JPS59145444A - Storage type hot water feed device - Google Patents
Storage type hot water feed deviceInfo
- Publication number
- JPS59145444A JPS59145444A JP2026783A JP2026783A JPS59145444A JP S59145444 A JPS59145444 A JP S59145444A JP 2026783 A JP2026783 A JP 2026783A JP 2026783 A JP2026783 A JP 2026783A JP S59145444 A JPS59145444 A JP S59145444A
- Authority
- JP
- Japan
- Prior art keywords
- hot water
- storage tank
- water storage
- pipe
- piping
- 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.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/18—Water-storage heaters
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Details Of Fluid Heaters (AREA)
Abstract
Description
【発明の詳細な説明】
本発明は貯湯式給湯機に関し、詳しくは湯を貯える貯湯
槽周囲の配管処理構造に関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a hot water storage type water heater, and more particularly to a piping treatment structure around a hot water storage tank for storing hot water.
従来より、この種の貯湯式給湯機として、例えば、第4
図に示すように、ケーシング(a )と、該ケーシング
(a)内に収容され湯を貯える円筒−1−
状の貯湯槽(b)と、該貯湯槽(b)の外周を囲繞する
円筒状の断熱材(C)と、上記貯湯槽(+1>の底部に
開口して貯湯槽(b)に水を補給する給水管(d)と、
貯湯槽(b)の底部に開口して貯湯槽(b)の水を加熱
装置(図示せず)に送る送水管<e >と、貯湯槽(b
)の上部に開口して上記加熱装置で加熱された泪を貯湯
槽(b)に戻す戻り管(f)と、該戻り管(f)の途中
から分岐して給湯栓(0)に湯を供給する給湯管(11
)とを備え、貯湯槽(b)の湯が給湯管(h)へ給湯さ
れた際には貯湯槽(b)に給水管(d )から水を補給
し、この水を送水管(e)で加熱装置に送り、該加熱装
置で加熱後戻り管(f)で貯湯槽(b)に戻し、貯湯槽
(b)に湯を貯えるようにしたものは知られている(実
開昭57−150746号公報参照)。尚、(i)は貯
湯槽(b)内の湯を保温するための補助電気ヒータであ
る。Conventionally, as this type of hot water storage type water heater, for example,
As shown in the figure, a casing (a), a cylindrical hot water storage tank (b) housed in the casing (a) for storing hot water, and a cylindrical hot water storage tank (b) surrounding the outer periphery of the hot water storage tank (b). a heat insulating material (C); a water supply pipe (d) that opens at the bottom of the hot water storage tank (+1) and supplies water to the hot water storage tank (b);
A water pipe <e> opens at the bottom of the hot water storage tank (b) and sends water from the hot water storage tank (b) to a heating device (not shown);
) and a return pipe (f) that opens at the top and returns the water heated by the heating device to the hot water storage tank (b), and a return pipe (f) that branches off from the middle of the return pipe (f) to supply hot water to the hot water tap (0). Hot water supply pipe (11
), when hot water from the hot water storage tank (b) is supplied to the hot water supply pipe (h), water is supplied to the hot water storage tank (b) from the water supply pipe (d), and this water is transferred to the water supply pipe (e). There is a known system in which hot water is sent to a heating device, heated by the heating device, returned to a hot water tank (b) through a return pipe (f), and stored in the hot water tank (b) (Utility Model No. 57-150746). (see publication). Note that (i) is an auxiliary electric heater for keeping the hot water in the hot water storage tank (b) warm.
