CN207555858U - Energy saving and environment friendly indoor air temp adjusting system - Google Patents

Abstract

The utility model is related to a kind of energy saving and environment friendly indoor air temp adjusting systems, if including water source heat pump units and dry wall surface heat-exchange system, the cold and hot source water circulation system of water source heat pump units is equipped with cold and hot source surface cooler, in the water body in the cold and hot source surface cooler heat exchange pond located underground, the high-level water storage case for supplying water to heat-exchange system is equipped with using side water circulation system, the metope heat-exchange system includes wall and heat exchanger tube, the wall includes main wall body, inner thermal insulating layer, heat exchange layer and surface protecting layer, the heat exchange layer is equipped with the heat exchange stent of rectangle, the heat exchanger tube is mounted in corresponding heat exchange stent, the heat exchange layer is collectively formed with the heat exchange stent, at least several longitudinal holes are distributed in upper and lower part on the surface protecting layer.The utility model is adapted to indoor heating and refrigeration, and heat dissipation area is big, and body-sensing is comfortable, and internal radiating efficiency is high, externally without heat bridge, has apparent energy-saving effect, and substantially non-pollutant discharge.

Description

Energy saving and environment friendly indoor air temp adjusting system

Technical field

The utility model is related to a kind of energy saving and environment friendly indoor air temp adjusting systems, belong to the power-saving technology of building field And environmental protection technology.

Background technology

Building energy conservation is the most potential at this stage energy saving neck of a key areas arranged side by side with industrial energy saving and China One of domain, with the development and improvement of living standard of social economy, people while more comfortable living environment is pursued, Also more and more energy are being consumed, wherein more than 50% consumes in heating in winter and cooling in summer air-conditioning.With the world In the range of energy supply pressure increasingly sharpen, the energy will as restrict various countries' economy principal element.For this purpose, China proposes The strategy of social economy and energy sustainable development, builds a conservation-minded society, while national economy fast development is realized Make great efforts the energy consumption of reduction per GDP.Building energy conservation has a high potential, and greatly develops and promote various energy-saving building technologies, While people's living environment comfort level is continuously improved, architectural energy consumption total amount is reduced, effectively alleviates the imbalance between supply and demand of the energy, both had There is stock index, and with important social effect and the value of environmental protection.

Indoor temperature adjusting is an importance of building energy consumption, and indoor air temperature is adjusted mainly using normal at present Air-conditioning system is advised, this air-conditioning system mostly using air source heat pump technology, with electric drive refrigeration or heating unit, passes through air-conditioning Coil pipe forms cold wind or hot wind.The energy consumption of this air system is larger, such as is concentrated use in due to summer, often causes city City's power shortage or even appearance is ensure that resident's air conditioning electricity limits the situation of industrial production electricity consumption.To save power consumption and carrying The comfort level of high heating although existing air-conditioning system has the function of two kinds of heating and refrigeration, is usually also separately set in reality Independent heating system carries out heating, and hot water or steam are prepared with combustion gas/coal-burning boiler, by the heat exchange of room heater piece into Row room air heats, and this heating system has centainly excellent for air-conditioning system in energy consumption and operating cost Gesture, but people still wait in expectation and further reduce energy consumption, in addition, fuel used is non-renewable energy resources, burning also can be Air pollutants are generated to a certain extent.

Using underground or surface water as the water source heat pump units of Cooling and Heat Source in energy consumption and two aspect of environmental protection relative to above-mentioned two Kind of common technology all has apparent advantage, has obtained by the common concern of industry and in practice a degree of application, But there is also certain limitations for this technology, restrict its popularization and application, first, using side and the medium temperature difference of cold and hot source It is unsuitable excessively high, it is otherwise difficult to give full play to its energy-efficient advantage, the indoor heat-exchange apparatus such as itself and existing radiator is mating, it is right The regulating power of indoor temperature is limited, it is impossible to meet indoor temperature well and adjust requirement；Second is that by water quality impact, it is easy to occur Scale problems, third, the influence to groundwater resources and water quality must be fully considered, since people are difficult under prior art background Effective purification treatment is carried out to underground water pollution, even if the small pollution to underground water, can also become after long-term accumulation The problem of very serious.

Utility model content

In order to solve the above technical problems, the utility model, which provides a kind of energy saving and environment friendly indoor air temperature, adjusts system System, it can be used to room air refrigeration and the Double-direction Temperature adjusting of heating, and low energy consumption, small to the pollution of environment.

