KR101332380B1 - Radiant pannel for cooling and heating with seat and separator - Google Patents

Abstract

The present invention relates to a heating and cooling radiant panel provided with a sheet and a spacer.
The heating and cooling radiant panel provided with the sheet and the spacer of the present invention includes an enclosure-shaped base portion and a heat-and-cold heat medium moving along the inside thereof and installed on an upper portion of the base portion. In the heating and cooling radiant panel consisting of a flow path portion connected to the supply port and the discharge port, the flow path portion is made of any one material selected from a flexible film material, a non-flexible plate material, a flexible film material, non It is made of any one material selected from the flexible material, and is composed of a lower sheet provided below the upper sheet and a spacer provided between the upper sheet and the lower sheet, the cross-sectional shape of the flow path portion, A spacer is formed between the ends of the upper sheet and the lower sheet, and the upper sheet and the lower sheet and both ends The passage portion is formed by enclosing a space between the spacers on the side and filled with the hot and cold heat medium, and the passage portion is formed in communication with each other while forming one or a plurality of routes from the supply port to the discharge port on a plane. It is characterized by.
According to the present invention, the flow path portion through which the hot and cold heat medium passes is composed of a non-flexible plate or a flexible film material, the upper sheet and the lower sheet, and the spacer therebetween, thereby lowering the production cost of the flow path portion and lowering the overall price of the heating / cooling radiation panel. In addition, the lower sheet is formed to be flat compared to the flow path portion formed in the conventional cylindrical tube shape to increase the surface area, and in particular, the radiation efficiency is superior to the existing flow path portion by increasing the contact area with the base portion, Compared with the cylindrical tube shape, the unit area through which the hot and cold heat medium passes is greatly increased, so that the pressure loss is reduced, so that the capacity of the pump is reduced when installed in a large building. Thinner than that, or in the same thickness various sound insulation or insulation Can be installed.

Description

RADIANT PANNEL FOR COOLING AND HEATING WITH SEAT AND SEPARATOR}

The present invention relates to an air-conditioning radiant panel, wherein a spacer is disposed between an upper sheet and a lower sheet made of a film material having non-flexibility or flexibility to form a flow path part by forming one or more routes from a supply port to an outlet port. This makes it easy to form and manufacture the flow path, and the production cost is low, and the pressure loss is low, so the pump capacity is reduced and the maintenance and repair cost is inexpensive. The present invention relates to a heating and cooling radiation panel provided with a sheet and a spacer.

In general, indoors are equipped with cooling devices such as fans and air conditioners to cool the summer heat, and heating devices such as a hot air heater are provided to withstand the cold of winter.

The air-conditioning device circulates the cold or warm air in the air in a short time to provide satisfaction to the occupants, but the noise caused by the fan provided in the air-conditioning device and the cold and hot air directly blown to the occupant make the residents uncomfortable. In some cases, cooling and heating efficiency is also low.

In order to solve this problem, recently, a heating / cooling panel using a radiation method has been developed, and the heating / cooling panel is installed on a ceiling or a wall to provide cooling / heating indoors.

9 is a graph showing the heat release rate of the human body in the office, in the case of the clerk working in the office occupies about 45% of the amount of heat emitted by the human body to the outside.

It can be seen from this that heat exchange by radiation is a much more effective method than heat exchange by convection.

Radiative cooling and heating that applies this principle has an excellent comfort compared to the heating and cooling method by convection because the heat exchange with the human body directly radiates, and has less noise, less discomfort due to the draft and noise in the room.

Conventional radiant heating and cooling panels for radiant heating and cooling is fixed to the ceiling or the wall and installed in the tube, the cold water or hot water circulates in the tube to provide the cold and heat in the room, thereby keeping the room quiet and at the same time comfortable The environment was created.

As a technology related to such an air-conditioning radiation panel, "copy panel" (Korea Patent Publication No. 10-0842044, Patent Document 1), "radiation heating and heating panel" (Korean Utility Model Publication No. 20-2011-0004548, Patent Document 2 ) Has been developed.

All of the above technologies have a cylindrical flow path tube through which a cold and hot medium such as cold water or hot water flows in order to generate cold and hot heat.

As such, when the cylindrical flow path pipe is piped on one side of the radiation panel, the pipe diameter is generally about 5 mm to about 20 mm.

