JPH0413290Y2 - - Google Patents
Info
- Publication number
- JPH0413290Y2 JPH0413290Y2 JP14320087U JP14320087U JPH0413290Y2 JP H0413290 Y2 JPH0413290 Y2 JP H0413290Y2 JP 14320087 U JP14320087 U JP 14320087U JP 14320087 U JP14320087 U JP 14320087U JP H0413290 Y2 JPH0413290 Y2 JP H0413290Y2
- Authority
- JP
- Japan
- Prior art keywords
- threaded
- outward flange
- cylinder
- adhesive
- heat insulating
- 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
Links
- 230000001070 adhesive effect Effects 0.000 claims description 20
- 239000000853 adhesive Substances 0.000 claims description 19
- 239000011810 insulating material Substances 0.000 claims description 15
- 125000006850 spacer group Chemical group 0.000 claims description 14
- 239000000463 material Substances 0.000 description 15
- 239000012774 insulation material Substances 0.000 description 12
- 239000006260 foam Substances 0.000 description 6
- 238000011065 in-situ storage Methods 0.000 description 4
- 206010040844 Skin exfoliation Diseases 0.000 description 3
- 230000000694 effects Effects 0.000 description 2
- 239000003292 glue Substances 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- JOYRKODLDBILNP-UHFFFAOYSA-N Ethyl urethane Chemical compound CCOC(N)=O JOYRKODLDBILNP-UHFFFAOYSA-N 0.000 description 1
- 239000004698 Polyethylene Substances 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- -1 polyethylene Polymers 0.000 description 1
- 229920000573 polyethylene Polymers 0.000 description 1
- 229920003002 synthetic resin Polymers 0.000 description 1
- 239000000057 synthetic resin Substances 0.000 description 1
Landscapes
- Building Environments (AREA)
- Finishing Walls (AREA)
Description
【考案の詳細な説明】
産業上の利用分野
本考案は、躯体と内装材との間に介在せしめる
スペーサーに関するが、とくに躯体と内装材との
間に現場発泡性の断熱材を注入する断熱性建築物
の建築に適したスペーサーに関する。[Detailed description of the invention] Industrial application field The present invention relates to a spacer interposed between a building frame and an interior material, and in particular, it relates to a spacer that is interposed between a building frame and an interior material, and is particularly concerned with a spacer that is injected with a foam-in-place heat insulating material between the building body and the interior material. Regarding spacers suitable for the construction of buildings.
従来技術
筒体の外面に螺旋溝を刻設して構成した螺合体
と、筒体の内面に螺合体用の螺旋溝を刻設し、か
つ筒体の底側端部における対称位置に三角形の外
向フランジを突設して構成した螺合筒とからな
り、螺合体を螺合筒に螺合するスペーサーであ
る。Prior art A threaded body is constructed by carving a spiral groove on the outer surface of a cylinder, and a spiral groove for the threaded body is carved on the inner surface of the cylinder, and a triangular shape is formed at a symmetrical position at the bottom end of the cylinder. This spacer consists of a threaded tube with an outward flange protruding from the spacer, and the threaded body is screwed into the threaded tube.
考案が解決しようとする問題点
従来技術は、螺合筒の筒壁に断熱材用の流入孔
が開穿されていないため、躯体と内装材との間に
現場発泡性の断熱材を注入しても、その断熱材と
スペーサーとの密着性に劣り、調整されたレベル
が狂うことがある。そして、筒体に突設した外向
フランジに接着剤用の流入孔が開穿されていない
ため、接着性が思わしくなく、スペーサーが引張
られると接着部から剥離することがある。Problems that the invention aims to solve: In the conventional technology, an inflow hole for the insulation material is not drilled in the wall of the threaded tube, so in-place foam insulation material is injected between the frame and the interior material. However, the adhesion between the insulation material and the spacer is poor, and the adjusted level may become incorrect. Furthermore, since an inflow hole for the adhesive is not formed in the outward flange that protrudes from the cylinder, the adhesion is unsatisfactory, and the spacer may peel off from the adhesive portion when it is pulled.
