JPH0914682A - Far-infrared floor heating panel - Google Patents
Far-infrared floor heating panelInfo
- Publication number
- JPH0914682A JPH0914682A JP18800095A JP18800095A JPH0914682A JP H0914682 A JPH0914682 A JP H0914682A JP 18800095 A JP18800095 A JP 18800095A JP 18800095 A JP18800095 A JP 18800095A JP H0914682 A JPH0914682 A JP H0914682A
- Authority
- JP
- Japan
- Prior art keywords
- far
- hot water
- heat
- space
- transfer plate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Steam Or Hot-Water Central Heating Systems (AREA)
- Central Heating Systems (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】この発明は、遠赤外線の放射熱を
利用した床暖房パネルに関し、特に熱効率に優れ、ラン
ニングコストの節減を可能とした遠赤外線床暖房パネル
に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor heating panel utilizing radiant heat of far infrared rays, and more particularly to a far infrared floor heating panel having excellent thermal efficiency and capable of reducing running costs.
【0002】[0002]
【従来の技術】従来、遠赤外線を利用した床暖房装置は
公知である。しかしながら、従来公知の床暖房装置は、
遠赤外線の利用を唱っているのにすぎず、実際には遠赤
外線の放射率は極めて小さく、基本的には床内部の発熱
体を高温にして熱伝導させる構造にすぎなかった。例え
ば、実開昭60−106015号公報に開示された床暖
房装置は、電熱ヒータを熱源として使用し、ヒータの上
部に遠赤外線放射層を形成したものであるが、遠赤外線
は電熱ヒータの補助的な熱源として利用されているにす
ぎない。又、実開昭63−15595号公報に開示され
た床暖房パネルは、薄板状に形成された高分子発熱体に
電極およびリード線を接続し絶縁材で被覆すると共に、
下面にウレタン系断熱材を貼着したものであるが、かか
る床暖房パネルは、遠赤外線の発生効率が充分ではなか
った。更に、従来の遠赤外線を利用した床暖房装置は、
いずれも暖房時間中は熱源を稼動させておかなければな
らずエネルギー効率が悪いという欠点があった。2. Description of the Related Art Conventionally, a floor heating system using far infrared rays is known. However, the conventionally known floor heating device is
It is only advocating the use of far infrared rays, and in fact the emissivity of far infrared rays is extremely small, and basically it was just a structure that heats the heating element inside the floor to conduct heat. For example, the floor heating device disclosed in Japanese Utility Model Laid-Open No. 60-106015 uses an electric heater as a heat source and forms a far infrared radiation layer on the upper part of the heater. It is only used as a general heat source. In the floor heating panel disclosed in Japanese Utility Model Laid-Open No. 63-15595, electrodes and lead wires are connected to an insulating material by connecting a polymer heating element formed in a thin plate shape,
Although a urethane-based heat insulating material was attached to the lower surface, such a floor heating panel was not sufficiently efficient in generating far infrared rays. Furthermore, the conventional floor heating system using far infrared rays is
In both cases, the heat source had to be kept in operation during the heating time, and there was a drawback that the energy efficiency was poor.
【0003】[0003]
【発明が解決しようとする課題】この発明は、従来の遠
赤外線を利用した床暖房パネルにみられた欠点を解消
し、遠赤外線の発生効率を向上させて、熱伝導による暖
房ではなく実質的に遠赤外線の輻射による暖房を可能と
し、且エネルギー効率に優れた床暖房パネルを提供せん
とするものである。DISCLOSURE OF THE INVENTION The present invention solves the drawbacks found in the conventional floor heating panel using far infrared rays, improves the efficiency of generating far infrared rays, and substantially eliminates heating by heat conduction. In addition, it is intended to provide a floor heating panel that enables heating with far infrared radiation and is excellent in energy efficiency.
【0004】[0004]
【課題を解決するための手段】上記課題を解決するため
に、この発明が採った手段は、断熱性ベースの上部に空
間を存して伝熱板を配置し、該伝熱板の上面に遠赤外線
層を形成し、該遠赤外線層の上部に表層材を積層し、前
記空間内に温水パイプを配置したことを特徴とする。Means for Solving the Problems In order to solve the above-mentioned problems, a means adopted by the present invention is to dispose a heat transfer plate with a space above the heat insulating base, and to dispose on the upper surface of the heat transfer plate. A far infrared layer is formed, a surface layer material is laminated on the far infrared layer, and a hot water pipe is arranged in the space.
