CN109869854A - Flooring radiation air conditioning system and air conditioner floor component, heat preservation module, method for paving - Google Patents

Abstract

The present invention discloses a kind of flooring radiation air conditioning system and air conditioner floor component, heat preservation module, method for paving, the periphery of the heat preservation module are provided with assembled interface portion, with according to being laid with the space successively assembled heat preservation module；And the upper surface of the heat preservation module offers pipe slot, and is configured that the pipe slot on the adjacent heat preservation module can be connected to the heat pipe installation access to form the air conditioner floor component according to behind laying the space successively assembled heat preservation module.It can effectively be promoted by structure optimization and be laid with operating efficiency and maintenance convenience, have both good mute, sound insulation function, on the basis of integrally promoting customer experience, provide technical guarantee to obtain ideal heat exchange efficiency.

Description

Flooring radiation air conditioning system and air conditioner floor component, heat preservation module, method for paving

Technical field

The present invention relates to heating floor technical fields, and in particular to a kind of flooring radiation air conditioning system and air conditioner floor group Part, heat preservation module, method for paving.

Background technique

It is well known that floor panel heating meets energy-saving building technology development with it compared to cooling fin heating system Feature is widely applied.Specifically, entire ground is evenly heated by the heating agent in floor, utilizes the rule of terrestrial surface radiation It is conducted from the bottom to top, achievees the purpose that heating.

The existing ground heating system using hot water passes through mainly in embedded underground metal or the comb of synthetic resin material The boiler for being set to indoor or outdoors generates heat source to heat water, establishes thermal medium circulation.It is embedded to be limited to concrete construction The limitation of pipeline, when water leakage fault occurs, it is not easy to find out correct leakage point, be repaired even if finding out leakage point and also facilitating Reason, and operating expenses is also high.In addition, the duty cycle of the paving mode of existing ground heating system is longer, and operation ease compared with Low, the operation experience of operator directly affects the laying precision on pipeline and floor, in addition to operating efficiency is low, ground heating system it is good Use state also can not effectively be ensured.

In view of this, it would be highly desirable to which the pavement technique for existing floor that looks for another way optimizes, to overcome existing skill Drawbacks described above existing for art.

Summary of the invention

In order to solve the above technical problems, the present invention provides a kind of flooring radiation air conditioning system and air conditioner floor component, heat preservation Module, method for paving can be promoted effectively by structure optimization and be laid with operating efficiency and maintenance convenience, integrally promote client On the basis of experience, technical guarantee is provided to obtain ideal heat exchange efficiency.

The heat preservation module of air conditioner floor component provided by the invention, periphery is provided with assembled interface portion, according to laying The space successively assembled heat preservation module；And the upper surface of the heat preservation module offers pipe slot, and is configured that according to laying Successively after the assembled heat preservation module, the pipe slot on the adjacent heat preservation module can be connected to forming the air-conditioning in space The heat pipe of board group part installs access.

Preferably, material of the heat preservation module using thermal coefficient less than 0.04w/m.k is made, and density is 100~160 ㎏/m³。

Preferably, the material is polystyrene foam.

Preferably, the assembled interface portion includes evagination plug-in mounting structure and indent contained structure, respectively with it is adjacent described in The indent contained structure and evagination plug-in mounting structure assembly adaptation of the assembled interface portion of heat preservation module.

Preferably, after the completion of assembly between the adaptation indent contained structure and evagination plug-in mounting structure of the adjacent heat preservation module Gap be 0.05mm~0.3mm.

Preferably, the lower edge of the evagination plug-in mounting structure has interior receipts guide part.

Preferably, the top of the heat preservation module has the protrusion being intervally arranged, and is formed between the adjacent protrusion and is mutually handed over The wrong pipe slot；The protrusion has a lonely shape peripheral surface, and the minimum dimension being configured that between the adjacent protrusion with The outer diameter of heat pipe to be installed is adapted to.

Being preferably located at the protrusion at the heat preservation module outer rim is the first protrusion, is located in the heat preservation module The protrusion in portion is the second protrusion；And after being configured that the adjacent heat preservation module splicing, adjacent described first at outer rim is convex Portion's docking can form second protrusion；Alternatively, at least side outer rim of the heat preservation module has the water extended to form Flat expanding section.

The present invention also provides a kind of heat preservation module of air conditioner floor component, the upper surface of the heat preservation module offers pipe and inserts Slot, and be configured that according to the pipe slot behind laying the space successively assembled heat preservation module, on the adjacent heat preservation module The heat pipe installation access to form the air conditioner floor component can be connected to.

Preferably, material of the heat preservation module using thermal coefficient less than 0.04w/m.k is made, and density is 100~160 ㎏/m³。

Preferably, the gap after the completion of assembly between the adjacent heat preservation module is 0.05mm~0.3mm.

Preferably, the top of the heat preservation module has the protrusion being intervally arranged, and is formed between the adjacent protrusion and is mutually handed over The wrong pipe slot；The protrusion has a lonely shape peripheral surface, and the minimum dimension being configured that between the adjacent protrusion with The outer diameter of heat pipe to be installed is adapted to.

