CN207214318U - A kind of green intelligent humidity control system - Google Patents

Abstract

The utility model discloses a kind of green intelligent humidity control system, the humidity control system is located between Indoor environment bottom and Indoor environment Surface pavement layer, and the humidity control system includes temperature transition part, temperature transmitting assembly；The temperature transition part includes the indoor set in building, the outdoor unit outside building；The temperature transmitting assembly includes storage body, realizes the transport establishment of movement of the storage body between the temperature transition part and temperature adjustment demand region.The utility model can be concentrated effectively carries out temperature adjustment to designated area, including room air and earth's surface, it is accurate fast and effective, it is laid out ingenious hidden, take up space small, energy consumption is low, and use cost is low, it is convenient for installation and maintenance, traditional indoor temperature adjustment equipment such as floor heating, ceiling radiation air-conditioning system can be substituted comprehensively.

Description

A kind of green intelligent humidity control system

Technical field

Smart home field is the utility model is related to, more particularly to a kind of green intelligent humidity control system.

Background technology

Real estate industry is the important component of national economic development, and wherein commercial housing market is real estate industry again The most important thing.Current domestic room rate is in high-order and is still in up-trend, and people spend lifetime savings to buy heart shelter, natural Feeling at ease for wishing to live is comfortable.But bad weather, the summer hot humids such as haze, sandstorm, winter severe cold are occurring frequently It is hard to bear to wait under outside overall situation, make indoor environment keep fit it is pleasant it is pleasant be also increasingly difficult to, people spare no expense a huge sum of money in room Interior outfit floor heating, ceiling radiation air-conditioning system, VMC, air purifier etc. are multiple to be helped to improve and keeps indoor good The equipment of inhabitation air and environment.Thus decoration cost height, equipment is caused to take up space greatly, energy resource consumption is big, and use cost is high, And above facility is together carried out with finishing substantially, be embedded in indoor wall, it is necessary to time-based maintenance and maintenance, and once occur therefore Barrier is very inconvenient, it is necessary to professional is handled.

Utility model content

The purpose of this utility model is to provide a kind of green intelligent humidity control system, being capable of overcome the deficiencies in the prior art Part, concentrate and temperature adjustment is effectively carried out to designated area, accurate quick, layout is ingenious hidden, takes up space small, energy consumption Low, use cost is low, convenient for installation and maintenance, can substitute traditional indoor temperatures such as floor heating, ceiling radiation air-conditioning system comprehensively Adjustment equipment.

Above-mentioned technical purpose of the present utility model technical scheme is that：

A kind of green intelligent humidity control system, the humidity control system is located at Indoor environment bottom and building room Between inner surface pave-load layer, the humidity control system includes temperature transition part, temperature transmitting assembly；The temperature transition part bag Include the indoor set in building, the outdoor unit outside building；The temperature transmitting assembly includes storage body, realizes institute State the transport establishment of movement of the storage body between the temperature transition part and temperature adjustment demand region.

Chamber internal surface pave-load layer can be the common pave-load layer such as floor, floor tile, the quantity of indoor set can be one or It is multiple, the end of the transporting direction of transport establishment one is generally located on, each indoor set can share outdoor unit, economical and energy saving, make interior Different zones are heated up or cooled simultaneously；Each indoor set also provided with outdoor unit alone, each indoor set is independently transported OK, the regulation that simultaneously can be so needed the temperature of indoor different zones, meet that a region is heated up, another region Carry out a variety of demands such as cool.Storage body provides indoor set under the movement velocity of transport establishment and the control of movement line High/low temperature energy transmission to the space of indoor needs, make the temperature adjustment of the interior space fast and effective, facilitate hidden.

Preferably, the indoor set includes opening the return air inlet in the indoor set top, opening on the indoor set Horizontal the first at least one air outlet of air-out direction, condensation-water drain.

Indoor set by return air inlet by room air suck indoor set in, by compressor operating by hot-air freeze or Cold air heats, then is blown out by the first air outlet, transmits the heat to storage body, then transfer heat to needs by storage body Region.

Preferably, the indoor set has the second upward air outlet of at least one air-out direction.

