CN207584966U - A kind of integrated network formula heating-cooling double-effect metope temperature-controlling system - Google Patents

Abstract

The utility model is related to wall covering fields, and in particular to a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system, including：There are temperature-controlled wall, air-supply passage, return air channel, air conditioner and the controller that several panel monomers are spliced；The panel monomer includes, the hollow heat exchange layer between the shingle nail that is arranged on surface layer, the bottom plate for being arranged on wall surface bottom layer and the shingle nail and the bottom plate；The base plate interior is provided with several gas channels set along panel monomer length direction, the air stream outlet towards the hollow heat exchange layer setting by mouth is provided on the gas channel, the shingle nail is provided with several heat exchange columns towards the hollow heat exchange layer side, the heat exchange column is arranged at intervals with the air stream outlet, and support connection function is played, it is provided with screw thread in the gas channel；It is connected between the panel monomer by pin end with female connector；The air-supply passage and return air channel are connected with the gas channel.

Description

A kind of integrated network formula heating-cooling double-effect metope temperature-controlling system

Technical field

The utility model is related to wall covering fields, and in particular to a kind of integrated network formula heating-cooling double-effect metope temperature control system System.

Background technology

At present metope, floor cooling and warming mode mainly by being laid with pipe network below metope or floor, so as to reach To refrigeration or the effect of heating.This heating mode is primarily present following problem：1st, the temperature around pipe network is more high/low, And the temperature of pipe network gap area and the temperature difference of pipe network peripheral region are bigger so that the region tool different apart from pipe network position There are one the bigger temperature difference so that the actual temperature uniformity of whole metope is poor.In order to eliminate this temperature difference, routine techniques Means generally use increases the mode of heat pipe arrangement density, and this mode considerably increases the production cost on floor, and It is unfavorable for construction during floor covering layers.2nd, the construction paving process of pipe network is complicated, needs to open up a large amount of slot, and in construction It remains desirable that it is slotted again according to the true form of wall, wears groove arrangement pipe network connector, very labor intensive.

Utility model content

The purpose of this utility model is to solve the problems in background technology, it is cold and hot double to provide a kind of integrated network formula Imitate metope temperature-controlling system.

The above-mentioned technical purpose of the utility model technical scheme is that：

A kind of integrated network formula heating-cooling double-effect metope temperature-controlling system, including：There is the temperature control that several panel monomers are spliced Wall, air-supply passage, return air channel, air conditioner and controller；The panel monomer includes, and is arranged on the shingle nail on surface layer, sets Put the hollow heat exchange layer between the bottom plate of wall surface bottom layer and the shingle nail and the bottom plate；The base plate interior is provided with Several gas channels set along panel monomer length direction are provided on the gas channel by mouth towards the hollow heat exchange The air stream outlet of layer setting, the shingle nail are provided with several heat exchange columns towards the hollow heat exchange layer side, and the heat exchange is vertical Column is arranged at intervals with the air stream outlet, and plays support connection function, and screw thread is provided in the gas channel；The panel It is connected between monomer by pin end with female connector, the pin end and female connector in gas channel by being threadedly secured in institute State the both ends of gas channel；The air-supply passage and return air channel are connected with the gas channel.

By heating/cooling gas in airflow line in the application, to wall in a manner that air stream outlet blows to shingle nail Panel is into the regulation and control of trip temperature so that entire shingle nail is evenly heated, and ensure that the temperature on its surface is uniform.It is and above-mentioned Traditional pipe network form is eliminated in structure, the arrangement of entire gas circuit is integrated into the inside of panel monomer, the wall greatly simplified The process that face is mated formation.

Preferably, being provided with pressure fan on the air-supply passage, return fan is provided on the return air channel.

