CN208332533U - A kind of capillary network air-conditioning system - Google Patents

Abstract

The utility model discloses a kind of capillary network air-conditioning systems, comprising: ground source host is water in system and the earth carries out heat exchange to stablize its temperature, and ground source host includes one and the heat exchanger tube that leads to underground 5-10 meters；Capillary network, installation is indoors；Fresh air regulating system；Dew point temperature controller, setting is indoors；Linkage controller, linkage control whole system；The characteristics of the utility model, is only to need to get up water circulation that interior can be made cool in summer and warm in winter, compared to traditional capillary network radiation air-conditioner, greatly reduces energy consumption cost, more environmentally friendly, closer to nature.

Description

A kind of capillary network air-conditioning system

Technical field

The utility model belongs to air-conditioning system field, and in particular to arrives capillary network air-conditioning system field.

Background technique

Currently, the situation very severe that target for energy-saving and emission-reduction faces is realized.In China, building energy consumption accounts for the 27% of total energy consumption More than, but also with the increase of annual 1 percentage point of speed.Construction ministry statistics show that the annual town and country construction in China is new Nearly 2,000,000,000 square metres of estate building coverage of building, wherein 80% the above are high energy consumption buildings；Nearly 40,000,000,000 square metres of existing building, 95% or more is high energy consumption building.The ratio that building energy consumption accounts for national total energy consumption will be climbed to 33% from present 27.6% More than.China's new building realizes substantially and designs by energy conservation standard that ratio is up to 95.7%, and the construction stage executes energy conservation The ratio of design standard is only 53.8%；

Capillary radiation air-conditioning system is a kind of novel air-conditioning system type, and the air-conditioning system of this form is using heat The mode of radiation is cooled down or is heated to air conditioning area, and traditional forced convertion heat exchange form, traditional pressure heat are replaced Exchange is a kind of more rough temperature regulation mechanism, and heat exchange area is small, can only achieve a kind of palliative effect, And waste electric power.However the advantages of capillary radiation air-conditioning heat exchange area it is big, without by temperature-reducing medium temperature it is too high or It is too low.So theoretically, such temperature difference being capable of energy conservation at least 30% or more.However becoming greatly with regard to this present energy-saving and emission-reduction Gesture, we, which appoint, so needs further to reduce its energy consumption, and existing capillary radiation air-conditioning system still needs cold heater Combining form enable capillary network it is water-borne have certain temperature, then we can use the property of nature itself completely Matter carries out energy saving innovation, therefore has the utility model.

The utility model controls water-borne in capillary using this excellent heat source of the earth, it is understood that earth's surface Following 5-10 meters of annual temperature changes substantially less than similar to the water surface to freeze, the water of subglacial can still be flowed freely Reason, capillary air-conditioning makes water carry out hot transmitting with nature at earth's surface 5-10 rice, can be in this way by the utility model Water whole year in capillary network is maintained at a relatively stable temperature, then when being transmitted to interior, it can be by indoor transformation At an environment with equilibrium temperature, and this process only needs to recycle by water substantially, compared to traditional capillary Pipe network radiation air-conditioner greatly reduces energy consumption cost, more environmentally friendly, closer to nature.

Utility model content

One purpose of the utility model is to solve at least the above problems and/or defect, and provide and at least will be described later The advantages of.

In order to realize these purposes and other advantages according to the present utility model, a kind of capillary network radiation air-conditioner is provided System, comprising:

Ground source host is mounted on outdoor, heat exchange core is equipped in described ground source host, is connected with two groups on the heat exchange core Heat exchanger tube, two groups of heat exchanger tubes include: the first heat exchanger tube and the second heat exchanger tube, and one end of first heat exchanger tube is placed in heat exchange In-core, the other end buries and deep under ground, and first heat exchanger tube is embedded in underground bosom equipped with heat-exchanging component, first heat exchange Pipe is equipped with the first electric control pump；Second heat exchanger tube is connected with sanitary wastewater pond, and second heat exchanger tube one end, which is located at, to be changed Hot in-core, the other end are located in sanitary wastewater pond；Second heat exchanger tube is equipped with the second electric control pump；Described ground source host changes Hot core is equipped with automatically controlled heater and automatically controlled pyretogenic/refrigeration machine；First heat exchanger tube and the second heat exchanger tube are all closed pipe；

Capillary network, indoors, the capillary network is connected with the heat exchange core of ground source host, the capillary for installation Net is closed loop configuration, and distilled water is marked in the capillary network, and the capillary network is being changed with the first heat exchanger tube, the second heat exchanger tube Hot in-core carries out heat exchange；The capillary network is equipped with automatically controlled circulating pump；