However, when a cylindrical flow path tube having a diameter of about 5 to 20 mm is disposed on a ceiling of a large building such as a building in which an installation area of a radiation panel is increased, a small cross-sectional area of the flow path tube is caused by the process of moving the hot and cold media. As the pressure loss increases, there is a problem in that a pump having a large capacity or multiple pumps need to be installed in the middle of the pipeline.

As a result of using a large capacity pump or installing a plurality of pumps, a problem arises in that facility and maintenance costs increase.

In addition, in the cold and hot heat method using radiant heat, the radiation efficiency is determined according to the area of the flow channel per unit area of the panel. As described above, the cylindrical flow path is arranged in such a way that the area occupied by the flow path is extremely small. There was also a problem that the radiation efficiency was lowered.

In other words, even though it recognizes the excellence of air-conditioning radiant panels, it is necessary to install a pump with a large product cost and installation cost, and a large capacity for maintenance. As a result, it is difficult to provide cold and warm effects that tenants can feel.

KR 10-0842044 (2008.06.23) KR 20-2011-0004548 (2011.05.09)

The air-conditioning radiation panel provided with the sheet and the spacer of the present invention is to solve the problems caused by the prior art as described above. In constructing the radiation panel, it is easy to form and manufacture the flow path, and the production cost is low, and the pressure loss is low. It is to provide a cooling and heating radiation panel that can reduce the pump capacity and reduce the maintenance and repair cost, maximize the radiation cross-sectional area, and provide high radiation efficiency and easy production and construction.

More specifically, by configuring the flow path portion through which the hot and cold heat medium passes, the upper sheet and the lower sheet made of non-flexible plate or flexible film, and the spacer therebetween, thereby reducing the material cost and production cost of the flow path portion, thereby reducing the overall cost of the heating / cooling radiation panel. To lower it.

In addition, the lower sheet is formed to be flat compared to the flow path portion formed in the conventional cylindrical tube shape to increase the surface area, and in particular, by increasing the contact area with the base portion, excellent radiation efficiency compared to the conventional cylindrical tube flow path portion. We want to provide a copy panel.

In addition, it is to minimize the pump capacity when installed in large buildings by increasing the unit area through which the hot and cold heat medium passes, compared to the conventional cylindrical tube shape to reduce the pressure loss.

In particular, the flow path portion is formed in a flat tubular shape rather than a cylindrical tubular shape to be formed in a thinner thickness than the conventional radiation panel, or in the case of the same thickness, various sound insulating material or heat insulating material can be additionally installed.

In order to solve the above problems, the heating and cooling radiant panel provided with the sheet and the spacer of the present invention is provided with an enclosure-shaped base part and a hot / cold heat medium moving along the inside thereof and installed on an upper side of the base part. In the heating and cooling radiant panel, each of the flow passage portion is connected to the supply port and the discharge port for supplying and discharging the hot and cold heat medium, the flow path portion and the upper sheet made of any one material selected from a flexible film material, non-flexible plate material and It is made of any one material selected from a flexible film material, a non-flexible material, and is composed of a lower sheet installed below the upper sheet, and a spacer provided between the upper sheet and the lower sheet. , The cross-sectional shape of the flow path portion, the spacer is formed between both ends of the upper sheet and the lower sheet It is surrounded by a space between the upper sheet and the lower sheet and the spacers on both sides is formed a passage portion for filling and moving the hot and cold heat medium, the passage portion is one or a plurality of routes from the supply port to the outlet port in the passage section It is characterized in that it is formed while communicating with each other.

In addition, the flow path portion is characterized in that the hollow portion formed by the non-arranged top sheet and the lower sheet is formed.

In addition, the cross-sectional shape of the flow path portion is characterized in that a plurality of passage portions are formed side by side, a plurality of passage portions in parallel from the supply port to the discharge port is formed.

In addition, a sound absorbing oil hole is formed in the bottom surface of the base portion, and a cradle is installed on the upper or inner upper portion of the base portion, and the flow path portion is seated on the upper portion of the cradle, and the sound absorbing space portion is formed between the bottom of the base portion and the bottom of the flow passage portion. It is characterized by being formed.

In addition, the lower surface material which is spaced apart from the bottom of the base portion and spaced apart from the base portion is formed, connected to the base portion by a connecting member, and a plurality of sound absorbing oil holes formed on the surface It is characterized by being installed.