The technical solution of the utility model is：A kind of energy saving and environment friendly indoor air temp adjusting system, including water source heat If pump assembly and dry wall surface heat-exchange system, the water source heat pump units are equipped with cold and hot source water circulation system and are recycled using side water System, the cold and hot source water circulation system are equipped with cold and hot source surface cooler, and the cold and hot source surface cooler is set to underground and changes Described to be equipped with high-level water storage case using side water circulation system in hot pond, the water source heat pump units are connected using side water outlet The water inlet pipe of the high-level water storage case, the water source heat pump units connect return water connecting tube, the high position using side water inlet The outlet pipe of water tank is connected with one or more heat exchange water supply standpipes, and the return water connecting tube is connected with one or more heat exchange Return riser, the heat exchange water supply standpipe connects the heat exchange water inlet of the metope heat-exchange system in corresponding vertical direction, described to change Hot return riser connects the heat exchange water outlet of the metope heat-exchange system in corresponding vertical direction, and the metope heat-exchange system includes setting There is the heat exchange wall of heat exchanger tube, the heat exchange wall includes main wall body, inner thermal insulating layer, heat exchange layer and surface protecting layer, described to change Thermosphere is equipped with the heat exchange stent of rectangle, and edge is surrounded with certain thickness rectangular plate-like space, and the heat exchange stent is located at The nearly indoor of the main wall body, and pass through stand connection and be fixedly connected with the main wall body, the inner thermal insulating layer is located at institute It states between main wall body and the heat exchange stent, is fixedly connected with the main wall body, the surface protecting layer is located at the heat exchange branch The nearly indoor of frame is fixedly connected with the heat exchange stent, and the heat exchanger tube is mounted in corresponding heat exchange stent, is changed with described Hot stent collectively forms the heat exchange layer, and the import of the heat exchanger tube forms the heat exchange water inlet of the metope heat-exchange system, institute The heat exchange water outlet of metope heat-exchange system described in the export mixes of heat exchanger tube is stated, the inlet and outlet of the heat exchanger tube is positioned at described Extend out in heat exchange stent or from the side in the heat exchange stent transverse direction, the big face in both sides of the inner thermal insulating layer respectively with The main wall body with it is described heat exchange cradle fits together with, between the insulating layer and the main wall body be equipped with gluing oxidant layer.

The beneficial effects of the utility model are：Due to using water source heat pump technology, and using the metope heat exchanger tube of large area Heat exchange is carried out, room air is being disclosure satisfy that without requiring at a temperature of excessively high heating medium temperature and too low refrigerant The heating of temperature and refrigeration requirement are conducive to preferably play the power savings advantages of water resource heat pump, improve energy-saving benefit；Due to heat exchange The temperature difference of medium and room air is small, and does not need to high wind circulation, is conducive to improve comfort level, high flow rate low temperature is alleviated or avoided Or injury of the sense of discomfort of high temperature gas flow initiation even to human body；It is merged since metope exchanges heat with wall, vertical and water Square upward span is all big, high to the effective rate of utilization in space, does not need to arrange radiator and air conditioner indoor unit in the room, Be conducive to indoor arrangement and beauty；Due to having the function of two kinds of heating and refrigeration simultaneously, and using all having under two kinds of functions Apparent power savings advantages, it is easy to use without setting refrigeration and heating two systems, and to water source under two kinds of function occupation modes Take heat and take cold energy is enough mutually to compensate for, help to mitigate the accumulated interference effect to ground temperature；Due in heat exchange layer and main wall body Between be provided with insulating layer, help that the heat conduction to main wall body is isolated, mitigate the energy loss caused by wall conducts heat outward；By Metal framework may be used, and can radiating fin be set on heat exchanger tube and on/heat exchange stent in heat exchange stent, be conducive to carry High thermal conductivity, and thermal energy can be made preferably to be distributed on entire heat exchange stent, the temperature basis equalization of heat exchange stent everywhere, Be conducive to the heat transfer intensity or air themperature everywhere at balanced each position；Due to heat exchange stent in there are larger space, can Effective air stream is formed, is advantageously implemented the temperature equalization of heat exchange stent everywhere；Due to according to various available in putting into practice Material, the thermal conductivity factor of surface protecting layer can be significantly hotter than the thermal conductivity factor of inner thermal insulating layer, therefore can be by greater proportion Thermal energy is passed to interior, obtains the heat utilization rate higher than existing ground heating system, and can by corresponding connecting portion add every The modes such as heat pad, collet eliminate heat bridge, are conducive to reduce the ratio externally to radiate, further save the energy；It is changed due to described The inlet and outlet of heat pipe is located in the heat exchange stent or extends out from the side in the heat exchange stent transverse direction, is convenient for Connect the circulating line of heat transferring medium so that the heat exchanger tube is in longitudinal direction（Perpendicular to the horizontal direction of wall）It is usual with vertically going up The rectangular plate-like space not surrounded from the edge of the heat exchange stent is leant out, to avoid interfering other layers and being conducive to heat exchanger tube point Cloth, two standpipes for being sent into heat transferring medium and extraction heat transferring medium are located at the same side of heat exchange stent, to facilitate whole cloth Office.

