JPH10292453A - Delivery pipe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make a pipe easier to handle even when hot water is passed through a delivery pipe by forming the delivery end of the delivery pipe with a noncircular outer pipe and a flexible inner pipe inserted into the outer pipe. SOLUTION: A delivery pipe main body 1 comprises a water flowing part 4 formed with an outer shell 2 and two flexible water flowing pipes 3 inserted into the outer shell 2 and a flow straightening mechanism part 5 to which the water flowing part 3 is connected. Also the material of the flexible water flowing pipe 3 is a resin of low heat conductivity. For the outer shell 2, for example, a metal such as a copper alloy or a resin is used. However, water is no passed through the outer shell 2, and water is passed through the inner pipe formed with the flexible water flowing pipe 3 and flow straightening mechanism 5 used as a water flowing path. By this, the delivery pipe main body 1 comprises the inner flexible resin pipe 3 of low conductivity and the flow straightening mechanism 5, and constructed in double layers. Thus, because an air layer is formed between the outer shell and the inner pipe, it can suppress the temperature on the surface of the delivery pipe from rising caused by flowing of hot water.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【０００１】[0001]

【発明の属する技術分野】本発明は、吐水口から非円形
状整流吐水をさせるための吐水管に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water discharge pipe for discharging a non-circular flow from a water discharge port.

【０００２】[0002]

【従来の技術】従来、吐水口から滝状等をした吐水をさ
せるため、扁平な形状をした吐水管が利用されている。
図９は従来の滝状吐水管を示し、図９−（ａ）は概略断
面図、図９−（ｂ）は図９−（ａ）のＣ−Ｃ断面図で、
滝状の吐水をさせる吐水管本体１は、扁平な形状を保持
するため、肉厚に成形された金属鋳物からなり、吐水管
本体１の通水口断面は全長に渡り滝口形状であり、通水
口は整流機構も兼ねており、扁平形状の吐水口１ａから
滝状整流吐水を実現している。2. Description of the Related Art Conventionally, a flat water discharge pipe has been used to discharge water in a waterfall shape or the like from a water discharge port.
9 shows a conventional waterfall-shaped water discharge pipe, FIG. 9- (a) is a schematic sectional view, and FIG. 9- (b) is a CC sectional view of FIG. 9- (a).
The water discharge pipe main body 1 for waterfall-like water discharge is made of a thick metal casting in order to maintain a flat shape, and the water discharge pipe main body 1 has a water discharge port cross section over the entire length, and a water discharge port. Also serves as a rectification mechanism, and realizes a waterfall-shaped rectification water discharge from the flat water discharge port 1a.

【０００３】[0003]

【発明が解決しようとする課題】前記の金属鋳物からな
る扁平な吐水管に熱湯を通水すると、扁平な吐水管は、
熱伝導性がよい金属鋳物であるため、吐水管表面が高熱
となるので、通常の吐水管に比べて手で扱いにくい場合
がある。When hot water is passed through the flat water discharge pipe made of a metal casting, the flat water discharge pipe is
Since it is a metal casting having good thermal conductivity, the surface of the water discharge pipe becomes high in heat, so that it may be harder to handle by hand than a normal water discharge pipe.

【０００４】また、吐水管本体は肉厚となっているため
に材料費が高く、また、通水面が鋳肌であるために水切
れが悪い。[0004] Further, the water discharge pipe body is thick, so that the material cost is high, and since the water passage surface is a cast surface, drainage is poor.

【０００５】本発明は、吐水管に熱湯を通水した場合で
も扱い易く、整流性がよく、かつ材料費が安い非円形状
の吐水管を提供するものである。The present invention provides a non-circular water discharge pipe which is easy to handle even when hot water is passed through the water discharge pipe, has good rectifying properties, and has a low material cost.

【０００６】[0006]

【課題を解決するための手段】本発明の吐水管は、少な
くとも吐水管の吐水口端が非円形状の外管と、外管内に
内装した可とう性を有する内管とにより形成する。SUMMARY OF THE INVENTION A water discharge pipe of the present invention is formed by an outer pipe having at least a water discharge port end of a water discharge pipe and a flexible inner pipe housed inside the outer pipe.

