitated on ground

Info

Publication number: CN204786985U
Application number: CN201520510041.5U
Authority: CN
Inventors: 鲜升文
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-05-08
Filing date: 2015-07-14
Publication date: 2015-11-18
Anticipated expiration: 2025-07-14
Also published as: CN106168415A; CN105546675A; CN105546675B; CN105318464A

Abstract

The utility model belongs to the technical field of internet technology and specifically relates to a no humidity water matchmaker temperature control system is imitated on ground is related to, including high temperature ground heat compensator, cryogenically heat compensator, high low temperature converter, heat exchange vent sash and circulating pump, cryogenically the heat compensator the output with the first end of high low temperature converter is linked together, the input of high temperature ground heat compensator and output respectively with the second end and the third end of high low temperature converter communicate with each other, the fourth of high low temperature converter end with the input of heat exchange vent sash is linked together, the output of heat exchange vent sash is linked together with the input of circulating pump, the output of circulating pump with cryogenically the input of heat compensator is linked together. The utility model discloses stop the geology ecological disruption that a large amount of extraction groundwater led to the fact, reduced the environmental pollution and the ecological disturbance that lead to the fact with the other equipment of function.

Description

Imitate without wet hydrophily temperature control system a kind ofly

Technical field

The utility model relates to field of energy-saving technology, especially relates to and imitating without wet hydrophily temperature control system a kind ofly.

Background technology

Along with the development of society, the material and cultural life of people obtains significant raising, and no matter air-conditioning, as a kind of housed device of condition of improving the people's livelihood, is obtained in city or rural area and applies widely.

The develop rapidly of recent year market economy, the internal structure of enterprise, industry is in continuous change, and Market competition, by the impact of relation between market supply and demand, Chinese development of air conditioning industry is rapid, and Novel intelligent air-conditioning dominates the market, and its capacity is huge.And though existing air-conditioning is ever-changing in appearance, but still can not change the essential attribute needed with refrigerant liquid, in addition existing air-conditioning power consumption is large, manufacturing cost is high, in installation and practical process, also there are some problems, such as outer machine in use can shift a large amount of heats to environment.Although the efficiency of air conditioner refrigerating is high, its heating efficiency is low, cannot replace the scarce limit of economic heating equipment.Warming just needs to consume a large amount of energy, and easily causes environmental pollution, does not meet the requirement of energy-saving and emission-reduction, environmental protection.

Utility model content

The purpose of this utility model is to provide imitates without wet hydrophily temperature control system, to solve the technical problem that the air-conditioning existed in prior art is unfavorable for reduction of discharging and environmental protection a kind ofly.

Imitate to the one that the utility model provides without wet hydrophily temperature control system, comprise high-temperature geothermal balancer, cryogenically heat compensator, high/low temperature converter, heat exchange air hole and circulating pump; The output of described cryogenically heat compensator is connected with the first end of described high/low temperature converter; The input of described high-temperature geothermal balancer and output communicate with the second end of described high/low temperature converter and the 3rd end respectively; 4th end of described high/low temperature converter is connected with the input of described heat exchange air hole; The described output of heat exchange air hole is connected with the input of circulating pump; Described circulation delivery side of pump is connected with the input of described cryogenically heat compensator.

Further, also comprise hydrophily output filter, described hydrophily output filter is connected between the 4th end of described high/low temperature converter and the input of described heat exchange air hole, wherein: the input of described hydrophily output filter is connected with the 4th end of described high/low temperature converter, the output of described hydrophily output filter is connected with the input of described heat exchange air hole.

Further, hydrophily conversion funnel is also comprised; Described hydrophily conversion funnel is connected to described circulating pump and described cryogenically between heat compensator, wherein: the hydrophily storeroom that described circulation delivery side of pump and described hydrophily change funnel is connected; The output of described hydrophily conversion funnel is connected with the input of described cryogenically heat compensator.