Preferably, being arranged in parallel with the gas channel of three or three or more in bottom plate, it is divided into and is arranged on most side Two edge airflow pipelines of edge and intermediate central gas stream pipeline is arranged on, the edge airflow pipeline is positive pressure pipeline, institute It is negative-pressure pipeline to state central gas stream pipeline, and uprush outlet and a row slanted gas flow are provided on the edge airflow pipeline It exports, a row central fluidizing gas pipeline is provided on the central gas stream pipeline.

Preferably, the air-supply passage and the edge airflow pipeline, the return air channel and the central gas flow tube Road is connected.

Preferably, the area of section of the air stream outlet gradually increases from bottom plate to hollow heat exchange layer.

Preferably, the pin end includes, and sequentially connected threaded connection section, bolt section and interface section, the interface Section is provided in section as trapezoidal buckle annular groove；The female connector includes, slip ring and central tube, the slip ring and center Holddown spring is provided between pipe, the central tube top is provided with hub cavity, and the interface cavity wall is provided with and the card The clamping hoodle that retaining ring groove matches, the hub cavity axially inner side are provided with sealing ring, and the slip ring inner ring setting is useful With resist the clamping hoodle support platform.

Above-mentioned pin end is to compress slip ring with female connector manner, and buckle annular groove then is moved to clamping bullet Zhu Chu then decontrols slip ring, and lower slider loopback bullet is acted in holddown spring, and clamping hoodle is pressed into buckle annular groove to platform, Connection-peg fastens completely with connector socket since then, and during fastening, sealing ring plays sealing function.

Preferably, be connected between the gas channel between the adjacent panel monomer using tracheae wire jumper, it is described Tracheae wire jumper includes wire jumper head and wire jumper pipe, and the wire jumper head is arranged on the wire jumper pipe both ends, and the wire jumper head knot at both ends Structure is identical with the pin end and female connector structure respectively.

Preferably, the hollow heat exchange layer edge is provided with sealing strip, side gas leakage is prevented, convenient for the pumping of extractor fan Wind acts on.

It dashes forward and two top plate card slots preferably, being provided with two top plate cards on the shingle nail.

Preferably, the bottom plate is provided with buckle in the width direction of the panel monomer, in the panel monomer Length direction on be provided with to item and it is lower support item, the upper of the adjacent panel monomer supports item and lower is enclosed connection to item Chamber.

In conclusion the beneficial effects of the utility model：

1. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system described in the utility model, effectively increases metope The uniformity of temperature so that metope has better refrigerating/heating effect.

2. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system described in the utility model has stronger sealing Performance, the design of Sealing Structure between each component is reasonable, can effectively play the sealing effect under the conditions of expanding with heat and contract with cold.

3. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system described in the utility model, interior integrated network are set Meter enormously simplifies the construction technology of metope.

Description of the drawings

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

Fig. 2 is the structure diagram of panel monomer in the utility model；

Fig. 3 is the assembling schematic diagram of panel monomer in the utility model；

Fig. 4 is the structure diagram of the utility model pin end and female connector；

Fig. 5 is the schematic cross-section of the utility model bottom plate.

Specific embodiment

Specific examples below is only the explanation to the utility model, is not the limitation to the utility model, this Field technology personnel can as needed make the present embodiment the modification of no creative contribution after this specification is read, But as long as it is all protected in the right of the utility model by Patent Law.

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

Embodiment 1：

According to Fig. 1~Fig. 5, a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system, including：There are several panel lists Temperature-controlled wall, air-supply passage 200, return air channel 300, air conditioner 400 and the controller 500 that body 100 is spliced；Panel monomer 100 include, hollow between the shingle nail 1 that is arranged on surface layer, the bottom plate 2 for being arranged on wall surface bottom layer and shingle nail 1 and bottom plate 2 Heat exchange layer 3；Bottom plate 2 is internally provided with several gas channels 21 set along 100 length direction of panel monomer, on gas channel 21 The air stream outlet 22 set by mouth towards hollow heat exchange layer 3 is provided with, shingle nail 1 is provided with several towards hollow 3 side of heat exchange layer Exchange heat column 11, and heat exchange column 11 is arranged at intervals, and play support connection function with air stream outlet 22, is set in gas channel 21 There is screw thread；It is connected between panel monomer 100 by pin end 4 with female connector 5, pin end 4 and female connector 5 pass through gas channel 21 The interior both ends for being threadedly secured in gas channel 21；Air-supply passage 200 and return air channel 300 are connected with gas channel 21.