【0005】又、伝熱板が、アルミパンチングメタルか
らなることを特徴とする。Further, the heat transfer plate is made of aluminum punching metal.
【0006】更に、遠赤外線層が、表1記載の割合の成
分からなることを特徴とする。Further, the far infrared layer is characterized by comprising the components in the proportions shown in Table 1.
【0007】[0007]
【作用】発熱体を熱伝導率の良いアルミパンチングメタ
ルの伝熱板で形成し、更に前記成分と割合からなる遠赤
外線放射材を伝熱板に積層してあるので、熱源になる低
・中温水(36から50℃)を効率よく放熱させ、遠赤
外線を高効率で発生させることが出来る。[Function] Since the heating element is formed of a heat-transfer plate made of aluminum punching metal having good thermal conductivity, and the far-infrared radiation material composed of the above-mentioned components and proportions is laminated on the heat-transfer plate, it becomes a low / medium heat source. It is possible to efficiently radiate warm water (36 to 50 ° C.) and generate far infrared rays with high efficiency.
【0008】[0008]
【発明の効果】この発明によれば、暖房パネルが遠赤外
線を均一に放射するので、室内の温度を均一に保つこと
が出来、人体の血行を促進させる作用が非常に強く、低
温水(床面が36℃の常温)でも放射率に大差がない。
温水パイプ内を通過する水(温水)に対して、遠赤外線
の効果で水のクラスターが小さくなり、水に活性力が生
まれることが認められ、活性水になった水(又は温水)
は密封状態では約3ヶ月くらいは腐敗せず、装置の機械
部分に故障や損傷を与えない効果がある。According to the present invention, since the heating panel radiates far infrared rays uniformly, the temperature inside the room can be kept uniform, the action of promoting blood circulation in the human body is very strong, and low temperature water (floor) There is no big difference in the emissivity even at a room temperature of 36 ° C).
It is recognized that the water cluster becomes smaller due to the effect of far-infrared rays on the water that passes through the hot water pipe (warm water), and that the water has an active force.
In a sealed state, it does not rot for about 3 months, and has the effect of not causing damage or damage to the mechanical parts of the device.
【0009】[0009]
【実施例】以下に図面を参照しつつ、この発明の好まし
い実施例を詳細に説明する。図1はこの発明に係る遠赤
外線床暖房装置を示しており、図において(1)は遠赤外
線パネル、(2)は起動用温水供給源、(3)は三方切換
弁、(4)は補助加熱源、(5)は温度コントロール部であ
る。起動用温水供給源(2)からの起動用温水は、三方切
換弁(3)を介してポンプ(6)で温水供給管(7)に送給さ
れ遠赤外線パネル(1)に供給される。遠赤外線パネル
(1)内を通過した温水は、温水戻り管(8)を通って補助
加熱源(4)に戻される。補助加熱源(4)の入口側には、
温度センサー(9)が配置されており、戻ってきた温水の
温度を検知して、温度コントロール部(5)に出力し、温
度コントロール部(5)で補助加熱源(4)を作動して戻っ
てきた温水を必要な温度に加熱する。加熱された温水
は、三方切換弁(3)を介して温水供給パイプ(7)に送給
される。(10)は温水を回路から排出するための切換弁で
あり、三方切換弁からなる。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 shows a far infrared floor heating system according to the present invention. In the figure, (1) is a far infrared panel, (2) is a hot water supply source for startup, (3) is a three-way switching valve, and (4) is an auxiliary. A heating source, (5) is a temperature control section. Hot water for startup from the hot water supply source for startup (2) is sent to the hot water supply pipe (7) by the pump (6) via the three-way switching valve (3) and is supplied to the far infrared panel (1). Far infrared panel
The hot water that has passed through the inside of (1) is returned to the auxiliary heating source (4) through the hot water return pipe (8). On the inlet side of the auxiliary heating source (4),
A temperature sensor (9) is installed to detect the temperature of the returned hot water and output it to the temperature control unit (5). The temperature control unit (5) activates the auxiliary heating source (4) to return the temperature. Heat the warm water to the required temperature. The heated hot water is sent to the hot water supply pipe (7) via the three-way switching valve (3). (10) is a switching valve for discharging hot water from the circuit, which is a three-way switching valve.