Description of the drawings

Fig. 1 is the schematic diagram of the utility model；

Fig. 2 be the utility model is related to both sides be respectively provided with the wall of heat exchange layer；

Fig. 3 be the utility model is related to heat exchange layer construction schematic diagram；

Fig. 4 be the utility model is related to a kind of heat-insulated schematic diagram being fixedly connected；

Fig. 5 be the utility model is related to the heat-insulated schematic diagram being fixedly connected of another kind.

Specific embodiment

The utility model is described further below in conjunction with the accompanying drawings.

Referring to Fig. 1-3, the energy saving and environment friendly indoor air temp adjusting system of the utility model includes water source heat pump units 6 If with dry wall surface heat-exchange system 11, the water source heat pump units 6 can set corresponding coverage according to its power, can be with The underground of 10 region of building is set to, the metope heat-exchange system 11 corresponds to corresponding room, can be arranged on room A face wall or multi-panel wall, for being located at the partition wall between two rooms, can its two sides be arranged to this simultaneously Kind metope heat-exchange system（Referring to Fig. 2）, can also heat-exchange system only be set in one side according to total arrangement, for only one side It is the exterior wall in room, then only needs to set heat-exchange system in the nearly indoor of its main wall body, the water source heat pump units 6 are equipped with cold Heat source side water circulation system and use side water circulation system can switch its refrigeration and heating condition as needed, described cold and hot Source water circulation system is equipped with cold and hot source surface cooler 17, and the cold and hot source surface cooler 17 is set in underground heat exchange pond 18, During use in the water body in heat exchange pond located underground, underground water or surface water flowing, medium and water body in surface cooler are passed through in pond Heat exchange is carried out, by the isolation of surface cooler, the pollution to underground water or surface water, and each portion in system can be effectively prevented from Point recirculated water may be used by purification and deoxygenation treated deaerated water, and remove hardness（Calcium ions and magnesium ions）, to prevent pipe Fouling and clogging and the corrosion to pipeline in road, it is described to be equipped with high-level water storage case 9, the Water source heat pump unit using side water circulation system The water inlet pipe 8 that the high-level water storage case 9 is connected using side water outlet of group 6, the water source heat pump units 6 use side water inlet Connect return water connecting tube 16, the outlet pipe of the high-level water storage case 9 is connected with one or more heat exchange water supply standpipes 12, described time Water connecting tube 16 is connected with one or more heat exchange return risers 13, and the heat exchange water supply standpipe 12 is connected in corresponding vertical direction Metope heat-exchange system 11 heat exchange water inlet, it is described heat exchange return riser 13 connect in corresponding vertical direction metope heat exchange system The heat exchange water outlet of system 11, according to connected facility and convenient for flow control, a usual standpipe corresponds in multiple floors Metope heat-exchange system in same vertical direction when suitable, may correspond in multiple floors be located at two neighboring Metope heat-exchange system in even more vertical direction.For building, the room of usual each floor corresponds, the heat exchange Water supply standpipe 12 and heat exchange return riser 13 can usually correspond, and be collectively formed and floor each in same vertical direction is corresponded to The heat exchange water supply of room and corresponding metope heat-exchange system 11 and return water.

The high-level water storage case 9 not only has water storage function, but also may also rely on gravity（Level head）Form flow Power.

The metope heat-exchange system 11 includes the heat exchange wall equipped with heat exchanger tube 22, and the heat exchange wall includes main wall body 20th, inner thermal insulating layer 26, heat exchange layer and surface protecting layer 24, the heat exchange layer are equipped with the heat exchange stent 30 of rectangle, and edge surrounds With certain thickness rectangular plate-like space, the heat exchange stent 30 is located at the nearly indoor of the main wall body 20, and pass through branch Frame connector 28 is fixedly connected with the main wall body 20, and the inner thermal insulating layer 26 is located at the main wall body 20 and the heat exchange stent It between 30, is fixedly connected with the main wall body, the surface protecting layer 24 is located at the nearly indoor of the heat exchange stent 30, with institute It states heat exchange stent 30 to be fixedly connected, the heat exchanger tube 22 is mounted in corresponding heat exchange stent 30, common with the heat exchange stent 30 With the heat exchange layer is formed, the import of the heat exchanger tube 22 forms the heat exchange water inlet of the metope heat-exchange system, the heat exchange The heat exchange water outlet of metope heat-exchange system described in the export mixes of pipe 22.