Second air outlet is connected with indoor set pipeline, this humidity control system is had humidity adjusting function：When indoor wet Spend larger, air is more moist, indoor moisture feeding indoor set is processed into clean dry air by return air inlet, by second Air outlet sends interior back to, and moisture is discharged in the form of condensed water by condensation-water drain in moisture, so as to remove indoor moisture, Keep air dry and comfortable pure and fresh.And when carrying out temperature adjustment, if without specific region, only want to indoor overall rooms and enter trip temperature Regulation, the air after temperature transition directly can return to interior by the second air outlet, directly carry out a wide range of temperature adjustment, The loss of heat transfer and conversion is reduced, thermoregulation effect maximizes.

Preferably, the condensation-water drain connects with the floor drain of Indoor environment.

So as to supplement floor drain water, solves the problems, such as floor drain water seal failure.

Preferably, the air-out area of first air outlet is more than the area for accepting air-out position of the storage body.

The wind area of storage body is thereby guaranteed that, fully receives the heat of the blowout of indoor set, improves the effect of heat transfer Rate and effect, reduce energy loss.

Preferably, the indoor set also includes the waste heat recovery pipe located at the indoor set length direction end.

Too many in the heat that ought be distributed through the first air outlet, storage body has little time to absorb, or is gradually dissipated out of storage body When the heat sent is remained between Indoor environment bottom and Indoor environment Surface pavement layer, the heat is by waste heat recovery pipe Recovery, build up to it is a certain amount of after again through indoor set handle reused, ensure regulating system surrounding space it is pleasant, heat fills Divide and utilize.

Preferably, the storage body includes housing, the energy-accumulation material being packaged in the housing, the energy-accumulation material is Energy storage system with solid-liquid phase change material, the phase transition temperature of the energy storage system with solid-liquid phase change material is 18-24 DEG C.

Heat is transferred to energy-accumulation material via housing, and energy-accumulation material produces phase transformation storage heat, when reaching the region of needs Transmission heat is undergone phase transition again.

Preferably, the housing includes shell body, inner housing, it is formed between the shell body and the inner housing For encapsulating the encapsulated space of the energy-accumulation material；The shell body includes the first shell wall close to the indoor set, positioned at institute The first roof at the top of shell body is stated, other shell walls of the shell body are collectively forming with first shell wall, the first roof；Institute The thermal conductivity factor for stating the first car wall and first roof is more than leading for shell wall of other the described car walls with forming the interior car body Hot coefficient.

The materials such as the higher copper of thermal conductivity factor, aluminium can be selected in first shell wall and the first roof, the first shell wall is effectively absorbed Indoor set send out heat and be transferred to energy-accumulation material, the first roof is effectively discharged the heat stored in energy-accumulation material, its The heat-insulating materials such as his the shell wall asbestos board relatively low with the optional thermal conductivity factor of shell wall of formation inner housing；Prevent unnecessary heat Transmit and lose.

Preferably, air bag is installed with the inwall of first shell wall and first roof, located at the storage body The driving air bag of bottom rises flat air pump.

Air bag is provided with intubation, is connected with the air pump of storage body bottom, can carry out inflation/deflation.Need to transfer heat to finger When determining region, the storage body in the region is transported at the first air outlet successively, now the air bag at the first shell wall is in dry Flat state, the air bag at the first roof are in expanded state, make in heat transfer to encapsulated space and store to energy-accumulation material, treat Filling to finish, and by the airbag aeration at the first shell wall, the heat of storage is not leaked；Treating that storage body reaches needs to carry out heat biography During the region passed, make the air bag at the first roof shrivelled, heat is from the first roof to external diffusion.

Preferably, the storage body includes the heat conduction floor at the top of the storage body；The material of the heat conduction floor Expect for cermet.

The thermal conductivity factor of cermet is big, can effectively help heat to be transferred to Indoor environment Surface pavement from the first roof Layer, and hardness is high, and the support effect of Surface pavement layer is good.

