CN216196193U - Indoor mounting structure of cold and hot radiation integrated board - Google Patents

Abstract

The utility model discloses an indoor mounting structure of a cold and hot radiation integrated board, which comprises a radiation integrated wallboard and a radiation integrated top board, wherein the radiation integrated top board is hung on the top of a wall through a hanging piece, the bottom of the radiation integrated top board is provided with a ceiling buckle plate, the ceiling buckle plate is connected with the radiation integrated wallboard through an upper closing line, and the radiation integrated wallboard is connected with the ground through a skirting line; the radiation integrated wallboard comprises a heat insulation substrate and a first water through coil pipe embedded in the heat insulation board, a layer of decorative board is laid on the upper surface of the heat insulation substrate, the radiation integrated top plate comprises an outer frame body and a second water through coil pipe detachably arranged in the outer frame body, one side of the second water through coil pipe is exposed and installed towards the ceiling pinch plate, and the other side of the second water through coil pipe is sealed through a heat insulation cushion layer clamped in the outer frame body to avoid temperature loss; a plurality of through holes are formed in the upper closing-up line and used for enabling the first water-passing coil pipe and the second water-passing coil pipe to penetrate through for communicating to conduct water circulation.

Description

Indoor mounting structure of cold and hot radiation integrated board

Technical Field

The utility model relates to the technical field of indoor decoration structures, in particular to an indoor installation structure of a cold and heat radiation integrated board.

Background

With the rapid development of social economy, the requirements of people on living environment and indoor decoration are higher and higher, and various decoration structures are produced at the same time. A capillary full-house air conditioning system is a new indoor decoration concept in recent years, and is matched with an indoor air conditioner with fresh air and constant oxygen and a constant oxygen system to enable indoor air, temperature or humidity and other conditions to be more suitable for human bodies by taking a modularized assembled integrated wallboard and an integrated top plate as substrates. Thereby integrated wallboard can carry out heat radiation or cold radiation according to the adjustment and adjust indoor temperature, and it constitutes through the capillary network of laying at the wall. The low-temperature water with the temperature of 16-35 ℃ is supplied in the pipeline all the year round, the low-temperature water in the pipeline is circulated continuously, the temperature difference of the water radiated to the corner of each room is not large, the body feeling is more comfortable, and in addition, the low-temperature water is more energy-saving than a common air conditioner or a floor heating.

However, the capillary whole-house air conditioning system is not widely popularized at the present stage, but the reason is that the existing cold and heat radiation integrated plate directly integrates the water pipe into the heat insulation plate, and after installation, painting or construction needs to be performed outside the heat insulation plate to improve the decoration effect, so that the whole construction is slow due to the indoor installation structure, and when a certain part is damaged, the heat insulation plate cannot be replaced in time. This kind of mounting structure is because the temperature in the logical water pipe will see through the heated board earlier, then sees through wallboard or furred ceiling board again for the constant temperature efficiency of whole structure is poor, therefore the result of use is not good. In addition, the installation structure is single, the problem of single connection seam processing mode between two adjacent wall boards is also another reason that the capillary full-house cooling and heating air conditioning system is not generally applied.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an indoor mounting structure of a cold and heat radiation integrated plate, which is convenient to mount, good in constant temperature effect, strong in compatibility and diversified in decorative modeling, aiming at the defects in the prior art.

The utility model aims to provide an indoor mounting structure of a cold and hot radiation integrated board, which comprises a radiation integrated wallboard laid on an indoor wall and a radiation integrated top board matched and hoisted on a wall top, wherein the radiation integrated top board is hoisted on the wall top through a hoisting piece, a suspended ceiling buckle plate is arranged at the bottom of the radiation integrated top board, the suspended ceiling buckle plate is connected with the radiation integrated wallboard through an upper closing line, and the radiation integrated wallboard is connected with the ground through a skirting line; the radiation integrated wallboard comprises a heat insulation substrate and a first water through coil pipe embedded in the heat insulation board, a layer of decorative board is laid on the upper surface of the heat insulation substrate, the radiation integrated top plate comprises an outer frame body and a second water through coil pipe detachably arranged in the outer frame body, one side of the second water through coil pipe is exposed and installed towards the ceiling pinch plate, and the other side of the second water through coil pipe is sealed through a heat insulation cushion layer clamped in the outer frame body to avoid temperature loss; a plurality of through holes are formed in the upper closing-up line and used for enabling a first water-through coil and a second water-through coil in the radiation integrated wallboard and the radiation integrated top plate to penetrate through for communicating to carry out water circulation.