Being preferably located at the protrusion at the heat preservation module outer rim is the first protrusion, is located in the heat preservation module The protrusion in portion is the second protrusion；And after being configured that the adjacent heat preservation module splicing, adjacent described first at outer rim is convex Portion's docking can form second protrusion；Alternatively, at least side outer rim of the heat preservation module has the water extended to form Flat expanding section.

The present invention also provides a kind of air conditioner floor components, the heat pipe including floor and below the floor；Its feature It is, further includes foregoing heat preservation module；Wherein, multiple heat preservation modules are successively assembled forms heat preservation alignment layers, institute Heat pipe is stated in the pipe slot of the heat preservation module.

Preferably, the bottom surface hot pressing on the floor is provided with elastic cushion layer.

Preferably, matcoveredn, wearing layer, decorative layer and Withstand voltage layer are from top to bottom set gradually on the floor, it is described Withstand voltage layer is made of the material of following component volume ratio: PVC: auxiliary agent: calcium powder: graphene=1:(0.05~0.15): (2.5 ~4): (0.1~0.3).

The present invention also provides a kind of flooring radiation air conditioning systems, including water collecting and diversifying device and control unit；The water collecting and diversifying device For controlling the on state of trunk water supply bus and trunk return water bus respectively with indoor each water supply branch line and return water branch line；It is right It should be in each terminal user, further includes: foregoing air conditioner floor component；At least one for water diverter, manifold port with The trunk water supply bus connection, diffluence pass are connected to the heat pipe entrance of each heating area；At least one backwater diffluence Device, manifold port are connected to the trunk return water bus, the heat pipe outlet of diffluence pass and each heating area.

The present invention also provides a kind of method for paving of aforementioned air conditioner floor component, include the following steps:

S1 selects keel, and the width of the keel and the outer diameter of pipeline are identical；

S2, laydown, the direction along pipeline arrangement are successively laid side by side more keel；

S3, assembled heat preservation module are sequentially completed each laying space using the outer rim of the keel as initial position is laid with The assembly of inside holding module；

S4, installation pipeline take out the keel of the pipeline installed position, complete the installation of the corresponding pipeline.

Preferably, in step S4, two pipelines being disposed adjacent are a pipeline installation group, and the adjacent pipeline The keel not taken out are provided between installation group.

Preferably, the outer diameter is the through-flow pipe outside diameter of the pipeline, or the guarantor to be set in outside the draft tube Warm pipe outside diameter.

For the flooring mode on floor, the invention proposes completely new modular solutions.Specifically, heat preservation mould is utilized Block is fast with the basis composition being laid with as heat pipe, and in this, as the installation positioning support of heat pipe, thus according to laying space Integral layout scheme is completed rapidly and accurately heat pipe laying.Compared with prior art, there is following Advantageous using this programme Effect:

First, the laying operating efficiency on floor can be effectively improved, construction period is effectively shortened, and can be evaded completely mixed The defect that solidifying soil construction causes heat pipe to damage；Meanwhile the modularized design that this programme proposes, possibility can be quickly handled in time The leakage accident of generation, maintenance construction cost are effectively reduced, and are in addition significantly reduced to end-user experience generation It influences.

Second, the heat preservation module in this programme has had both heat preservation (cold insulation, thermal protection) and the pinpoint dual function of heat pipe, On the one hand, the setting of heat preservation module forms being effectively isolated for heat pipe radiation, reduces heat and scatters and disappears in vain, to effectively assist Promote the radiating efficiency of air conditioner floor；On the other hand, the heat pipe precise positioning ability of this programme mentions for laying construction early-stage preparations Reliable guarantee has been supplied, has prepared determine in advance before the associated constructions such as heat pipe length, associated interface element, thus greatly reduce The unnecessary adjustment being likely to occur in process of deployment further improves site operation efficiency.

Third, heat preservation module are preferably made using using thermal coefficient less than the material of 0.04w/m.k, and density is 100~ 160㎏/m³, on the one hand, the heat preservation module has preferable load-bearing property, can effectively evade heat preservation module stress and deformation, thus Ensure to be arranged in the heat pipe in heat preservation module pipe slot and is in stable always；Meanwhile ground injustice is can absorb by its Light deformation Defect, guarantee whole system uniform force, so it is good for geothermal system, reliably run and provide guarantee.

4th, in a preferred embodiment of the invention, it is adapted the gap between indent contained structure and evagination plug-in mounting structure Preferably 0.05mm~0.3mm realizes mute guarantee in conjunction with the selection of its material, has both preferable sound insulation function, can be further Improve user experience.

Detailed description of the invention

Fig. 1 shows the schematic diagram of air conditioner floor component described in specific embodiment；

Fig. 2 is the main view of heat preservation module described in embodiment one；

Fig. 3 is the bottom view of Fig. 2；

Fig. 4 is the rearview of Fig. 2；

Fig. 5 is adjacent heat preservation module assembly position partial schematic diagram；

Fig. 6 is the assembled relation schematic diagram of typical case of heat preservation module described in embodiment one；

Fig. 7 shows the schematic diagram of air conditioner floor component described in embodiment two；

Fig. 8 is the assembled relation schematic diagram of typical case of heat preservation module described in embodiment two；

Fig. 9 shows the layer decomposition diagram on floor；

Figure 10 is the functional block diagram of flooring radiation air conditioning system described in specific embodiment；

Figure 11-Figure 13 respectively illustrates the process signal of mating formation of air conditioner floor component method for paving described in specific embodiment Figure.