本考案は上記問題点に着目してなしたもので、
現場発泡性の断熱材との密着性にすぐれ、調整さ
れたレベルの狂うことがなく、かつ躯体及び内装
材との接着性にすぐれ、引張られても接着部から
剥離する心配の少ない有益なスペーサーの提供を
目的とする。 This invention was created by focusing on the above problems.
A useful spacer that has excellent adhesion to foamed-in-place insulation materials, does not upset the adjusted level, has excellent adhesion to the building frame and interior materials, and has little risk of peeling off from the bonded area even when stretched. The purpose is to provide.
問題点を解決するための手段
本考案は、上記目的を達成するため、筒体の内
部に断熱材を充填し、かつ筒壁の外面に螺旋溝を
刻設し、さらに筒体の底側端部に外向フランジを
周設し、その外向フランジに適数の接着剤用流入
孔を開穿して構成した螺合体と、筒体の内面に上
記螺合体用の螺旋溝を刻設し、かつ筒壁に適数の
断熱材用流入孔を開穿し、さらに筒体の底側端部
に外向フランジを周設し、その外向フランジに適
数の接着剤用流入孔を開穿して構成した螺合筒と
からなるという手段を提案する。Means for Solving the Problems In order to achieve the above object, the present invention fills the inside of the cylindrical body with a heat insulating material, carves a spiral groove on the outer surface of the cylindrical wall, and furthermore, the bottom end of the cylindrical body A threaded body is formed by providing an outward facing flange around the part and opening an appropriate number of adhesive inflow holes in the outward facing flange, and a spiral groove for the threaded body being carved on the inner surface of the cylindrical body, and An appropriate number of inlet holes for heat insulating material are drilled in the cylindrical wall, an outward flange is provided around the bottom end of the cylindrical body, and an appropriate number of inlet holes for adhesive are bored in the outer flange. We propose a method consisting of a threaded tube.
作 用
本考案は、上記手段からなるので、螺合体を螺
合筒に螺合し、躯体と内装材との間に介在せし
め、一方を回して内装材取付面のレベルを調整し
たとき、螺合体の先部(筒壁の底側と反対側の端
部)と螺合筒の底部内面との間に隙間の形成され
る場合があるが、内装材を貼着した後に、現場発
泡性の断熱材を注入すると、その断熱材が断熱材
用流入孔から螺合筒内に流入し、螺合体先部と螺
合筒底部内面との間の隙間に充填され、螺合体及
び螺合筒と断熱材との密着性がたかまると共に、
調整された内装材取付レベルを維持せしめる。ま
た、上記隙間が形成されない場合でも断熱材用流
入孔から流入した断熱材によつて密着性がたかま
り、上記レベルが維持される。そして、螺合体及
び螺合筒の底部外面及び外向フランジ外面を接着
剤で躯体と内装材との対向面に接着すると、接着
剤が接着剤用流入孔から内面側へ押出され、接着
剤硬化後の接着性が向上し、螺合体又は螺合筒が
引張られても、接着部から剥離しないと共に、螺
合体と螺合筒との引張り強度が高まる。Function Since the present invention consists of the above-mentioned means, when the threaded body is threaded into the threaded tube and interposed between the frame and the interior material, and when the level of the interior material mounting surface is adjusted by turning one side, A gap may be formed between the joining tip (the end opposite to the bottom side of the cylinder wall) and the bottom inner surface of the screwed cylinder, but after pasting the interior material, When the heat insulating material is injected, the heat insulating material flows into the threaded tube through the inflow hole for the heat insulating material, fills the gap between the tip of the threaded body and the inner surface of the bottom of the screwed body, and connects the screwed body and the screw tube together. In addition to increasing the adhesion with the insulation material,
To maintain the adjusted interior material installation level. Further, even when the above-mentioned gap is not formed, the adhesion is increased by the heat insulating material flowing in from the inflow hole for the heat insulating material, and the above-mentioned level is maintained. Then, when the bottom outer surface and the outer surface of the outward flange of the threaded body and threaded tube are glued to the opposing surfaces of the building frame and interior material, the glue is extruded from the glue inflow hole to the inner side, and after the adhesive hardens. The adhesive properties of the threaded body and the threaded tube are improved, and even if the screwed body or the screwed tube is pulled, the adhesive does not peel off from the bonded portion, and the tensile strength of the screwed body and the screwed tube is increased.