Furthermore, the length of the heat-insulating base plate is greater than that of the first water-passing coil pipe, a plurality of vertical fixing grooves for placing the first water-passing coil pipe are formed in the upper surface of the heat-insulating base plate along the length direction, a transverse positioning groove for accommodating a water inlet pipe and a water outlet pipe of the first water-passing coil pipe and a bent pipeline is formed in the heat-insulating base plate in a penetrating mode along the width direction, and the first water-passing coil pipe is clamped in the vertical fixing grooves through a fixing piece; female groove of connection has been seted up to the left and right sides of heat preservation base plate, connects through the looks terminal strip of establishing in female groove of connection of card between two adjacent radiation integration wallboards.

Furthermore, a plurality of fixing supports which are transversely clamped on the outer frame body are arranged in the outer frame body, a plurality of arc-shaped clamping grooves used for clamping the second water-passing coil are uniformly formed in the fixing supports, and a damping washer is arranged on the contact surface of the second water-passing coil and the arc-shaped clamping grooves.

Furthermore, be provided with the flexible cushion that can stretch into when being connected with the female groove of being connected of the integrated wallboard of radiation on the wiring strip mutually, this flexible cushion is used for absorbing the flexible volume that the integrated wallboard expend with heat and contract with cold and bring of radiation.

Furthermore, an adaptive modeling plate or a ventilation cavity with an air outlet is arranged between the radiation integrated wallboards, the thickness of the adaptive modeling plate is the same as that of the radiation integrated wallboards, and the outer surface of the adaptive modeling plate is provided with a smooth or concave or convex decorative surface; the ventilation chamber is connected with new trend equipment and through the air outlet air-out, and the surface cladding in ventilation chamber has the decorative film that the decorative board material is the same of one deck and integrated wallboard of radiation.

Furthermore, the outer end face of one of the left side and the right side of the radiation integrated wallboard is provided with a single-side phase connection wire, the outer end face of the other side of the radiation integrated wallboard is connected with a conversion plate through a conversion line, the thickness of the conversion plate is smaller than that of the radiation integrated wallboard, and the end face of one side, far away from the radiation integrated wallboard, of the conversion plate is provided with a conversion plate closing line.

Furthermore, the upper portion of going up the line of closing up is provided with furred ceiling buckle binding off position, and the lower part of going up the line of closing up is provided with integrated wallboard binding off position, separates integrated wallboard binding off position for wall keysets binding off position and the ornamental strip joint groove that is used for joint ornamental strip through the baffle in this integrated wallboard binding off position.

Further, the upper portion of skirting line is provided with integrated wallboard binding off position, separates integrated wallboard binding off position for wall keysets binding off position and the ornamental strip joint groove that is used for joint ornamental strip through the blend stop in this integrated wallboard binding off position, and the lower part of skirting line is provided with the lamp area mounting groove that is used for installing LED lamp area, and the bottom downwardly extending of skirting line is formed with the circular arc ornamental strip, and the bottom of this circular arc ornamental strip is provided with the manger plate adhesive tape.

Further, the phase connection strips comprise a first phase connection strip, a second phase connection strip, a third phase connection strip and a fourth phase connection strip; the first connecting strip comprises a connecting strip body with an I-shaped structure and a T-shaped clamping edge arranged at the top of the connecting strip body, the second connecting strip comprises a connecting strip body and a vertical plate vertically arranged at the top of the connecting strip body, the third connecting strip comprises a connecting strip body with an I-shaped structure, and the fourth connecting strip comprises a connecting strip body with an I-shaped structure and a U-shaped decorative groove connected with the connecting strip body through the vertical plate vertically arranged.