The inner thermal insulating layer 26 preferably fits together with the main wall body 20, it is described heat exchange stent 30 preferably with it is described interior Insulating layer 26 fits together, and the surface protecting layer 24 preferably fits together with the heat exchange stent 30, to reduce space It occupies, is conducive to the bulk strength of wall and facilitates construction.

The surface of the surface protecting layer 24 can be pasted with screen cloth, and the screen cloth is equipped with face coat 23 or not If screen cloth, directly face coat 23 is arranged on the surface protecting layer 24, other forms can also be carried out as needed Fitting-up.Setting screen cloth is conducive to improve the adhesion strength of face coat 23.

On the surface protecting layer 24 can at least part area distribution have several longitudinal holes and/or longitudinal blind hole, institute The opening for stating longitudinal blind hole is located at nearly heat exchange bracket side, in favor of heat dissipation.

Longitudinal hole on the surface protecting layer 24 is preferably at least distributed in the lower part of the surface protecting layer and described The top of surface protecting layer, the lower part of the surface protecting layer correspond to the lower part of the heat exchanger tube 22 and/or the region of lower section, The top of the surface protecting layer corresponds to the top of the heat exchanger tube 22 and/or the region of top.

It is described when the surface mount of the surface protecting layer 24 has screen cloth and the screen cloth surface is equipped with face coat 23 Whole longitudinal holes on surface protecting layer 24 can be covered, but preferably by the screen cloth, at least part longitudinal hole It is not covered by the screen cloth, the longitudinal hole not covered by the screen cloth is exposed through-hole, connects the interior space and heat exchange Heat-sinking capability to form cross-ventilation, is improved in the space of layer.

When the surface mount of the surface protecting layer 24 has whole longitudinal holes on screen cloth and the surface protecting layer 24 When middle at least part longitudinal hole is not covered by the screen cloth, do not covered on the surface protecting layer 24 by the screen cloth Longitudinal hole is at least distributed in the lower part of the surface protecting layer and the top of the surface protecting layer, corresponds respectively to described change The lower part of heat pipe 22 and/or the region on the top and/or top of the region of lower section and the heat exchanger tube 22.

It, can be with by these through-holes for example, exposed through-hole can be distributed in the region of nearly room floors and nearly ceiling Cross-ventilation is formed, more effectively the heat that heating line discharges can be brought out by convection current, in addition set in these regions The exposed through-hole put has substantially no effect on metope beauty, if coordinating well with indoor wall decoration, can also be formed unique Aesthetic effect.

Plank may be used in the surface protecting layer 24, for example, the suitable mechanicals processing and installation such as plasterboard may be used Plank, plasterboard can be directly prepared into required orifice plate when preparing plasterboard, can also drill shape on gypsum Into orifice plate.After installation, by the surface of plasterboard（Towards indoor big face）It polishes flat, screen cloth mopping in stickup, it might even be possible to Directly in gypsum board surface mopping.

It can be with screw（Bolt）Etc. any suitables clamp device will act as the surface protecting layer 24 plank it is direct It is fastened on the heat exchange stent 30.

In practice, the surface protecting layer 24 may be used polylith rectangular plate and be spliced, and the gap of seam crossing is with greasy Son blocks.

When need to the heat exchanger tube 22 when inner facilities carry out large repairs, as long as will act as the gypsum of surface protecting layer 24 Plate etc. removes, it will be able to directly expose heat exchange stent 30 and the heat exchanger tube 22 in heat exchange stent 30, and after overhaul Surface of wall recovery be also very easy to.

The wind turbine 29 that can form uprush can be equipped in the space of the heat exchange layer, from there through the strong of wind turbine 29 Draught effect processed is entered the wind by the lower part in vertical direction or top longitudinal hole, by the top in vertical direction or lower part outlet air, The circulating current with room air is formed, to enhance heat dissipation effect, unlatching or the pass of wind turbine 29 can be controlled according to actual needs It closes.

The quantity of the wind turbine is one or more, and since the thickness of heat exchange layer is small, circulating current is to blower pressure requirement It is low, the low power axial flow blower of multiple cross direction profiles may be used, to form balanced air-flow and reduce power consumption.

Since the heat exchange area of this metope heat-exchange system 11 can cover or substantially cover on wall body vertical direction Whole region for example, be 2.3 meters of room for interior net storey height degree, removes upper and lower edge, metope heat exchanger it is effective Exchange heat section（From the longitudinal hole at the top of surface protecting layer 24 to the section of the longitudinal hole of 24 bottom of surface protecting layer or From top heat exchanger tube to the section of bottommost heat exchanger tube）It can be 2.1 meters, heat dissipation area is big, and effect is good, and the air-flow temperature that exchanges heat With, be conducive to improve comfort level.