Preferably, the transport establishment is a route net on Indoor environment bottom surface；The line network includes Interlaced vertical circuit group and transverse line group, the crosspoint of the vertical circuit group and transverse line group form the storage Can body anchor point, the vertical circuit group include closest to and parallel to the first vertical line of the indoor set length direction Road；The anchor point includes the confession the being staggered to form energy-storage volume amount of stored heat of the described first vertical circuit and each transverse line Heat exchange point；Vertical circuit and transverse line by the anchor point form decussation circuit.

Thus, movement of effective specification storage body on route net；The distance of adjacent each anchor point is identical, and transport establishment is in One centered on anchor point, crisscross square formation formula route net, and spacing and the profile of storage body between adjacent anchor point It is adapted, makes storage body is mutually adjacent side by side and to stop, compact overall structure is concentrated.

Preferably, storage body includes the sensor group located at the storage body bottom, wheel group.

Sensor group is responsible for carrying out signal communicating with transport establishment, and so as to control the movement locus of storage body, wheel group is direct It is physically contacted with transport establishment and is performed and realized the walking or stopping of storage body.

Preferably, the sensor group includes four gray-scale sensors, when the storage body bottom centre with it is described When waypoint location is overlapping, each section of the decussation circuit of each gray-scale sensor and the anchor point on the storage body Place on line is overlapping one by one.

Running route of the storage body on route net is able to specification by the interaction of gray-scale sensor and route net, stores Gray-scale sensor can be provided with each direct of travel of anchor point for being passed through of body so that storage body before and after course all There is clear and definite circuit to guide, when any gray-scale sensor triggers, storage body moves towards direction where the gray-scale sensor, the ash When spending the reverse gray-scale sensor triggering of sensor, storage body is decelerated to stopping and driven in the wrong direction again.

Preferably, the sensor group also includes the displacement transducer in the wheel group.

Thus, the travel distance of storage body can be held according to the spacing of adjacent anchor point, more accurately controls storage body It is mobile.

Preferably, several undertaking air-out position homalographics with storage body can be set on the first air outlet of indoor set Retractable baffle plate.

Baffle plate is used for the size for adjusting the first air outlet, so as to which accurately control needs to carry out the number of the storage body of heat transfer Amount, the accurate temperature adjustment for specific very small region.

Preferably, the wheel group is the moving body that several are arranged with the storage body center array, the moving body Including hollow shell, the driving wheel located at the hollow shell hollow part top being connected with the storage body bottom, it is located at There is certain roller ball for rolling gap with the hollow shell below the driving wheel；The moving body also includes bearing and connected Connect the driving wheel and the driving wheel be set up in the center-pole on the hollow shell, the both ends top of the center-pole with The top of the hollow shell is fixed with spring, and the both ends bottom of the center-pole has magnetic, under the both ends of the center-pole The hollow shell of side is provided with electromagnetic plate.

In the case of electromagnetic plate is cold, driving wheel is separated under the spring-force driven dual of spring with roller ball, now Moving body is driven；Band is magnetic after electromagnetic plate is powered, and with center-pole adhesive, driving wheel presses downwards with roller ball, driving wheel It is powered by a power supply, drives roller ball to rotate, now moving body drives, because roller ball is spheroid so that storage body is in right-angled bend Accessible it can be moved under even any travel route, and the moving body of active is while storage body movement is driven, Driven moving body can be in the presence of electromagnetic plate, and its driving wheel contacts downwards with roller ball, only abuts or reversely revolves Turn, speed regulation can be carried out.

Preferably, the both ends of the center-pole are stretched out in outside the hollow shell, the rolling ball portion is exposed to institute State hollow shell bottom.

Thus the rotation direction for confirming driving wheel is facilitated, convenient to install and control, the physics of transport establishment and storage body connects Touch and completed all the time by roller ball, directionless dead angle is flexibly stablized in movement.

Preferably, the axis direction of the driving wheel at least two moving bodys is parallel with the vertical circuit group, The axis direction of driving wheel at least two moving bodys is parallel with the transverse line group.

So as to ensure that storage body can obtain good power and dynamic balnce when vertically moving or transverse shifting.

Preferably, the anchor point is provided with magnet, being provided with for the storage body bottom centre is mutual with the magnet The center magnet of effect；The magnet and the center magnet are cross；The effect of the magnet and the center magnet Power is less than the driving force of the wheel group.