Further, hoist and mount piece includes the screw rod, from card formula lifting hook and main joist, the integrated roof of radiation passes through the switching adjustment piece setting between two adjacent main joists and the bottom height that the bottom height of the integrated roof of radiation is higher than the main joist, the furred ceiling buckle passes through the bottom of triangle fossil fragments hoist and mount at the main joist.

The utility model has the beneficial technical effects that: according to the utility model, the capillary network is arranged in the wall surface and the ceiling so as to carry out heat radiation or cold radiation indoors and adjust the indoor temperature, the first water-through coil pipe of the radiation integrated wallboard is arranged in the heat-insulating base plate, and the decorative plate is integrated on the outer surface of the heat-insulating base plate, so that the heat-insulating effect and the heat-transmitting effect are ensured, and the subsequent wet construction step can be omitted; the radiation integration top plate is exposed towards one side of the suspended ceiling pinch plate, and the other side of the radiation integration top plate is insulated through the heat insulation cushion layer. The integration of the radiation integrated wall panel and the radiation integrated roof panel enables a better constant temperature effect of the entire indoor environment and lower installation and maintenance costs. In addition, the mutual terminal strip through various isotructures between the integrated wallboard of radiation connects for the decorative structure of whole wall is abundanter various, still is provided with flexible cushion on the terminal surface of being connected of mutual terminal strip and the integrated wallboard of radiation with the flexible volume that the integrated wallboard expend with heat and contract with cold of absorption radiation brings, has avoided leading to the fracture phenomenon that extrusion leads to between the wallboard each other because of the temperature rise. In addition, integrated wallboard includes adaptation mould board and ventilation chamber, and integrated wallboard can also be connected with general change-over panel, has also improved the compatibility of whole wall when increasing decorative effect.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a schematic view of an installation structure of the radiation integrated wall panel of the present invention;

FIG. 3 is a schematic view of the mounting structure of the radiation integration top plate according to the present invention;

FIG. 4 is a schematic perspective view of a radiation integrated wall panel according to the present invention;

FIG. 5 is a schematic cross-sectional structural view of a radiation integrated wall panel according to the present invention;

FIG. 6 is a schematic view of the structure of the radiation integration top plate according to the present invention;

FIG. 7 is a schematic structural view of an upper necking line of the present invention;

FIG. 8 is a schematic view of the structure of the skirting line of the present invention;

FIG. 9 is a schematic structural view of a first connecting strip according to the present invention;

FIG. 10 is a schematic structural view of a second connecting bar according to the present invention;

FIG. 11 is a schematic structural view of a third connecting bar according to the present invention;

FIG. 12 is a schematic structural view of a fourth connecting bar according to the present invention;

fig. 13 is a schematic structural diagram of the conversion line according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood by those skilled in the art, the present invention is further described with reference to the accompanying drawings and examples.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "inside", "outside", "lateral", "vertical", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1 to 13, the indoor installation structure of the cold and heat radiation integrated board comprises a radiation integrated wallboard 1 laid on an indoor wall and a radiation integrated top board 2 hung on a wall top in a matched manner, wherein the radiation integrated top board 2 is hung on the wall top through a hanging piece, a ceiling buckle plate 3 is arranged at the bottom of the radiation integrated top board 2, the ceiling buckle plate 3 is connected with the radiation integrated wallboard 1 through an upper closing line 4, and the radiation integrated wallboard 1 is connected with the ground through a skirting line 5; the radiation integrated wallboard 1 comprises a heat insulation substrate 11 and a first water-through coil 12 embedded in the heat insulation substrate 11, a layer of decorative board 13 is laid on the upper surface of the heat insulation substrate 11, and the decorative board 13 is bonded on the heat insulation substrate 11 through an adhesive layer 14. The radiation integrated top plate 2 comprises an outer frame body 21 and a second water-passing coil 22 which is detachably arranged in the outer frame body 21, one side of the second water-passing coil 22 is exposed and installed towards the suspended ceiling pinch plate 3, and the other side of the second water-passing coil is sealed by a heat-insulating cushion layer 23 clamped in the outer frame body 21 to avoid temperature loss; a plurality of through holes 41 are formed in the upper closing-in line 4, and the through holes 41 are used for the first water-passing coil 12 and the second water-passing coil 22 in the radiation integrated wall board 1 and the radiation integrated top board 2 to pass through for communicating and performing water circulation.

