Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP4287586B2 - Hot water floor heating floor - Google Patents
[go: Go Back, main page]

JP4287586B2 - Hot water floor heating floor - Google Patents

Hot water floor heating floor Download PDF

Info

Publication number
JP4287586B2
JP4287586B2 JP2000381610A JP2000381610A JP4287586B2 JP 4287586 B2 JP4287586 B2 JP 4287586B2 JP 2000381610 A JP2000381610 A JP 2000381610A JP 2000381610 A JP2000381610 A JP 2000381610A JP 4287586 B2 JP4287586 B2 JP 4287586B2
Authority
JP
Japan
Prior art keywords
floor
hot water
water pipe
finishing material
floor heating
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.)
Expired - Lifetime
Application number
JP2000381610A
Other languages
Japanese (ja)
Other versions
JP2002181343A (en
Inventor
貴雄 井上
一宏 山田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Eidai Co Ltd
Original Assignee
Eidai Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Eidai Co Ltd filed Critical Eidai Co Ltd
Priority to JP2000381610A priority Critical patent/JP4287586B2/en
Publication of JP2002181343A publication Critical patent/JP2002181343A/en
Application granted granted Critical
Publication of JP4287586B2 publication Critical patent/JP4287586B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Floor Finish (AREA)
  • Steam Or Hot-Water Central Heating Systems (AREA)