Pressure fan 201 is provided on air-supply passage 200, return fan 301, hollow heat exchange layer 3 are provided on return air channel 300 Edge is provided with sealing strip 31, and two top plate cards are provided on shingle nail 1 and are dashed forward 1a and two top plate card slot 1b, bottom plate 2 is in panel Be provided in the width direction of monomer 100 buckle 2a, be provided on the length direction of panel monomer 100 to 2b and under support 2c, the upper of adjacent panels monomer 100 support a 2b and lower are enclosed connecting cavity 2d to a 2c.

According to Fig. 5, three gas channels 21 are arranged in parallel in bottom plate 2, are divided into two sides for being arranged on most edge Edge airflow line 21a and intermediate central gas stream pipeline 21b is arranged on, edge airflow pipeline 21a is positive pressure pipeline, central gas stream Pipeline 21b is negative-pressure pipeline, and uprush outlet 22a and row slanted gas flow outlet are provided on edge airflow pipeline 21a A row central fluidizing gas pipeline 22c is provided on 22b, central gas stream pipeline 21b.Air-supply passage 200 and edge airflow pipeline 21a, Return air channel 300 is connected with central gas stream pipeline 21b.The area of section of air stream outlet 22 is gradual from bottom plate 2 to hollow heat exchange layer 3 Increase.

According to Fig. 4, pin end 4 includes, and sequentially connected threaded connection section 41, bolt section 42 and interface section 43 connect Section is provided in mouth section 43 as trapezoidal buckle annular groove 431；Female connector 5 includes, slip ring 51 and central tube 52, slip ring 51 Holddown spring 53 is provided between central tube 52,52 top of central tube is provided with hub cavity 54, and 54 inner wall of hub cavity is provided with The clamping hoodle 541 to match with buckle annular groove 431,54 axially inner side of hub cavity are provided with sealing ring 542,51 inner ring of slip ring Be provided with to resist clamping hoodle 541 supports platform 511.

It is connected between gas channel 21 between adjacent panels monomer 100 using tracheae wire jumper 600, tracheae wire jumper 600 wraps Include wire jumper head and wire jumper pipe, wire jumper head is arranged on wire jumper pipe both ends, and the wire jumper header structure at both ends respectively with pin end 4 and mother 5 structure of connector is identical.

Metope structure is passed through bottom plate 2 by air-supply passage 200 from airflow line 21 in use, by heating/cold air Interior, gas is blown from air stream outlet 22 as in hollow heat exchange layer 3 so that shingle nail 1 is uniformly heated, and is completed to metope Temperature control flows back into return air channel 300 from central gas flow tube road 21b in hollow heat exchange layer 3 after gas completion heat exchange and is recycled.

For metope structure in installation process, panel monomer 100 can carry out sawing according to actual use situation, it is only necessary to logical Cross the fastening side at the both ends that pin end 4 and female connector 5 are fixed on airflow line 21 by thread segment, pin end 4 and female connector 5 Formula is to compress slip ring 321, and then buckle annular groove 2331 is moved at clamping hoodle 3241, then decontrols slip ring 321, it acts on downslide rotating ring 321 in holddown spring 323 and springs back, clamping hoodle 3241 is pressed into buckle annular groove 2331 to platform 3211 Interior, connection-peg 32 and connector socket 23 fasten completely since then, and during fastening, sealing ring 3242 plays sealing function.