Further, hydrophily water-level regulator is also comprised; The input of described hydrophily water-level regulator is used for being connected with running water pipe, and the hydrophily storeroom that output and the described hydrophily of described hydrophily water-level regulator change funnel is connected.

Further, hydrophily input filter is also comprised; Described hydrophily input filter is connected to described hydrophily conversion funnel and described cryogenically between heat compensator, wherein: the output that input and the described hydrophily of described hydrophily input filter change funnel is connected, and the output of described hydrophily input filter is connected with the input of described cryogenically heat compensator.

Further, described hydrophily output filter comprises filter chamber and filter, and described filter is arranged in described filter chamber; Described filter comprises mesh screen rack and filters mesh screen, and described filtration mesh screen is arranged on described mesh screen rack; The relation of the maximum gauge of described filter chamber and the port inner diameter of described hydrophily output filter is 1:2 ~ 30, and the order number of described filtration mesh screen is 30 ~ 100 orders.

Further, described hydrophily input filter comprises filter chamber and filter, and described filter is arranged in described filter chamber; Described filter comprises mesh screen rack and filters mesh screen, and described filtration mesh screen is arranged on described mesh screen rack; The relation of the maximum gauge of described filter chamber and the port inner diameter of described hydrophily input filter is 1:2 ~ 30, and the order number of described filtration mesh screen is 30 ~ 100 orders.

Further, described high-temperature geothermal balancer and described cryogenically heat compensator are made by anticorrosion, resistance to gentle water-seeping material; Described heat exchange air hole comprises many heat exchange capillaries in parallel.

Further, the described input of high-temperature geothermal balancer and the outer cover of output are provided with muff; The described input of cryogenically heat compensator and the outer cover of output are provided with muff.

Further, described hydrophily water-level regulator is provided with water level by-pass cock.

Compared with prior art, the beneficial effects of the utility model are:

The ground effect that the utility model provides is without wet hydrophily temperature control system, by high-temperature geothermal balancer, cryogenically heat compensator, high/low temperature converter, after heat exchange air hole and circulating pump couple together, utilize the geothermal energy resources of the geological stratification of the earth as Cooling and Heat Source, with outer water filling matchmaker as heat transferring medium, work at relatively airtight pipeline Inner eycle, through high-temperature geothermal balancer or cryogenically heat compensator, increase or reduce the heat in hydrophily, increase through heat exchange air hole again or reduce the heat in room air, realize heating or freezing of living space, it is 15 DEG C ~ 32 DEG C to heating or the environment temperature adjustable range of refrigeration space, stop the geological ecology destruction that a large amount of groundwater abstraction causes, the environmental pollution that the miscellaneous equipment decreasing congenerous causes and ecological disturbance, heating, refrigeration and ventilation are organically combined simultaneously, make humans and animals live in indoor and also can enjoy the pure and fresh of the Nature.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model detailed description of the invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in detailed description of the invention or description of the prior art below, apparently, accompanying drawing in the following describes is embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structural representation of the wet hydrophily temperature control system of ground effect nothing that Fig. 1 provides for the utility model embodiment.

Reference numeral:

101-is heat compensator cryogenically; 102-high-temperature geothermal balancer;

103-high/low temperature converter; 104-high temperature shift switch;

105-low temperature change-over switch; 106-hydrophily output filter;

108-heat exchange air hole; 109-circulating pump;

110-hydrophily conversion funnel; 111-hydrophily input filter;

112-hydrophily water-level regulator; 113-water level by-pass cock.