In figure:

It is heat pipe 1, heat preservation module 2,2 ' of heat preservation module, heat preservation module 2 ", assembled interface portion 21, evagination plug-in mounting structure 211, interior Receive guide part 2111, indent contained structure 212, pipe slot 22, protrusion 23, the first protrusion 231, the second protrusion 232, horizontal extension Section 24, floor 3, protective layer 31, wearing layer 32, decorative layer 33, Withstand voltage layer 34, elastic cushion layer 35；

Water collecting and diversifying device 4, control unit 5 are divided for water diverter 601, backwater diffluence device 602, for water diverter 603, return water Flow device 604, fan coil 7, heat source 8, circulating pump 9, water mixing valve group 10, temperature controller 11, by-passing valve 12, two-port valve 13, terminal 14；

Keel 15, pipeline 16.

Specific embodiment

It is with reference to the accompanying drawing and specific real in order to make those skilled in the art more fully understand technical solution of the present invention Applying example, the present invention is described in further detail.

Without loss of generality, this Shen is described in detail using air conditioner floor component as shown in the figure as description main body in present embodiment The modularization improvement project that please be propose.It should be appreciated that the concrete shape of its heat preservation module structure is to the claimed skill of the application Art scheme does not constitute substantive limitation.

Referring to Figure 1, wherein Fig. 1 shows the schematic diagram of air conditioner floor component described in specific embodiment.It is whole On, which successively includes surface layer floor, insulating layer, the heat pipe pipeline in insulating layer from the bottom to top.Wherein, needle To carrying and heat preservation etc. functions implementation, this programme use modularization assembling design, according to laying space actual conditions, Heat preservation module 2 successively arranges and is spliced to form heat preservation alignment layers, and the installation of heat pipe 1 is carried out with this, so as to effectively avoid medium The invalid of heat scatters and disappears.In actual use, the medium temperature in heat pipe 1 is adjusted according to indoor humidity, to reach refrigeration, system The room temperature regulation function of heat.Present embodiments provide for two kinds of preferred embodiments of heat preservation module 2.

Embodiment one:

Please also refer to Fig. 2-4, wherein Fig. 2 is the main view of heat preservation module, and Fig. 4 is the bottom view of heat preservation module, Fig. 5 For the rearview of heat preservation module.

In the present solution, the periphery of heat preservation module 2 is provided with assembled interface portion 21, it thus can be adjacent according to space realization is laid with The successively assembly of heat preservation module 2；Here, assembled interface portion 21 include evagination plug-in mounting structure 211 and indent contained structure 212, two Person's geomery is consistent, so as to assembly.

As shown, the indent contained structure 212 of the evagination plug-in mounting structure 211 of 2 a side of heat preservation module and relative side Corresponding matching setting, specifically, respectively with the indent contained structure 212 and evagination of the assembled interface portion 21 of adjacent heat preservation module 2 The assembled adaptation of plug-in mounting structure 211, thus can laterally embark on journey, it is longitudinal in column arrange.As shown in the figure, the evagination of every side is inserted Assembling structure 211 and indent contained structure 212 are successively spaced setting, the entire side of the heat preservation module 2 directly participate in splicing and Carrying, can effectively increase unilateral connection reliability.It should be noted that evagination plug-in mounting structure 211 and indent contained structure 212 Setting quantity is not limited to as shown in the figure, can specifically be set according to actual product bearing capacity demand.In addition, evagination inserts Structure 211 and indent contained structure 212 are not limited to dovetail channel-shaped shown in figure, in fact, being needed based on quickly splicing function Compatible other shapes, such as, but not limited to T font etc. can also be used.

As shown, offering pipe slot 22 on heat preservation module 2, and it is configured that space is successively assembled to be kept the temperature according to being laid with After module 2, the pipe slot 22 on adjacent heat preservation module 2 can be connected to the heat pipe installation access to form air conditioner floor component, please together Referring to Fig. 6, the figure shows the assembled relation schematic diagrams of the typical case of heat preservation module described in present embodiment.Such as, but not limited to, scheme The middle exemplary installation access signal of dotted line.It being designed as a result, according to stringing, heat pipe 1 is accordingly arranged in each heat preservation module 2, And the whole stringing of additional space can be completed to maneuverability based on the connected relation.Certainly, it is also convenient for according to the actual situation Adjust coil pipe direction.

In the present solution, 2 body part of heat preservation module of 1 lower section of heat pipe forms the barrier transmitted downwards, therefore heat can be most Limits are communicated up.Further, in order to obtain good heat preservation (thermal protection, cold insulation) performance, it is preferred to use thermal coefficient In 0.04w/m.k hereinafter, density is 100~160 ㎏/m³Material, such as, but not limited to polystyrene foam or fire-retardant stone Black polystyrene foamed material can be effectively reduced heat and scatter and disappear in vain downwards, to provide quickly to improve room temperature Effective guarantee.It specifically can the injection molding in grinding tool.