The first 12 and second 22 water coils are capillary tubes. Through a capillary network formed by a plurality of capillaries, low-temperature water with the temperature of 16-35 ℃ is provided in the pipeline all the year round, and the low-temperature water in the pipeline is circulated continuously, so that the temperature difference of the corner radiated to each room is small, and the body feeling is comfortable. This kind of integral mounting structure comprises integrated wallboard 1 of radiation and the integrated roof of radiation 2, and integrated wallboard 1 of radiation can the direct mount and need not be under construction in addition to its surface again, and the second water coil 22 of the integrated roof of radiation 2 exposes in order to increase heating or cooling efficiency towards furred ceiling buckle 3 for whole indoor ability is faster reaches suitable temperature, and such combination formula mounting structure still greatly reduced construction cost when having guaranteed the efficiency of construction.

Referring to fig. 4 to 5, the length of the heat-insulating substrate 11 is greater than the length of the first water-passing coil 12, and the radiation integrated wallboard 1 can be cut according to the height of indoor installation, so that the installation position of the first water-passing coil 12 can be reasonably adjusted while the radiation integrated wallboard 1 is suitable for the installation requirements of different floor heights, and the temperature adjusting effect is ensured. The upper surface of the heat preservation base plate 11 is provided with a plurality of vertical fixing grooves 15 used for placing the first water through coil pipes 12 along the length direction, the heat preservation base plate 11 is provided with transverse positioning grooves 16 used for accommodating water inlet and outlet pipes of the first water through coil pipes 12 and bent pipelines along the width direction in a penetrating mode, the first water through coil pipes 12 are clamped in the vertical fixing grooves 15 through fixing pieces 17, the number of the fixing pieces 17 can be determined according to the length of the heat preservation base plate 11 or the pipe diameters of the clamped first water through coil pipes 12, and generally 3-5 fixing pieces 17 are clamped in the same vertical fixing groove 15; the heat-insulating substrate 11 is integrally formed through an extrusion process, and the transverse positioning groove 16 on the heat-insulating substrate 11 is manufactured through a milling process. Female groove 18 of connection has been seted up to the left and right sides of heat preservation base plate 11, connects through establishing mutually connecting strip 6 in connecting female groove 18 between two adjacent integrated wallboard 1 of radiation.

Referring to fig. 6, the second water circulating coil 22 in the radiation integrated top plate 2 is installed in the outer frame 21 through a plurality of fixing brackets 24 which are transversely clamped on the outer frame 21, a plurality of arc-shaped clamping grooves for clamping the second water circulating coil 22 are uniformly formed in the fixing brackets 24, and a damping washer is arranged on a contact surface between the second water circulating coil 22 and the arc-shaped clamping grooves; the length of cushion ring slightly is greater than the arc length of circular arc draw-in groove, thereby the width is more than or equal to the height of fixed bolster 24 makes the shock attenuation effect better, because rivers can cause the vibration of second water coil pipe 22 because sneak into air or velocity of flow inequality reason when flowing in second water coil pipe 22, thereby produce the noise with the junction of fixed bolster 24, cushion ring can effectively avoid the emergence of this kind of condition, makes whole structure can not produce extra noise to indoor. The hoist and mount piece of hoist and mount integrated roof 2 of radiation includes the screw rod, from card formula lifting hook and main joist, the integrated roof of radiation sets up between two adjacent main joists through the switching regulating part and the bottom height that the bottom of the integrated roof of radiation highly is higher than the main joist, the furred ceiling buckle 3 passes through the bottom of triangle fossil fragments hoist and mount at the main joist. In addition, components such as electrical panels and the like can be added between the suspended ceiling pinch plates 3 according to actual needs.