Fresh air regulating system: it includes new blower, and the new blower is equipped with air exchange core, outside the air exchange core Shell is temperature compensating layer, and the temperature compensating layer is connected with ground source host by third heat exchanger tube, on the third heat exchanger tube Equipped with third electric control pump；

Dew point temperature controller, setting is indoors；

Linkage controller is connected with the dew point temperature controller, the linkage controller with ground source host in it is automatically controlled Heater is electrically connected with automatically controlled pyretogenic/refrigeration machine；The linkage controller and the first electric control pump, the second electric control pump, third electric control pump with And automatically controlled circulating pump electrical connection.

Preferably, wherein the heat-exchanging component is in flat block structure, which is provided with several thermally conductive palpuses, the thermally conductive palpus knot Structure is similar to tree root, has a trunk and phase surrounding stretches out many radial thermally conductive needles.

Preferably, wherein the heat exchange core is made of double-layer structure, and the heat exchange core internal layer is installed by heat transmission fin In the heat exchange core outer layer, the heat exchange core outer layer is connected with the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube respectively It connects；The heat exchange core internal layer is connected with the capillary network.

Preferably, wherein on six faces of the capillary network setting indoors, the main water inlet of the capillary network Mouth, main water outlet are respectively equipped with current divider and collector；Each capillary of the capillary network is waveform to increase it The time of interior heat radiation.

Preferably, wherein one end that second heat exchanger tube is located at sanitary wastewater pond is equipped with heat exchanger, and the heat is handed over Parallel operation is immersed in sanitary wastewater pond, and the shell of the heat exchanger is corrosion-resistant plastic shell, and second heat exchanger tube, which spirals, to be set It sets wherein.

Preferably, wherein the temperature compensating layer is sided configuration, and the temperature compensating layer internal layer coils heating resistor Silk, is connected with the dew point temperature controller and is controlled by dew point temperature controller；The temperature compensating layer outer layer serpentine arrangement hairiness Thin heat exchanger tube, the capillary heat exchanger tube are connected with third heat exchanger tube.

Preferably, wherein the heat-exchanging component bury with underground 5-10 meters at.

Preferably, wherein the new blower, which leads in indoor pipeline, is laid with heat preservation capillary network, the heat preservation hair Tubule net cross arrangement is in pipeline, and the water inlet of the heat preservation capillary network is connected with the water main inlet port of capillary network, institute The water outlet for stating heat preservation capillary network is connected with the main water outlet of capillary network.

Preferably, wherein described ground source host is equipped with two groups of thermometers, one group of master for being installed on the capillary network On water inlet, another group is installed on the main water outlet of the capillary network.

Preferably, wherein there are four probe head, four probe head difference for connection on the dew point temperature controller It is installed on indoor four angles.

The utility model is include at least the following beneficial effects: capillary air-conditioning is made water at 5-10 meters of earth's surface by the utility model Place carries out hot transmitting with nature；The utility model mainly solves the problems, such as to be further to reduce existing capillary network system The energy consumption problem of system, although existing capillary network air conditioner system compared to air-conditioning system and can higher energy utilization rate, However calculate as unit of by year can be time-consuming, energy consumption is still still huge, and the utility model in 1 year substantially all It is the design that can lean on itself, it is made not need to reach in the case where excessive electric energy and regulate and control to indoor environment temperature, Therefore it is with great economic value and huge energy value.

The further advantage, target and feature of the utility model will be partially reflected by the following instructions, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Detailed description of the invention:

Fig. 1 is capillary network air-conditioning system schematic diagram provided by the utility model；

Fig. 2 is heat-exchanging component schematic diagram provided by the utility model；

Fig. 3 is heat exchange core schematic diagram provided by the utility model；

Fig. 4 is capillary network schematic diagram provided by the utility model；

Fig. 5 is efficient heat exchange schematic diagram provided by the utility model；

Fig. 6 is new blower schematic diagram provided by the utility model.

Specific embodiment:

The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation Book text can be implemented accordingly.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more The presence or addition of a other elements or combinations thereof.