In addition, the evagination plug-in mounting structure 211 and indent contained structure 212 of assembled interface portion 21, can be further configured are as follows: spell Gap S after the completion of dress between the adaptation indent contained structure 212 and evagination plug-in mounting structure 211 of adjacent heat preservation module 2 is 0.05mm~0.3mm.Fig. 5 is referred to, the figure shows adjacent heat preservation module assembly position partial schematic diagrams.The setting in the gap So that two neighboring heat preservation module 2 all has displacement in lateral, longitudinal direction and obliquely, facilitate the assembled operation of progress, meanwhile, During adapting to Light deformation, assembled interface portion 21 can also adaptively adjust the posture of heat preservation module itself, avoid user's row Walk issuable extruding noise.

In addition, the lower edge of each evagination plug-in mounting structure 211 has interior receipts guide part 2111.The group of adjacent heat preservation module 2 During dress, the interior receipts guide part 2111 of one evagination plug-in mounting structure 211 can be fast implemented and another one indent contained structure 212 It is basic to the packaging efficiency for just, substantially increasing heat preservation module 2.

In conjunction with shown in Fig. 2 and Fig. 6, there are the protrusion 23 being intervally arranged, 23 shapes of adjacent projection at the top of heat preservation module 2 At interlaced pipe slot 22, staggered pipe slot 22 makes the design of system stringing more flexible.It is understood that pipe is inserted The setting of slot 22 is not limited to uniformly distributed transverse and longitudinal shown in figure and interlocks, with specific reference to product material selection and technique implementation Selection is adjusted, as long as the function of meeting flexible stringing needs within the scope of the present application.

Further, there is lonely shape peripheral surface to have both in addition to clamping action convenient for being adapted to the heat pipe of bending part for protrusion 23 Good guiding role.

Preferably, the minimum dimension W between adjacent projection 23 is adapted to the outer diameter of heat pipe 1 to be installed, refer to Shown in Fig. 6.It should be understood that " size fit " here refers to the clamping of the material property based on heat preservation module 2 and positioning heat The size relationship of pipe 1, rather than theoretic identical size.

It is skidded off as modularized design in order to enable avoiding stringing between adjacent heat preservation module 2 to avoid heat pipe, this programme The arrangement of protrusion 23 is advanced optimized, the protrusion 23 at 2 outer rim of heat preservation module is the first protrusion 231, is located at and protects The protrusion 23 at warm 2 middle part of module is the second protrusion 232；And after being configured that adjacent heat preservation module .2 splicing, at outer rim adjacent the One protrusion 231 can form second protrusion 232, that is to say, that can equally be formed at adjacent outer rim and 232 profile of the second protrusion Roughly the same protrusion, it is ensured that be laid with the consistency of space connection type.Obviously, it is with the heat preservation module 2 at such outer rim Standard module.

Certainly, actually mat formation space in the presence of the situation that can not all complete laying by standard module, and hence it is also possible to using Such design, at least side outer rim of heat preservation module 2 has the horizontal extension section 24 extended to form, specific double as shown in Figure 6 Chain-dotted line exterior domain.As shown in the figure, 2 ' of heat preservation module is only unilateral has horizontal extension section 24, is suitable at the position space Lin Bian； Heat preservation module 2 " perpendicular two sides have horizontal extension section 24, be suitable for space corner position at.It is designed in this way, it can be true Longitudinal flatness of marginal position and corner location is protected, and the absolute resistance that heat distributes downwards possibility can be formed being laid with space Every to ensure to obtain preferable system thermal efficiency.

Here, the setting of the horizontal extension section 24 is not limited to two kinds of situations as shown in the figure, mats formation for more special Position, can with three side outer rims have the horizontal extension section 24, can also two opposite side outer rims the horizontal extension section is set.But it needs It " is that auxiliary matches, the usage amount of above-mentioned standard module is maximum it will be clear that 2 ' of heat preservation module and heat preservation module 2.

In addition, the cross section of the second protrusion can be using various forms of lonely shape peripheral surfaces, such as, but not limited in figure Shown in circle, or ellipse, the rectangle (not shown) with rounding etc., as long as having heat pipe installation guiding fitting to make With.

Embodiment two:

Refer to Fig. 7 and Fig. 8, wherein Fig. 7 shows the schematic diagram of air conditioner floor component described in embodiment two, and Fig. 8 is figure The assembled relation schematic diagram of the typical case of heat preservation module shown in 7.

The present embodiment is identical as the core idea of embodiment one, and the heat preservation module 2 that difference is that this programme provides is not set Assembled interface portion, in order to clearly show the difference of this programme and embodiment one and contact, identical function structure is in figure with same Label is shown.

As shown in connection with fig. 8, pipe slot 22 is offered on heat preservation module 2, and is configured that space is successively assembled to be protected according to being laid with After warm module 2, the pipe slot 22 on adjacent heat preservation module 2 can be connected to the heat pipe installation access to form air conditioner floor component；And it spells Gap after the completion of dress between adjacent heat preservation module 2 is 0.05mm~0.3mm, and good assembly between heat preservation module 2 can be realized Relationship, while can effectively evade the generation of intermodule extrusion noise in actual use.Such as, but not limited to, dotted line in figure Exemplary installation access signal.It is designed as a result, according to stringing, heat pipe 1 is accordingly arranged in each heat preservation module 2, and base The whole stringing of additional space can be completed to maneuverability in the connected relation.