Description

【0001】
【発明の属する技術分野】
この発明は、施工性に優れた温水式床暖房フロア及び温水式床暖房フロアの施工方法に関する。
【0002】
【従来の技術及び発明が解決しようとする課題】
床下地の上に配設された温水パイプに温水を通すことによって暖房を行う温水式の床暖房フロアとしては、図7(a)、(b)に示すように、温水パイプ52を予め内蔵した床仕上材51が床下地53の上に敷設された床仕上材一体型の床暖房フロアと、図8(a)、(b)に示すように、温水パイプ62が内蔵された温水マット61を床下地64の上に敷設した後、その上に床仕上材63を敷設する床仕上材分離型の床暖房フロアとがある。
【0003】
床仕上材一体型の床暖房フロアでは、上述したように、温水パイプ52が床仕上材51に予め内蔵されているので、床下地53の上に床仕上材51を敷設していけばよく、床仕上材51を床下地53に釘止めする場合にも、指定された位置を釘止めすれば、床仕上材51に内蔵された温水パイプ52が損傷を受けることがないという利点がある。
【0004】
しかしながら、温水パイプ52が床仕上材51毎に分断されているので、床仕上材51を床下地53の上に敷設する際、隣接する床仕上材51に内蔵された温水パイプ52同士をコネクタ等を介して順次接続していかなければならず、床仕上材51の敷設作業性が悪いといった問題がある。
【0005】
一方、床仕上材分離型の床暖房フロアでは、床下地64の上に敷設される温水マット61を、床仕上材63の大きさに拘わらず、ある程度の床暖房エリアをまかなうことのできる大きさ(例えば、床仕上材63の6枚分程度の大きさ)に設定することができるので、床仕上材一体型の床暖房フロアに比べて、温水パイプ62の接続箇所が少なくなり、温水マット61を効率よく床下地64の上に敷設していくことができるという利点がある。
【0006】
しかしながら、こういった床暖房フロアでは、床仕上材一体型の床暖房フロアとは異なり、温水マット61の敷設工程及び床仕上材63の敷設工程の2工程が必ず必要となるので、床暖房フロア全体の施工性はよいとはいえない。
【0007】
また、床仕上材63を敷設する際、床下地64の上に敷設された温水マット61に床仕上材63を釘止めする場合があるが、先に敷設される温水マット61に対して、後に敷設される床仕上材63が確実に位置決めされるわけではないので、両者の相対位置がずれると、所定の釘止め位置に釘を打っても、その釘が温水パイプ62を貫通する等の施工ミスが発生し易いという欠点もある。
【0008】
また、通常の床暖房フロアでは、部屋の中央部分のみを床暖房するのが一般的であり、温水マット61を敷設する部屋の中央部分と、温水マット61を敷設しない部屋の周辺部分とでは、段差が生じることになるので、例えば、図8(b)に示すように、床暖房を行わない部屋の周辺部分は、床暖房を行う部屋の中央部分に比べて床下地64を高くしたり、厚みの大きい床仕上材を使用したりすることによって、フロアの仕上げ高さを調整しなければならないといった問題もある。
【0009】
また、上述した床仕上材一体型と床仕上材分離型の中間的な床暖房フロアとして、図9(a)に示すように、裏面に温水パイプ74を収容するためのパイプ収容溝72が形成された床仕上材71を、同図(b)に示すように、床下地73の上に敷設した後、同図(c)に示すように、床仕上材71の端面側からパイプ収容溝72に温水パイプ74を挿入するようにしたものがある。
【0010】
こういった床暖房フロアを採用すると、上述したような床仕上材一体型の床暖房フロアや床仕上材分離型の床暖房フロアがそれぞれ有している欠点を解消することができるが、既に敷設された床仕上材71のパイプ収容溝72に長尺の温水パイプ74をUターンさせながら通管するのは手間のかかる作業であり、やはり、効率よく床暖房フロアを施工することができない。
【0011】
そこで、この発明の課題は、上述した従来の温水式床暖房フロアの問題点に鑑み、仕上げ高さの調整等を行うことなく、効率よく施工することのできる温水式床暖房フロア及び温水式床暖房フロアの施工方法を提供することにある。
【0012】
【課題を解決するための手段及びその効果】
上記の課題を解決するため、この発明は、両端部で交互にUターンさせながら所定のパイプパターンに整形した温水パイプにおける隣り合う直線部分を2本ずつ、その下面側において、クッション性の良好な緩衝材によって形成されたシート状の連結部材によって相互に連結した温水パイプユニットと、前記温水パイプユニットの前記温水パイプを収容するためのパイプ収容溝が裏面に形成された床仕上材とを備え、前記連結部材が床下地に接触するように、床下地の上に載置された前記温水パイプユニットにおける前記温水パイプを、前記パイプ収容溝に嵌め込むようにして床下地の上に前記床仕上材が敷設されており、前記床仕上材の裏面には、前記床仕上材が敷設された状態で、前記温水パイプユニットの前記連結部材によって覆われる部を除く部分の全面に、緩衝材が貼着されていることを特徴とする温水式床暖房フロアを提供するものである。
【0014】
以上のように、この温水式床暖房フロアでは、床下地材一体型の床暖房フロアのように、床仕上材に温水パイプが内蔵されているわけではないが、温水マット等を床下地に固定しなければならない従来の床仕上材分離型の床暖房フロアとは異なり、温水パイプユニットを床下地の上に単に載置するだけでよく、しかも、温水パイプユニット自体の大きさをある程度大きく設定することができるので、従来の床仕上材分離型の床暖房フロアと同様に、隣接する床仕上材の間で温水パイプを接続しなければならない従来の床仕上材一体型の床暖房フロアに比べて、温水パイプの接続箇所が少なくなり、効率よく床暖房フロアを施工することができる。
【0015】
また、床下地の上に載置した温水パイプユニットの温水パイプを、パイプ収容溝に嵌め込みながら、床仕上材を床下地の上に順次敷設していけばよいので、床仕上材を床下地の上に敷設した後、パイプ収容溝に温水パイプを通管する従来の床暖房フロアのように、手間のかかる温水パイプの通管作業が不要であり、短時間で簡単に床暖房フロアを施工することができる。
【0016】
また、この温水式床暖房フロアでは、従来の床仕上材一体型の床暖房フロアのように、温水パイプが床仕上材に内蔵されているわけではないが、床仕上材に形成されたパイプ収容溝に温水パイプユニットの温水パイプが収容されるようになっているので、温水パイプユニットを載置した部分とそれ以外の部分との間で段差が生じることがなく、従来の床仕上材一体型の床暖房フロアと同様に、フロアの仕上げ高さを調整する必要がないという効果がある。
【0017】
また、この床暖房フロアに使用される温水パイプユニットは、隣り合う温水パイプの直線部分が、2本ずつ連結部材によって順次連結されているので、交互にUターンさせた温水パイプが絡みにくく、所定のパイプパターンに保持されると共に、巻回した状態で保管、輸送を行うことができるので取扱性もよい。さらに、隣接する床仕上材をずらしながら敷設する際、そのずらし量を温水パイプの直線部分の間隔単位で自由に変化させることができるので、床仕上材のずらし貼り施工の適用範囲が広がるという効果がある。
【0019】
また、連結部材がクッション性の良好な緩衝材によって形成されていると共に、床仕上材の裏面には、床仕上材が敷設された状態で、温水パイプユニットの連結部材によって覆われる部を除く部分の全面に、緩衝材が貼着されているので、遮音性能が付与されると共に、緩衝材は通常断熱性能を兼ね備えているので、床下への熱の拡散が抑えられ、暖房効率が向上するという効果が得られる。
【0020】
【発明の実施の形態】
以下、実施の形態について図面を参照して説明する。図1及び図2に示すように、この温水式床暖房フロア1は、捨貼合板やコンクリートスラブ等からなる床下地10と、この床下地10の上に載置される温水パイプユニット20と、床下地10の上に載置された温水パイプユニット20を覆うように床下地10の上に敷設される床仕上材30とから構成されている。
【0021】
前記温水パイプユニット20は、図2及び図3に示すように、両端部で交互にUターンさせながら平面略長方形状に整形した、口径が5Aの長尺の温水パイプ21と、この温水パイプ21の直線部分を2本ずつ連結するシート状の連結部材22とから構成されており、前記温水パイプ21は架橋ポリエチレンによって形成されている。
【0022】
前記連結部材22は、厚さ4mm程度の不織布等のクッション性の良好な緩衝材によって形成されており、その幅方向の上面両端部に接着剤によって温水パイプ21の下面側が固着されている。
【0023】
前記床仕上材30としては、温水パイプユニット20が載置されていない部屋の周辺部分に敷設される周辺パネルと、部屋の中央部分に載置された温水パイプユニット20における温水パイプ21の直線部分を覆うように敷設される本体パネルと、温水パイプユニット20における温水パイプ21のUターン部分を覆うように敷設されるUターンパネルとが使用されており、前記周辺パネルは、本体パネルと同一構成のパネルを使用している。
【0024】
前記本体パネルは、図2及び図4(a)、(b)に示すように、5プライ合板や3プライ合板等の木質板によって形成されたパネル基材31と、このパネル基材31の表面に貼着された突板等の表面化粧材32と、パネル基材31の裏面に貼着される、連結部材22と同一素材である緩衝材によって形成された厚さ4mm程度のシート部材33とから構成されており、本体パネルの表面には、長手方向に伸びる3本の擬似溝32aが短手方向に等間隔で形成されていると共に各擬似溝32a間において短手方向に伸びる複数の擬似溝32bがランダムな位置に形成されている。なお、図には示していないが、パネル基材31には、その表面側にアルミニウム箔等の熱伝導性の良好な均熱シートが練り込まれている。
【0025】
前記パネル基材31の裏面には、上述した温水パイプユニット20における温水パイプ21の直線部分を収容するための複数のパイプ収容溝31aが一定間隔で形成されており、図1、図2及び図4(b)に示すように、温水パイプユニット20における温水パイプ21の直線部分を覆うように本体パネルを敷設したときに、温水パイプユニット20の連結部材22によって覆われない部分に、上述したシート部材33が貼着されている。
【0026】
前記Uターンパネルも、基本的には、前記本体パネルと同一構成を有しているが、図4(c)に示すように、温水パイプ21の直線部分が収容される直線状のパイプ収容溝31a間に、温水パイプ21のUターン部分を収容するための円弧状のパイプ収容溝31bが形成されており、本体パネルと同様に、温水パイプユニット20における温水パイプ21のUターン部分を覆うようにUターンパネルを敷設したときに、温水パイプユニット20の連結部材22によって覆われない部分に、上述したシート部材33が貼着されている。
【0027】
以上のように構成された温水式床暖房フロアの施工方法について、以下に説明する。まず、図5(a)に示すように、床暖房フロアを施工しようとする部屋の一辺側から床下地10の上に周辺パネル30aを敷設した後、同図(b)に示すように、温水パイプユニット20を床下地10の所定位置に載置する。この場合、2組の温水パイプユニット20が使用されている。
【0028】
次に、同図(c)に示すように、パイプ収容溝31a、31bに温水パイプユニット20の温水パイプ21を嵌め込むようにしてUターンパネル30cを敷設すると、床下地10の上に載置された温水パイプユニット20が概ね位置決めされることになるので、各温水パイプユニット20における温水パイプ21の両端部をそれぞれ床下地10の下方側に引き落とし、床下でメインパイプに接続する。
【0029】
続いて、同図(d)に示すように、パイプ収容溝31aに温水パイプ21を嵌め込みながら本体パネル30bを敷設していく。なお、Uターンパネル30c及び本体パネル30bを敷設する際は、パネルの裏面側、即ち、パネル基材31の裏面におけるシート部材33が貼着されていない部分及びシート部材33の裏面にそれぞれ接着剤を塗布するので、シート部材33が貼着されていない部分は、温水パイプユニット20の連結部材22に、シート部材33は床下地10にそれぞれ固着されることになり、温水パイプユニット20がUターンパネル30c及び本体パネル30bを介して床下地10に固定されることになる。
【0030】
このようにして本体パネル30bを次々と敷設していき、同図(e)に示すように、温水パネルユニット20における温水パイプ21の反対側のUターン部分を覆うように、Uターンパネル30cを敷設した後、同図(f)に示すように周辺パネル30aを敷設すると、図1に示すような温水式床暖房フロア1が完成する。
【0031】
以上のように、この温水式床暖房フロア1は、床仕上材30に温水パイプ21が予め内蔵されているわけではないが、従来の床仕上材分離型の床暖房フロアとは異なり、温水パイプユニット20を床下地10の上に単に載置するだけでよいので手間がかからず、しかも、温水パイプユニット20自体の大きさを床仕上材30の数倍程度の大きさに設定することができるので、隣接する床仕上材の間で温水パイプを接続しなければならない従来の床仕上材一体型の床暖房フロアに比べて、温水パイプの接続箇所が少なくなり、効率よく施工することができる。
【0032】
また、温水パイプユニット20を床下地10の上に載置した状態で、その温水パイプ21をパイプ収容溝31a、31bに嵌め込みながら、床仕上材30(本体パネル30b、Uターンパネル30c)を床下地10の上に順次敷設していけばよいので、床仕上材を床下地の上に敷設した後、床仕上材の端面側からパイプ収容溝に温水パイプを通管する従来の床暖房フロアのように、手間のかかる温水パイプの通管作業を行う必要もなく、短時間で簡単に床暖房フロアを施工することができる。
【0033】
