CN107543234A - A kind of heating-cooling double-effect floor panel structure - Google Patents

Abstract

The present invention relates to indoor floor field, and in particular to a kind of heating-cooling double-effect floor panel structure, including：Top layer floor and subfloor, the top layer floor are spliced by some top layer floors monomer, and the subfloor is spliced by some subfloor monomers, and top layer floor monomer is placed in above the subfloor monomer；The subfloor monomer is internally provided with airflow line, is provided with the air stream outlet connected with the airflow line at the top of the subfloor monomer, and the airflow line between the adjacent subfloor monomer is connected by sealing gland joint；The top layer floor monomer bottom is provided with the heat-transfer surface set towards the air stream outlet, and the heat-transfer surface is provided with prominent heat exchange post, and the heat exchange post will form heat exchanging chamber between heat-transfer surface and subfloor monomer top.

Description

A kind of heating-cooling double-effect floor panel structure

Technical field

The present invention relates to indoor floor field, and in particular to a kind of heating-cooling double-effect floor panel structure.

Background technology

Mainly floor is heated or cooled by way of heat conducting pipe for conventional refrigeration, heating double-effect floor.For example, Shen It please number be a kind of heating modular flooring disclosed in CN201310265108.9, thermal medium is imported in the heating tube in floor To complete the heating to floor, but be the problem of this heating mode, the surface temperature around heat pipe is higher, and heat pipe it Between floor temperature tell somebody what one's real intentions are so that the ground different apart from heat pipe position has a bigger temperature difference.User's light pin exists The experience of walking is very poor on floor.In order to eliminate this temperature difference, conventional technical means generally use increase heat pipe arrangement density Mode, and this mode considerably increases the production cost on floor, and construction when being also unfavorable for floor covering layers.

The content of the invention

The purpose of the present invention, it is to solve the problems, such as in background technology, there is provided a kind of heating-cooling double-effect floor panel structure.

The present invention above-mentioned technical purpose technical scheme is that：

A kind of heating-cooling double-effect floor panel structure, including：Top layer floor and subfloor, the top layer floor are single by some top layer floors Body is spliced, and the subfloor is spliced by some subfloor monomers, and top layer floor monomer is placed in the bottom Above the monomer of layer floor；The subfloor monomer is internally provided with airflow line, is provided with the top of the subfloor monomer The air stream outlet connected with the airflow line, the airflow line between the adjacent subfloor monomer pass through sealing gland joint phase Even；The top layer floor monomer bottom is provided with the heat-transfer surface set towards the air stream outlet, and the heat-transfer surface is provided with prominent The heat exchange post gone out, the heat exchange post will form heat exchanging chamber between heat-transfer surface and subfloor monomer top.

By heating/cooling gas in airflow line in the application, top layer floor monomer bottom is blowed to by air stream outlet Heat-transfer surface so that whole top layer floor monomer bottom is uniformly heated, ensure that the temperature of floor surface is uniform.This Outside, the connected mode of sealing gland joint is used between the airflow line of subfloor monomer, floor has been effectively ensured and has expanded with heat and contract with cold During air-tightness, effectively inhibit the situation of gas leakage.

Preferably, length direction of the airflow line along the subfloor monomer is set, the airflow line Joint socket is provided at both ends with, the joint socket is connected with the end thread of the airflow line.

Preferably, the sealing gland joint includes, flexible pipe and the connection-peg for being arranged on the flexible pipe both ends.

Between subfloor monomer, respectively by the connection-peg and subfloor monomer at sealing gland connector hose both ends Joint socket is connected, and ensures air-tightness.

Preferably, the joint socket includes, threaded connection section, bolt section and the interface section being sequentially connected are described to connect It is trapezoidal buckle annular groove to be provided with section in mouth section；The connection-peg includes, slip ring and central tube, and the slip ring is with Holddown spring is provided between heart pipe, the central tube is provided with hub cavity, the interface cavity wall away from described flexible pipe one end The clamping hoodle to match with the buckle annular groove is provided with, the hub cavity axially inner side is provided with sealing ring, the slip What ring inner ring was provided with to prop up the clamping hoodle supports platform.

The manner of connection-peg and joint socket is to compress slip ring, and buckle annular groove then is moved into clamping bullet Zhu Chu, slip ring is then decontroled, lower slider loopback bullet is acted in holddown spring, clamping hoodle is pressed into buckle annular groove to platform, Connection-peg fastens completely with joint socket since then, and during fastening, sealing ring plays sealing function.