実施例
図面について説明すれば、螺合体Aは、筒体
A1の内部に発泡ポリエチレン、発泡ウレタン、
その他の発泡合成樹脂系の断熱材A2を充填し、
かつ筒体A1の筒壁外面に螺旋溝A3を適宜長さに
刻設して構成する。螺旋溝A3は、筒体A1の全長
に刻設するものではなく、その筒体の全長寸法が
種々異なつても、筒体A1の先部から定寸に刻設
し、その筒体の底側外面に筒体A1の全長寸法に
応じて長さの異なる滑面A6を形成し、現場発泡
性断熱材Cの厚さがレベル調整以上に必要な場
合、滑面A6の長い螺合体Aを使用しえるように
する。螺合体Aは、筒体A1の底側端部において
底部と同一平面上に外向フランジA4を周設し、
そのフランジに適数の接着剤用流入孔A5を開穿
して構成するが、その流入孔は、外側又は内側に
向つてテーパーのついたテーパー孔に開穿し、接
着剤Dが外向フランシA4から内面側へ押出され、
硬化した後の接着性を向上せしめえるように構成
する。Embodiment To explain the drawings, the screw body A is a cylindrical body.
Inside of A1 is foamed polyethylene, foamed urethane,
Filled with other foamed synthetic resin insulation material A 2 ,
In addition, a spiral groove A 3 is formed to an appropriate length on the outer surface of the cylindrical wall of the cylindrical body A 1 . The spiral groove A3 is not carved along the entire length of the cylinder body A1 , but is carved at a fixed length from the tip of the cylinder body A1 , even if the total length of the cylinder body varies. A smooth surface A 6 with different lengths is formed on the bottom outer surface of the cylinder A 1 , and if the thickness of the in-situ foam insulation material C is required to exceed the level adjustment, the smooth surface A 6 is To enable the use of a long screw body A. The threaded body A has an outward flange A 4 around the bottom end of the cylindrical body A 1 on the same plane as the bottom,
The flange is configured by opening an appropriate number of adhesive inflow holes A5 , and the inflow holes are tapered holes tapered toward the outside or inward, and the adhesive D flows into the outward flange. Extruded from A 4 to the inner side,
The composition is configured to improve adhesiveness after curing.
螺合筒Bは、螺合体Aを螺合するための螺旋溝
B2を筒体B1の内面全長又は内面に適宜長さに刻
設し、かつ筒体B1の筒壁に適数の断熱材用流入
孔B3を適宜長さに開穿し、その流入孔から現場
発泡性断熱材Cが筒体B1内に流入しえるように
構成し、躯体Eと内装材Fとの間に注入された上
記断熱材Cとの密着性を向上せしめ、調整された
内装材取付レベルが狂うことのないように構成す
る。螺合筒Bは、筒体B1の底側端部において底
部と同一平面上に外向フランジB4を周設し、そ
のフランジに適数の接着剤用流入孔B5を開穿し
て構成するが、この流入孔は、内側又は外側に向
つてテーパーのついたテーパー孔に開穿し、螺合
体Aと同様に接着性を向上しえるように構成す
る。しかして、接着剤用流入孔B5は、接着剤用
流入孔A5と逆向にテーパーをつけたテーパー孔
に開穿する。 The screw tube B has a spiral groove for screwing the screw body A.
B2 is carved to an appropriate length on the entire inner surface length or the inner surface of the cylinder body B1 , and an appropriate number of inlet holes B3 for insulation material are bored to an appropriate length in the cylindrical wall of the cylinder body B1 . It is configured so that the in-situ foam insulation material C can flow into the cylindrical body B 1 from the inflow hole, and the adhesion with the insulation material C injected between the building frame E and the interior material F is improved and adjusted. The structure is configured so that the installation level of the interior material that has been installed will not go out of order. The screw tube B is constructed by providing an outward flange B 4 around the bottom end of the cylindrical body B 1 on the same plane as the bottom, and opening an appropriate number of adhesive inflow holes B 5 in the flange. However, this inlet hole is configured to be a tapered hole tapered toward the inside or outside, and to improve adhesiveness similarly to the threaded assembly A. Thus, the adhesive inflow hole B5 is a tapered hole tapered in the opposite direction to the adhesive inflow hole A5 .