また、この温水式床暖房フロア1では、床仕上材30(本体パネル30b、Uターンパネル30c)に形成されたパイプ収容溝31a、31bに温水パイプユニット20の温水パイプ21が完全に収容され、しかも、床仕上材30を敷設した状態で連結部材22によって覆われないパネル基材31の裏面部分には、連結部材22と同様の緩衝材によって形成されたシート部材33が予め貼着されているので、温水パイプユニット20を載置した部分とそれ以外の部分との間で段差が生じることがなく、従来の床仕上材分離型の床暖房フロアのように、フロアの仕上げ高さを調整する必要がない。
【0034】
また、床仕上材30を構成しているパネル基材31と床下地10との間には、クッション性の良好な緩衝材によって形成された連結部材22及びシート部材33が介在しているので、遮音性能が付与されると共に、緩衝材は通常断熱性能を兼ね備えているので、床下への熱の拡散が抑えられ、暖房効率が向上するという効果も得られる。
【0035】
また、この温水式床暖房フロア1では、隣り合う温水パイプ21の直線部分が、2本ずつ連結部材22によって順次連結された温水パイプユニット20を使用しているので、図5に示すように、隣接する床仕上材30(本体パネル30b、Uターンパネル30c)を横方向にずらしながら敷設する場合、そのずらし量を温水パイプ21の直線部分の間隔単位で自由に変化させることができるので、床仕上材のずらし貼り施工の適用範囲が広がるという効果がある。
【0036】
また、この温水式床暖房フロア1では、温水パイプ21が床仕上材30のパイプ収容溝31a、31bに収容されることによって、床仕上材30に対して温水パイプユニット20が確実に位置決めされるので、床仕上材30を床下地10に釘止めする場合でも、従来の床仕上材分離型の床暖房フロアのように、釘が温水パイプを貫通するといった施工ミスを有効に防止することができるという効果もある。
【0037】
なお、上述した実施形態では、隣り合う温水パイプ21の直線部分が、2本ずつ連結部材22によって順次連結された温水パイプユニット20を使用しているが、これに限定されるものではなく、例えば、図6(a)に示すように、2本以上の直線部分を1枚の連結部材22aによって連結することも可能であり、その場合は、同図(b)、(c)に示すように、使用する連結部材22aに応じて本体パネル30b及びUターンパネル30cにおけるシート部材33の貼着面積を減らしておく必要があることはいうまでもない。
【0038】
また、上述した実施形態では、遮音性能や断熱性能を付与するために、連結部材22を、不織布等のクッション性の良好な緩衝材によって形成しているが、これに限定されるものではなく、例えば紙や合成樹脂シート等によって連結部材を形成することも可能である。特に、連結部材22の厚みが小さい場合は、床仕上材30の裏面に連結部材22と同様のシート部材33を必ずしも貼着する必要はない。
【図面の簡単な説明】
【図1】この発明にかかる温水式床暖房フロアの一実施形態を示す断面図である。
【図2】同上の温水式床暖房フロアを示す分解断面図である。
【図3】同上の温水式床暖房フロアに使用される温水パイプユニットを示す平面図である。
【図4】(a)は同上の温水式床暖房フロアに使用される床仕上材(本体パネル)を示す平面図、(b)は同上の床仕上材(本体パネル)を示す裏面図、(c)は同上の温水式床暖房フロアに使用される床仕上材(Uターンパネル)を示す裏面図である。
【図5】(a)〜(f)は同上の温水式床暖房フロアの施工方法を示す工程図である。
【図6】(a)は他の実施形態である温水式床暖房フロアに使用される温水パイプユニットを示す平面図、(b)は同上の温水式床暖房フロアに使用される床仕上材(本体パネル)を示す裏面図、(c)は同上の温水式床暖房フロアに使用される床仕上材(Uターンパネル)を示す裏面図である。
【図7】(a)は従来の床仕上材一体型の温水式床暖房フロアに使用される床仕上材を示す断面図、(b)は同上の温水式床暖房フロアの施工方法を示す工程図である。
【図8】(a)は従来の床仕上材分離型の温水式床暖房フロアを示す断面図、(b)は同上の温水式床暖房フロアを示す分解断面図である。
【図9】(a)は従来の他の温水式床暖房フロアに使用される床仕上材を示す断面図、(b)、(c)は同上の温水式床暖房フロアの施工方法を示す工程図である。
【符号の説明】
1 温水式床暖房フロア
10 床下地
20 温水パネルユニット
21 温水パイプ
22、22a 連結部材
30 床仕上材
30a 周辺パネル
30b 本体パネル
30c Uターンパネル
31 パネル基材
31a、31b パイプ収容溝
32 表面化粧材
33 シート部材
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water floor heating floor having excellent workability and a construction method of the hot water floor heating floor.
[0002]
[Prior art and problems to be solved by the invention]
As a warm water type floor heating floor that performs heating by passing warm water through a warm water pipe disposed on the floor base, a warm water pipe 52 is built in as shown in FIGS. The floor finishing material integrated floor heating floor in which the floor finishing material 51 is laid on the floor base 53, and a hot water mat 61 with a built-in hot water pipe 62 as shown in FIGS. 8 (a) and 8 (b). There is a floor heating material separation type floor heating floor in which a floor finishing material 63 is laid on the floor base 64 and then a floor finishing material 63 is laid thereon.
[0003]
As described above, in the floor heating material-integrated floor heating floor, the hot water pipe 52 is built in the floor finishing material 51 in advance, so that the floor finishing material 51 may be laid on the floor base 53, Even when the floor finishing material 51 is nailed to the floor base 53, if the specified position is nailed, there is an advantage that the hot water pipe 52 built in the floor finishing material 51 is not damaged.
[0004]
However, since the hot water pipes 52 are divided for each floor finishing material 51, when the floor finishing material 51 is laid on the floor base 53, the hot water pipes 52 built in the adjacent floor finishing materials 51 are connected to each other by a connector or the like. There is a problem that the floor finishing material 51 is poorly laid and workability is poor.
[0005]
On the other hand, in the floor heating material separation type floor heating floor, the hot water mat 61 laid on the floor substrate 64 can cover a certain floor heating area regardless of the size of the floor finishing material 63. Since the floor finishing material 63 can be set to a size (for example, about 6 sheets of the floor finishing material 63), the number of connection points of the hot water pipes 62 is smaller than that of the floor heating material integrated floor heating floor, and the hot water mat 61 Can be efficiently laid on the floor base 64.
[0006]
However, unlike the floor heating material-integrated floor heating floor, such a floor heating floor necessarily requires two steps of laying the hot water mat 61 and laying the floor finishing material 63. Overall workability is not good.
[0007]
Further, when laying the floor finishing material 63, the floor finishing material 63 may be nailed to the hot water mat 61 laid on the floor base 64. Since the floor finishing material 63 to be laid is not reliably positioned, if the relative position of the two is shifted, even if the nail is struck at a predetermined nail position, the nail penetrates the hot water pipe 62, etc. There is also a drawback that mistakes are likely to occur.
[0008]
Moreover, in the normal floor heating floor, it is common to floor-heat only the center part of the room, and in the central part of the room where the hot water mat 61 is laid and the peripheral part of the room where the hot water mat 61 is not laid, As shown in FIG. 8B, for example, as shown in FIG. 8B, in the peripheral part of the room where floor heating is not performed, the floor base 64 is made higher than the center part of the room where floor heating is performed, There is also a problem that the finishing height of the floor has to be adjusted by using a floor finishing material having a large thickness.
[0009]
Further, as shown in FIG. 9 (a), a pipe housing groove 72 for housing the hot water pipe 74 is formed on the back surface as an intermediate floor heating floor of the floor finishing material integrated type and the floor finishing material separation type described above. After the floor finishing material 71 is laid on the floor base 73 as shown in FIG. 5B, the pipe receiving groove 72 is formed from the end face side of the floor finishing material 71 as shown in FIG. There is one in which a hot water pipe 74 is inserted.