A kind of capillary network air-conditioning system provided by the utility model as shown in Figure 1, comprising:

Ground source host 1 is mounted on outdoor, heat exchange core 101 is equipped in described ground source host 1, is connected on the heat exchange core 101 Two groups of heat exchanger tubes are connected to, two groups of heat exchanger tubes include: the first heat exchanger tube 102 and the second heat exchanger tube 107, first heat exchanger tube 102 one end is placed in heat exchange core 101, and the other end buries and deep under ground, and first heat exchanger tube 102 is embedded in underground bosom and sets There is heat-exchanging component 105, first heat exchanger tube 102 is equipped with the first electric control pump 106；Second heat exchanger tube 107 and sanitary wastewater pond It is connected, described second heat exchanger tube, 107 one end is located in heat exchange core 101, and the other end is located in sanitary wastewater pond；Described second changes Heat pipe 107 is equipped with the second electric control pump 108；The heat exchange core 101 of described ground source host 1 be equipped with automatically controlled heater 109 with it is automatically controlled Pyretogenic/refrigeration machine 110；First heat exchanger tube 102 and the second heat exchanger tube 107 are all closed pipe；

Capillary network 2, indoors, the capillary network 2 is connected with the heat exchange core 101 of ground source host 1, institute for installation Stating capillary network 2 is closed loop configuration, is marked with distilled water in the capillary network 2, the capillary network 2 and the first heat exchanger tube 102, Second heat exchanger tube 107 carries out heat exchange in heat exchange core 101；The capillary network 2 is equipped with automatically controlled circulating pump 201；

Fresh air regulating system 3: it includes new blower 301, and the new blower 301 is equipped with air exchange core 302, described 302 shell of air exchange core is temperature compensating layer 303, and the temperature compensating layer 303 passes through third heat exchanger tube with ground source host 1 304 are connected, and the third heat exchanger tube 304 is equipped with third electric control pump 305；

Dew point temperature controller 4, setting is indoors；

Linkage controller 5 is connected with the dew point temperature controller 4, in the linkage controller 5 and ground source host 1 Automatically controlled heater 109 is electrically connected with automatically controlled pyretogenic/refrigeration machine 110；The linkage controller 5 and the first electric control pump 106, second are automatically controlled Pump 107, third electric control pump 304 and automatically controlled circulating pump 201 are electrically connected.

Job description: dew point temperature controller 4 carries out observing and controlling to the whole problem in it indoors, and room temperature reached dew at that time After point temperature, instruction can be sent and control linkage controller 5 and open the first electric control pump 106, the second electric control pump 107, third Electric control pump 304 and automatically controlled circulating pump 201, source host 1 starts at this time, in the first heat exchanger tube 102 and the second heat exchanger tube 107 Water start the cycle over, the water in the first heat exchanger tube 102 carries out heat exchange at heat-exchanging component 105, due to heat-exchanging component 105 The heat at place is very stable, when the coolant-temperature gage in the first heat exchanger tube 102 is lower, will be heated at heat-exchanging component 105；When When coolant-temperature gage in one heat exchanger tube 102 is higher, it will be cooled down at heat-exchanging component 105, similarly, the second heat exchanger tube 107 is in life Heat exchange is carried out at wastewater disposal basin living；Then, the first heat exchanger tube 102, the water in the second heat exchanger tube 107 are simultaneously in heat exchange core 101 The interior water in hair row pipe network 2 is heated or is cooled down, and the water in mao row pipe network 2 is made to be always held at a stable temperature, Radiation adjusting can be carried out to indoor temperature when the pipe network that it is entered the room, the purpose of three pipes selection closed loop exists here Scale is inherently generated after long-term use in, water, and the water pipe that internal diameter this for the capillary of capillary network 2 is minimum, such as Once there is scale in fruit, it will blocks pipe network or even ruptures pipe network, therefore be selected in closed loop, makes to use in it for pure water to extend Service life；

Entire fresh air regulating system 3 by dew point temperature controller 4 control and open operation, it is understood that the temperature of indoor and outdoor is With certain temperature difference, in order to make outdoor temperature not destroy the stabilization of room temperature, therefore on air exchange core 302 Equipped with a temperature compensating layer 303, pass through third heat exchanger tube 304 for the heat transfer in ground source host 1 to temperature compensating layer On 303；When fresh air and old wind carry out heat exchange on air exchange core 302, temperature compensating layer 303 can be to entire air exchange Core 302 carries out heat compensation without electric heating ancillary equipment；

Entire utility model substantially should not be excessive energy consumption investment, underground or sanitary wastewater pond can obtain heat to Maintain entire indoor temperature, in full summer with severe winter when, the temperature of the utility model adjusts the demand that user may be not achieved, that Automatically controlled heater 109 can be opened or automatically controlled pyretogenic/refrigeration machine 110 is heated, using year as time of day under, due to midsummer It is not grown with the time in severe winter, it will not be to annual energy consumption opening automatically controlled heater 109 or automatically controlled pyretogenic/refrigeration machine 110 It influences；We can be found that by year be in terms of in the case where, the utility model compares existing capillary network radiation air-conditioner technology more It is energy saving with it is environmentally friendly.