Detailed description of the invention

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Embodiment one

The structural representation of the wet hydrophily temperature control system of ground effect nothing that Fig. 1 provides for the utility model embodiment, shown in Figure 1, the utility model embodiment provides imitates without wet hydrophily temperature control system a kind ofly, comprises high-temperature geothermal balancer 102, cryogenically heat compensator 101, high/low temperature converter 103, heat exchange air hole 108 and circulating pump 109; Cryogenically the output of heat compensator 101 is connected with the first end of high/low temperature converter 103; The input of high-temperature geothermal balancer 102 and output communicate with the second end of high/low temperature converter 103 and the 3rd end respectively; 4th end of high/low temperature converter 103 is connected with the input of heat exchange air hole 108; The output of heat exchange air hole 108 is connected with the input of circulating pump 109; The output of circulating pump 109 is connected with the input of cryogenically heat compensator 101.The ground effect that the utility model provides is without wet hydrophily temperature control system, by high-temperature geothermal balancer 102, cryogenically heat compensator 101, high/low temperature converter 103, after heat exchange air hole 108 and circulating pump 109 couple together, utilize the geothermal energy resources of the geological stratification of the earth as Cooling and Heat Source, with outer water filling matchmaker as heat transferring medium, work at relatively airtight pipeline Inner eycle, through high-temperature geothermal balancer 102 or cryogenically heat compensator 101, increase or reduce the heat in hydrophily, increase through heat exchange air hole 108 again or reduce the heat in room air, realize heating or freezing of living space, it is 15 DEG C ~ 32 DEG C to heating or the environment temperature adjustable range of refrigeration space, stop the geological ecology destruction that a large amount of groundwater abstraction causes, the environmental pollution that the miscellaneous equipment decreasing congenerous causes and ecological disturbance, heating, refrigeration and ventilation are organically combined simultaneously, make humans and animals live in indoor and also can enjoy the pure and fresh of the Nature.

In the present embodiment, the first end of high/low temperature converter 103, the second end, the 3rd end are communicated with mutually to the 4th end; Two high temperature shift switches 104 and a low temperature change-over switch 105 is provided with in high/low temperature converter 103; When two high temperature shift switches 104 all cut out, when low temperature change-over switch 105 is opened, first end becomes channel status with the 4th end, first end and the second end not path, the 3rd end and the 4th end not path; When two high temperature shift switches 104 are all opened, when low temperature change-over switch 105 is closed, first end becomes channel status with the second end, and the 3rd end becomes channel status with the 4th end, first end and the 4th end not path.

In the present embodiment, the operation principle of high/low temperature converter 103 is:

When indoor air temperature is lower than 15-19 DEG C, high temperature shift switch 104 is in opening, and low temperature change-over switch 105 is in closed condition;

When indoor air temperature is higher than 19-32 DEG C, high temperature shift switch 104 is in closed condition, and low temperature change-over switch 105 is in opening;

When indoor air temperature is lower than 15-19 DEG C, cryogenically heat compensator 101 and high-temperature geothermal balancer 102 work simultaneously;

When indoor air temperature is higher than 19-32 DEG C, cryogenically heat compensator 101 works, and high-temperature geothermal balancer 102 cuts out.

In the present embodiment, the working method of heat exchange air hole 108 and circulating pump 109 is:

When indoor air temperature is lower than 15-19 DEG C with higher than 19-32 DEG C, heat exchange air hole 108 and circulating pump 109 work, and when indoor air temperature is in the scope of user's request temperature, heat exchange air hole 108 and circulating pump 109 quit work.

In the present embodiment, ground effect also comprises hydrophily output filter 106 without wet hydrophily temperature control system, hydrophily output filter 106 is connected between the 4th end of high/low temperature converter 103 and the input of heat exchange air hole 108, wherein: the input of hydrophily output filter 106 is connected with the 4th end of high/low temperature converter 103, and the output of hydrophily output filter 106 is connected with the input of heat exchange air hole 108.

In the present embodiment, ground effect also comprises hydrophily conversion funnel 110 without wet hydrophily temperature control system; Hydrophily conversion funnel 110 is connected to circulating pump 109 and cryogenically between heat compensator 101, wherein: the hydrophily storeroom that output and the hydrophily of circulating pump 109 change funnel 110 is connected; The output of hydrophily conversion funnel 110 is connected with the input of cryogenically heat compensator 101.