螺合体Aの底部外面及び外向フランジA4の外
面など全面、並びに螺合筒Bの底部外面及び外向
フランジB4の外面など全面に不図示の格子状凹
溝を刻設して、接着剤Dとの接着面積を広く構成
し、接着性の改善に寄与せしめるようにする。ま
た、外向フランジA4,B4の周面には、簡単に手
回操作できるようにローレツトを刻設する。 Grid-like grooves (not shown) are carved on the entire surface of the bottom outer surface of the threaded body A and the outer surface of the outward flange A4 , as well as on the entire surface of the bottom outer surface of the threaded tube B and the outer surface of the outward flange B4 . The area of adhesion is made wider to contribute to improved adhesion. Further, the outer flanges A 4 and B 4 are knurled on their circumferential surfaces for easy manual operation.
上記構成の螺合体A及び螺合筒Bの用法は、両
者を螺合し、螺合筒Bの底部外面及び外向フラン
ジB4外面に接着剤Dを塗布し、躯体Eの表面に
圧着固定する。その後螺合体Aを回して躯体E表
面と螺合体Aの底部外面及び外向フランジA4外
面とのレベル調整を行なう。その後、螺合体Aの
底部外面及び外向フランジA4外面に接着剤Dを
塗布し、内装材Fを圧着貼着する。この作業が完
了したら、内装材Fに不図示の注入孔を開穿し、
二液混合体からなる現場発泡性の断熱材Cを注入
し、発泡硬化せしめる。上記レベル調整したと
き、螺合体Aの先部と螺合筒Bの底部との間(詳
しくは、筒体A1の先部と筒体B1の内底面との間)
に不図示の隙間の形成される場合があるが、この
隙間が形成されると、断熱材Cが断熱材用流入孔
B3から隙間内に流入して発泡硬化し、螺合体A
及び螺合筒Bとの密着性がたかまり、かつ調整さ
れたレベルが断熱材Cによつてそのまま維持され
る。また、上記隙間が形成されていない場合(図
示のような場合)でも、上記同様に断熱材Cが断
熱材用流入孔B3に流入し、その流入孔に臨んで
いる螺合体Aの螺旋溝A3に流入し、発泡硬化す
るので、上記同様に密着性が改善され、同時に調
整されたレベルがそのまま維持される。そして、
前記用法において螺合体A及び螺合筒Bを接着す
るときは、接着剤Dが接着剤用流入孔A5及びB5
から押出されて拡がり、硬化するので、接着性が
改善され、接着部から剥離する惧れが解消すると
同時に螺合体Aと螺合筒Bとの引張り強度が高め
られる。 To use the screwed body A and the screwed tube B configured as described above, screw them together, apply adhesive D to the bottom outer surface of the screwed tube B and the outer surface of the outward flange B4 , and press and fix them to the surface of the frame E. . Thereafter, turn the threaded body A to adjust the level between the surface of the body E, the bottom outer surface of the threaded body A, and the outer surface of the outward flange A4 . Thereafter, adhesive D is applied to the outer surface of the bottom part of the screw assembly A and the outer surface of the outward flange A4 , and the interior material F is adhered by pressure. When this work is completed, an injection hole (not shown) is made in the interior material F,
In-situ foamable heat insulating material C consisting of a two-component mixture is injected and foamed and hardened. When the above level is adjusted, between the tip of the threaded body A and the bottom of the threaded tube B (more specifically, between the tip of the tube A 1 and the inner bottom surface of the tube B 1 )
Although a gap (not shown) may be formed in the
B 3 flows into the gap, foams and hardens, and the screwed body A
The adhesiveness with the threaded cylinder B is increased, and the adjusted level is maintained as it is by the heat insulating material C. Furthermore, even if the above-mentioned gap is not formed (as shown in the figure), the heat insulating material C flows into the heat insulating material inflow hole B 3 in the same way as above, and the spiral groove of the screw body A facing the inflow hole is formed. Since it flows into A 3 and foams and hardens, the adhesion is improved in the same way as above, and at the same time the adjusted level is maintained. and,
When bonding the screw body A and the screw tube B in the above method, the adhesive D is applied to the adhesive inlet holes A 5 and B 5
Since it is extruded, spread, and hardened, the adhesion is improved, and the risk of peeling from the bonded portion is eliminated, and at the same time, the tensile strength between the threaded body A and the threaded cylinder B is increased.