しかるに、上記従来のものでは、給水管(d )や送水
管(e)、あるいは戻り管([)などの6管を所定の接
続口にて外部配管と接続でる場合、−2−
これらの6管を貯湯槽(1))の外壁から断熱材<C,
)を突抜けて一旦ケーシング(a)の外側に導出さぜた
のち、ケーシング(a >の外側に沿って所定の接続口
に向けて配管することが行われていた。このため、これ
ら配管が貯渇機の周囲に張り出して露出するため、設置
スペースを大きくとるとともに、外観を損ね、また配管
からの放熱によるヒートロスが多くなるという問題があ
った。However, in the above conventional system, when six pipes such as the water supply pipe (d), the water supply pipe (e), or the return pipe ([) are connected to external piping at a predetermined connection port, -2- these six pipes Connect the pipe from the outer wall of the hot water tank (1) to the insulation material <C,
) and led out to the outside of the casing (a), and then the piping was routed along the outside of the casing (a) toward a predetermined connection port. Since it protrudes and is exposed around the water storage device, there are problems in that it takes up a large amount of installation space, spoils the appearance, and increases heat loss due to heat radiation from the piping.
そのため、上記断熱材(C)の中に配管用の通路を設け
、この通路に上記配管を通すようにすることが考えられ
るが、このものでは、断熱材(C)の加工が複雑化する
上、給湯機の組付作業性が悪くなりコスト的に高くつく
という不具合がある。Therefore, it is conceivable to provide a passage for the piping in the insulation material (C) and pass the piping through this passage, but this would complicate the processing of the insulation material (C) and However, there are problems in that the workability of assembling the water heater becomes poor and the cost becomes high.
本発明はかかる点に鑑みてなされたもので、相接する貯
湯槽の外周と断熱材の内周との間に簡単な構造によって
配管用隙間を形成することにより、配管を外部に露出す
ることなく簡易に行い得るようにすることを目的とする
ものである。The present invention has been made in view of this point, and it is possible to expose the piping to the outside by forming a piping gap with a simple structure between the outer periphery of the adjacent hot water storage tank and the inner periphery of the heat insulating material. The purpose is to make it easy to perform without any hassle.
この目的を達成するため、本発明の構成は、潟を貯える
貯湯槽を有し、該貯湯槽の外周が断熱材−3−
で囲繞された貯泪式給潟機において、−1−記貯浚槽は
、樹脂により横断面が略矩形状で各角部がアール状に成
形された略直方体状に形成されていて、該アール状角部
と上記貯湯槽を囲繞する矩形状横断面の断熱材の隅角部
との間には」−下方向に延びる配管用隙間が形成されて
いるもので、この隙間に各配管を通すようにするもので
ある。In order to achieve this object, the present invention provides a storage type lagoon feeder having a hot water storage tank for storing lagoon, the outer periphery of which is surrounded by a heat insulating material -3-. The dredging tank is formed of resin into a substantially rectangular parallelepiped shape with a substantially rectangular cross section and rounded corners, and the insulation of the rectangular cross section surrounding the rounded corners and the hot water storage tank is A gap for pipes extending downward is formed between the corners of the material, and each pipe is passed through this gap.
以下、本発明の実施例を図面に基づいて詳細に説明する
。Embodiments of the present invention will be described in detail below with reference to the drawings.
第1図および第2図はヒーl〜ポンプ式の貯渇式給澗機
に本発明を適用した場合の実施例を示し、(1)はケー
シング、(2)は該ケーシング(1)内に収容されて湖
を貯える樹脂製の貯湯槽、(3)は該貯湯槽(2)の外
周を囲繞する断熱材、〈4)は上記貯湯槽(2)内の貯
溜水中に浸漬された水熱交換器であり、該水熱交換器(
4)には該水熱交換器(4)にガス冷媒を供給するガス
冷媒管(5)と水熱交換器(/l〉から液冷媒を取出す
液冷媒管(6)とが接続されており、上記両冷媒管(5
)、(6)は上記貯湯槽(2)の−1一端から該−4−
貯湯槽(2)外部へ取出されてそれぞれ貯湯槽(2)下
部におけるケーシング(1)内に設けられたガス冷媒ボ
ート(7)、液冷媒ポート(8)に接続されている。Figures 1 and 2 show an embodiment in which the present invention is applied to a heel-pump type storage-type water supply machine, in which (1) shows a casing, and (2) shows a case where the inside of the casing (1) is (3) is a heat insulating material surrounding the outer periphery of the hot water tank (2), and (4) is a water heater immersed in the water stored in the hot water tank (2). an exchanger, and the water heat exchanger (
4) is connected to a gas refrigerant pipe (5) that supplies gas refrigerant to the water heat exchanger (4) and a liquid refrigerant pipe (6) that takes out liquid refrigerant from the water heat exchanger (/l). , both refrigerant pipes (5
) and (6) are gas refrigerants taken out from one end of the hot water storage tank (2) to the outside of the hot water storage tank (2) and provided in the casing (1) at the bottom of the hot water storage tank (2), respectively. The boat (7) is connected to the liquid refrigerant port (8).