In the present embodiment, ground effect also comprises hydrophily water-level regulator 112 without wet hydrophily temperature control system; The input of hydrophily water-level regulator 112 is used for being connected with running water pipe, and the hydrophily storeroom that output and the hydrophily of hydrophily water-level regulator 112 change funnel 110 is connected.Hydrophily water-level regulator 112 is provided with water level by-pass cock 113.In the present embodiment, when hydrophily conversion funnel 110 middle water level is lower than warning water level, opens water level by-pass cock 113 by the hydrophily water-level regulator 112 be connected on running water pipe, in hydrophily water-level regulator 112, supplement hydrophily; When hydrophily conversion funnel 110 middle water level is higher than warning water level, hydrophily water-level regulator 112 cuts out water level by-pass cock 113, stops supplementing hydrophily in hydrophily water-level regulator 112.The output of hydrophily water-level regulator 112, hydrophily change the hydrophily storeroom of funnel 110 and the output of circulating pump 109 can form a linker, utilizes the principle of linker can greatly reduce in circulation road like this, the driving energy consumption needed for hydrophily.

In the present embodiment, ground effect also comprises hydrophily input filter 111 without wet hydrophily temperature control system; Hydrophily input filter 111 is connected to hydrophily conversion funnel 110 and cryogenically between heat compensator 101, wherein: the output that input and the hydrophily of hydrophily input filter 111 change funnel 110 is connected, the output of hydrophily input filter 111 is connected with the input of cryogenically heat compensator 101.Hydrophily input filter 111 can remove the impurity in the hydrophily provided in circulation road by hydrophily water-level regulator 112, prevents obstruction or silting to be embedded in the underground heat balance pipe of the ground heat compensator in geological stratification.

In the present embodiment, hydrophily output filter 106 comprises filter chamber and filter, and filter is arranged in filter chamber; Filter comprises mesh screen rack and filters mesh screen, filters mesh screen and is arranged on mesh screen rack; The relation of the maximum gauge of filter chamber and the port inner diameter of hydrophily output filter 106 is 1:2 ~ 30, and the order number filtering mesh screen is 30 ~ 100 orders.

In the present embodiment, hydrophily input filter 111 comprises filter chamber and filter, and filter is arranged in filter chamber; Filter comprises mesh screen rack and filters mesh screen, filters mesh screen and is arranged on mesh screen rack; The relation of the maximum gauge of filter chamber and the port inner diameter of hydrophily input filter 111 is 1:2 ~ 30, and the order number filtering mesh screen is 30 ~ 100 orders.

In the present embodiment, high-temperature geothermal balancer 102 and cryogenically heat compensator 101 are made by anticorrosion, resistance to gentle water-seeping material; Heat exchange air hole 108 comprises many heat exchange capillaries in parallel.Can prevent the foreign matter in hydrophily from entering heat exchange air hole 108 by water filter output filter, the heat exchange capillary in blocking heat exchange air hole 108.

In the present embodiment, the input of high-temperature geothermal balancer 102 and the outer cover of output are provided with muff; Cryogenically the input of heat compensator 101 and the outer cover of output are provided with muff.

In the present embodiment, cryogenically heat compensator 101 output temperature is the hydrophily of 15-21 DEG C, is responsible for when indoor air temperature is higher than more than 19-32 DEG C, reduces room temperature to 19-32 DEG C by heat exchange air hole 108.High-temperature geothermal balancer 102 output temperature is the hydrophily of 19-70 DEG C, is responsible for when indoor temperature is lower than less than 15-19 DEG C, raises room temperature to 15-21 DEG C by heat exchange air hole 108.