【０００７】[0007]

【発明の実施の形態】本発明の吐水管においては、内管
を、吐水口端が非円形状の吐水口部材と、流入口部材と
を可とう性管により接続することにより形成できる。DESCRIPTION OF THE PREFERRED EMBODIMENTS In the water discharge pipe of the present invention, the inner pipe can be formed by connecting a water discharge port member having a non-circular water discharge port end and an inflow port member by a flexible pipe.

【０００８】また、吐水口部材と、流入口部材に複数の
接続部を設け、吐水口部材と、流入口部材とを複数の可
とう性管により接続する。Further, a plurality of connecting portions are provided on the water outlet member and the inflow member, and the water outlet member and the inflow member are connected by a plurality of flexible pipes.

【０００９】内管の流入口部材を外管に固定し、吐水管
を回転自在にすることもできる。[0009] It is also possible to fix the inflow member of the inner pipe to the outer pipe and make the water discharge pipe rotatable.

【００１０】[0010]

【実施例】図１は本発明の吐水管の一実施例を示し、図
１−（ａ）は一部縦断面図、図１−（ｂ）は図１−
（ａ）のＡ−Ａ断面図、図２は本発明の吐水管の整流機
構部の一実施例を示し、図２−（ａ）は横断面、図２−
（ｂ）は図２−（ａ）のＢ−Ｂ断面図、図２−（ｃ）は
ストレーナ付キャップの斜視図である。1 shows an embodiment of a water discharge pipe according to the present invention. FIG. 1- (a) is a partial longitudinal sectional view, and FIG.
FIG. 2A is a cross-sectional view taken along the line A-A, FIG. 2 shows an embodiment of a rectifying mechanism of the water discharge pipe of the present invention, and FIG.
FIG. 2B is a cross-sectional view taken along line BB of FIG. 2A, and FIG. 2C is a perspective view of a cap with a strainer.

【００１１】吐水管本体１は、外殻２とその内側に内装
された２本の通水可とう管３とからなる通水部４、及び
通水可とう管３が接続される整流機構部５で構成され
る。通水可とう管３の材料としては、例えば、熱伝導率
の低い樹脂等を用いることができる。また、外殻２に
は、例えば、銅合金等の金属や樹脂を利用するが、外殻
２には通水されず、通水可とう管３及び整流機構部５を
通水路となる内管にして通水するので、外殻２を厚くす
る必要がなく肉薄でよいため、外形を大きくすることも
なく二重構造にすることができるので、材料費を低減さ
せることができる。通水路となる整流機構部５は、図２
に示すように、通水可とう管３が接続される二つの円形
の通水部５ａと、通水部５ａの開口部５ｂから広がる吐
水口部５ｃとからなっており、吐水口部５ｃには、通水
拡散及び緩衝のために、開口部５ｂの近傍に突起６、及
び吐水口部５ｃの吐水口近傍にメッシュ網やパンチング
メタル等の整流網７がそれぞれ組み込まれている。The water discharge pipe main body 1 has a water flow section 4 composed of an outer shell 2 and two water flow flexible pipes 3 provided inside thereof, and a rectification mechanism section to which the water flow flexible pipe 3 is connected. 5 is comprised. As a material of the flexible tube 3, for example, a resin having a low thermal conductivity can be used. For the outer shell 2, for example, a metal or resin such as a copper alloy is used. However, water does not flow through the outer shell 2, and the inner pipe serves as a water passage through the flexible pipe 3 and the rectification mechanism 5. Since the outer shell 2 does not need to be thicker and can be thinner, the outer shell 2 can be formed into a double structure without increasing the outer shape, so that the material cost can be reduced. The rectifying mechanism 5 serving as a water passage is shown in FIG.
As shown in the figure, the water-permeable flexible pipe 3 is connected to two circular water-passing portions 5a and a water-outlet portion 5c extending from the opening 5b of the water-passage portion 5a. Has a projection 6 near the opening 5b and a rectifying net 7 such as a mesh net or punched metal near the water outlet of the water outlet 5c for water diffusion and buffering.

【００１２】通水可とう管３は、整流機構部５の二つの
通水部５ａの接続部５ｄに嵌め込んで、ホースバンド８
により締め付けて通水可とう管３と整流機構部５とを接
続した後に、これらを外殻２の中に通しビス９により固
定する。The flexible water pipe 3 is fitted into the connecting portion 5d of the two water flowing portions 5a of the rectifying mechanism 5, and the hose band 8
After connecting the flow-through flexible pipe 3 and the rectifying mechanism 5 by tightening them, they are passed through the outer shell 2 and fixed with screws 9.