Criss-cross magnet and center magnet make the stop position of storage body more accurate, and storage body often stops by one By point, its site error moved can be corrected once, set the gap between adjacent storage body shorter, More compact structure, settable storage body are more.Relatively small active force does not influence the movement of storage body.

In summary, the utility model has the advantages that：

A kind of green intelligent humidity control system, located at Indoor environment bottom and Indoor environment Surface pavement layer it Between, using hidden peace and quiet, indoor air temperature can be adjusted, and can adjusts the temperature of flooring, substitutes traditional ground to warm up Ceiling radiation air-conditioning system, is occupied little space, and energy consumption is small, and area can be utilized by adding interior, and use cost is low.

Storage body and transport establishment ensure that the heat that indoor set provides fully is absorbed and transmitted, as needed to carrying out The accurate temperature regulation of designated area.Specifically, the route net color of transport establishment is unified, and with the face of Indoor environment bottom surface Color difference is obvious, gives full play to the circuit guiding function of the gray-scale sensor on storage body, in SBR, heat exchange point is simultaneously It is detained without storage body, is empty on the first vertical circuit, when needing to carry out temperature adjustment in certain region, the storage under the region It is perpendicular that energy body marches to first under the driving of wheel group and the route control of sensor group, along the transverse line where the storage body To circuit, rest on heat exchange point, laid in heat in succession and returned to original position in order afterwards, transferred heat to the region； Storage body on multiple horizontal routes needs carry out successively according to circuit during heat transfer, accurate specific so as to complete The temperature adjustment in region, it is energy-efficient, it is fast and effective.

Brief description of the drawings

Fig. 1 is the structural representation of the embodiment of the utility model one；

Fig. 2 is the top view under the chamber internal surface pave-load layer of Fig. 1 embodiments；

Fig. 3 is the structural representation of storage body；

Fig. 4 is the structural representation under another state of storage body；

Fig. 5 is the structural representation of storage body bottom；

Fig. 6 is the structural representation of transport establishment；

Fig. 7 is the structural representation of moving body.

Embodiment

The utility model is described in more detail for scheme below in conjunction with the accompanying drawings and preferably.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

Embodiment：As shown in figs. 1-7, a kind of green intelligent humidity control system, located at Indoor environment bottom 1 and building Between thing chamber internal surface pave-load layer 2, humidity control system includes temperature transition part 10, temperature transmitting assembly 20；Temperature transition part 10 include the indoor set 11 in building, the outdoor unit 12 outside building；Temperature transmitting assembly 20 includes storage body 40th, the transport establishment 50 of movement of the storage body 40 between temperature transition part 10 and temperature adjustment demand region is realized.

Indoor set 11 includes opening the return air inlet 111 in the top of indoor set 11, opened in the air-out direction level on indoor set 11 The first at least one air outlet 112, condensation-water drain 113;Indoor set 11 has upward the of at least one air-out direction Two air outlets 114；The air-out area of first air outlet 112 is more than the area for accepting air-out position of storage body 40；Indoor set 11 The first air outlet 112 on several retractable baffle plates for accepting air-out position homalographic with storage body 40 can be set；Room Interior machine 11 also includes the waste heat recovery pipe 13 located at the length direction end of indoor set 11.

Storage body 40 includes housing 41, the energy-accumulation material 42 being packaged in housing 41, and energy-accumulation material 42 stores for solid-liquid phase change Energy material, the phase transition temperature of energy storage system with solid-liquid phase change material is 18-24 DEG C.

Housing 41 includes shell body 411, inner housing 412, is formed between shell body 411 and inner housing 412 and is used to seal Fill the encapsulated space 413 of energy-accumulation material 42；Shell body 411 includes the first shell wall 4111 close to indoor set 11, positioned at shell body First roof 4112 at 411 tops, other shell walls of shell body 411 are collectively forming with the first shell wall 4111, the first roof 4112 4113.The thermal conductivity factor of first shell wall 4111 and the first roof 4112 is more than other shell walls 4113 with forming the shell of inner housing 412 The thermal conductivity factor of wall.