Referring to fig. 2 or 9, the connection strip 6 is provided with a flexible elastic pad 7 which can extend into the female connection groove 18 of the radiation integrated wallboard 1 when being connected with the female connection groove 18, and the flexible elastic pad 7 is used for absorbing the flexible amount caused by thermal expansion and cold contraction of the radiation integrated wallboard 1, so as to avoid the extrusion cracking caused by thermal expansion of the integrated wallboard. An adaptive modeling plate 8 or a ventilation cavity with an air outlet is arranged between the radiation integrated wallboards 1, and the thickness of the adaptive modeling plate 8 is the same as that of the radiation integrated wallboards 1; because the water service pipe is not arranged in the adaptation modeling plate 8, the adaptation modeling plate 8 can be further decorated and processed according to actual installation requirements, the decoration surface of the adaptation modeling plate is a smooth decoration surface or a decoration surface with grooves or a decoration surface with convex strip-shaped grids and other decoration structures, and the multiple pieces of radiation integrated wall plates 1 and the adaptation modeling plate 8 can be inserted and installed in order to improve the diversity of interior decoration. The ventilation chamber is connected with new trend equipment and through the air outlet air-out, and the surface cladding in ventilation chamber has the decorative film that the decorative board material is the same of one deck and integrated wallboard of radiation.

Referring to fig. 2, a single-side connection line 61 is disposed on an outer end face of one of the left and right sides of the radiation integrated wall panel 1, a conversion plate 9 is connected to the outer end face of the other side through a conversion line 62, the thickness of the conversion plate 9 is smaller than that of the radiation integrated wall panel 1, and a conversion plate closing line 63 is disposed on an end face of the conversion plate 9 on a side far away from the radiation integrated wall panel 1. The radiation integrated wall board 1 can be jointed with a common wall board or a conversion board 9 more naturally through the conversion lines 62, so that different decoration requirements can be met.

Referring to fig. 7, a ceiling pinch plate closing-in position 42 is arranged at the upper part of the upper closing-in line 4, an integrated wallboard closing-in position 43 is arranged at the lower part of the upper closing-in line, and the integrated wallboard closing-in position 43 is separated into a wall surface adapter plate closing-in position and a decorative strip clamping groove for clamping a decorative strip through a partition plate 44 in the integrated wallboard closing-in position. Because the thickness of the conversion board 9 is less than the thickness of the integrated wallboard 1 of radiation, so the position of closing up can influence beautifully because of misalignment when switching over, can effectively solve this problem through last closing up line 4, install the top of the integrated wallboard 1 of radiation in integrated wallboard closing up position 43 when the installation, just can install its top in wall adapter board closing up position and install the ornamental strip in the ornamental strip joint groove with the increase decorative effect when installing conversion board 9. Referring to fig. 8, an integrated wallboard closing-in position 51 is arranged at the upper part of the skirting line 5, the integrated wallboard closing-in position 51 is divided into a wall surface adapting plate closing-in position and a decorative strip clamping groove used for clamping a decorative strip through a barrier strip 52, a lamp strip mounting groove 54 used for mounting an LED lamp strip 53 is arranged at the lower part of the skirting line 5, an arc decorative strip 55 extends downwards from the bottom of the skirting line 5, and a water-blocking adhesive tape 56 is arranged at the bottom of the arc decorative strip 55. The integrated wallboard binding off position 51 in the skirting line 5 and the mounting structure of wall keysets binding off position and the structure of last binding off line 4 are the same, can be used for the conversion board 9 and receive the limit when radiating integrated wallboard 1 conversion for whole mounting structure's wholeness is stronger, therefore specifically no longer gives unnecessary details.

Referring to fig. 2 and 9-13, the phase connection strip 6 includes a first phase connection strip 64, a second phase connection strip 65, a third phase connection strip 66 and a fourth phase connection strip 67; first connecing strip 64 includes the strip body that meets of I shape structure and sets up the T shape joint limit at this connecing strip body top mutually, can also hide the joint line between the adjacent two integrated wallboards when can effectively connecting radiation integrated wallboard 1 through this T shape joint limit. The second meets the strip 65 including meeting the strip body and vertically setting up at the vertical plate that should meet the strip body top mutually, the top of the vertical plate flushes with the decorative cover of the integrated wallboard 1 of radiation after the installation to play the effect of seam connecting line, its specific width can be decided according to the demand of reality. The third butt joint strip 66 comprises a butt joint strip body with an I-shaped structure, and the third butt joint strip 66 with the I-shaped structure can be hidden in two adjacent shot wall boards 1, so that the whole wall board can be spliced more integrally. The fourth meets strip 67 includes that the looks of I shape structure meets the strip body and meets the U-shaped decorative groove of a body coupling through the vertical plate of vertical setting and this mutually, and the top of U-shaped decorative groove flushes and plays the decorative effect with the decorative cover of integrated wallboard for the molding of whole wall is more three-dimensional. The structure of the conversion line 62 is the same as that of the second connection line 65, so as to connect the connection point of the radiation integrated wall board 1 and the conversion plate 9. In the installation of reality, can select the mode of 6 or the multiple structure collocation installations of the looks connection strip of single structure according to the installation demand of reality for the decorative structure of whole wallboard body is diversified abundanter.