【００１３】その後、網部を有する挿入部材として着脱
可能なストレーナ付キャップ１０を外殻２を通して通水
路となる整流機構部５に嵌め込む。図２に示すように、
ストレーナ付キャップ１０は、ブロック状の挿入部１０
ａに網部となるス卜レーナ１０ｂを立設し、挿入部１０
ａとス卜レーナ１０ｂとの取付部の周囲にＯリング１０
ｃが設けられている。ストレーナ取付部のＯリング１０
ｂは、整流機構部５の開口部１１に挿入してもＯリング
１０ｂがストレーナ取付部と整流機構部５の開口部１１
とに密着して水密状態に挿入されるので、漏水の心配は
ない。Thereafter, a detachable cap with strainer 10 as an insertion member having a net portion is fitted through the outer shell 2 into the rectifying mechanism portion 5 serving as a water passage. As shown in FIG.
The cap with strainer 10 is a block-shaped insertion portion 10.
a, a strainer 10b serving as a mesh portion is erected on the insertion portion 10a.
O-ring 10 around the mounting part of a and the strainer 10b.
c is provided. O-ring 10 for strainer attachment
b indicates that the O-ring 10b is inserted into the opening 11 of the rectifying mechanism 5 and the opening 11 of the rectifying mechanism 5
Since it is inserted in a watertight state, it does not have to worry about water leakage.

【００１４】また、吐水管本体１は、内部が熱伝導率の
低い樹脂等の可とう管３及び整流機構部５からなるとと
もに、二重構造となっているため優れた断熱効果が得ら
れる。The water discharge pipe main body 1 has a flexible pipe 3 made of a resin or the like having a low thermal conductivity and a rectifying mechanism 5 and has a double structure, so that an excellent heat insulating effect can be obtained.

【００１５】図３〜図７は本発明の各種吐水管の実施例
の概略断面図で、外殻２の形状及び通水可とう管３の数
は適宜選択することができ、例えば、扁平な外殻２に内
管として扁平な通水可とう管３を内装したもの（図
３）、扁平な外殻２に内管として通水可とう管３を複数
内装したもの（図４）、湾曲させた扁平な外殻２に内管
として通水可とう管３を複数内装したもの（図５）、あ
るいは、折り曲げた形状の扁平な外殻２に内管として通
水可とう管３を複数内装したもの（図６及び図７参照）
とすることができる。FIGS. 3 to 7 are schematic cross-sectional views of embodiments of various water discharge pipes of the present invention. The shape of the outer shell 2 and the number of flexible pipes 3 can be selected as appropriate. An outer shell 2 having a flat water-permeable flexible pipe 3 as an inner pipe (FIG. 3), a flat outer shell 2 having a plurality of water-permeable flexible pipes 3 as an inner pipe (FIG. 4), and curved. A flat outer shell 2 having a plurality of water-permeable flexible pipes 3 as inner pipes (FIG. 5), or a bent flat outer shell 2 having a plurality of water-permeable flexible pipes 3 as inner pipes. With interior (see Fig. 6 and Fig. 7)
It can be.

【００１６】図８は本発明の吐水管の一実施例を示す概
略断面図である。FIG. 8 is a schematic sectional view showing one embodiment of the water discharge pipe of the present invention.

【００１７】吐水管本体１の外殻２の下端の径大部２ａ
の底部には、浅い円形の凹部が形成されており、この凹
部には樹脂等からなる流入口部材１２が嵌合される。こ
の流入口部材１２は、全体として下向きのシャーレ状の
形状を有しており、その上面には、一対の貫通円筒状の
接続部１３が一体に形成されており、各接続部１３に通
水可とう管３がそれぞれ差し込まれ、ホースバンド１４
により固定される。この流入口部材１２の下方には継手
１７が配置されており、流入口部材１２は、外殻２の下
端部と継手１７との間に挟まれた状態で取り付けられ
る。継手１７は、その軸方向の中間部に径大の鍔部１７
ａを有しており、この鍔部１７ａをビス１７ｂで外殻２
の下端部に固定することにより、継手１７が流入口部材
１２とともに外殻２の下端に固定される。また、継手１
７の流入口部材１２と接する部分の外周面にはＯリング
１６が嵌合されている。The large diameter portion 2a at the lower end of the outer shell 2 of the water discharge pipe main body 1
A shallow circular concave portion is formed at the bottom of the hole, and an inlet member 12 made of resin or the like is fitted into this concave portion. The inlet member 12 has a petri dish-like shape facing downward as a whole, and a pair of through-cylindrical connecting portions 13 are integrally formed on the upper surface thereof. The flexible tubes 3 are inserted respectively, and the hose bands 14
Is fixed by A joint 17 is disposed below the inlet member 12, and the inlet member 12 is attached between the lower end of the outer shell 2 and the joint 17. The joint 17 has a large-diameter flange 17 at an intermediate portion in the axial direction.
a, and the flange 17a is fixed to the outer shell 2 with a screw 17b.
The joint 17 is fixed to the lower end of the outer shell 2 together with the inlet member 12 by being fixed to the lower end of the outer shell 2. Also, joint 1
An O-ring 16 is fitted on the outer peripheral surface of a portion of the nozzle 7 in contact with the inlet member 12.