In addition, an infrared radiation layer is formed at the bottom of any one of the base part, the flow path part, and the like.

In addition, the upper sheet and the lower sheet is characterized in that the metal mesh, glass wool mesh, organic mesh, organic mineral, non-woven fabric, woven fabric is formed by adding to the raw material, or is bonded to reinforce the tensile strength.

In addition, the auxiliary bonding portion to which the upper sheet and the lower sheet are bonded is characterized in that the plurality of spaced apart along the longitudinal direction of the passage portion on the plane.

Moreover, the heat insulating material is provided in the upper part of the said flow path parts, It is characterized by the above-mentioned.

According to the present invention, it is easy to form and manufacture the flow path, the production cost is low, the pressure loss is low, the pump capacity is reduced and the maintenance cost is low, maximizing the radiation area to increase the radiation efficiency, reduce the thickness of the component layer height There is provided a heating and cooling radiant panel which minimizes the reduction of and which is easy to produce and construct.

More specifically, by forming the flow path portion through which the hot and cold heat medium passes, the upper sheet and the lower sheet made of non-flexible plate or flexible film, and the spacer therebetween, so that the flow path portion can be easily formed and manufactured, and the raw material cost and production cost can be reduced. Lower the overall cost of heating and cooling radiant panels and maintenance costs.

In addition, the lower sheet is formed to be flat compared to the flow path portion formed in the conventional cylindrical tube shape to increase the surface area, and in particular, to increase the contact area with the base portion to provide a radiation panel with better radiation efficiency than the existing flow path portion. do.

In addition, the capacity of the pump is reduced when installed in a large building by increasing the unit area through which the hot and cold heat medium passes, compared to the conventional cylindrical tube shape to reduce the pressure loss.

In particular, the flow path portion is formed in a flat tubular shape instead of a cylindrical tubular shape, and is formed in a thinner thickness than the conventional radiation panel, or in the case of the same thickness, various sound insulating materials or heat insulating materials may be additionally installed.

1 is an exploded perspective view showing an embodiment of a heating and cooling radiation panel provided with a sheet and the spacer of the present invention.
Figure 2 is a cross-sectional view showing the cross-sectional shape of the flow path portion in the present invention.
Figure 3 is a cross-sectional view showing an embodiment of the heating and cooling radiant panel of the present invention.
Figure 4 is a perspective view showing an example in which a plurality of passage portion formed side by side in the present invention.
Figure 5 is a cross-sectional view showing an example in which the flow path portion is laminated on the base portion in the present invention.
Figure 6 is a cross-sectional view showing an example of the configuration of the base portion in the present invention.
Figure 7 is a cross-sectional view showing an example in which the lower surface material is installed in the lower portion of the base portion in the present invention.
8 is a plan view showing an example of the configuration of the flow path portion in the present invention.
9 is a graph showing the heat release rate of the human body in the office.

Hereinafter, the heating and cooling radiant panel provided with the sheet and the spacer of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the heating and cooling radiant panel provided with the sheet and the spacer of the present invention includes a base portion 10 having a housing shape, and a cooling / heating medium 50 moving along the inside thereof, and placed on the upper portion of the base portion 10. It is provided, and comprises a flow path portion 20 is connected to the supply port 20a and the discharge port 20b for supplying and discharging the hot and cold heat medium 50 on one side and the other side, respectively.

At this time, the flow path portion 20 is different from the configuration of the conventional metal or resin tube, the upper sheet 21 made of any one material selected from a film material having a flexibility, a non-flexible plate material, a film material having a flexibility, It is made of any one material selected from the non-flexible material, the lower sheet 22 is provided on the lower portion of the upper sheet 21, and the separation is provided between the upper sheet 21 and the lower sheet 22. It consists of the ashes 23.

At this time, the upper sheet 21 and the lower sheet 22 is configured by being bonded to the spacer 23 by heat fusion, adhesive, stamper, or the like, or during production, the upper sheet 21 and the lower sheet 22 and the spacer ( 23) may be integrally molded.

In addition, both the upper sheet 21 and the lower sheet 22 may be made of a film material having flexibility, or both may be formed of a non-flexible plate material, and in some cases, only one may be made of a flexible film material. .

In this case, it is preferable that the lower sheet 22 is made of a non-flexible plate material so as not to reduce the contact area of the downward facing portion, and the upper sheet 21 is made of a flexible film material or a non-flexible plate material. It will be said that the most preferred embodiment in terms of cost reduction.