One face wall in room or multi-panel wall can be arranged to this heat exchange wall, it, can be in general, for furniture is avoided to block The metope for not setting or not setting substantially furniture is arranged to this heat exchange wall.

The prior art of any suitable may be used in the structure of the heat exchanger tube 22, for example, the heat exchanger tube 22 can wrap The linkage section between several traversing sections and the traversing section is included, the traversing section and linkage section are preferably respectively positioned on same facade, The linkage section usually can be arc-shaped, horizontal U-shaped or other suitable shapes, each traversing section of the heat exchanger tube 22 is up and down point Cloth.This distribution mode is conducive to reduce the thickness of heat exchange stent 30, reduces space hold, and be conducive to be arranged as required to Various connection modes, for example, after series, parallel between each traversing section of same heat exchanger tube 22 or grouping series connection again each group it Between it is in parallel.

The heat exchange stent 30 can be equipped with to be supported below each traversing section or is supported on part respectively respectively Heat exchange tube support plate 25 below the traversing section, to realize the bearing of heat exchanger tube 22 and stabilization.

The frame structure of any suitable may be used in the heat exchange stent 30, for example, equipped with two identical big faces are constructed Frame 21 can set several transverse links and/or several vertical links in the frame of the big surface frame frame 21, with needed for acquisition Integral strength and be easily installed heat exchange tube support plate 25, connected respectively equipped with both ends between the four corners of the big surface frame frame 21 Longitudinal frame of big surface frame frame 21, the heat exchange tube support plate 25 are fixedly mounted on the transverse link of corresponding position, vertical link It, can only big surface frame frame 21 with side on frame（Including transverse link therein and vertical link）Connection, can also divide It not being connect with the big surface frame frame 21 of both sides, the longitudinal middle part of the heat exchange tube support plate 25 is preferably provided with concave structure, in favor of The installation positioning of heat exchanger tube 22, when only connect with the big surface frame frame 21 of side, the side of not connected big surface frame frame 21 can be with It is upturned, in favor of preventing heat exchanger tube 22 from shifting or being detached from.

The heat exchange stent 30 is preferably metallic support, it is possible thereby to by exchanging heat stent 30 and the connection of heat exchanger tube 22 is led Heat is conducive to increasing heat radiation area, and forms the temperature of basis equalization everywhere on heat exchange stent 30, and then realize and dissipated to interior The equilibrium of heat.

Radiating fin can be set on the heat exchanger tube 22 and on/heat exchange stent 30, to improve radiating efficiency.

Several bracket fixing plates 27 can have been anchored on the main wall body 20, can will have been propped up in advance when pouring into a mould main wall body 20 The anchoring section position of frame fixed plate 27 makes the anchoring position of bracket fixing plate 27 be fixedly arranged at cast in the corresponding site of main wall body 20 Concrete in, the heat exchange stent 30 and/or at least partly heat exchanger tube 22 are supported on the bracket fixing plate 27 simultaneously It can be fixedly connected with the bracket fixing plate 27, can also be only to be pressed in above bracket fixing plate 27.

When the heat exchanger tube 22 is supported in respective holder fixed plate 27, the bracket fixing plate 27 and corresponding heat exchanger tube Cushion blocking and/or heat insulating mattress are preferably provided between 22, it is preferred to use while there is vibration damping and the vibration damping heat insulating mattress of heat-proof quality.When When the heat exchange stent 30 is supported in respective holder fixed plate 27, it can be realized by the modes such as fixture and bolt fastening described Being fixedly connected between heat exchange stent 30 and corresponding bracket fixing plate 27, between the heat exchange stent 30 and bracket fixing plate 27 Be fixedly connected and be fixedly connected using heat-insulated, be equipped on the heat exchange stent 30 for connecting the position of the bracket fixing plate 27 Heat insulating mattress or collet have preferably while also the heat insulating mattress or collet of damping property.

The main part of the bracket fixing plate 27 preferably in the rod-shaped or plate being longitudinally extended, is anchored at the main wall body The tail portion of bracket fixing plate 27 in 20（Anchor position）Can T-shaped, L-shaped or Y shape or equipped with the bracket fixing plate The vertical anchor plate of 27 main part, the anchor plate is rectangular, round or any suitables such as oblate shape.

The heat exchange stent 30 can be fixed together by several stand connection 28 and the main wall body 20, for example, The four corners for the stent 30 that exchanges heat can be fastened by expansion bolt with setting expansion bolt in the suitable location on main wall body 20 Firmly.