【００１８】継手１７の内周面にはねじ１７ｃが形成さ
れており、このねじ１７ｃに回転軸２１の上端部に形成
されたねじ２１ａをねじ込むことにより、継手１７に対
して回転軸２１が固定される。この回転軸２１の外周に
は円筒状の水栓本体固定部１５が設けられている。回転
軸２１の外周面と水栓本体固定部１５の内周面には、互
いに係合して軸方向の抜けを防止する環状の突起部２１
ｂ，１５ａがそれぞれ形成されている。また、水栓本体
固定部１５の下方部分においては。回転軸２１の外周面
と水栓本体固定部１５の内周面との間には若干に隙間が
形成され、水栓本体固定部１５の内周面の内周面にはね
じ１５ｂが形成されている。A screw 17c is formed on the inner peripheral surface of the joint 17, and a screw 21a formed at the upper end of the rotary shaft 21 is screwed into the screw 17c, whereby the rotary shaft 21 is fixed to the joint 17. Is done. A cylindrical faucet main body fixing portion 15 is provided on the outer periphery of the rotating shaft 21. An annular projection 21 which engages with the outer peripheral surface of the rotary shaft 21 and the inner peripheral surface of the faucet main body fixing portion 15 to prevent the stopper from coming off in the axial direction.
b, 15a are respectively formed. In the lower part of the faucet main body fixing portion 15. A slight gap is formed between the outer peripheral surface of the rotating shaft 21 and the inner peripheral surface of the faucet main body fixing portion 15, and a screw 15b is formed on the inner peripheral surface of the inner peripheral surface of the faucet main body fixing portion 15. ing.

【００１９】一方、カウンタ１８の下方に配置された水
栓本体１９からは、連通管部２０がカウンタ１８を貫通
して垂直方向に立ち上げられて設けられており、この連
通管部２０の外周面にねじ２０ａが形成されている。On the other hand, from the faucet main body 19 disposed below the counter 18, a communication pipe portion 20 is provided so as to vertically rise through the counter 18, and is provided on the outer periphery of the communication pipe portion 20. A screw 20a is formed on the surface.

【００２０】吐水管本体１を水栓本体１９に取り付ける
際には、回転軸２１と水栓本体固定部１５が一体となっ
た状態の吐水管本体１を連通管部２０の上方位置まで移
動させ、回転軸２１を連通管部２０に差し込む。次に、
水栓本体固定部１５の内周面の内周面に形成されたねじ
１５ｂを、連通管部２０の外周面に形成されたねじ２０
ａにねじ込むことにより、水栓本体固定部１５を連通管
部２０に対して固定する。When attaching the water discharge pipe main body 1 to the water faucet main body 19, the water discharge pipe main body 1 in which the rotary shaft 21 and the water faucet main body fixing portion 15 are integrated is moved to a position above the communication pipe portion 20. Then, the rotating shaft 21 is inserted into the communication pipe portion 20. next,
A screw 15b formed on the inner peripheral surface of the inner surface of the faucet main body fixing portion 15 is replaced with a screw 20b formed on the outer peripheral surface of the communication pipe portion 20.
The faucet main body fixing portion 15 is fixed to the communication pipe portion 20 by screwing the faucet into a.