[0010]
Adopting such a floor heating floor can eliminate the drawbacks of the floor heating material integrated floor heating floor and the floor finishing material separation type floor heating floor as described above, but already laid It is a troublesome work to pass the long hot water pipe 74 through the pipe receiving groove 72 of the floor finishing material 71 while making a U-turn, and the floor heating floor cannot be efficiently constructed.
[0011]
Therefore, in view of the problems of the above-described conventional hot water type floor heating floor, the object of the present invention is to provide a hot water type floor heating floor and a hot water type floor that can be efficiently constructed without adjusting the finishing height. It is in providing the construction method of a heating floor.
[0012]
[Means for solving the problems and effects thereof]
In order to solve the above-described problem, the present invention provides two adjacent straight portions of a hot water pipe shaped into a predetermined pipe pattern while alternately making U-turns at both ends, and has good cushioning properties on the lower surface side. A hot water pipe unit connected to each other by a sheet-like connecting member formed of a buffer material, and a floor finishing material in which a pipe receiving groove for receiving the hot water pipe of the hot water pipe unit is formed on the back surface, The floor finishing material is laid on the floor base so that the hot water pipe in the hot water pipe unit placed on the floor base is fitted into the pipe receiving groove so that the connecting member contacts the floor base. It is, on the back surface of the floor covering, in a state in which the floor covering is laid, is covered by the connecting member of the hot water pipe unit The entire surface of the portion excluding the part content, it is intended to provide a hot water floor heating floors, characterized in that cushioning material is bonded.
[0014]
As mentioned above, this warm water type floor heating floor does not have a built-in hot water pipe in the floor finishing material unlike the floor heating material integrated floor heating floor, but the hot water mat is fixed to the floor ground. Unlike the conventional floor heating material separation type floor heating floor that must be done, the hot water pipe unit only needs to be placed on the floor base, and the size of the hot water pipe unit itself is set to be somewhat large. Compared to the conventional floor finisher-integrated floor heating floor, which must connect a hot water pipe between adjacent floor finish materials, as with a conventional floor finisher separated floor heating floor The number of connected hot water pipes is reduced, and the floor heating floor can be constructed efficiently.
[0015]
In addition, it is only necessary to lay the floor finishing material on the floor base in order while fitting the hot water pipe of the hot water pipe unit placed on the floor base into the pipe receiving groove. After laying on the floor, there is no need for laborious hot water pipe connection work, unlike the conventional floor heating floor where hot water pipes are passed through the pipe receiving grooves, and the floor heating floor can be constructed easily in a short time. be able to.
[0016]
Moreover, in this hot water type floor heating floor, the hot water pipe is not built in the floor finishing material, unlike the conventional floor finishing material-integrated floor heating floor, but the pipe is formed in the floor finishing material. Since the hot water pipe of the hot water pipe unit is accommodated in the groove, there is no step between the part where the hot water pipe unit is placed and the other part, and the conventional floor finish integrated type Similar to the floor heating floor, there is an effect that it is not necessary to adjust the finishing height of the floor.
[0017]
Moreover, since the hot water pipe unit used for this floor heating floor has the linear part of the adjacent hot water pipes connected by two connecting members in sequence , the hot water pipes that are alternately U-turned are not easily entangled. Since it can be stored and transported in a wound state, it is easy to handle. In addition, when laying while shifting adjacent floor finishing materials, the amount of shifting can be freely changed in units of the interval of the straight line part of the hot water pipe, so that the application range of floor finishing material shifting pasting work is expanded. There is.
[0019]
Further, the connecting member is formed by a good cushioning material cushioning on the back surface of the floor covering, in a state in which the floor covering is laid, the part fraction is Ru covered by the connecting member of the hot water pipe unit Since the cushioning material is attached to the entire surface , the sound insulation performance is given, and the cushioning material usually has a heat insulation performance, so heat diffusion under the floor is suppressed and heating efficiency is improved. The effect of doing is obtained.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments will be described with reference to the drawings. As shown in FIGS. 1 and 2, this hot water type floor heating floor 1 is composed of a floor base 10 made of a litter board or a concrete slab, a hot water pipe unit 20 placed on the floor base 10, an under floor The floor finishing material 30 is laid on the floor base 10 so as to cover the hot water pipe unit 20 placed on the ground 10.
[0021]
As shown in FIGS. 2 and 3, the hot water pipe unit 20 includes a long hot water pipe 21 having a diameter of 5 A, which is shaped into a substantially rectangular shape while alternately making U-turns at both ends, and the hot water pipe 21. The sheet-like connecting member 22 that connects two straight portions of each is formed, and the hot water pipe 21 is made of cross-linked polyethylene.
[0022]