【0010】この発明は、床暖房スタート時に切換弁(1
0)を開弁して、熱源からの温水圧で遠赤外線パネル(1)
内の冷水を外部に追い出し、代わりに熱源からの温水を
パネル(4)内部のラインに入れ替え、起動後は回路の温
度を検知して、設定温度になったとき三方切換弁(3)を
切り替えて起動用温水供給源(2)からの起動用温水の供
給を遮断し、且、切換弁(10)を閉弁し、補助加熱源
(4)、ポンプ(6)、遠赤外線パネル(1)からなる温水循
環回路に切り換えて、遠赤外線パネル(1)から戻ってき
た温水を補助加熱源(4)で補助的に加熱しつつ循環させ
るようにしたことを特徴とする。これらの回路の切り換
えや弁の開閉は自動的に行うようにすることが好まし
い。かくして、この発明によれば回路への温水の供給
は、起動時の一回のみで良くその後は供給された温水が
循環して使用されるため、温水の無駄がなくエネルギー
効率が向上するとともに、起動用温水供給源も一回の起
動用温水供給量に見合う給湯量を有するもので良く、大
きな給湯量の温水加熱源である必要がない利点がある。
更に、回路を循環する温水は補助的に加熱するのみで良
いため、大きな容量の加熱器である必要がなく、遠赤外
線パネル(1)内部の温水を循環させるシステムであるた
め、ランニングコストを著しく低減させることが出来
る。又、温水を流過させつつ連続的に加熱するセラミッ
クヒータのような加熱手段を用いて回路内の温度を設定
温度に調節しているので、エネルギー効率が向上すると
共に、床下の様な狭いスペースに配置することが可能と
なる。According to the present invention, the switching valve (1
Far infrared panel (1) is opened by opening (0) and warm water pressure from the heat source.
The cold water in the inside is expelled to the outside, the hot water from the heat source is replaced in the line inside the panel (4) instead, the temperature of the circuit is detected after startup, and the three-way switching valve (3) is switched when the set temperature is reached. Shut off the hot water supply for start-up from the hot water supply source for start-up (2) and close the switching valve (10) to provide an auxiliary heating source.
The hot water circulating circuit consisting of (4), pump (6) and far infrared panel (1) is switched, and hot water returned from the far infrared panel (1) is circulated while being supplementarily heated by the auxiliary heating source (4). The feature is that it is made to do. It is preferable that switching of these circuits and opening / closing of the valve are automatically performed. Thus, according to the present invention, the hot water is supplied to the circuit only once at the time of startup, and the supplied hot water is circulated and used thereafter, so that the hot water is not wasted and the energy efficiency is improved. The hot water supply source for start-up may also have a hot water supply amount corresponding to a single supply amount of hot water for start-up, and has an advantage that it does not need to be a hot water heating source with a large hot water supply amount.
Furthermore, since the hot water circulating in the circuit only needs to be supplementarily heated, it does not need to be a heater with a large capacity, and it is a system that circulates the hot water inside the far infrared panel (1), which significantly reduces running costs. It can be reduced. Also, since the temperature inside the circuit is adjusted to a set temperature by using a heating means such as a ceramic heater that continuously heats hot water while passing it through, the energy efficiency is improved and a narrow space such as under the floor is provided. Can be placed in
【0011】遠赤外線パネル(1)は、後述する構造のも
のが最適であるがこれに限られるものではなく、従来市
販されている遠赤外線パネルが使用可能である。起動用
温水供給源(2)は、図示の実施例では深夜電力を使用す
る電気温水器としたがこれに限られるものではなく、電
気、ガス、ソーラー、灯油等のいかなる熱源を使用する
温水器であっても良い。三方切換弁(3)および切換弁(1
0)は、温度コントロール部(5)で遠隔操作可能なように
電磁弁とした。補助加熱源(4)は、流過している温水を
連続的に加熱できるもの、例えばセラミックヒータや電
磁波による加熱方式を有したヒータ手段が好ましい。温
度コントロール部(5)は、温度センサー(9)からの戻り
温水の温度信号を受けて温度を管理し必要な加熱信号を
発信する温度制御部(5a)とコントロールパネル(5b)と
からり、補助加熱源(4)を温度制御部(5a)で制御し
て、回路内の温度をコントロールパネル(5b)で設定し
た温度に調節する。温度コントロールの範囲は、例えば
±10℃として一日数回設定温度に安定させる。The far-infrared panel (1) is most preferably the one having the structure described later, but is not limited to this, and a far-infrared panel which is commercially available in the past can be used. The hot water supply source (2) for start-up is an electric water heater that uses late-night power in the illustrated embodiment, but is not limited to this, and a water heater that uses any heat source such as electricity, gas, solar, or kerosene. May be Three-way switching valve (3) and switching valve (1
The solenoid valve 0) is a solenoid valve that can be remotely operated by the temperature control unit (5). The auxiliary heating source (4) is preferably one capable of continuously heating the flowing hot water, for example, a ceramic heater or a heater means having a heating system using electromagnetic waves. The temperature control unit (5) consists of a temperature control unit (5a) that receives the temperature signal of the return hot water from the temperature sensor (9), manages the temperature, and sends a necessary heating signal, and a control panel (5b). The auxiliary heating source (4) is controlled by the temperature controller (5a) to adjust the temperature in the circuit to the temperature set by the control panel (5b). The temperature control range is, for example, ± 10 ° C. and is stabilized at the set temperature several times a day.