【００２１】回転軸２１は、連通管部２０により回動自
在に支持されており、回転軸２１の内部に形成された通
水路２２の上端部は通水可とう管３に連結され、下端部
は水栓本体１９の流路中に突出しているので、吐水管本
体１の回動位置にかかわらず、吐水管本体１から安定に
吐水することができる。また、回転軸２１のねじ２１ａ
と継手１７のねじ１７ｃの螺合面には、接着剤等のシー
ル剤が塗布され、回転軸２１の外周面と継手１７の内周
面との間は液密状態に維持される。The rotating shaft 21 is rotatably supported by a communication pipe portion 20. The upper end of a water passage 22 formed inside the rotating shaft 21 is connected to the flexible water pipe 3 and the lower end thereof. Since the protrudes into the flow path of the faucet body 19, water can be stably discharged from the water discharge pipe main body 1 regardless of the rotation position of the water discharge pipe main body 1. The screw 21a of the rotating shaft 21
A sealant such as an adhesive is applied to the screwing surface of the screw 17 c of the joint 17 and the joint 17, and the liquid-tight state is maintained between the outer peripheral surface of the rotating shaft 21 and the inner peripheral surface of the joint 17.

【００２２】したがって、吐水管本体１を回転させても
水漏れしたり、あるいは通水可とう管が捻れたりするこ
とがない。Therefore, even if the water discharge pipe main body 1 is rotated, there is no possibility of water leakage or twisting of the flexible pipe.

【００２３】[0023]

【発明の効果】【The invention's effect】

（１） 内部が熱伝導率の低い樹脂等でできているこ
と、さらに、外殻とこれに内装された内管との二重構造
によリ、外殻と内管との間に空気層が形成されているこ
とにより、熱湯通水による吐水管表面の高熱化を抑える
ことができる。(1) The inside is made of a resin with low thermal conductivity, and a double structure of the outer shell and the inner tube housed therein is used. Is formed, it is possible to suppress the surface of the water discharge pipe from being heated by hot water.

【００２４】（２） 外郭の金属は、薄肉で十分である
ため、形状の自由度が高まるだけでなく、押し出し成形
等が可能となるため、製造コストを低減できる。(2) Since the metal of the outer shell is sufficiently thin, not only the degree of freedom in shape is increased, but also extrusion molding and the like become possible, so that the manufacturing cost can be reduced.

【００２５】（３） 整流機構部を樹脂等にすることで
内部の精密な型成形が容易となり、整流網なども組み込
み易くなる。整流網を吐水口先端付近に設けることによ
り、整流性を高めることができるだけでなく、表面張力
が高まり、止水後の水だれが抑えられる。(3) Since the rectifying mechanism is made of resin or the like, it is easy to mold the inside precisely, and it is easy to incorporate a rectifying network. By providing the flow regulating network near the tip of the water outlet, not only can the flow regulating property be improved, but also the surface tension increases and dripping after stopping the water can be suppressed.

【００２６】（４） 外殻が扁平な通水口断面であって
も複数の可とう管を通すことにより、十分な吐水量が得
られる。(4) Even if the outer shell has a flat cross section, a sufficient amount of water can be obtained by passing a plurality of flexible pipes.

【００２７】（５） 吐水管は、水栓本体固定部と別体
に設けた流入口部材により、水漏れあるいは通水可とう
管の捻れをおこすことなく自在に回転させることができ
る。(5) The water discharge pipe can be freely rotated by a water inlet member provided separately from the faucet main body fixing part without causing water leakage or twisting of the flexible water pipe.

【図面の簡単な説明】[Brief description of the drawings]

【図１】図１は本発明の吐水管の一実施例を示し、図１
−（ａ）は一部縦断面図、図１−（ｂ）は図１−（ａ）
のＡ−Ａ断面図である。FIG. 1 shows an embodiment of a water discharge pipe of the present invention, and FIG.
FIG. 1- (a) is a partial longitudinal sectional view, and FIG. 1- (b) is FIG. 1- (a).
It is AA sectional drawing of.

【図２】本発明の吐水管の整流機構部の一実施例を示
し、図２−（ａ）は横断面、図２−（ｂ）は図２−
（ａ）のＢ−Ｂ断面図、図２−（ｃ）はストレーナ付キ
ャップの斜視図である。FIGS. 2A and 2B show an embodiment of a rectifying mechanism of a water discharge pipe according to the present invention, wherein FIG.
FIG. 2A is a sectional view taken along the line BB, and FIG. 2C is a perspective view of a cap with a strainer.