Similarly, there is lonely shape peripheral surface to have both in addition to clamping action good convenient for being adapted to the heat pipe of bending part for protrusion 23 Good guiding role.It is skidded off as modularized design in order to enable avoiding stringing between adjacent heat preservation module 2 to avoid heat pipe, this Scheme advanced optimizes the arrangement of protrusion 23, and the protrusion 23 at 2 outer rim of heat preservation module is the first protrusion 231, position Protrusion 23 in the middle part of heat preservation module 2 is the second protrusion 232；And after being configured that adjacent heat preservation module .2 splicing, the phase at outer rim Adjacent first protrusion 231 can form second protrusion 232, that is to say, that can equally be formed at adjacent outer rim and the second protrusion 232 The roughly the same protrusion of profile, it is ensured that be laid with the consistency of space connection type.

Other technologies details is the same as example 1, and details are not described herein.

As shown in Figure 1, the air conditioner floor component uses the design concept of modular unit, floor, heat pipe and heat preservation Blocking hierarchical design is aided with the module erection method of heat preservation alignment layers and the embedded implementation of heat pipe and heat preservation module, On the basis of meeting system stable operation acquisition good thermal efficiency, efficiency of mating formation is substantially increased, while also reducing maintenance dimension Protect cost.

Wherein, the bottom surface hot pressing on the floor 3 is provided with elastic cushion layer 35, to increase foot-operated comfort, preferably, The elastic cushion layer 35 can be used cork dust and be made, and in addition to obtaining preferably foot-operated comfort, the heat pipe heat for being additionally favorable for lower section is fast Speed effectively uploads.

As shown in connection with fig. 9, the figure shows the layer decomposition diagrams on floor.On elastic cushion layer 35, from top to bottom according to Secondary setting matcoveredn 31, wearing layer 32, decorative layer 33 and Withstand voltage layer 34, it is once-forming specifically to can be used multi hot press technique, Formaldehydeless class glue bonds and the influence of generation.Wherein, protective layer 31 preferably has the UV light-cured resin of anti-ultraviolet function, To prevent from causing the weather stain of high score floor due to ultraviolet light；Wearing layer 32 uses PVC calendering formation, and thickness is preferably 0.3mm ~0.5mm, it is ensured that for a long time using with preferable abrasion resistant effect, anti-skidding Deng Ji≤R9 (anti-skidding test in 51130 floor DIN Grade)；Decorative layer 33 can need to be designed according to different clients, to meet the individual hobby of particular client.

Wherein, principal carrier sheet of the Withstand voltage layer 34 as floor, it is preferred to use the material of following component volume ratio is made: PVC: auxiliary agent: calcium powder: graphene=1:(0.05~0.15): (2.5~4): (0.1~0.3), thickness can be 3mm~5mm, In, the selection of auxiliary agent is such as, but not limited to silane coupling agent, to prevent from mutually separating in preparation process.Through manufacturing experimently, detection data knot Fruit shows the addition of calcium powder so that the flame retardant effect on floor reaches B1 (GB/T8624), and can reduce the thermal expansion system of plate body Number, test data show that (1/ DEG C of (1/K) 20 takes the photograph the convenient thermal expansion coefficient of the calcium powder additional amount of the volume ratio up to 0.64/1000 Family name's degree)；The addition of 3mm~5mm thickness graphene can effectively promote the thermal conductivity on floor while increasing plate body intensity. The floor 3 has waterproof, anti-skidding and durable advantage, can be laid on the regions such as toilet or kitchen family, balcony simultaneously, whole to use Material style is consistent, has preferable user experience.It should be noted that the floor that present embodiment provides, hot-forming work Where the not this Applicant's Abstract graph central inventive point of skill, and those skilled in the art may be implemented based on the prior art, therefore no longer superfluous herein It states.

In addition, the outer diameter of heat pipe can be preferably 12mm based on the Modularized installing structure that this programme provides.It is lesser Heat pipe diameter opposite can reduce adjacent tubes separation, in balance system on the basis of the flow resistance of heat transferring medium, can get Optimal system thermal efficiency.Test data shows system thermal efficiency up to 140 watts/m²~300 watts/m²。

In addition to heat preservation module and air conditioner floor component, present embodiment also provides a kind of flooring radiation air conditioning system, does not lose Generality, present embodiment are described in detail the application and are proposed using flooring radiation air conditioning system shown in Figure 10 as description basis System Working Principle, which provides refrigeration for three heating areas or heats medium.It should be appreciated that heating shown in figure The particular number in region does not constitute substantive limitation to the claimed technical solution of the application.

As shown in Figure 10, which includes water collecting and diversifying device 4 and control unit 5；Wherein, water collecting and diversifying device 4 For controlling trunk water supply bus G and trunk return water bus the H on state with indoor each water supply branch line and return water branch line respectively； Corresponding to each terminal user, including the heat pipe 1 being placed in below each heating area (shown in figure chain lines frame) floor, room I Smaller with the area in room II, disk sets a heat pipe 1, and the area in room III is larger, and disk sets two heat pipes 1.Wherein, room I Heat pipe 1 and room II heat pipe 1 share one group for water diverter 601 and backwater diffluence device 602, two heat pipes 1 in room III Using one group for water diverter 603 and backwater diffluence device 604.