Being fixedly connected between the stand connection 28 and the heat exchange stent 30 is preferably fixedly connected using heat-insulated, institute It states and is equipped with heat insulating mattress or collet on heat exchange stent 30 for connecting the position of the stand connection 28, have preferably while also There are the heat insulating mattress or collet of damping property.

The prior art of any suitable may be used in the stand connection 28, for example, its main part can be longitudinal direction The rod-shaped or plate of extension, one end, which is fastened on the main wall body 20 or is screwed in by expansion bolt, is embedded in main wall body On nut on 20, the other end is equipped with the fastener/attachment device being connect with heat exchange stent, for example, the clamping of clip, bench vice formula/ Clamp device, bolt clamp device etc..

Bracket fixing plate 27 or stand connection 28 between the heat exchange stent 30 and main wall body 20 can be only set, also may be used To set 28 two kinds of connection modes of bracket fixing plate 27 or stand connection simultaneously.

It can the high-level water storage case 9 be individually attemperater, equipped with insulation shell, be placed in high-level water storage chamber.

The part in room is passed through preferably to be placed in wall in the heat exchange water supply standpipe 12 and the heat exchange return riser 13 It is interior, and realization and the connection between related heat exchanger tube 22 in wall, pass through corresponding mouthpiece respectively and connect corresponding heat exchanger tube Inlet and outlet, it is possible thereby to avoid influencing the interior space, and contribute to the connection between heat exchanger tube 22.It is in general, described Heat exchange return riser 13 and the heat exchange water supply standpipe 12 can be to pass through corresponding heat exchange stent 30 or the neighbouring branch that exchanges heat The side of frame 30, the heat exchange return riser 13 and the heat exchange water supply standpipe 12 can be arranged on 24 He of surface protecting layer Between inner thermal insulating layer 26, it can also set in the longitudinal direction that region is corresponding between the surface protecting layer 24 and inner thermal insulating layer 26 At corner, for example, may also set up by sleeper or be arranged in the vertical groove on sleeper.

Connection between the heat exchange return riser 13 and the heat exchange water supply standpipe 12 and the heat exchanger tube 22 can adopt Connection mode or any other suitable connection mode with existing heating, in general, the heat exchange return riser 13 and described changing Hot water supply standpipe 12 corresponds, and the mutual corresponding heat exchange return riser 13 and the heat exchange water supply standpipe 12 connect identical One or more heat exchanger tubes 22, be connected to respectively changing for the identical heat exchange return riser 13 and the heat exchange water supply standpipe 12 Heat pipe 22 can be serially connected, preferably parallel with one another, and set respective water inlet control valve door and/or outlet water control valve door, institute State the temperature control valve that water inlet control valve door and/or outlet water control valve door preferably carry out flow control automatically according to temperature.

Coil pipe or tubulation structure may be used in the cold and hot source surface cooler 17, and the table of other constructions can also be used cold Device.

The underground heat exchange pond 18 is preferably placed at underground, is occupied in favor of keeping the temperature and reducing ground.

The underground heat exchange pond 18 is preferably using surface water or underground water as source of recycled water.

When the underground heat exchange pond 18 using underground water as source of recycled water when, can be equipped with connect underground water well 3 into The outlet conduit 1 of waterpipe 19 and connection recharge water well 2；When using surface water as source of recycled water, connection ground can be equipped with The inlet and outlet pipes at table water source.

Since heat-exchange system unavoidably will appear a degree of dielectric loss, mating make-up system can be set 14, the make-up system usually should be equipped with for purifying, except hardness and deoxygenation or carry out other processing water treatment facilities, tool Body processing function can be set according to actual needs, and the make-up system 14 can generally also be arranged on underground, water inlet pipe Road 5 connects the inlet channel 19 in the underground heat exchange pond or is directly accessed the water sources such as underground water well, and outlet conduit 15 accesses institute It states the return water connecting tube 16 of water source heat pump units or is directly accessed the use side water inlet of the water source heat pump units.