The connecting member 22 is formed of a cushioning material such as a nonwoven fabric having a thickness of about 4 mm and having good cushioning properties, and the lower surface side of the hot water pipe 21 is fixed to both ends of the upper surface in the width direction by an adhesive.
[0023]
As the floor finishing material 30, a peripheral panel laid in a peripheral portion of a room where the hot water pipe unit 20 is not placed, and a straight portion of the hot water pipe 21 in the hot water pipe unit 20 placed in the center portion of the room. And a U-turn panel laid so as to cover the U-turn portion of the hot water pipe 21 in the hot water pipe unit 20, and the peripheral panel has the same configuration as the main body panel The panel is used.
[0024]
As shown in FIG. 2 and FIGS. 4A and 4B, the main body panel includes a panel base 31 formed of a wood board such as a 5-ply plywood or a 3-ply plywood, and the surface of the panel base 31. And a sheet member 33 having a thickness of about 4 mm formed by a cushioning material, which is the same material as the connecting member 22, and is attached to the back surface of the panel base material 31. The three pseudo grooves 32a extending in the longitudinal direction are formed at equal intervals in the short direction on the surface of the main body panel, and a plurality of pseudo grooves extending in the short direction between the pseudo grooves 32a. 32b is formed at random positions. Although not shown in the figure, the panel base material 31 is kneaded with a soaking sheet having good thermal conductivity such as aluminum foil on the surface side.
[0025]
A plurality of pipe receiving grooves 31a for receiving the straight portions of the hot water pipe 21 in the hot water pipe unit 20 described above are formed at regular intervals on the back surface of the panel base material 31, as shown in FIGS. As shown in FIG. 4B, when the main body panel is laid so as to cover the straight portion of the hot water pipe 21 in the hot water pipe unit 20, the above-described sheet is formed on the portion not covered by the connecting member 22 of the hot water pipe unit 20. The member 33 is stuck.
[0026]
The U-turn panel also basically has the same configuration as the main body panel, but as shown in FIG. 4 (c), a straight pipe receiving groove in which the straight portion of the hot water pipe 21 is received. An arcuate pipe accommodating groove 31b for accommodating the U-turn portion of the hot water pipe 21 is formed between 31a and covers the U-turn portion of the hot water pipe 21 in the hot water pipe unit 20 in the same manner as the main body panel. When the U-turn panel is laid on the sheet member 33, the above-described sheet member 33 is attached to a portion not covered by the connecting member 22 of the hot water pipe unit 20.
[0027]
The construction method of the hot water type floor heating floor comprised as mentioned above is demonstrated below. First, as shown in FIG. 5 (a), after laying a peripheral panel 30a on the floor base 10 from one side of a room where a floor heating floor is to be constructed, The pipe unit 20 is placed at a predetermined position on the floor base 10. In this case, two sets of hot water pipe units 20 are used.
[0028]
Next, as shown in FIG. 3C, when the U-turn panel 30c is laid so that the hot water pipe 21 of the hot water pipe unit 20 is fitted into the pipe housing grooves 31a and 31b, the U-turn panel 30c is placed on the floor base 10. Since the hot water pipe unit 20 is generally positioned, both end portions of the hot water pipe 21 in each hot water pipe unit 20 are drawn down to the lower side of the floor base 10 and connected to the main pipe under the floor.
[0029]
Subsequently, as shown in FIG. 4D, the main body panel 30b is laid while the hot water pipe 21 is fitted into the pipe housing groove 31a. In addition, when laying the U-turn panel 30c and the main body panel 30b, the adhesive is applied to the back side of the panel, that is, the part where the sheet member 33 is not attached to the back side of the panel base 31 and the back side of the sheet member 33, respectively. Therefore, the portion where the sheet member 33 is not adhered is fixed to the connecting member 22 of the hot water pipe unit 20, and the sheet member 33 is fixed to the floor base 10, respectively. It is fixed to the floor base 10 through the panel 30c and the main body panel 30b.
[0030]
Thus, the main body panel 30b is laid one after another, and the U-turn panel 30c is covered so as to cover the U-turn portion on the opposite side of the hot water pipe 21 in the hot water panel unit 20 as shown in FIG. After laying, when the peripheral panel 30a is laid as shown in FIG. 5F, the hot water floor heating floor 1 as shown in FIG. 1 is completed.
[0031]
As described above, this hot water type floor heating floor 1 does not have the hot water pipe 21 built in the floor finishing material 30 in advance, but unlike the conventional floor finishing material separation type floor heating floor, Since the unit 20 only needs to be placed on the floor base 10, it does not take time and the size of the hot water pipe unit 20 itself can be set to a size several times that of the floor finishing material 30. Therefore, compared with the conventional floor finishing material-integrated floor heating floor, which must connect hot water pipes between adjacent floor finishing materials, the number of hot water pipe connection points is reduced, enabling efficient construction. .
[0032]
In addition, with the hot water pipe unit 20 placed on the floor base 10, the floor finishing material 30 (main body panel 30b, U-turn panel 30c) is placed under the floor while the hot water pipe 21 is fitted into the pipe receiving grooves 31a, 31b. Since it is only necessary to lay the floor finishing material on the ground 10 in sequence, the floor finishing material is laid on the floor base, and then the conventional floor heating floor in which the hot water pipe is passed from the end surface side of the floor finishing material to the pipe receiving groove. As described above, it is not necessary to perform the work of passing the hot water pipe, which can be troublesome, and the floor heating floor can be easily constructed in a short time.