Specifically, it is connected to for the diffluence pass of water diverter 601,603 with 1 entrance of heat pipe of each heating area, manifold port It is connected to by supplying water branch line accordingly with trunk water supply bus G；The diffluence pass of backwater diffluence device 602,604 and each heating area 1 outlet of heat pipe, manifold port are connected to by corresponding return water branch line with trunk return water bus H.It should be appreciated that as shown in the figure Be respectively set to two for water diverter and backwater diffluence device, certainly, according to the practical heating demands of particular user, can also divide It is not set as one or other are a plurality of.So set, can effectively evade the hot back segment of leading portion for large area heating Cold situation, and then can realize the Homogeneouslly-radiating of each heating area.In addition, applying unit current divider (for water diverter and returns Water diverter) system house lead in after water supply branch line can be placed on indoor moving-wire (user's track route), correspondingly, heat pipe 1 Line is arranged in heating area (room), in this way, unit current divider can be placed in heating area inlet, thus can reduce water supply Tap line length further increases radiating efficiency, and convenient for construction.

As previously mentioned, three of flooring radiation air conditioning system shown in Figure 10 in Heating Room, room I and room II are total With one group for water diverter and backwater diffluence device, room III is independently using one group for water diverter and backwater diffluence device.Here, it is To preset the heat pipe arrangement quantity that each heating area is arranged in unit heat-sinking capability, that is to say, that, it is assumed that default unit heat radiation energy Power is 20m², room area 40m², then two heat pipes should be arranged in the heating area；Meanwhile one of unit current divider Diffluence pass is similarly adapted to 20m²Default unit heat-sinking capability.It wherein, can be with one for two diffluence pass of water diverter 603 The entrance of two heat pipes 1 of heating area (room III) is connected to, and two diffluence pass of backwater diffluence device 404 can be with a heating area The outlet of two heat pipes 1 in domain (room III), the exemplary illustration in room III as shown in Figure 10；Unit is preset based on this Heat-sinking capability can be in this way, two diffluence pass for water diverter 401 can be with adjacent heating area (room I and room Between heat pipe 1 II) entrance connection, two diffluence pass of backwater diffluence device 602 can be with adjacent heating area (room I and room II) outlet of heat pipe 1.Certainly, for the situation for only needing to meet a default unit heat-sinking capability, one group of water supply is shunted Device and backwater diffluence device only have that a diffluence pass is connected to, another diffluence pass blocks.

In order to obtain more preferably user experience, the configurable fan coil 7 of each heating area (one can also be selected), each blower The entrance and exit of coil pipe 7 is connected to wind disk water supply branch line and wind disk return water branch line respectively, so with trunk water supply bus G and master Dry return water bus H establishes fan coil performance loop.When needing to freeze or heat, start fan coil 7 and ground simultaneously first Heat pipe 1 can be rapidly achieved comfortable room temperature；Fan coil 7 is shut down again, and room temperature is kept by ground heat pipe 1, is had preferable User experience.

Specifically, the flooring radiation air conditioning system is also settable for acquiring the first temperature sensor of room temperature, with And the second temperature sensor (not shown) for acquiring outdoor temperature, using the basis as accurate temperature controlling.In addition, system Heat source 8 is preferably air source heat pump, and the outdoor temperature signal that control unit 5 can be acquired according to second temperature sensor obtains current The judging result of seasonal mode outputs control signals to the air source heat pump, so that air source heat pump exports cold water or hot water To trunk water supply bus G.That is, then system is determined as season of freezing, air-source heat when outdoor temperature is 30 degrees Celsius Pump exports cold water to trunk water supply bus G based on control signal；When outdoor temperature is 5 degrees Celsius, then system is judged to heating Season, air source heat pump are based on control signal and export hot water to trunk water supply bus G.

It is understood that the heat source of flooring radiation air conditioning system may be that gas furnace, earth source heat pump or concentration supply Heating system.

Wherein, it is provided with circulating pump 9 on trunk water supply bus G, is set on the trunk water supply bus G of 9 upstream side of circulating pump It is equipped with the water mixing valve group 10 that can be connected to trunk return water bus H, to adjust the medium temperature of trunk water supply bus G output.Refrigeration Under state, if the medium temperature in trunk water supply bus G is too low, water mixing valve group 10, the high temperature in trunk return water bus H are opened Medium can be mixed into heating；Under heating state, if the medium temperature in trunk water supply bus G is excessively high, water mixing valve group 10 is opened, Cryogenic media in trunk return water bus H can be mixed into heating, meet the system demand for control of temperature rise or temperature drop.The water mixing valve group 10 preferably threeway floating-point valve, control units 5 can be believed according to the room temperature signal output control that the first temperature sensor acquires Number to threeway floating-point valve 7 and circulating pump 9 control terminal and fan coil 7 control terminal, realize refrigeration or heating.In the process, The control terminal of corresponding water collecting and diversifying device 4 can be adjusted according to the instruction of the temperature controller 11 in heating area, for example it is assumed that room III is long Time nobody, then without opening corresponding heat pipe branch line.Here, which instructs to control unit 5, it manages concentratedly and controls so as to control unit 5, it certainly, can also be by air-blower control instruction input to the control terminal of fan coil 7, directly Connect the start and stop according to user's control instruction control fan coil 7.