また、(9)は貯湯槽(2)に水を補給する給水管であ
って、一端は貯湯槽(2)の上部に開口し、細端は貯湯
槽(2)下部におけるケーシング(1)内に設けられた
給水ポート(10)に接続されている。該給水管(9)
の貯湯槽(2)側の開口には貯湯槽(2)内の貯溜水の
水位を検出して給水管(9)を開閉するボールタップ弁
(11)が接続されており、貯湯槽(2)内の水位が所
定値以下になると給水管(9)から水を供給して貯湯槽
〈2)内に配設した内部給水管(12)を介して貯湯槽
(2)の底部に水を補給するようにしている。In addition, (9) is a water supply pipe that replenishes water to the hot water storage tank (2), one end of which opens at the top of the hot water storage tank (2), and the narrow end of which is inside the casing (1) at the bottom of the hot water storage tank (2). It is connected to a water supply port (10) provided in the water supply port (10). The water supply pipe (9)
A ball tap valve (11) is connected to the opening on the hot water tank (2) side, which detects the level of water stored in the hot water tank (2) and opens and closes the water supply pipe (9). When the water level in the tank falls below a predetermined value, water is supplied from the water supply pipe (9) to the bottom of the hot water tank (2) via the internal water supply pipe (12) installed inside the hot water tank (2). I try to do that.
(13)は貯湯槽(2)の澗を給湯栓(図示せず)に給
湯する給湯管であって、一端は貯湯槽(2)上部の所定
水位置下の位置に開口し、他端は貯湯槽(2)下部にお
けるケーシング〈1)内−5−
に設けられた給湯ポート(14)に接続されている。該
給湯管(13)の途中には給湯ポンプ(15)が介設さ
れ、貯湯槽(2)の湖を給湯ポート(14)に圧送する
ようにしている。また、(16)はオーバフロー管であ
って、一端は貯湯槽(2)上部に間口し、細端は貯湯槽
(2)下部におけるケーシング(1)内に設りられたオ
ーバフローボート(17)に接続され、水位が所定値以
上になるとそのオーバフロー水をオーバフローボート(
17)へ流すものである。(13) is a hot water supply pipe that supplies hot water from the hot water tank (2) to a hot water tap (not shown), one end of which opens at a predetermined water level below the top of the hot water tank (2), and the other end The hot water storage tank (2) is connected to a hot water supply port (14) provided inside the casing (1) -5- at the bottom. A hot water supply pump (15) is interposed in the middle of the hot water supply pipe (13) to pump the lake in the hot water storage tank (2) to the hot water supply port (14). Further, (16) is an overflow pipe, one end of which opens into the upper part of the hot water storage tank (2), and the narrow end of which connects to an overflow boat (17) installed in the casing (1) at the bottom of the hot water storage tank (2). connected, and when the water level exceeds a predetermined value, the overflow water is transferred to the overflow boat (
17).