[0033]
Moreover, in this warm water type floor heating floor 1, the warm water pipe 21 of the warm water pipe unit 20 is completely accommodated in the pipe accommodating grooves 31a and 31b formed in the floor finishing material 30 (main body panel 30b, U-turn panel 30c). In addition, a sheet member 33 formed of a cushioning material similar to that of the connecting member 22 is attached in advance to the back surface portion of the panel base material 31 that is not covered with the connecting member 22 in a state where the floor finishing material 30 is laid. Therefore, there is no level difference between the part where the hot water pipe unit 20 is placed and the other part, and the finished height of the floor is adjusted like a conventional floor finishing material separation type floor heating floor. There is no need.
[0034]
In addition, since the connecting member 22 and the seat member 33 formed of a cushioning material having a good cushioning property are interposed between the panel base material 31 and the floor base 10 constituting the floor finishing material 30, Since sound insulation performance is imparted and the cushioning material usually has heat insulation performance, diffusion of heat under the floor can be suppressed, and the heating efficiency can be improved.
[0035]
Moreover, in this hot water type floor heating floor 1, since the linear part of the adjacent hot water pipe 21 uses the hot water pipe unit 20 sequentially connected by the connecting member 22 two by two, as shown in FIG. When laying adjacent floor finishing materials 30 (main body panel 30b, U-turn panel 30c) while shifting in the horizontal direction, the shift amount can be freely changed in units of intervals of the straight portions of the hot water pipe 21. There is an effect that the application range of the finishing paste shifting construction is expanded.
[0036]
Further, in this hot water type floor heating floor 1, the hot water pipe 21 is received in the pipe receiving grooves 31 a and 31 b of the floor finishing material 30, so that the hot water pipe unit 20 is reliably positioned with respect to the floor finishing material 30. Therefore, even when the floor finishing material 30 is nailed to the floor base 10, it is possible to effectively prevent a construction error such that the nail penetrates the hot water pipe as in a conventional floor finishing material separation type floor heating floor. There is also an effect.
[0037]
In the above-described embodiment, the linear portions of the adjacent hot water pipes 21 use the hot water pipe unit 20 that is sequentially connected by the connecting member 22 two by two. However, the present invention is not limited to this. As shown in FIG. 6 (a), it is possible to connect two or more straight portions by a single connecting member 22a. In this case, as shown in FIGS. Needless to say, it is necessary to reduce the bonding area of the sheet member 33 in the main body panel 30b and the U-turn panel 30c according to the connecting member 22a to be used.
[0038]
Further, in the embodiment described above, in order to provide sound insulation performance and heat insulation performance, the connecting member 22 is formed of a cushioning material having a good cushioning property such as a nonwoven fabric, but is not limited thereto. For example, the connecting member can be formed of paper or a synthetic resin sheet. In particular, when the thickness of the connecting member 22 is small, it is not always necessary to stick the sheet member 33 similar to the connecting member 22 to the back surface of the floor finish 30.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of a hot water floor heating floor according to the present invention.
FIG. 2 is an exploded sectional view showing the hot water floor heating floor according to the above.
FIG. 3 is a plan view showing a hot water pipe unit used for the hot water floor heating floor of the above.
FIG. 4A is a plan view showing a floor finishing material (main body panel) used for the hot water type floor heating floor same as above, and FIG. 4B is a back view showing the floor finishing material (main body panel). c) is a back view showing a floor finish (U-turn panel) used for the hot water floor heating floor.
FIGS. 5A to 5F are process diagrams showing a construction method of the hot water floor heating floor same as above.
6A is a plan view showing a hot water pipe unit used for a hot water type floor heating floor according to another embodiment, and FIG. 6B is a floor finishing material used for the hot water type floor heating floor according to the embodiment (b). (C) is a back view showing a floor finish (U-turn panel) used for the hot water type floor heating floor.
7A is a cross-sectional view showing a floor finishing material used in a conventional floor finishing material-integrated hot water type floor heating floor, and FIG. 7B is a process showing a construction method of the hot water type floor heating floor same as above. FIG.
8A is a cross-sectional view showing a conventional floor finishing material separation type hot water floor heating floor, and FIG. 8B is an exploded cross sectional view showing the same hot water floor heating floor.
FIGS. 9A and 9B are cross-sectional views showing floor finishing materials used for another conventional hot water type floor heating floor, and FIGS. 9B and 9C are steps showing a construction method of the hot water type floor heating floor same as above. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Hot water type floor heating floor 10 Floor base 20 Hot water panel unit 21 Hot water pipes 22 and 22a Connecting member 30 Floor finishing material 30a Peripheral panel 30b Main body panel 30c U turn panel 31 Panel base material 31a, 31b Pipe accommodation groove 32 Surface decoration material 33 Sheet material