In the present embodiment, hydrophily total measurement (volume) in circulation road and the relation of heating or refrigeration space size are: 0.001 ~ 5 ton/100m3, cryogenically the depth of burying of heat compensator 101 is 20 ~ 200m below earth's surface, and the depth of burying of high-temperature geothermal balancer 102 is 200 ~ 1000m below earth's surface.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims

1. ground effect is without a wet hydrophily temperature control system, it is characterized in that, comprises high-temperature geothermal balancer, cryogenically heat compensator, high/low temperature converter, heat exchange air hole and circulating pump; The output of described cryogenically heat compensator is connected with the first end of described high/low temperature converter; The input of described high-temperature geothermal balancer and output communicate with the second end of described high/low temperature converter and the 3rd end respectively; 4th end of described high/low temperature converter is connected with the input of described heat exchange air hole; The described output of heat exchange air hole is connected with the input of circulating pump; Described circulation delivery side of pump is connected with the input of described cryogenically heat compensator.

2. imitate without wet hydrophily temperature control system according to claim 1ly, it is characterized in that, also comprise hydrophily output filter, described hydrophily output filter is connected between the 4th end of described high/low temperature converter and the input of described heat exchange air hole, wherein: the input of described hydrophily output filter is connected with the 4th end of described high/low temperature converter, the output of described hydrophily output filter is connected with the input of described heat exchange air hole.

3. imitate without wet hydrophily temperature control system according to claim 1ly, it is characterized in that, also comprise hydrophily conversion funnel; Described hydrophily conversion funnel is connected to described circulating pump and described cryogenically between heat compensator, wherein: the hydrophily storeroom that described circulation delivery side of pump and described hydrophily change funnel is connected; The output of described hydrophily conversion funnel is connected with the input of described cryogenically heat compensator.

4. imitate without wet hydrophily temperature control system according to claim 3ly, it is characterized in that, also comprise hydrophily water-level regulator; The input of described hydrophily water-level regulator is used for being connected with running water pipe, and the hydrophily storeroom that output and the described hydrophily of described hydrophily water-level regulator change funnel is connected.

5. imitate without wet hydrophily temperature control system according to claim 3ly, it is characterized in that, also comprise hydrophily input filter; Described hydrophily input filter is connected to described hydrophily conversion funnel and described cryogenically between heat compensator, wherein: the output that input and the described hydrophily of described hydrophily input filter change funnel is connected, and the output of described hydrophily input filter is connected with the input of described cryogenically heat compensator.

6. imitate without wet hydrophily temperature control system, it is characterized in that, described hydrophily output filter comprises filter chamber and filter, and described filter is arranged in described filter chamber according to claim 2ly; Described filter comprises mesh screen rack and filters mesh screen, and described filtration mesh screen is arranged on described mesh screen rack; The relation of the maximum gauge of described filter chamber and the port inner diameter of described hydrophily output filter is 1:2 ~ 30, and the order number of described filtration mesh screen is 30 ~ 100 orders.

7. imitate without wet hydrophily temperature control system, it is characterized in that, described hydrophily input filter comprises filter chamber and filter, and described filter is arranged in described filter chamber according to claim 5ly; Described filter comprises mesh screen rack and filters mesh screen, and described filtration mesh screen is arranged on described mesh screen rack; The relation of the maximum gauge of described filter chamber and the port inner diameter of described hydrophily input filter is 1:2 ~ 30, and the order number of described filtration mesh screen is 30 ~ 100 orders.

8. imitate without wet hydrophily temperature control system, it is characterized in that, described high-temperature geothermal balancer and described cryogenically heat compensator are made by anticorrosion, resistance to gentle water-seeping material according to claim 1ly; Described heat exchange air hole comprises many heat exchange capillaries in parallel.

9. imitate without wet hydrophily temperature control system, it is characterized in that, the described input of high-temperature geothermal balancer and the outer cover of output are provided with muff according to claim 1ly; The described input of cryogenically heat compensator and the outer cover of output are provided with muff.

10. imitate without wet hydrophily temperature control system, it is characterized in that, described hydrophily water-level regulator is provided with water level by-pass cock according to claim 4ly.