The upper sheet 21 and the lower sheet 22 may be formed of a metal, a synthetic resin, rubber, a composite material, or the like.

In addition, the upper sheet 21 and the lower sheet 22 may be configured in a single film shape, or may be composed of multiple bonding films, and a metal thin film layer may be formed on the surface thereof.

In addition, metal mesh, glass wool mesh, mesh organic, mesh inorganic, nonwoven fabric, and woven fabric may be added to raw materials in the production of a film-type sheet or bonded to a manufactured sheet to reinforce tensile strength as necessary.

On the other hand, the spacer 23 is installed between the upper sheet 21 and the lower sheet 22 is made of metal, such as stainless steel, iron, aluminum, synthetic resin, rubber, fired inorganic materials and organic composite materials, inorganic composite materials, etc. Can be configured.

The cross-sectional shape of the spacer 23 may be formed in various shapes such as square, square tubular, "┻" type, "I" type, triangle, circular.

In addition, the spacer 23 is formed between both ends of the upper sheet 21 and the lower sheet 22, the space between the upper sheet 21 and the lower sheet 22 and the spacer 23 on both sides. Surrounded by a hot and cold thermal medium 50 is filled with the passage portion 24 is formed to move.

As such, the flow path portion 20 formed by joining the upper sheet 21 and the lower sheet 22 by the spacer 23 has a unit cost of 1 / l as compared to the flow path portion of the cylindrical tube shape made of copper or resin. Can be reduced to 10 levels.

In addition, compared to the tube having a circular cross-sectional shape, as shown in FIG. 2, the rectangular shape is increased, and the contact area with the base part 10 or the area toward the base part 10 is increased, so that The radiation efficiency of is higher.

In addition, compared with the conventional cylindrical tube shape, the unit area through which the hot and cold heat medium 50 passes is greatly increased, so that the pressure loss is reduced, thereby minimizing the capacity of the pump when installed in a large building.

In particular, when using a circular cross-section tube for passing the hot and cold heat medium 50, the pipe diameter is 5 to 20 mm to form a radiation panel at least thicker than this, which eventually causes a problem of reducing the indoor height Compared to the above, the configuration in which the upper sheet 21 and the lower sheet 22 are bonded with the spacer 23 may reduce the distance between the upper sheet 21 and the lower sheet 22 by at least 1 to 3 mm. Bar will not reduce the actual floor height, if you maintain the same floor is to have the effect of installing another sound insulation, heat insulation and the like.

Accordingly, in the present invention, the flow path part 20 may have a height from the upper end to the lower end of the passage part 24 in a state where the hot and cold heat medium 50 is full, at least about 3 to 9 mm.

2 illustrates an example of a cross-sectional configuration of the flow path part 20. As shown in the drawing, the lower sheet 22 is widely disposed on the base part 10 so that the surface area adjacent to the base part 10 is increased, thereby increasing the base part ( It is possible to increase the radiation efficiency in 10).

In addition, an auxiliary junction 26 may be formed in the middle between the upper sheet 21 and the lower sheet 22.

These auxiliary joints 26 are formed in a plurality of spaced apart along the longitudinal direction of the passage portion 24 in the plane, even if the fluid pressure inside the passage portion 24 increases the gap between the upper sheet 21 and the lower sheet 22 This can be prevented from growing.

On the other hand, the flow path portion 20 is a passage portion 24 when viewed in a plan consists of one line (a) from the supply port (20a) to the discharge port (20b), or as shown in Figure 8 a plurality of lines ( It is formed while communicating a).

Referring to Figure 8, it can be seen at a glance how the configuration of the present invention increases the radiation efficiency and the pressure loss.

Looking at the drawings it can be seen that the contact area with the base portion 10 is significantly increased compared to the configuration to move the cold and hot media 50 to the existing cylindrical tube shape.

In addition, it can be seen that the pipes through which the hot and cold thermal medium 50 moves may be configured not only in one, but in several, or by increasing the cross-sectional area of the passage part 24 to minimize the pressure loss.

On the other hand, the heat insulating material 40 may be additionally installed on the upper portion of the flow path portion 20.

The thermal insulation material 40 is to increase the thermal efficiency by minimizing the leakage of heat from the cold / hot thermal medium 50 of the flow path part 20 to the outside. Glass wool, rock wool, inorganic fiber wool, foamed polystyrene foam, foamed polyethylene foam, foam It may be formed of a material such as polypropylene foam, urethane foam, foamed phenol foam and the like.