Claims (1)

両端部で交互にUターンさせながら所定のパイプパターンに整形した温水パイプにおける隣り合う直線部分を2本ずつ、その下面側において、クッション性の良好な緩衝材によって形成されたシート状の連結部材によって相互に連結した温水パイプユニットと、
前記温水パイプユニットの前記温水パイプを収容するためのパイプ収容溝が裏面に形成された床仕上材とを備え、
前記連結部材が床下地に接触するように、床下地の上に載置された前記温水パイプユニットにおける前記温水パイプを、前記パイプ収容溝に嵌め込むようにして床下地の上に前記床仕上材が敷設されており、
前記床仕上材の裏面には、前記床仕上材が敷設された状態で、前記温水パイプユニットの前記連結部材によって覆われる部を除く部分の全面に、緩衝材が貼着されていることを特徴とする温水式床暖房フロア。
Two adjacent straight portions of the hot water pipe shaped into a predetermined pipe pattern while making U-turns alternately at both ends, on the lower surface side, by a sheet-like connecting member formed of a cushioning material with good cushioning properties Interconnected hot water pipe units;
A floor finishing material in which a pipe housing groove for housing the hot water pipe of the hot water pipe unit is formed on the back surface;
The floor finishing material is laid on the floor base so that the hot water pipe in the hot water pipe unit placed on the floor base is fitted into the pipe receiving groove so that the connecting member contacts the floor base. Has been
On the back of the floor covering, in a state in which the floor covering is laid, the entire surface of the portion except for the connecting parts fraction Ru covered by a member of the hot water pipe unit, the buffer material is stuck A warm water floor heating floor.
JP2000381610A 2000-12-15 2000-12-15 Hot water floor heating floor Expired - Lifetime JP4287586B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2000381610A JP4287586B2 (en) 2000-12-15 2000-12-15 Hot water floor heating floor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000381610A JP4287586B2 (en) 2000-12-15 2000-12-15 Hot water floor heating floor