According to the utility model, the capillary network is arranged in the wall surface and the ceiling so as to carry out heat radiation or cold radiation indoors and adjust the indoor temperature, the first water-through coil pipe of the radiation integrated wallboard is arranged in the heat-insulating base plate, and the decorative plate is integrated on the outer surface of the heat-insulating base plate, so that the heat-insulating effect and the heat-transmitting effect are ensured, and the subsequent wet construction step can be omitted; the radiation integration top plate is exposed towards one side of the suspended ceiling pinch plate, and the other side of the radiation integration top plate is insulated through the heat insulation cushion layer. The integration of the radiation integrated wall panel and the radiation integrated roof panel enables a better constant temperature effect of the entire indoor environment and lower installation and maintenance costs. In addition, the mutual terminal strip through various isotructures between the integrated wallboard of radiation connects for the decorative structure of whole wall is abundanter various, still is provided with flexible cushion on the terminal surface of being connected of mutual terminal strip and the integrated wallboard of radiation with the flexible volume that the integrated wallboard expend with heat and contract with cold of absorption radiation brings, has avoided leading to the fracture phenomenon that extrusion leads to between the wallboard each other because of the temperature rise. In addition, integrated wallboard includes adaptation mould board and ventilation chamber, and integrated wallboard can also be connected with general change-over panel, has also improved the compatibility of whole wall when increasing decorative effect.

The specific embodiments described herein are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. Indoor mounting structure of cold and hot radiation integrated plate, its characterized in that: the integrated radiation ceiling comprises a radiation integrated wallboard laid on an indoor wall and a radiation integrated top plate matched and hung on a wall top, wherein the radiation integrated top plate is hung on the wall top through a hanging piece, a ceiling buckle plate is arranged at the bottom of the radiation integrated top plate, the ceiling buckle plate is connected with the radiation integrated wallboard through an upper closing line, and the radiation integrated wallboard is connected with the ground through a skirting line; the radiation integrated wallboard comprises a heat insulation substrate and a first water through coil pipe embedded in the heat insulation board, a layer of decorative board is laid on the upper surface of the heat insulation substrate, the radiation integrated top plate comprises an outer frame body and a second water through coil pipe detachably arranged in the outer frame body, one side of the second water through coil pipe is exposed and installed towards the ceiling pinch plate, and the other side of the second water through coil pipe is sealed through a heat insulation cushion layer clamped in the outer frame body to avoid temperature loss; a plurality of through holes are formed in the upper closing-up line and used for enabling a first water-through coil and a second water-through coil in the radiation integrated wallboard and the radiation integrated top plate to penetrate through for communicating to carry out water circulation.

2. An indoor installation structure of a cold and heat radiation integration plate according to claim 1, wherein: the length of the heat-insulating base plate is greater than that of the first water-passing coil pipe, a plurality of vertical fixing grooves for placing the first water-passing coil pipe are formed in the upper surface of the heat-insulating base plate along the length direction, transverse positioning grooves for accommodating a water inlet pipe and a water outlet pipe of the first water-passing coil pipe and a bent pipeline are arranged in the heat-insulating base plate in a penetrating mode along the width direction, and the first water-passing coil pipe is clamped in the vertical fixing grooves through fixing pieces; female groove of connection has been seted up to the left and right sides of heat preservation base plate, connects through the looks terminal strip of establishing in female groove of connection of card between two adjacent radiation integration wallboards.