In above-mentioned technical proposal, as shown in Fig. 2, the heat-exchanging component 105 is in flat block structure, it which is provided with several thermally conductive Palpus 1051,1051 structures of the thermally conductive palpus are similar to tree root, have a trunk and phase surrounding stretches out many radial thermally conductive needles, Since entire heat-exchanging component 105 buries and underground, in order to adequately make entire heat-exchanging component 105 carry out heat exchange, it is thermally conductive must 1051 The structure of similar tree root can effectively increase the effective heat exchange area of heat-exchanging component 105.

In above-mentioned technical proposal, as shown in figure 3, the heat exchange core 101 is made of double-layer structure, the heat exchange core internal layer 1011 are mounted on the heat exchange core outer layer 1013 by heat transmission fin 1012, and the heat exchange core outer layer 1013 exchanges heat with first respectively Pipe 102, the second heat exchanger tube 107 and third heat exchanger tube 304 are connected；101 internal layer of heat exchange core and the capillary network 2 are connected, and are just while meeting each pipe energy closed circulation with the advantages of this design, moreover it is possible to carry out efficient heat exchange.

In above-mentioned technical proposal, as shown in figure 4, on six faces of the setting of the capillary network 2 indoors, the capillary Current divider 204 and collector 205 are respectively equipped at the water main inlet port 202 of pipe network, main water outlet 203；The capillary network 2 it is each Capillary is waveform to increase the time of the radiation of the heat in it, can make the heat in capillary network 2 using such design On Rapid radiating to indoor each point, avoids just radiating in its heat in the front end of capillary network 2 and finish.

In above-mentioned technical proposal, as shown in figure 5, one end that second heat exchanger tube 107 is located at sanitary wastewater pond is equipped with Heat exchanger 1071, the heat exchanger 1071 are immersed in sanitary wastewater pond, and 1071 shell of heat exchanger is corrosion-resistant modeling Expect shell, second heat exchanger tube 107, which spirals, to be disposed therein, and usually when summer, the temperature of wastewater disposal basin makes lower than room Outer air themperature, it can be used as a cold source；In winter, since the water of people is typically all hot water, then waste water The temperature in pond can be higher than outside air temperature, can be used as a heat source.

In above-mentioned technical proposal, as shown in fig. 6, the temperature compensating layer 303 is sided configuration, the temperature compensating layer Internal layer 3031 coils heating resistance wire 3032, is connected with the dew point temperature controller 4 and is controlled by dew point temperature controller 4；It is described 3033 serpentine arrangement of temperature compensating layer outer layer has capillary heat exchanger tube 3034, the capillary heat exchanger tube 3034 and third heat exchanger tube 304 It is connected, the capillary heat exchanger tube 3034 of 3033 serpentine arrangement of temperature compensating layer outer layer, for maintaining the new air temperature entered the room Stabilization, heating resistance wire 3032 is mainly used in external cooler air, needs additionally to heat and uses, switching is by user Directly controlled by operating dew point temperature controller 4.

In above-mentioned technical proposal, the heat-exchanging component 105 bury with underground 5-10 meters at, 5-10 meters of depth temperature ratio It is more stable, and cutting depth is little, is easy to construct.

In above-mentioned technical proposal, as shown in fig. 6, the new blower 301, which leads in indoor pipeline, is laid with heat preservation hair Tubule net 3011,3011 cross arrangement of heat preservation capillary network is in pipeline, the water inlet of the heat preservation capillary network 3011 3012 are connected with the water main inlet port 202 of capillary network 2, the water outlet 3013 and capillary network of the heat preservation capillary network 3011 2 main water outlet 203 is connected, and the purpose of setting heat preservation capillary network 3011 is to make the new air temperature in ventilation shaft will not It scatters and disappears in advance.

In above-mentioned technical proposal, as shown in Figure 1, described ground source host 1 is equipped with two groups of thermometers 110, one group of installation In on the water main inlet port 202 of the capillary network, another group is installed on the main water outlet 203 of the capillary network, is used for Detect in capillary network 2 whether water temperature is normal, helps to judge whether capillary network 2 works normally.

In above-mentioned technical proposal, there are four probe head, four probe heads for connection on the dew point temperature controller 4 It is respectively arranged on indoor four angles, facilitates the accurate start and stop capillary network air-conditioning system of dew point temperature controller 4.