考案の効果
本考案は、叙上のように構成したので、現場発
泡性の断熱材との密着性にすぐれ、調整されたレ
ベルが狂うことがなく、かつ躯体及び内装材との
接着性にすぐれ、接着部から剥離する心配が極減
するなどの効果を奏する有益なスペーサーを提供
できる。Effects of the invention Since the present invention is constructed as described above, it has excellent adhesion to the in-situ foam insulation material, prevents the adjusted level from going out of order, and has excellent adhesion to the building frame and interior materials. , it is possible to provide a useful spacer that has the effect of greatly reducing the risk of peeling off from the adhesive portion.
第1図は本考案スペーサーを分離した状態の斜
視図、第2図は使用状態の斜視図、第3図は第2
図の3−3線に沿える縦断面図である。
図中、A……螺合体、A1……筒体、A2……断
熱材、A3……螺旋溝、A4……外向フランジ、A5
……接着剤用流入孔、B……螺合筒、B1……筒
体、B2……螺旋溝、B3……断熱材用流入孔、B4
……外向フランジ、B5……接着剤用流入孔。
Figure 1 is a perspective view of the spacer of the present invention in a separated state, Figure 2 is a perspective view of the spacer in use, and Figure 3 is a perspective view of the spacer of the present invention in its used state.
It is a longitudinal cross-sectional view taken along line 3-3 in the figure. In the figure, A...screw assembly, A1 ...cylindrical body, A2 ...insulating material, A3 ...spiral groove, A4 ...outward flange, A5
... Inflow hole for adhesive, B ... Threaded tube, B 1 ... Cylindrical body, B 2 ... Spiral groove, B 3 ... Inflow hole for insulation material, B 4
...Outward flange, B 5 ...Inflow hole for adhesive.
Claims (1)
に螺旋溝を刻設し、さらに筒体の底側端部に外向
フランジを周設し、その外向フランジに適数の接
着剤用流入孔を開穿して構成した螺合体と、筒体
の内面に上記螺合体用の螺旋溝を刻設し、かつ筒
壁に適数の断熱材用流入孔を開穿し、さらに筒体
の底側端部に外向フランジを周設し、その外向フ
ランジに適数の接着剤用流入孔を開穿して構成し
た螺合筒とからなるスペーサー。 The inside of the cylindrical body is filled with a heat insulating material, a spiral groove is carved on the outer surface of the cylindrical wall, and an outward flange is provided around the bottom end of the cylindrical body. A threaded body formed by opening an inflow hole, a spiral groove for the threaded body formed on the inner surface of the cylinder, an appropriate number of inflow holes for heat insulating material bored in the cylinder wall, and a cylinder body. A spacer consisting of a threaded tube having an outward flange around the bottom end thereof and a suitable number of adhesive inflow holes drilled in the outward flange.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14320087U JPH0413290Y2 (en) | 1987-09-19 | 1987-09-19 |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP14320087U JPH0413290Y2 (en) | 1987-09-19 | 1987-09-19 |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6449504U JPS6449504U (en) | 1989-03-28 |
| JPH0413290Y2 true JPH0413290Y2 (en) | 1992-03-27 |
Family
ID=31409806
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP14320087U Expired JPH0413290Y2 (en) | 1987-09-19 | 1987-09-19 |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0413290Y2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP4604284B2 (en) * | 2008-12-05 | 2011-01-05 | コンフォートテック株式会社 | Thermal insulation holding spacer, roof structure and wall structure using the same |
-
1987
- 1987-09-19 JP JP14320087U patent/JPH0413290Y2/ja not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS6449504U (en) | 1989-03-28 |
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