3. An indoor installation structure of a cold and heat radiation integration plate according to claim 2, wherein: the second water coil pipe in the radiation integration top plate is installed in the outer frame body through a plurality of fixing supports which are transversely clamped on the outer frame body, a plurality of arc-shaped clamping grooves used for clamping the second water coil pipe are evenly formed in the fixing supports, and damping gaskets are arranged on contact surfaces of the second water coil pipe and the arc-shaped clamping grooves.

4. An indoor installation structure of a cold and heat radiation integration plate as set forth in claim 2 or 3, wherein: the flexible cushion that can stretch into in the female groove of connection when being provided with on the looks connection strip and being connected with the female groove of connection of integrated wallboard of radiation, this flexible cushion is used for absorbing the flexible volume that the integrated wallboard expend with heat and contract with cold of radiation brought.

5. The indoor installation structure of the cold and heat radiation integration plate of claim 4, wherein: the radiation integrated wallboards are provided with adaptive modeling boards or ventilation cavities with air outlets, the thickness of the adaptive modeling boards is the same as that of the radiation integrated wallboards, and the outer surfaces of the adaptive modeling boards are provided with smooth or concave or convex decorative surfaces; the ventilation chamber is connected with new trend equipment and through the air outlet air-out, and the surface cladding in ventilation chamber has the decorative film that the decorative board material is the same of one deck and integrated wallboard of radiation.

6. An indoor installation structure of a cold and heat radiation integration plate according to claim 5, wherein: the radiation integrated wallboard comprises a radiation integrated wallboard body and is characterized in that a unilateral phase connection wire is arranged on the outer end face of one side of the left side and the right side of the radiation integrated wallboard body, a conversion plate is connected to the outer end face of the other side of the radiation integrated wallboard body through a conversion line, the thickness of the conversion plate is smaller than that of the radiation integrated wallboard body, and a conversion plate closing line is arranged on the end face of one side, far away from the radiation integrated wallboard body, of the conversion plate.

7. The indoor installation structure of the cold and heat radiation integration plate of claim 6, wherein: the upper portion of going up the binding off line is provided with furred ceiling buckle binding off position, and the lower part of going up the binding off line is provided with integrated wallboard binding off position, and this integrated wallboard binding off position is internal through the baffle with integrated wallboard binding off position separation for wall keysets binding off position and ornamental strip joint groove that is used for joint ornamental strip.

8. The indoor installation structure of the cold and heat radiation integration plate of claim 6, wherein: the upper portion of skirting line is provided with integrated wallboard binding off position, and through the ornamental strip joint groove that the blend stop was separated integrated wallboard binding off position for wall keysets binding off position and was used for joint ornamental strip in this integrated wallboard binding off position, the lower part of skirting line is provided with the lamp area mounting groove that is used for installing LED lamp area, and the bottom downwardly extending of skirting line is formed with the circular arc ornamental strip, and the bottom of this circular arc ornamental strip is provided with the manger plate adhesive tape.

9. An indoor installation structure of a cold and heat radiation integration plate according to any one of claims 5 to 8, wherein: the phase connection strip comprises a first phase connection strip, a second phase connection strip, a third phase connection strip and a fourth phase connection strip; the first connecting strip comprises a connecting strip body with an I-shaped structure and a T-shaped clamping edge arranged at the top of the connecting strip body, the second connecting strip comprises a connecting strip body and a vertical plate vertically arranged at the top of the connecting strip body, the third connecting strip comprises a connecting strip body with an I-shaped structure, and the fourth connecting strip comprises a connecting strip body with an I-shaped structure and a U-shaped decorative groove connected with the connecting strip body through the vertical plate vertically arranged.

10. An indoor installation structure of a cold and heat radiation integration plate according to claim 9, wherein: the hoist and mount piece includes the screw rod, from card formula lifting hook and main joist, the integrated roof of radiation sets up between two adjacent main joists through the switching regulating part and the bottom height that the bottom height of the integrated roof of radiation is higher than the main joist, the furred ceiling buckle passes through the bottom of triangular keel hoist and mount at the main joist.

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