Number of devices and treatment scale described herein are the explanations for simplifying the utility model.To the utility model The application of capillary network air-conditioning system, modifications and variations will be readily apparent to persons skilled in the art.

It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, Other modifications may be easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality It is not limited to specific details and legend shown and described herein with novel.

Claims (6)

1. a kind of capillary network air-conditioning system characterized by comprising

Ground source host is mounted on outdoor, heat exchange core is equipped in described ground source host, is connected with two groups of heat exchange on the heat exchange core Pipe, two groups of heat exchanger tubes include: the first heat exchanger tube and the second heat exchanger tube, and one end of first heat exchanger tube is placed in heat exchange core Interior, the other end buries and deep under ground, and first heat exchanger tube is embedded in underground bosom equipped with heat-exchanging component, first heat exchanger tube It is equipped with the first electric control pump；Second heat exchanger tube is connected with sanitary wastewater pond, and second heat exchanger tube one end is located at heat exchange In-core, the other end are located in sanitary wastewater pond；Second heat exchanger tube is equipped with the second electric control pump；The heat exchange of described ground source host Core is equipped with automatically controlled heater and automatically controlled pyretogenic/refrigeration machine；First heat exchanger tube and the second heat exchanger tube are all closed pipe；

Capillary network, indoors, the capillary network is connected with the heat exchange core of ground source host, and the capillary network is for installation Closed loop configuration is marked with distilled water in the capillary network, and the capillary network and the first heat exchanger tube, the second heat exchanger tube are in heat exchange core Interior carry out heat exchange；The capillary network is equipped with automatically controlled circulating pump；

Fresh air regulating system: it includes new blower, and the new blower is equipped with air exchange core, and the air exchange core housing is Temperature compensating layer, the temperature compensating layer are connected with ground source host by third heat exchanger tube, and the third heat exchanger tube is equipped with Third electric control pump；

Dew point temperature controller, setting is indoors；

Linkage controller is connected with the dew point temperature controller, the automatically controlled heating in the linkage controller and ground source host Device is electrically connected with automatically controlled pyretogenic/refrigeration machine；The linkage controller and the first electric control pump, the second electric control pump, third electric control pump and electricity Control circulating pump electrical connection；

The heat-exchanging component is in flat block structure, which is provided with several thermally conductive palpuses, and the thermally conductive palpus structure is similar to tree root, there is one Root trunk and many radial thermally conductive needles of phase surrounding stretching；

The heat exchange core is made of double-layer structure, and the heat exchange core internal layer is mounted on the heat exchange core outer layer by heat transmission fin, The heat exchange core outer layer is connected with the first heat exchanger tube, the second heat exchanger tube and third heat exchanger tube respectively；In the heat exchange core Layer is connected with the capillary network；

On six faces of the capillary network setting indoors, the water main inlet port of the capillary network, main water outlet are set respectively There are current divider and collector；Each capillary of the capillary network is waveform to increase the time of the radiation of the heat in it；

The temperature compensating layer is sided configuration, and the temperature compensating layer internal layer coils heating resistance wire, with the dew point temperature Control device is connected and is controlled by dew point temperature controller；The temperature compensating layer outer layer serpentine arrangement has capillary heat exchanger tube, the capillary Heat exchanger tube is connected with third heat exchanger tube.

2. capillary network air-conditioning system as described in claim 1, which is characterized in that second heat exchanger tube is located at life One end of wastewater disposal basin is equipped with heat exchanger, and the heat exchanger is immersed in sanitary wastewater pond, and the heat exchanger is corrosion-resistant modeling Expect shell, second heat exchanger tube, which spirals, to be disposed therein.

3. capillary network air-conditioning system as described in claim 1, which is characterized in that the heat-exchanging component buries and underground 5- At 10 meters.

4. capillary network air-conditioning system as described in claim 1, which is characterized in that the new blower leads to indoor pipe Heat preservation capillary network is laid in road, the heat preservation capillary network cross arrangement in pipeline, it is described heat preservation capillary network into The mouth of a river is connected with the water main inlet port of capillary network, the main water outlet phase of the water outlet and capillary network of the heat preservation capillary network Connection.

5. capillary network air-conditioning system as described in claim 1, which is characterized in that described ground source host is equipped with two groups Thermometer, one group is installed on the water main inlet port of the capillary network, another group of main water outlet for being installed on the capillary network On.

6. capillary network air-conditioning system as described in claim 1, which is characterized in that be connected on the dew point temperature controller Four probe heads, four probe heads are respectively arranged on indoor four angles.