After system is shut down, there are downstream side water collecting and diversifying devices 4 to be turned off and the situation of the delay shutdown of circulating pump 9, in order to improve The security and stability of system operation, as further preferred, the trunk water supply bus G and trunk return water in 9 downstream side of circulating pump are total Normally closed type by-passing valve 12 is provided between line H, which is configurable to opened by pressure safety valve (not shown), when When the pressure of trunk water supply bus G is greater than secure threshold, safety valve conducting；Or automatically controlled peace shown in figure can also be used Full valve, control unit 5 can be according to the pressure output opening control signals of the trunk water supply bus G in 9 downstream side of circulating pump, until automatically controlled The control terminal of safety valve realizes conducting release, avoids system element under high pressure impaired.

In addition, two-port valve 13 can be provided on wind disk return water branch line, to adjust the on state of corresponding branch line or through-flow Amount.Certainly, which may also be arranged on wind disk water supply branch line or is respectively provided with two-port valve 13 on two branch lines.It is preferred that Ground, the two-port valve 13 are automatically controlled two-port valve, and control unit 5 is obtained also according to the room temperature signal that the first temperature sensor acquires The judging result of fan coil 7 is opened or shut down, and outputs control signals to the control terminal of automatically controlled two-port valve 13.

For the ease of improving the convenience of system control, which may further include WIFI module, WIFI mould The setting of block can be used for receiving to be instructed by the user's control that terminal 14APP is issued, and the system under terminal user authority is transported Row information is transmitted to terminal 14APP, and user is facilitated to check in time, and " system operation information " here can be different classes of feedback Information, such as, but not limited to, system operation data, abnormality are reminded etc..Certainly, control unit 5 can also pass through bluetooth mould Block receives the user's control instruction that terminal 14APP is issued, and issues the system operation information under the terminal user authority.

In addition, in order to which the quick scene of progress is mated formation operation, while effect more neat appearance of mating formation, present embodiment is provided A kind of method for paving of above-mentioned air conditioner floor component.Please also refer to process schematic diagram of mating formation shown in Figure 11, Figure 12 and Figure 13.

Step 1 selects keel 15.15 width of keel is identical as 16 outer diameter of pipeline.Here, " identical " refers to that keel 15 take After out, pipeline 16 smooth can be installed to 15 position of keel, and neighbouring relations are coincide.Certainly, in order to avoid distal end thermal loss, It is preferred that insulating tube (not shown) can be set with outside the draft tube of main line, which such as, but not limited to uses rubber and plastic Material is made.It is understood that 16 outer diameter of pipeline in this programme in size relationship, is specifically as follows the logical of the pipeline 16 Flow tube outer diameter, or the heat preservation pipe outside diameter being set in outside draft tube.

Step 2, laydown 15.Corresponding to each pipeline 16, along the direction that pipeline 16 is arranged successively laydown 15, As shown in Figure 9.It should be noted that each space that is laid with as shown in the figure is using rectangle as exemplary illustration, it should be understood that be laid with The shape in space does not constitute substantive limitation to the core idea of this laying method.

Step 3, assembled heat preservation module.Using the outer rim of keel 15 as initial position is laid with, it is empty to be sequentially completed each laying Between inside holding module 2 assembly, as shown in Figure 10.

Step 4, installation pipeline 16.The keel 15 of the corresponding installed position of pipeline 16 are taken out, the peace of pipeline 16 is completed Dress, as shown in figure 11.As further preferred, two root canal roads 16 being disposed adjacent are a pipeline installation group A, and adjacent tubes The keel 15 not taken out are provided between installation group A, so set, the keel 15 not taken out between adjacent tubes installation group A, it can Secure support is provided after the completion of Floor Covering, avoids the problem that respective line 16 is pressurized and causes to damage appearance.

Finally, carrying out Floor Covering.

Above-mentioned method for paving is effectively utilized keel as mat formation basic component, and mating formation in this, as heat preservation module 2 Original bench mark is sequentially completed mating formation for heat preservation module 2, the equal position of the heat preservation module of off-standard size from keel 15 as shown in figure 12 It is easy to construct, and appearance is uniform on the basis of not influencing radiating efficiency in the edge corner for being laid with space；In particular, The width dimensions selection of keel 15 is consistent with the diameter of pipeline 16, and offset after the completion of the laying of pipeline 16 with adjacent floor module 2 limit , pipeline will not generate position change in use process, it is ensured that the service life and pipeline connecting parts of pipeline are more reliable and more stable.

To sum up, the modular floor heat-exchanging component that present embodiment provides is, it can be achieved that fast spreading operation, easy access； With the feature to block water, flame retardant property is good, environment friendly and pollution-free.Meanwhile, it is capable to whole pavement thickness effectively be controlled, in current layer height In limited space, there is preferable user experience.

The above is only the preferred embodiment of the present invention, it is noted that those skilled in the art are come It says, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications also should be regarded as Protection scope of the present invention.

Claims (20)

1. the heat preservation module of air conditioner floor component, which is characterized in that the periphery of the heat preservation module is provided with assembled interface portion, with According to being laid with the space successively assembled heat preservation module；And the upper surface of the heat preservation module offers pipe slot, and is configured that Behind laying the space successively assembled heat preservation module, the pipe slot on the adjacent heat preservation module can be connected to form institute State the heat pipe installation access of air conditioner floor component.

2. heat preservation module according to claim 1, which is characterized in that the heat preservation module is less than using thermal coefficient The material of 0.04w/m.k is made, and density is 100~160 ㎏/m³。

3. heat preservation module according to claim 2, which is characterized in that the material is polystyrene foam.