Publications (2)

Publication Number Publication Date
JP2002181343A JP2002181343A (en) 2002-06-26
JP4287586B2 true JP4287586B2 (en) 2009-07-01

Family

ID=18849578

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2000381610A Expired - Lifetime JP4287586B2 (en) 2000-12-15 2000-12-15 Hot water floor heating floor

Country Status (1)

Country Link
JP (1) JP4287586B2 (en)

Also Published As

Publication number Publication date
JP2002181343A (en) 2002-06-26

Similar Documents

Publication Publication Date Title
JP2009030939A (en) Hot water panel for floor heating
JP4287586B2 (en) Hot water floor heating floor
JP3808697B2 (en) Heating panel assembly and method for folding heating panel assembly
JP4598301B2 (en) Hot water floor heating floor
JP2001193949A (en) Panel for floor heating
JP3872366B2 (en) Hot water pipe unit for hot water floor heating floor
JP4598329B2 (en) Hot water pipe unit
JP4027121B2 (en) Hot water pipe unit for hot water floor heating floor
JP3996430B2 (en) Hot water pipe unit for hot water floor heating floor
JP4578722B2 (en) Flooring materials and floor heating panels for floor heating floors and floor heating floors
JP3986322B2 (en) Hot water floor heating floor
JP4100851B2 (en) Floor heating panel
JP3716759B2 (en) Base material for wiring and piping to soundproof floor heating system
JP4261386B2 (en) Foldable heat sink
JP3946497B2 (en) Electric floor heating structure and its construction method
JP3720186B2 (en) Heatable floor construction member and its construction method
JP4100852B2 (en) Floor heating panel
JP4558241B2 (en) Floor finishing materials and hot water pipe units for hot water floor heating floors
JP3920106B2 (en) Hot water floor heating floor
JP3086820U (en) Rug
JP2000186823A (en) Method for executing floor heating
JP2009063248A (en) Hot water mat for floor heating
JP4417510B2 (en) Floor heating panel and laying method thereof
JP3771037B2 (en) How to install a heatable floor
JP3104116B2 (en) Foldable flooring

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20071107

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20081127

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20081202

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20090119

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20090217

A521 Written amendment

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20090224

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20090324

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20090327

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120403

Year of fee payment: 3

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120403

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130403

Year of fee payment: 4

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130403

Year of fee payment: 4

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20140403

Year of fee payment: 5