Preferably, the heat exchange post is staggered with the air stream outlet on floor length direction.

Preferably, it is arranged with the airflow line of three or more than three in the subfloor monomer in parallel, point To be arranged on the two of most edge edge airflow pipelines and being arranged on the central gas stream pipeline of centre.

Preferably, being provided with two row air stream outlets on every airflow line, the air stream outlet includes vertical Air stream outlet and slanted gas flow outlet, the uprush outlet are arranged on the edge airflow pipeline towards the subfloor The side at monomer edge, the edge airflow pipeline includes row uprush outlet and row slanted gas flow outlet, in described Heart airflow line exports including two row slanted gas flows.

Preferably, it is additionally provided with central vertical air stream outlet in the middle part of the central gas stream pipeline.

Preferably, the axis of the uprush outlet is vertically arranged, the axis of the slanted gas flow outlet, which tilts, to be set Put, the incline direction of the adjacent inclined air stream outlet of neighboring gas flow pipeline is opposite.

Preferably, the bottom-up gradually increase of the area of section of the air stream outlet.

By the setting form of said flow pipeline, whole heat-transfer surface can be effectively ensured by uniform blowing amount, ensure The uniformity of temperature profile of floor surface.

Preferably, the both ends on the subfloor monomer length direction are respectively arranged with down to bar and upper support bar, phase The lower of the adjacent subfloor monomer supports bar and upper support between bar forms connecting cavity, and the two of the subfloor hull beam direction End is respectively arranged with backplane card and dashed forward and bottom plate neck, for the splicing assembling between adjacent subfloor monomer.

Dashed forward and two top plate necks preferably, being provided with two top plate cards on the monomer of the top layer floor, for adjacent Splicing assembling between the monomer of top layer floor.

Preferably, the top plate card is dashed forward, top is provided with elastic packing adhesive tape, due in floor temperature change procedure, no It is evitable that the phenomenon expanded with heat and contract with cold occurs, so as to cause that space occurs between the monomer of top layer floor, it can so cause gas The leakage of body, the sealing on floor can be ensured by elastic packing adhesive tape.

In summary, beneficial effects of the present invention：

1. a kind of heating-cooling double-effect floor panel structure of the present invention, can be effectively ensured the uniformity of floor surface temperature, improve The real experiences that user's light business concern operating a porters' service is walked.

2. a kind of heating-cooling double-effect floor panel structure of the present invention, has a stronger sealing property, close between each part Seal structure is reasonable in design, can effectively play the sealing effectiveness under the conditions of expanding with heat and contract with cold.

3. a kind of heating-cooling double-effect floor panel structure of the present invention, easy for installation, the mode phase mated formation with traditional floor Closely, mating formation for various house shapes, and the paving that the pipe laying of reduction and poling etc. are complicated can be adapted to sawing between the monomer of floor Fill process.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention；

Fig. 2 is assembling schematic diagram of the present invention；

Fig. 3 is the structural representation of subfloor monomer in the present invention；

Fig. 4 is the structural representation of airflow line in the present invention；

Fig. 5 is the structural representation of sealing gland joint in the present invention.

Embodiment

Specific examples below is only explanation of the invention, and it is not limitation of the present invention, art technology 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 scope of the presently claimed invention by Patent Law.

With embodiment, the present invention is described in detail below in conjunction with the accompanying drawings.

Embodiment 1：

According to Fig. 1~Fig. 5, a kind of heating-cooling double-effect floor panel structure, including：Top layer floor 100 and subfloor 200, top layer Floor 100 is spliced by some top layer floors monomer 1, and subfloor 200 is spliced by some subfloor monomers 2, table Layer floor monomer 1 is placed in the top of subfloor monomer 2, and subfloor monomer 2 is internally provided with airflow line 21, subfloor list The top of body 2 is provided with the air stream outlet 22 connect with airflow line 21, and the airflow line 21 between adjacent subfloor monomer 2 leads to Cross sealing gland joint 3 to be connected, the bottom of top layer floor monomer 1 is provided with the heat-transfer surface 101 set towards air stream outlet 22, heat-transfer surface 101 are provided with prominent heat exchange post 11, and heat exchange post 11 will form heat exchanging chamber between heat-transfer surface 101 and the top of subfloor monomer 2 12。

According to Fig. 2, length direction of the airflow line 21 along subfloor monomer 2 is set, the both ends of airflow line 21 Joint socket 23 is provided with, joint socket 23 is connected with the end thread of airflow line 21, and heat exchange post 11 exists with air stream outlet 22 Floor length is staggered on direction.