Fig. 4 gives a kind of heat-insulated fixed embodiment, it is assumed that two parts part of interconnection is respectively connector 110 （Such as the stand connection or bracket fixing plate）With connected piece 120（Such as the heat exchange stent, can be heat exchange stent In a frame and connecting rod laterally or vertically etc.）, the corresponding connecting pin of connector 110, which is equipped with, is used as bracket connecting apparatus Screw clamping device, the screw clamping device includes the clamping plate 131 of two semi-circular shape, and the concrete shape of clamping plate 131 can To be set according to the concrete form of connected piece connecting portion, for example, being rectangular connected piece for cross section, clamping plate can be with It is rectangular in shape, is stuck on two rectangular opposite angles, collet 140 is cased on connected piece（Muff）, it is described every Hot jacket can completely be covered, and can also be wrapped in sheet heat-barrier material 120 on connected piece, and two snap-gauges 131 are distinguished It is clamped wherein from the both sides of connected piece 120 by the connected piece 120 including related collet 140, between two snap-gauges 131 Two be connected with each other positions in one at be to be hinged, connector 110 can be fixed on a snap-gauge, can also be fixed on On the seat of hinge 133, it is connect by hinge seat with the fixed Boards wall of hinge seat, two clamping plates 131 are in interconnection portion Another place in position is respectively equipped with the connection end plate 134 being mutually parallel, and two connection end plates are fastened on one by bolt 135 It rises, so that two clamping plates 131 tightly clamp connected piece 120 and have collet 140 to be located at connected piece 120 and clamping plate Between 131, and then realize the fixation between connector and connected piece and heat-insulated.

Can washer be set according to routine techniques on the bolt of the connection end plate 134 on two clamping plates 131 for fastening 136, the nut being screwed in spiral can be double nut 132, to avoid loosening.

Fig. 5 gives the heat-insulated another specific embodiment being fixedly connected, it is assumed that a part of part of interconnection is connects Fitting 111 and 112（Such as the stand connection or bracket fixing plate）, another part part is part 120（Such as the heat exchange branch Frame can be a frame in heat exchange stent and connecting rod laterally or vertically etc.）, one end of two connectors 111,112 is consolidated Dingan County is on fixed basic 100（Such as the main wall body）, the other end is fastened with by bolt 138,139 forms stent company The same pressing plate 137 of connection device, when the main part of connector 111,112 uses round bar shape, for ease of bolt 138,139 Be screwed on, can be described for the bolt 138,139 that is screwed in the end set plate connecting portion parallel with the pressing plate 137 Heat insulating mattress 141 is equipped between connected piece 120 and pressing plate 137, can also be set between the connected piece 120 and basis 100 Thermal insulation layer 142, thermal insulation layer 142 can be independently arranged, and can also use the existing thermal insulation layer on wall（Such as the inside holding Layer）.

It is above-mentioned it is heat-insulated be fixedly connected mode can be used in the utility model it is any it is suitable it is heat-insulated be fixedly connected, example Such as, bracket fixing plate 27 and heat exchange stent 30 between it is heat-insulated be fixedly connected, it is possible thereby to avoid because of two metalworks（Or other Easy heat-conducting piece）It is in direct contact the heat bridge effect of generation.

The utility model is related to each water pipe/pipeline water pump, valve and measuring instrumentss etc. should all be set according to actual needs, Specific set-up mode can be according to the prior art.It for example, can be on the inlet channel 19 of the 6 cold and hot source of water source heat pump units It intakes high-pressure pump 4 equipped with cold and hot source, the water source heat pump units 6 are discharged using side using can be equipped on the outlet conduit of side High-pressure pump 7.

Disclosed in the utility model it is each preferably with optional technological means, unless otherwise indicated and a preferred or optional skill Art means are outer for the further restriction of another technological means, can form several different technical solutions in any combination.

Claims (11)

1. a kind of energy saving and environment friendly indoor air temp adjusting system, including water source heat pump units, the water source heat pump units are set There is cold and hot source water circulation system and use side water circulation system, it is characterised in that is described if further including dry wall surface heat-exchange system Cold and hot source water circulation system is equipped with cold and hot source surface cooler, and the cold and hot source surface cooler is set in underground heat exchange pond, institute It states and is equipped with high-level water storage case using side water circulation system, the water source heat pump units use the side water outlet connection high-order storage The water inlet pipe of water tank, the water source heat pump units connect return water connecting tube using side water inlet, and the high-level water storage case goes out Water pipe is connected with one or more heat exchange water supply standpipes, and the return water connecting tube is connected with one or more heat exchange return risers, The heat exchange water supply standpipe connects the heat exchange water inlet of the metope heat-exchange system in corresponding vertical direction, the heat exchange return riser The heat exchange water outlet of the metope heat-exchange system in corresponding vertical direction is connected, the metope heat-exchange system is included equipped with heat exchanger tube Exchange heat wall, and the heat exchange wall includes main wall body, inner thermal insulating layer, heat exchange layer and surface protecting layer, and the heat exchange layer is equipped with square The heat exchange stent of shape, edge are surrounded with certain thickness rectangular plate-like space, and the heat exchange stent is located at the main wall body Nearly indoor, and pass through stand connection and be fixedly connected with the main wall body, the inner thermal insulating layer be located at the main wall body and It between the heat exchange stent, is fixedly connected with the main wall body, the surface protecting layer is located at the nearly interior of the heat exchange stent Side is fixedly connected with the heat exchange stent, and the heat exchanger tube is mounted in corresponding heat exchange stent, common with the heat exchange stent The heat exchange layer is formed, the import of the heat exchanger tube forms the heat exchange water inlet of the metope heat-exchange system, the heat exchanger tube The heat exchange water outlet of metope heat-exchange system described in export mixes, the inlet and outlet of the heat exchanger tube are located in the heat exchange stent Or extend out from the side in the heat exchange stent transverse direction, the big face in both sides of the inner thermal insulating layer respectively with the main wall body Together with the heat exchange cradle fits, gluing oxidant layer is equipped between the insulating layer and the main wall body.