In this configuration, the bar 30 may be installed between the bar part 20 and the heat insulating material 40 shown in FIGS. 1 and 3.

One side of the fixture 30 is connected to the base portion 10 to prevent the flow path portion 20 from flowing in the base portion 10 of the enclosure shape by vibration or shock, and the cross section of the passage portion 24 The shape does not move upward even when the force is trying to change the shape of the circle.

That is, the stator 30 prevents the upper sheet 21 and the lower sheet 22 from elliptically spreading even if the cold / heat medium flows in and increases the internal pressure, and is purged from side to side between the base portion 10 and the holder 30. While increasing the contact area with the base portion 10 is to increase the radiation efficiency in the base portion 10.

At this time, the shape of the holder 30 may be formed in a variety of perforations, such as simple non-porous plate or circular, oval, polygonal, mesh.

This may serve to minimize the indoor noise of the base 10 by absorbing the sound flowing from the base portion due to the formation of a plurality of holes.

As shown in FIG. 1, the flow path portion 20 configured as described above may have a hollow portion 25 formed by uncoupling the upper sheet 21 and the lower sheet 22 in plan view.

That is, the hollow part 25 which is the space where a sheet is not arrange | positioned is formed between the adjacent passage part 24 of the flow path part 20 formed in the zigzag shape.

As such, when the hollow part 25 is formed, when the sound absorbing oil hole 10a to be described below is formed on the bottom surface of the base part 10, the sound flowing through the bottom surface of the base part 10 is hollowed out of the flow path part 20. It is introduced into the portion 25 can be induced to change the acoustic characteristics according to the sound absorption.

As shown in FIG. 4, the flow path portion 20 configured as described above has a plurality of passage portions 24 formed side by side in the cross-sectional shape of the flow path portion 20, from the supply port 20a to the discharge port 20b. It can be configured to form a plurality of passages 24 in parallel up to.

This increases the volume of the cold and hot medium 50 passing through the area of the unit base unit 10, thereby allowing the radiant effect to be obtained more quickly and also reducing the pressure loss.

In the above configuration, as a method for further improving sound absorption performance, as illustrated in FIG. 5, sound absorbing holes 10a are formed in the bottom surface of the base portion 10, and FIGS. As shown in (b), the cradle 31 is installed on the upper or inner upper portion of the base portion 10, and the flow path portion 20 is seated on the cradle 31, and the bottom surface and the flow path of the base portion 10 are disposed. The sound absorbing space 11 may be formed between the bottoms of the portions 20.

This configuration is to increase the effect of reducing the indoor noise by the sound generated in the room through the sound absorbing hole (10a) to the sound absorbing space (11).

In particular, as shown in (b) of FIG. 5 is due to the fact that the thickness of the flow path portion in the present invention can be formed very thin compared to the prior art, while increasing the sound absorbing space portion 11 to maximize the sound performance The cooling and heating radiant function can be maintained.

That is, the thickness of the flow path portion 20, the holder 31, and the thermal insulation material 40 can be formed as thin as possible to provide the maximum acoustic properties and the heating and cooling radiation effect to the room without reducing the floor of the actual building. Will be.

At this time, the holder 31 is similar to the holder 30, a simple non-porous plate, circular, oval, polygonal, a variety of pore shape, such as a mesh is possible.

In the above configuration, the base portion 10 may be formed in various shapes such as a wave shape shown in (a) of FIG. 6, a convex shape of the lower part shown in (b), and a convex shape of the upper part shown in (c).

This can be configured for the purpose of inducing a particular acoustic characteristic of the room interior dimension or the room.

On the other hand, as shown in Figure 7 is spaced apart from the bottom of the base portion 10 is spaced apart space portion 12c is formed between the base portion 10 and is formed by the connecting member 12a The lower surface material 12 connected to the base part 10 and having a plurality of sound absorbing oil holes 12b formed on a surface thereof may be additionally installed.

In this configuration, as the plurality of panels are installed adjacent to each other, the separation space portion 12c allows sound to be introduced through the sound absorbing oil hole 12b formed in the lower surface material 12 so as to enhance the acoustic characteristics.