【図３】扁平な形状をした吐水管の概略断面図である。FIG. 3 is a schematic sectional view of a flat water discharge pipe.

【図４】本発明の吐水管の一実施例の概略断面図であ
る。FIG. 4 is a schematic sectional view of one embodiment of a water discharge pipe of the present invention.

【図５】本発明の吐水管の一実施例の概略断面図であ
る。FIG. 5 is a schematic sectional view of an embodiment of a water discharge pipe of the present invention.

【図６】本発明の吐水管の一実施例の概略断面図であ
る。FIG. 6 is a schematic sectional view of an embodiment of a water discharge pipe of the present invention.

【図７】本発明の吐水管の一実施例の概略断面図であ
る。FIG. 7 is a schematic sectional view of one embodiment of a water discharge pipe of the present invention.

【図８】本発明の吐水管の一実施例の概略断面図であ
る。FIG. 8 is a schematic sectional view of one embodiment of a water discharge pipe of the present invention.

【図９】図９は従来の滝状吐水管を示し、図９−（ａ）
は概略断面図、図９−（ｂ）は図９−（ａ）のＣ−Ｃ断
面図である。FIG. 9 shows a conventional waterfall-shaped water discharge pipe, and FIG. 9- (a)
9 is a schematic sectional view, and FIG. 9- (b) is a CC sectional view of FIG. 9- (a).

【符号の説明】[Explanation of symbols]

１ 吐水管本体 ２ 外殻 ３ 通水可とう管 ４ 通水部 ５ 整流機構部 ５ａ 通水部 ５ｂ 開口部 ５ｃ 吐水口部 ５ｄ 接続部 ６ 突起 ７ 整流網 ８ ホースバンド ９ ビス １０ ストレーナ付キャップ（挿入部材） １０ａ 挿入部 １０ｂ ス卜レーナ １０ｃ Ｏリング １１ 開口部 １２ 流入口部材 １３ 接続部 １４ ホースバンド １５ 水栓本体固定部 １６ Ｏリング １７ 継手 １７ａ 鍔部 １７ｂ ビス １７ｃ ねじ １８ カウンタ １９ 水栓本体 ２０ 連通管部 ２０ａ ねじ ２１ 回転軸 ２１ａ ねじ DESCRIPTION OF SYMBOLS 1 Water discharge pipe main body 2 Outer shell 3 Water-permeable flexible pipe 4 Water-permeable part 5 Rectification mechanism part 5a Water-permeable part 5b Opening 5c Water-discharge port 5d Connection part 6 Projection 7 Rectification net 8 Hose band 9 Screw 10 Cap with strainer ( Insertion member) 10a Insertion part 10b Strainer 10c O-ring 11 Opening 12 Inflow member 13 Connection part 14 Hose band 15 Water faucet main body fixing part 16 O-ring 17 Joint 17a Flange part 17b Screw 17c Screw 18 Counter 19 Water faucet main body 20 communication pipe section 20a screw 21 rotating shaft 21a screw

Claims (4)

【特許請求の範囲】[Claims] 【請求項１】 少なくとも吐水管の吐水口端が非円形状
の外管と、外管内に内装した可とう性を有する内管とに
より形成したことを特徴とする吐水管。1. A water discharge pipe characterized in that at least the water discharge port end of the water discharge pipe is formed by a non-circular outer pipe and a flexible inner pipe housed inside the outer pipe. 【請求項２】 内管を、吐水口端が非円形状の吐水口部
材と流入口部材とを可とう性管により接続することによ
り形成したことを特徴とする請求項ｌ記載の吐水管。2. The water discharge pipe according to claim 1, wherein the inner pipe is formed by connecting a water discharge port member having a non-circular water discharge port end and an inflow port member by a flexible pipe. 【請求項３】 吐水口部材と、流入口部材に複数の接続
部を設け、吐水口部材と、流入口部材とを複数の可とう
性管により接続することを特徴とする請求項２記載の吐
水管。3. The water outlet member and the inflow member are provided with a plurality of connection portions, and the water outlet member and the inflow member are connected by a plurality of flexible pipes. Spout. 【請求項４】 内管の流入口部材を外管に固定し、吐水
管を回転自在にしたことを特徴とする請求項２又は３記
載の吐水管。4. The water discharge pipe according to claim 2, wherein the inflow member of the inner pipe is fixed to the outer pipe, and the water discharge pipe is rotatable.