According to Fig. 4, it is arranged with three airflow lines 21 in subfloor monomer 2 in parallel, is divided into and is arranged on most edge Two edge airflow pipeline 21a and be arranged on the central gas stream pipeline 21b of centre, be provided with two on every airflow line 21 Row air stream outlet 22, air stream outlet 22 include uprush outlet 22a and slanted gas flow outlet 22b, and uprush outlet 22a is set The side towards the edge of subfloor monomer 2 in edge airflow pipeline 21a is put, edge airflow pipeline 21a includes a row vertical gas Flow export 22a and row slanted gas flow outlet 22b, central gas stream pipeline 21b include two row slanted gas flows outlet 22b, central gas Central vertical air stream outlet 22c is additionally provided with the middle part of flow tube road 21b.

Uprush outlet 22a axis is vertically arranged, and slanted gas flow outlet 22b axis is obliquely installed, neighboring gas flow The adjacent inclined air stream outlet 22b of pipeline 21 incline direction is on the contrary, the bottom-up gradually increasing of the area of section of air stream outlet 22 Greatly.

According to Fig. 1, Fig. 2, the both ends on the length direction of subfloor monomer 2 are respectively arranged with down to bar 201 and upper To bar 202, the lower of adjacent subfloor monomer 2 supports bar 201 and upper formation connecting cavity 203 between supporting bar 202, subfloor monomer The both ends of 2 widths are respectively arranged with backplane card prominent 204 and bottom plate neck 205.

According to Fig. 1, two top plate cards prominent 102 and two top plate necks 103, top are provided with top layer floor monomer 1 Prominent 102 tops of board are provided with elastic packing adhesive tape 1021.

In order to ensure sealing, according to Fig. 5, sealing gland joint 3 includes, flexible pipe 31 and be arranged on the both ends of flexible pipe 31 insert Joint 32, joint socket 23 include, threaded connection section 231, bolt section 232 and the interface section 233 being sequentially connected, interface section 233 On to be provided with section be trapezoidal buckle annular groove 2331；Connection-peg 32 includes, slip ring 321 and central tube 322, slip ring 321 Holddown spring 323 is provided between central tube 322, central tube 322 is provided with hub cavity 324, interface away from the one end of flexible pipe 31 The inwall of chamber 324 is provided with the clamping hoodle 3241 to match with buckle annular groove 2331, and the axially inner side of hub cavity 324 is provided with sealing Circle 3242, what the inner ring of slip ring 321 was provided with to prop up clamping hoodle 3241 supports platform 3211.

Floor is passed through in subfloor monomer 2 by airflow line 21 in use, by heating/cold air, gas from Air stream outlet 22 blows to the heat-transfer surface 101 of the bottom of top layer floor monomer 1 with exchanging heat on post 11 so that the bottom of top layer floor monomer 1 Uniformly it is heated, completes the temperature control to floor surface.In installation process, subfloor monomer 2 can basis on floor Actual use situation carries out sawing, it is only necessary to which joint socket 23 is fixed on to the gas of each subfloor monomer 2 by thread segment The both ends of flow tube road 21, sealing gland joint 3 ensure that floor Relative sliding process collects and can guarantee that sealing effectiveness all the time, adjacent bottom The manner of connection-peg 32 and joint socket 23 is to compress slip ring 321 between layer floor monomer 2, then by snap collar Groove 2331 is moved at clamping hoodle 3241, then decontrols slip ring 321, and acting on downslide rotating ring 321 in holddown spring 323 returns Bullet, clamping hoodle 3241 being pressed into buckle annular groove 2331 to platform 3211, connection-peg 32 fastens completely with joint socket 23 since then, During fastening, sealing ring 3242 plays sealing function.

Floor in use, because top layer floor 100 and subfloor 200 adhere to two different layers separately, therefore bottom Deformation does not interfere with the deformation on top, employs elastic packing adhesive tape 1021 between the top layer floor monomer 1 of upper part, effectively While preventing gas leakage, the alleviation played a part of of expanding with heat and contract with cold to floor monomer.