In this case, the connecting member 12a may be configured to adjust the length in various ways, thereby freely adjusting the space of the space 12c to adjust the sound absorbing function.

In addition, the shape of the lower surface material 12 may be formed in various shapes as in the case of the base portion 10 shown in FIG.

On the other hand, in the above configuration, by forming an infrared radiation layer on the lower portion of the base portion 10, the flow path portion 20, the heat insulating material 40, the lower surface material 12, the cradle 31, the fixed base 30, Radiation efficiency of the cold and hot thermal medium 50 may be configured to be higher.

Infrared radiation layer for this may be used a variety of known materials, of which may be composed of one or two or more mixed with a material that emits infrared rays, such as ceramic, iron oxide, ocher, elvan.

10: base portion 10a: sound absorption hole
11: sound absorbing space portion 12: lower surface material
12a: connection member 12b: sound absorption hole
20: flow path part 20a: supply port
20b: outlet 21: top sheet
22: lower sheet 23: spacer
24: passage portion 25: hollow portion
26: auxiliary junction part 30: fixing table
31: cradle 40: insulation
50: hot and cold thermal medium a: route

Claims (10)

The base portion 10 of the enclosure shape and the hot and cold heat medium 50 is moved along the inside and is installed on the base portion 10, the supply port for supplying and discharging the cold and hot heat medium 50 on one side and the other side, respectively In the air-conditioning radiant panel which consists of the flow path part 20 to which the 20a and the discharge port 20b are connected,
The flow path portion 20 is made of any one material selected from the top sheet 21 made of any one material selected from a flexible film material, a non-flexible plate material, a flexible film material, a non-flexible material The lower sheet 22 is provided below the upper sheet 21, and the spacer 23 is provided between the upper sheet 21 and the lower sheet 22,
In the cross-sectional shape of the flow path part 20, the spacer 23 is formed between the upper ends of the upper sheet 21 and the lower sheet 22, and the upper sheet 21, the lower sheet 22, and both sides. Is surrounded by a space between the spacer 23 of the hot and cold heat medium 50 is filled with the passage portion 24 is formed, and moves,
The flow path portion 20 is formed while the passage portion 24 is in communication with each other while forming one or a plurality of lines (a) from the supply port (20a) to the discharge port (20b) in the plane,
Sound absorbing oil hole (10a) is formed on the bottom surface of the base portion 10,
The cradle 31 is installed on the upper or inner upper portion of the base portion 10,
Characterized in that the sound absorbing space portion 11 is formed between the bottom surface of the base portion 10 and the bottom surface of the flow path portion 20 is seated on the upper portion of the cradle 31,
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
The flow path portion 20 is characterized in that the hollow portion 25 is formed in which the upper sheet 21 and the lower sheet 22 is not disposed on a plane,
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
The cross-sectional shape of the flow path portion 20 is characterized in that a plurality of passage portions 24 are formed side by side and a plurality of passage portions 24 parallel from the supply port to the discharge port are formed,
Heating and cooling radiant panel with sheets and spacers.
delete The method of claim 1,
A spaced space portion 12c spaced apart from the bottom of the base portion 10 and spaced apart from the base portion 10 is formed, and is connected to the base portion 10 by a connecting member 12a. , Characterized in that the lower surface material 12 is provided with a plurality of sound absorbing oil holes (12b) on the surface,
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
Infrared radiation layer is formed on the bottom of any one of the base portion 10, the flow path portion 20,
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
The upper sheet 21 and the lower sheet 22 is characterized in that the metal mesh, glass wool mesh, mesh organic, mesh inorganic, non-woven fabric, woven fabric is added to the raw material is formed, or bonded to reinforce tensile strength ,
Heating and cooling radiant panel.
The method of claim 1,
Any one of the upper sheet 21 and the lower sheet 22 is made of a film material having flexibility,
Characterized in that a plurality of auxiliary joints 26 to which the upper sheet 21 and the lower sheet 22 are bonded are spaced apart along the longitudinal direction of the passage portion 24 on a plane.
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
Insulating material 40 is provided on the upper portion of the flow path portion 20,
Heating and cooling radiant panel with sheets and spacers.
The method of claim 1,
The upper portion of the flow path portion 20 to prevent the flow of the flow path portion 20, characterized in that the fixing table 30 for suppressing the gap between the upper sheet 21 and the lower sheet 22 is provided,
Heating and cooling radiant panel with sheets and spacers.

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