【0012】図2〜5を参照して、遠赤外線パネル(1)
を説明する。図において(11)は、断熱発泡材からなるベ
ース板であり、該ベース板の上方にC型のアルミフレー
ムで外枠(12)を形成し、外外枠(12)の内部をH型アルミ
フレームの補強材(13)で梯子状に補強する。外枠(12)と
補強材(13)はベース板(11)より高い寸法を有しており、
その上部にアルミパンチングメタルからなる伝熱板(14)
が配設される。ベース板(11)と伝熱板(14)との間には空
間(15)が形成される。伝熱板(14)の上部には、遠赤外線
放射材からなる遠赤外線層(16)が積層され、その上部に
カーペット、フローリング、塩ビシート、畳等の表層材
(17)が積層される。表層材(17)は、必要に応じて交換自
在である。空間(15)内には、温水パイプ(18)が配置さ
れ、該温水パイプ(18)の上面は前記伝熱板(14)に接触し
ている。遠赤外線層(17)を構成する遠赤外線放射材は、
下記表1に示すような成分と割合からなるものが最も好
ましい。空間(15)を作ることにより、熱効率の保温と放
射線の化学反応を保ち、温水パイプ(18)から発する常温
(36℃)以上の温度に対して、常に遠赤外線の効果で
保温と熱効率の上昇が認められる。2 to 5, the far infrared panel (1)
Will be described. In the figure, (11) is a base plate made of a heat insulating foam material, and an outer frame (12) is formed by a C type aluminum frame above the base plate, and the inside of the outer outer frame (12) is made of H type aluminum. Reinforce it like a ladder with the frame reinforcements (13). The outer frame (12) and the reinforcing material (13) have higher dimensions than the base plate (11),
Heat transfer plate made of aluminum punching metal on top of it (14)
Is arranged. A space (15) is formed between the base plate (11) and the heat transfer plate (14). A far-infrared layer (16) made of a far-infrared radiation material is laminated on the heat transfer plate (14), and a surface material such as carpet, flooring, vinyl chloride sheet, tatami mat, etc. is formed on the far-infrared layer (16).
(17) are laminated. The surface layer material (17) can be exchanged as needed. A hot water pipe (18) is arranged in the space (15), and an upper surface of the hot water pipe (18) is in contact with the heat transfer plate (14). The far-infrared radiation material forming the far-infrared layer (17) is
It is most preferable that the composition and the ratio are as shown in Table 1 below. By creating a space (15), heat efficiency is kept warm and the chemical reaction of radiation is maintained, and the temperature and temperature above room temperature (36 ℃) emitted from the hot water pipe (18) are always kept warm and the heat efficiency is raised by the effect of far infrared rays. Is recognized.
【0013】[0013]
【表1】 [Table 1]
【0014】遠赤外線パネル(1)は、図4、5に示す様
な種々の形態として、設置する床面の寸法および形状に
合わせて適宜組み合わせて使用する。一枚のパネルは8
50×1700 と約畳一畳分の寸法と形状のものを基
本形態とし、図4A,B,Cの3種類の基本パネル(1
a)を用意する。又、基本パネルを床面に配置したときに
発生する余剰分を補正するために図4、5のD,E,F
の補助パネル(1b)を用意する。これらのパネルはいず
れも角部の1又は2カ所にパイプ接続端(19)が突出して
おり、且つパイプの接続作業を容易とするために、切欠
部(20)が形成されている。尚、基本パネルB,Cのパイ
プ(21)は温水の戻りパイプである。又、補助パネルD,
E,Fには、遠赤外線層(16)は形成されておらず、パイ
プはいずれも単なる接続パイプである。The far-infrared panel (1) is used in various forms as shown in FIGS. 4 and 5 in an appropriate combination according to the size and shape of the floor surface to be installed. One panel is 8
The basic form is 50 × 1700, which is the size and shape of one tatami mat, and the three basic panels shown in FIGS. 4A, B, and C (1
Prepare a). In addition, in order to correct the surplus generated when the basic panel is placed on the floor surface, D, E, and F in FIGS.