Air bag 4114 is installed with the inwall of first shell wall 4111 and the first roof 4112, the drive located at the bottom of storage body 40 The air pump 415 that capsule 4114 of taking offence rises flat；Storage body 40 includes the heat conduction floor 414 located at the top of storage body 40；Heat conduction floor 414 Material be cermet.

Transport establishment 50 is a route net on Indoor environment bottom surface；Line network includes interlaced vertical line Road group 51 and transverse line group 52, the crosspoint of vertical circuit group 51 and transverse line group 52 form the anchor point of storage body 40 53, vertical circuit group 51 include closest to and parallel to the first vertical circuit 511 of the length direction of indoor set 11；Anchor point 53 is wrapped Include the heat exchange point 531 that heat is put aside for storage body 40 being staggered to form of the first vertical circuit 511 and each transverse line；By The vertical circuit and transverse line of anchor point 53 form decussation circuit.

Storage body 40 includes sensor group 43, the wheel group 44 located at the bottom of storage body 40；Sensor group 43 includes four ashes Sensor 431 is spent, when the bottom centre of storage body 40 is with 53 location overlap of anchor point, each gray-scale sensor on the storage body 431 is overlapping one by one with each section of place on line of the decussation circuit of the anchor point；Sensor group 43 also includes being located at wheel group Displacement transducer on 44.

The moving body 440 that wheel group 44 is arranged for several with storage body center array, moving body 440 include and storage body 40 Hollow shell 441, the driving wheel 442 located at hollow shell hollow part top of bottom connection, located at the lower section of driving wheel 442 There is certain roller ball 443 for rolling gap with hollow shell 441；Moving body 440 also includes bearing connection driving wheel 442 and will Driving wheel 442 is set up in the center-pole 444 on hollow shell 441, and the both ends top of center-pole 444 is upper with hollow shell 441 Portion is fixed with spring 445, and the both ends bottom of center-pole 444 has magnetic, on the hollow shell below the both ends of institute's center-pole 444 Provided with electromagnetic plate 446；The both ends of center-pole 444 are stretched out in outside hollow shell 441；The part of roller ball 443 is exposed to hollow shell 441 bottoms.

The axis direction of driving wheel at least two moving bodys 440 is parallel with vertical circuit group 51, at least two movements The axis direction of driving wheel in body 440 is parallel with transverse line group 52.

Anchor point 53 is provided with magnet 54, and the bottom centre of storage body 40 is provided with the center magnet to be interacted with magnet 54 45；Magnet 54 and center magnet 45 are cross；The active force of magnet 54 and center magnet 45 is less than the driving force of wheel group 44.

Claims (10)