一方、上記ガス冷媒ボート(7)には、図示していない
が圧縮機の吐出口に連通ずる外部ガス冷媒管が、また液
冷媒ポート(8)には膨張弁に連通ずる外部液冷媒管が
それぞれ接続され、該膨張弁には蒸発器が接続され、さ
らに該蒸発器を介して圧縮機の吸入側に接続されており
、冷媒を循環させてヒートポンプ式冷凍サイクル運転を
行うことにより蒸発器で得た熱量を水熱交換器(/l)
に与えて発熱させ、貯湯槽(2)の貯溜水を加熱するよ
うにしている。また、上記給水ボート(10)−6−
には水道管(図示せず)が、給湯ボート(1/l)には
給澗栓に連通された外部給湯管(図示せず)が、またオ
ーバフローボート(17)には外部オーバフロー管(図
示せず)がそれぞれ接続されることにより、貯湯槽〈2
)の潟を給湯管(13)および外部給湯管を介して給湯
栓に供給する一方、水道管から給水管(9)を介して貯
湯槽(2)に水を補給しオーバフロー水をオーバフロー
管(16)を介して外部オーバフロー管に流すように構
成されている。On the other hand, although not shown, the gas refrigerant boat (7) has an external gas refrigerant pipe communicating with the discharge port of the compressor, and the liquid refrigerant port (8) has an external liquid refrigerant pipe communicating with the expansion valve. The expansion valve is connected to an evaporator, which is further connected to the suction side of the compressor via the evaporator, and the evaporator is connected to the expansion valve by circulating the refrigerant and performing a heat pump refrigeration cycle operation. The obtained heat is transferred to a water heat exchanger (/l)
The water is supplied to the hot water tank (2) to generate heat, thereby heating the water stored in the hot water tank (2). In addition, the water supply boat (10)-6- has a water pipe (not shown), the hot water boat (1/l) has an external hot water pipe (not shown) connected to a tap, and an overflow pipe (not shown). External overflow pipes (not shown) are connected to the boats (17), so that the hot water tank <2
) is supplied to the hot water faucet via the hot water pipe (13) and the external hot water pipe, while water is replenished from the water pipe to the hot water tank (2) via the water supply pipe (9), and the overflow water is supplied to the hot water tank (2) via the water supply pipe (9). 16) to an external overflow pipe.
尚、図中(18)は貯湯槽(2)内の湯温を検出して加
熱装置を制御するサーモスタット、(19)は給湯管(
13)に介設され、給湯ポンプ(15)への逆流を防止
する逆止弁、(20)は給湯管(13)に介設されたア
キュムレータ、〈21)は該アキュムレータ(20)に
設けられ該アキュムレータ(20)内の圧力を検出して
給湯ポンプ(15)の作動を制御する圧力スイッチ、(
22)は給湯管(13)を流れる湯量を検出して給湯ポ
ンプ(15)の作動を制御するフロース−7−
イツチである。また、(23)は貯湯槽(2)の底部に
間口する排水管、(24)は排水管(23)を開閉する
排水バルブ、(25)は凍結防止用電磁弁、(26)は
電装品箱である。In the figure, (18) is a thermostat that detects the temperature of hot water in the hot water storage tank (2) and controls the heating device, and (19) is a hot water pipe (
13) is a check valve that prevents backflow to the hot water pump (15), (20) is an accumulator that is installed in the hot water pipe (13), and (21) is a check valve that is installed in the accumulator (20). a pressure switch that detects the pressure in the accumulator (20) and controls the operation of the hot water pump (15);
22) is a flow controller that detects the amount of hot water flowing through the hot water pipe (13) and controls the operation of the hot water pump (15). In addition, (23) is a drain pipe that opens at the bottom of the hot water storage tank (2), (24) is a drain valve that opens and closes the drain pipe (23), (25) is a solenoid valve for freezing prevention, and (26) is an electrical component. It's a box.