4. heat preservation module according to any one of claim 1 to 3, which is characterized in that the assembly interface portion includes outer Convex plug-in mounting structure and indent contained structure accommodate with the indent of the assembled interface portion of the adjacent heat preservation module tie respectively Structure and evagination plug-in mounting structure assembly adaptation.

5. heat preservation module according to claim 4, which is characterized in that the adaptation of the adjacent heat preservation module after the completion of assembled Gap between indent contained structure and evagination plug-in mounting structure is 0.05mm~0.3mm.

6. heat preservation module according to claim 5, which is characterized in that the lower edge of the evagination plug-in mounting structure has interior receipts Guide part.

7. heat preservation module according to claim 4, which is characterized in that the top of the heat preservation module, which has, to be intervally arranged Protrusion forms the interlaced pipe slot between the adjacent protrusion；The protrusion has lonely shape peripheral surface, and configures Are as follows: the minimum dimension between the adjacent protrusion is adapted to the outer diameter of heat pipe to be installed.

8. heat preservation module according to claim 7, which is characterized in that the protrusion at the heat preservation module outer rim For the first protrusion, the protrusion in the middle part of the heat preservation module is the second protrusion；And it is configured that

After adjacent heat preservation module splicing, the adjacent first protrusion docking at outer rim can be formed one it is described second convex Portion；

Alternatively, at least side outer rim of the heat preservation module has the horizontal extension section extended to form.

9. the heat preservation module of air conditioner floor component, which is characterized in that the upper surface of the heat preservation module offers pipe slot, and matches Be set to: behind laying the space successively assembled heat preservation module, the pipe slot on the adjacent heat preservation module can be connected to Form the heat pipe installation access of the air conditioner floor component.

10. heat preservation module according to claim 9, which is characterized in that the heat preservation module is less than using thermal coefficient The material of 0.04w/m.k is made, and density is 100~160 ㎏/m³。

11. heat preservation module according to claim 10, which is characterized in that after the completion of assembled between the adjacent heat preservation module Gap be 0.05mm~0.3mm.

12. the heat preservation module according to any one of claim 9 to 11, which is characterized in that the top of the heat preservation module With the protrusion being intervally arranged, the interlaced pipe slot is formed between the adjacent protrusion；The protrusion has outside lonely shape Perimeter surface, and it is configured that the minimum dimension between the adjacent protrusion is adapted to the outer diameter of heat pipe to be installed.

13. heat preservation module according to claim 12, which is characterized in that described convex at the heat preservation module outer rim Portion is the first protrusion, and the protrusion in the middle part of the heat preservation module is the second protrusion；And it is configured that

After adjacent heat preservation module splicing, the adjacent first protrusion docking at outer rim can be formed one it is described second convex Portion；

Alternatively, at least side outer rim of the heat preservation module has the horizontal extension section extended to form.

14. air conditioner floor component, the heat pipe including floor and below the floor；It is characterized in that, further including such as right It is required that heat preservation module described in any one of 1 to 13；Wherein, multiple heat preservation modules are successively assembled forms heat preservation alignment layers, The heat pipe is in the pipe slot of the heat preservation module.

15. air conditioner floor component according to claim 14, which is characterized in that the bottom surface hot pressing on the floor is provided with bullet Property cushion course.

16. air conditioner floor component according to claim 15, which is characterized in that from top to bottom set gradually on the floor Matcoveredn, wearing layer, decorative layer and Withstand voltage layer, the Withstand voltage layer are made of the material of following component volume ratio:

PVC: auxiliary agent: calcium powder: graphene=1:(0.05~0.15): (2.5~4): (0.1~0.3).

17. flooring radiation air conditioning system, including water collecting and diversifying device and control unit；The water collecting and diversifying device supplies water always for controlling trunk Line and trunk return water the bus on state with indoor each water supply branch line and return water branch line respectively；It is characterized in that, corresponding to every A terminal user, further includes:

Air conditioner floor component as described in any one of claim 14 to 16；

At least one is connected to for water diverter, manifold port with the trunk water supply bus, diffluence pass and each heating area The heat pipe entrance connection；

At least one backwater diffluence device, manifold port are connected to the trunk return water bus, diffluence pass and each heating area The heat pipe outlet.

18. the method for paving of air conditioner floor component described in any one of claim 14 to 16, which is characterized in that including following steps It is rapid:

S1 selects keel, and the width of the keel and the outer diameter of pipeline are identical；

S2, laydown, the direction along pipeline arrangement are successively laid side by side more keel；

S3, assembled heat preservation module are sequentially completed in each laying space and protect using the outer rim of the keel as initial position is laid with The assembly of warm module；

S4, installation pipeline take out the keel of the pipeline installed position, complete the installation of the corresponding pipeline.

19. the method for paving of air conditioner floor component according to claim 18, which is characterized in that adjacent to set in step S4 Two pipelines set are a pipeline installation group, and are provided with the keel not taken out between the adjacent pipeline installation group.

20. the method for paving of air conditioner floor component according to claim 19, which is characterized in that the outer diameter is the pipe The through-flow pipe outside diameter on road, or to be set in the heat preservation pipe outside diameter outside the draft tube.