1. A kind of 1. green intelligent humidity control system, it is characterised in that：The humidity control system is located at Indoor environment bottom （1）With Indoor environment Surface pavement layer（2）Between, the humidity control system includes temperature transition part（10）, temperature transmission Component（20）；The temperature transition part（10）Including the indoor set in building（11）, outdoor unit outside building （12）；The temperature transmitting assembly（20）Including storage body（40）, realize the storage body（40）In the temperature transition part （10）The transport establishment of movement between temperature adjustment demand region（50）.
2. A kind of 2. green intelligent humidity control system according to claim 1, it is characterised in that：The indoor set（11）Bag Include out in the indoor set（11）The return air inlet on top（111）, open in the indoor set（11）On air-out direction it is horizontal extremely The first few one air outlet（112）, condensation-water drain（113）;The indoor set（11）With at least one air-out direction to On the second air outlet（114）；First air outlet（112）Air-out area be more than the storage body（40）Undertaking air-out The area at position；The indoor set（11）The first air outlet（112）It is upper that several and the storage body are set（40）Undertaking The retractable baffle plate of air-out position homalographic；The indoor set（11）Also include being located at the indoor set（11）Length direction end The waste heat recovery pipe in portion（13）.
3. A kind of 3. green intelligent humidity control system according to claim 1, it is characterised in that：The storage body（40）Bag Include housing（41）, be packaged in the housing（41）Interior energy-accumulation material（42）, the energy-accumulation material（42）For energy storage system with solid-liquid phase change Material, the phase transition temperature of the energy storage system with solid-liquid phase change material is 18-24 DEG C.
4. A kind of 4. green intelligent humidity control system according to claim 3, it is characterised in that：The housing（41）Including Shell body（411）, inner housing（412）, it is formed at the shell body（411）With the inner housing（412）Between be used for encapsulate The energy-accumulation material（42）Encapsulated space（413）；The shell body（411）Including close to the indoor set（11）First shell Wall（4111）, positioned at the shell body（411）First roof at top（4112）, with first shell wall（4111）, first top Wall（4112）It is collectively forming the shell body（411）Other shell walls（4113）, first shell wall（4111）With described first Roof（4112）Thermal conductivity factor be more than other described shell walls（4113）With forming the inner housing（412）Shell wall heat conduction system Number.
5. A kind of 5. green intelligent humidity control system according to claim 4, it is characterised in that：First shell wall （4111）With first roof（4112）Inwall on be installed with air bag（4114）, located at the storage body（40）The drive of bottom Move the air bag（4114）Rise flat air pump（415）；The storage body（40）Including located at the storage body（40）Lead at top Hot floor（414）；The heat conduction floor（414）Material be cermet.
6. A kind of 6. green intelligent humidity control system according to claim 1, it is characterised in that：The transport establishment（50） For a route net on Indoor environment bottom surface；The route net includes interlaced vertical circuit group（51）And transverse direction Circuit group（52）, the vertical circuit group（51）With transverse line group（52）Crosspoint form the storage body（40）Stop Point（53）, the vertical circuit group（51）Including closest to and parallel to the indoor set（11）First vertical line of length direction Road（511）；The anchor point（53）Including the described first vertical circuit（511）Described in the confession being staggered to form of each transverse line Storage body（40）Put aside the heat exchange point of heat（531）；By the anchor point（53）Vertical circuit and transverse line formed Decussation circuit.
7. A kind of 7. green intelligent humidity control system according to claim 6, it is characterised in that：Storage body（40）Including setting In the storage body（40）The sensor group of bottom（43）, wheel group（44）；The sensor group（43）Sensed including four gray scales Device（431）, when the storage body（40）Bottom centre and the anchor point（53）During location overlap, each institute on the storage body State gray-scale sensor（431）It is overlapping one by one with each section of place on line of the decussation circuit of the anchor point；The sensor Group（43）Also include being located at the wheel group（44）On displacement transducer.
8. A kind of 8. green intelligent humidity control system according to claim 7, it is characterised in that：The wheel group（44）If for The dry moving body arranged with the storage body center array（440）, the moving body（440）Including with the storage body（40） The hollow shell of bottom connection（441）, driving wheel located at the hollow shell hollow part top（442）, located at the drive Driving wheel（442）Lower section with the hollow shell（441）With the roller ball for rolling gap（443）；The moving body（440）Also The driving wheel is connected including bearing（442）And by the driving wheel（442）It is set up in the hollow shell（441）On center Bar（444）, the center-pole（444）Both ends top and the hollow shell（441）Top be fixed with spring（445）, institute State center-pole（444）Both ends bottom there is magnetic, the center-pole（444）Both ends below hollow shell be provided with electromagnetism Piece（446）；The center-pole（444）Both ends stretch out in the hollow shell（441）Outside；The roller ball（443）Reveal part For the hollow shell（441）Bottom.
9. A kind of 9. green intelligent humidity control system according to claim 8, it is characterised in that：At least two movements Body（440）In driving wheel axis direction and the vertical circuit group（51）It is parallel, at least two moving bodys（440）In Driving wheel axis direction and the transverse line group（52）It is parallel.
10. A kind of 10. green intelligent humidity control system according to claim 7, it is characterised in that：The anchor point（53） It is provided with magnet（54）, the storage body（40）Bottom centre is provided with and the magnet（54）The center magnet of interaction （45）；The magnet（54）With the center magnet（45）It is cross；The magnet（54）With the center magnet（45） Active force be less than the wheel group（44）Driving force.