Claims (10)

1. A kind of 1. heating-cooling double-effect floor panel structure, it is characterised in that including：Top layer floor（100）And subfloor（200）, it is described Top layer floor（100）By some top layer floors monomer（1）It is spliced, the subfloor（200）By some subfloor lists Body（2）It is spliced, top layer floor monomer（1）It is placed in the subfloor monomer（2）Top；

   The subfloor monomer（2）It is internally provided with airflow line（21）, the subfloor monomer（2）Top be provided with The airflow line（21）The air stream outlet of connection（22）, the adjacent subfloor monomer（2）Between airflow line（21） Pass through sealing gland joint（3）It is connected；

   Top layer floor monomer（1）Bottom is provided with towards the air stream outlet（22）The heat-transfer surface of setting（101）, it is described to change Hot face（101）It is provided with prominent heat exchange post（11）, the heat exchange post（11）By heat-transfer surface（101）With subfloor monomer（2） Heat exchanging chamber is formed between top（12）.
2. A kind of 2. heating-cooling double-effect floor panel structure according to claim 1, it is characterised in that the airflow line（21）Along institute State subfloor monomer（2）Length direction set, the airflow line（21）Be provided at both ends with joint socket（23）, it is described Joint socket（23）With the airflow line（21）End thread connection.
3. A kind of 3. heating-cooling double-effect floor panel structure according to claim 2, it is characterised in that the sealing gland joint（3）Including, Flexible pipe（31）Be arranged on the flexible pipe（31）The connection-peg at both ends（32）.
4. A kind of 4. heating-cooling double-effect floor panel structure according to claim 3, it is characterised in that the joint socket（23）Bag Include, the threaded connection section being sequentially connected（231）, bolt section（232）And interface section（233）, the interface section（233）On be provided with Section is trapezoidal buckle annular groove（2331）；The connection-peg（32）Including slip ring（321）And central tube（322）, the cunning Rotating ring（321）With central tube（322）Between be provided with holddown spring（323）, the central tube（322）Away from the flexible pipe（31） One end is provided with hub cavity（324）, the hub cavity（324）Inwall is provided with and the buckle annular groove（2331）The card to match Tight hoodle（3241）, the hub cavity（324）Axially inner side is provided with sealing ring（3242）, the slip ring（321）Inner ring is set It is equipped with to prop up the clamping hoodle（3241）Support platform（3211）.
5. A kind of 5. heating-cooling double-effect floor panel structure according to claim 1, it is characterised in that the subfloor monomer（2） Inside it is arranged with the airflow line of three or more than three in parallel（21）, it is divided into two edge airflow pipes for being arranged on most edge Road（21a）With the central gas stream pipeline for being arranged on centre（21b）.
6. A kind of 6. heating-cooling double-effect floor panel structure according to claim 5, it is characterised in that every airflow line（21） On be provided with two row air stream outlets（22）, the air stream outlet（22）Exported including uprush（22a）Go out with slanted gas flow Mouthful（22b）, the uprush outlet（22a）It is arranged on the edge airflow pipeline（21a）Towards the subfloor monomer （2）The side at edge, the edge airflow pipeline（21a）Exported including a row uprush（22a）Go out with a row slanted gas flow Mouthful（22b）, the central gas stream pipeline（21b）Exported including two row slanted gas flows（22b）.
7. A kind of 7. heating-cooling double-effect floor panel structure according to claim 6, it is characterised in that the uprush outlet （22a）Axis be vertically arranged, slanted gas flow outlet（22b）Axis be obliquely installed, neighboring gas flow pipeline（21）Phase Adjacent slanted gas flow outlet（22b）Incline direction it is opposite.
8. A kind of 8. heating-cooling double-effect floor panel structure according to claim 6, it is characterised in that the air stream outlet（22）Cut The bottom-up gradually increase of face area.
9. A kind of 9. heating-cooling double-effect floor panel structure according to claim 1, it is characterised in that the subfloor monomer（2） Both ends on length direction, which are respectively arranged with down, supports bar（201）Bar is supported with upper（202）, the adjacent subfloor monomer（2）'s Bar is supported down（201）Bar is supported with upper（202）Between form connecting cavity（203）, the subfloor monomer（2）The both ends of width Backplane card is respectively arranged with to dash forward（204）With bottom plate neck（205）.
10. A kind of 10. heating-cooling double-effect floor panel structure according to claim 1, it is characterised in that top layer floor monomer（1） On be provided with two top plate cards and dash forward（102）With two top plate necks（103）.