Prepare the auxiliary panel (1b). Each of these panels has a pipe connecting end (19) protruding at one or two corners, and a notch (20) is formed for facilitating the pipe connecting work. The pipes (21) of the basic panels B and C are hot water return pipes. In addition, auxiliary panel D,
The far infrared ray layer (16) is not formed in E and F, and the pipes are simply connecting pipes.
【0015】床面に遠赤外線パネル(1)を設置する場
合、例えば基本パネルBの右側の下部パイプ接続端に温
水の往き管を接続し、左側の上部のパイプ接続端を基本
パイプCの右側の上部のパイプ接続端に接続する。又、
基本パネルB,Cの戻りパイプ(21)を互いに接続する。
そして、基本パネルCの左側の上下のパイプ接続端に基
本パネルAのパイプ接続端をそれぞれ接続し、基本パネ
ルBの右側上部の戻りパイプ(21)のパイプ接続端に温水
回路の温水戻り管(8)を接続してパネルを通る温水循環
回路を形成する。このようにして基本パネルA,B,C
を連結して床暖房を設置するが、床面の寸法、形状によ
っては基本パネルの接続が出来ない場合がある。そのと
きは、残存する床の面積および形状に応じて、補助パネ
ルD,E又はFを接続する。When the far-infrared panel (1) is installed on the floor surface, for example, a hot water outlet pipe is connected to the lower pipe connection end on the right side of the basic panel B, and the upper pipe connection end on the left side is connected to the right side of the basic pipe C. Connect to the pipe connection end on the top of. or,
The return pipes (21) of the basic panels B, C are connected to each other.
Then, the pipe connecting ends of the basic panel A are respectively connected to the upper and lower pipe connecting ends on the left side of the basic panel C, and the hot water return pipe of the hot water circuit is connected to the pipe connecting end of the return pipe (21) on the upper right side of the basic panel B. 8) are connected to form a hot water circulation circuit through the panel. In this way, the basic panels A, B, C
Although floor heating is installed by connecting, the basic panel may not be connected depending on the size and shape of the floor surface. At that time, the auxiliary panels D, E or F are connected depending on the area and shape of the remaining floor.
【0016】この発明の遠赤外線パネルは、前記構造と
し発熱体を熱伝導率の良いアルミパンチングメタルの伝
熱板(14)で形成し、更に前記成分と割合からなる遠赤外
線放射材を伝熱板に積層してあるので、熱源になる低・
中温水(36から50℃)を効率よく放熱させ、遠赤外
線を高効率で発生させることが出来る。遠赤外線の発生
効率は、図6に示すとおりである。図6において、線A
は理想的な遠赤外線の発生効率を示し、この発明の遠赤
外線パネルの発生効率は線Bで示されており、理想的な
発生効率に近似していることが理解できる。又、図7に
示すようにこの発明のパネルによれば、遠赤外線は80
%以上の高効率で発生している。In the far-infrared panel of the present invention, the heating element having the above-mentioned structure is formed of a heat-transfer plate (14) made of aluminum punching metal having a good thermal conductivity, and further the far-infrared radiation material consisting of the above-mentioned components and ratios is transferred. As it is laminated on the plate, it becomes a low heat source.
It is possible to efficiently radiate medium-temperature water (36 to 50 ° C.) and generate far infrared rays with high efficiency. The generation efficiency of far infrared rays is as shown in FIG. In FIG. 6, line A
Shows the ideal far infrared ray generation efficiency, and the far infrared ray panel of the present invention shows the generation efficiency with a line B, and it can be understood that it is close to the ideal generation efficiency. Further, as shown in FIG. 7, according to the panel of the present invention, far infrared rays are
It occurs with a high efficiency of over%.