Claims (10)

1. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system, which is characterized in that including：There are several panel monomers（100） Temperature-controlled wall, the air-supply passage being spliced（200）, return air channel（300）, air conditioner（400）And controller（500）；

The panel monomer（100）Including being arranged on the shingle nail on surface layer（1）, be arranged on the bottom plate of wall surface bottom layer（2）And institute State shingle nail（1）With the bottom plate（2）Between hollow heat exchange layer（3）；

The bottom plate（2）It is internally provided with along panel monomer（100）Several gas channels of length direction setting（21）, the gas Circulation road（21）On be provided with by mouth towards the hollow heat exchange layer（3）The air stream outlet of setting（22）, the shingle nail（1）Court To the hollow heat exchange layer（3）Side is provided with several heat exchange columns（11）, the heat exchange column（11）With the air stream outlet （22）It is arranged at intervals, and plays support connection function, the gas channel（21）Inside it is provided with screw thread；

The panel monomer（100）Between pass through pin end（4）And female connector（5）It is connected, the pin end（4）And female connector （5）Pass through gas channel（21）Interior is threadedly secured in the gas channel（21）Both ends；

The air-supply passage（200）And return air channel（300）With the gas channel（21）It is connected.

2. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that described to send Wind channel（200）On be provided with pressure fan（201）, the return air channel（300）On be provided with return fan（301）.

A kind of 3. integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that bottom plate （2）Inside it is arranged in parallel with the gas channel of three or three or more（21）, it is divided into two edge gas for being arranged on most edge Flow tube road（21a）With the central gas stream pipeline for being arranged on centre（21b）, the edge airflow pipeline（21a）For positive pressure pipeline, institute State central gas stream pipeline（21b）It is negative-pressure pipeline, the edge airflow pipeline（21a）On be provided with uprush outlet （22a）It is exported with a row slanted gas flow（22b）, the central gas stream pipeline（21b）On be provided with a row central fluidizing gas pipeline （22c）.

4. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 3, which is characterized in that described to send Wind channel（200）With the edge airflow pipeline（21a）, the return air channel（300）With the central gas stream pipeline（21b）Phase Even.

A kind of 5. integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 3, which is characterized in that the gas Outflux（22）Area of section from bottom plate（2）To hollow heat exchange layer（3）Gradually increase.

A kind of 6. integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that the public affairs Connector（4）Including sequentially connected threaded connection section（41）, bolt section（42）And interface section（43）, the interface section（43）On Section is provided with as trapezoidal buckle annular groove（431）；The female connector（5）Including slip ring（51）And central tube（52）, it is described Slip ring（51）With central tube（52）Between be provided with holddown spring（53）, the central tube（52）Top is provided with hub cavity （54）, the hub cavity（54）Inner wall is provided with and the buckle annular groove（431）The clamping hoodle to match（541）, it is described to connect Oral cavity（54）Axially inner side is provided with sealing ring（542）, the slip ring（51）Inner ring is provided with to resist the clamping bullet Pearl（541）Support platform（511）.

A kind of 7. integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 6, which is characterized in that adjacent institute State panel monomer（100）Between the gas channel（21）Between use tracheae wire jumper（600）It is connected, the tracheae wire jumper （600）Including wire jumper head and wire jumper pipe, the wire jumper head is arranged on the wire jumper pipe both ends, and the wire jumper header structure point at both ends Not with the pin end（4）And female connector（5）Structure is identical.

8. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that in described Empty heat exchange layer（3）Edge is provided with sealing strip（31）.

A kind of 9. integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that the wall Panel（1）On be provided with two top plate cards and dash forward（1a）With two top plate card slots（1b）.

10. a kind of integrated network formula heating-cooling double-effect metope temperature-controlling system according to claim 1, which is characterized in that described Bottom plate（2）In the panel monomer（100）Width direction on be provided with buckle（2a）, in the panel monomer（100）Length Degree is provided on direction to item（2b）Item is supported with lower（2c）, the adjacent panel monomer（100）It is upper support item（2b）It is supported under Item（2c）It is enclosed connecting cavity（2d）.