2. energy saving and environment friendly indoor air temp adjusting system as described in claim 1, it is characterised in that the surfacecti proteon At least part area distribution has several longitudinal holes and/or longitudinal blind hole on layer, and the opening of the longitudinal direction blind hole is located at nearly heat exchange Bracket side.

3. energy saving and environment friendly indoor air temp adjusting system as claimed in claim 2, it is characterised in that the surfacecti proteon Longitudinal hole on layer is at least distributed in the lower part of the surface protecting layer and the top of the surface protecting layer.

4. energy saving and environment friendly indoor air temp adjusting system as claimed in claim 3, it is characterised in that the surfacecti proteon The surface mount of layer has screen cloth and the screen cloth surface to be equipped with face coat, and whole longitudinal holes on the surface protecting layer are equal It is covered by the screen cloth or at least part longitudinal hole is not covered by the screen cloth, when the surface of the surface protecting layer When being pasted with that at least part longitudinal hole is not covered by the screen cloth on screen cloth and the surface protecting layer, the surfacecti proteon The longitudinal hole not covered on layer by the screen cloth is at least distributed in the lower part of the surface protecting layer and the surfacecti proteon The top of layer.

5. energy saving and environment friendly indoor air temp adjusting system as claimed in claim 4, it is characterised in that the heat exchange layer The wind turbine of uprush can be formed by being equipped in space, and the quantity of the wind turbine is one or more.

6. the energy saving and environment friendly indoor air temp adjusting system as described in any one in claim 1-5, it is characterised in that The heat exchanger tube includes the linkage section between several traversing sections and the traversing section, and the traversing section and linkage section are respectively positioned on same On facade, each traversing section of the heat exchanger tube is distributed up and down, and the heat exchange branch is provided with is supported on each traversing section respectively The heat exchange tube support plate being supported below or respectively below the traversing section of part.

7. the energy saving and environment friendly indoor air temp adjusting system as described in any one in claim 1-5, it is characterised in that Anchoring has several bracket fixing plates on the main wall body, and the heat exchange stent and/or at least partly described heat exchanger tube are supported on institute It states on bracket fixing plate, when the heat exchanger tube is supported in respective holder fixed plate, the bracket fixing plate and corresponding heat exchange Cushion blocking and/or heat insulating mattress are equipped between pipe, when the heat exchange stent is supported in respective holder fixed plate, the heat exchange branch Frame is fixedly connected with corresponding bracket fixing plate, being fixedly connected using heat-insulated solid between the heat exchange stent and bracket fixing plate It is fixed to connect, on the heat exchange stent heat insulating mattress or collet are equipped with for connecting the position of the bracket fixing plate.

8. the energy saving and environment friendly indoor air temp adjusting system as described in any one in claim 1-5, it is characterised in that The heat exchange stent is fixed together by several stand connection and the main wall body, the stand connection and the heat exchange Being fixedly connected between stent is fixedly connected using heat-insulated, is used to connect the position of the stand connection on the heat exchange stent Equipped with heat insulating mattress or collet.

9. energy saving and environment friendly indoor air temp adjusting system as claimed in claim 8, it is characterised in that be arranged on described change On hot stent for connect the stand connection position the heat insulating mattress or collet be with damping property every Heat pad or collet.

10. the energy saving and environment friendly indoor air temp adjusting system as described in any one in claim 1-5, it is characterised in that The part in room is passed through to be placed in wall, and realized in wall in the heat exchange water supply standpipe and the heat exchange return riser To the connection between related heat exchanger tube, the inlet and outlet of corresponding heat exchanger tube is connected by corresponding mouthpiece respectively.

11. the energy saving and environment friendly indoor air temp adjusting system as described in any one in claim 1-5, it is characterised in that The cold and hot source surface cooler uses coil pipe or tubulation structure, and the underground heat exchange pond is using surface water or underground water as cycle Water source.