【0017】この発明によれば、暖房パネルが遠赤外線
を均一に放射するので、室内の温度を均一に保つことが
出来、人体の血行を促進させる作用が非常に強く、低温
水(床面が36℃の常温)でも放射率に大差がない。温
水パイプ内を通過する水(温水)に対して、遠赤外線の
効果で水のクラスターが小さくなり、水に活性力が生ま
れることが認められ、活性水になった水(又は温水)は
密封状態では約3ヶ月くらいは腐敗せず、装置の機械部
分に故障や損傷を与えない効果がある。According to the present invention, since the heating panel radiates far infrared rays uniformly, the temperature inside the room can be kept uniform, the action of promoting blood circulation in the human body is very strong, and low temperature water (the floor surface is Even at a normal temperature of 36 ° C), there is no great difference in emissivity. It is recognized that water clusters are reduced by the effect of far-infrared rays to the water that passes through the hot water pipe (warm water), and that the water has an active force, and the water that has become active water (or hot water) is in a sealed state. It will not rot for about 3 months and will not damage or damage the mechanical part of the device.
【図1】この発明の温水回路図FIG. 1 is a hot water circuit diagram of the present invention.
【図2】遠赤外線パネルの断面図FIG. 2 is a sectional view of a far infrared panel.
【図3】遠赤外線パネルの平面図FIG. 3 is a plan view of a far infrared panel.
【図4】遠赤外線パネルの形態を示す平面図FIG. 4 is a plan view showing the form of a far infrared panel.
【図5】遠赤外線パネルの形態を示す平面図FIG. 5 is a plan view showing the form of a far infrared panel.
【図6】遠赤外線の発生効率を示すグラフFIG. 6 is a graph showing generation efficiency of far infrared rays.
【図7】遠赤外線の発生効率を示すグラフFIG. 7 is a graph showing a far infrared ray generation efficiency.
(1) 遠赤外線パネル (2) 起動用温水供給源 (3) 三方切換弁 (4) 補助加熱源 (5) 温水コントロール部 (6) ポンプ (7) 温水供給管 (8) 温水戻り管 (9) 温度センサー (10) 切換弁 (11) ベース (12) 外枠 (13) 補強材 (14) 伝熱板 (15) 空間 (16) 遠赤外線層 (17) 表層材 (18) 温水パイプ (19) パイプ連結端 (20) 切欠部 (21) 戻りパイプ (1) Far infrared panel (2) Hot water supply source for startup (3) Three-way switching valve (4) Auxiliary heating source (5) Hot water control unit (6) Pump (7) Hot water supply pipe (8) Hot water return pipe (9) ) Temperature sensor (10) Switching valve (11) Base (12) Outer frame (13) Reinforcement material (14) Heat transfer plate (15) Space (16) Far infrared layer (17) Surface layer material (18) Hot water pipe (19 ) Pipe connection end (20) Notch (21) Return pipe
Claims (3)
を配置し、該伝熱板の上面に遠赤外線層を形成し、該遠
赤外線層の上部に表層材を積層し、前記空間内に温水パ
イプを配置したことを特徴とする遠赤外線床暖房パネ
ル。1. A heat transfer plate is disposed above the heat insulating base with a space, a far infrared layer is formed on the upper surface of the heat transfer plate, and a surface layer material is laminated on the far infrared layer. A far-infrared floor heating panel, characterized in that a hot water pipe is arranged in the space.
ることを特徴とする請求項1記載の遠赤外線床暖房パネ
ル。2. The far infrared floor heating panel according to claim 1, wherein the heat transfer plate is made of aluminum punching metal.
なることを特徴とする請求項1記載の遠赤外線床暖房パ
ネル。3. A far-infrared floor heating panel according to claim 1, wherein the far-infrared layer is composed of the components in the proportions shown in Table 1.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP18800095A JPH0914682A (en) | 1995-06-29 | 1995-06-29 | Far-infrared floor heating panel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP18800095A JPH0914682A (en) | 1995-06-29 | 1995-06-29 | Far-infrared floor heating panel |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH0914682A true JPH0914682A (en) | 1997-01-17 |
Family
ID=16215892
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP18800095A Pending JPH0914682A (en) | 1995-06-29 | 1995-06-29 | Far-infrared floor heating panel |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0914682A (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6349413B2 (en) * | 1979-08-03 | 1988-10-04 | Nippon Telegraph & Telephone | |
JPH0494085A (en) * | 1990-08-08 | 1992-03-26 | Taisei Corp | Far infrared-ray radiating panel heater |
-
1995
- 1995-06-29 JP JP18800095A patent/JPH0914682A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6349413B2 (en) * | 1979-08-03 | 1988-10-04 | Nippon Telegraph & Telephone | |
JPH0494085A (en) * | 1990-08-08 | 1992-03-26 | Taisei Corp | Far infrared-ray radiating panel heater |
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