そして、本発明の特徴どして、」−記貯湯槽(2)は樹
脂成形にJ:りほぼ直方体状に形成されており、その横
断面は第3図に示すように略矩形状であって各角部(2
a)・・・がアール状に成形されている。A feature of the present invention is that the hot water storage tank (2) is formed by resin molding into a substantially rectangular parallelepiped shape, and its cross section is substantially rectangular as shown in FIG. and each corner (2
a)... is formed into a round shape.
一方、断熱材(3)は、上記貯湯槽〈2)の各面に対応
する上部、下部、左右各側部、前部、前下部および背部
の各平面状断熱部材(3a)〜〈39)により構成され
、これらの断熱部+J(3a)〜〈3g)により貯湯槽
(2)の外周を囲繞するようにしており、その横断面は
同じく第3図に示すように矩形状になっている。そして
、上記貯湯槽(2)の各アール状角部(2a)と断熱材
(3)の各隅角部(27)との間には上下方向に延びる
配管用隙間(28)が形成されており、該隙間〈28)
には」−記ガス冷媒管〈5)、液冷媒管(6)、給水管
(9)、給湯管(13)およびオー、 8 −
一バフロー管(16)が配管されている。On the other hand, the heat insulating material (3) includes planar heat insulating members (3a) to (39) at the upper part, lower part, left and right sides, front part, front lower part, and back part corresponding to each surface of the hot water tank (2). These insulating parts +J (3a) to <3g) surround the outer periphery of the hot water storage tank (2), and its cross section is also rectangular as shown in Figure 3. . Piping gaps (28) extending in the vertical direction are formed between each rounded corner (2a) of the hot water storage tank (2) and each corner (27) of the heat insulating material (3). The gap〈28)
A gas refrigerant pipe (5), a liquid refrigerant pipe (6), a water supply pipe (9), a hot water supply pipe (13), and a buff flow pipe (16) are installed in the pipe.
したがって、」−記実施例においては、貯湯槽(2)と
断熱材(3)との間に形成された各隙間(28)に各配
管(5)、(6)、(9)、(13)、(16)が通さ
れるので、各配管(5)。Therefore, in the embodiment mentioned above, each pipe (5), (6), (9), (13 ), (16) are passed through each pipe (5).
(6)、(9)、(13)、(16)がケーシング(1
)の周囲に張り出して露出することがなく、給湯機の設
置スペースが少なくて済むとともに、その外観が美麗な
ものとなる。しかも、各配管(5)、 <6>、 (9
)、 (13)、 (16)は断熱材(3)により囲繞
されているので、ヒートロスを少なくできる。(6), (9), (13), (16) are casing (1
) does not protrude and be exposed around the water heater, the installation space for the water heater can be reduced, and the appearance is beautiful. Moreover, each piping (5), <6>, (9
), (13), and (16) are surrounded by the heat insulating material (3), so heat loss can be reduced.
また、上記アール状角部(2a)は貯湯槽(2)の成形
時に容易に同時成形されるものであり、また断熱材(3
)の隅角部(27)は各断熱部材(3a)〜〈3g)を
組立てることにより必然的に形成されるものであるので
、貯湯槽(2)および断熱材〈3)に複雑な加工を施す
必要がなく、しかも、給湯機の組立ては、貯湯槽(2)
に各配管(5)、 (6)、 <9)、 (13)、
(16)−〇 −
を接続した後、各断熱部材(3a)〜〈3g)を相付け
てケーシング(1)に相込めばよいので組付作業性に優
れており、コストダウン化を図ることができる。Further, the rounded corner portion (2a) is easily molded at the same time as the hot water storage tank (2), and the heat insulating material (3)
) corners (27) are inevitably formed by assembling each heat insulating member (3a) to <3g), so complex processing is not required for the hot water tank (2) and the insulator (3). There is no need to install the hot water tank (2).
Each pipe (5), (6), <9), (13),
(16) After connecting -〇 -, all you have to do is attach each heat insulating member (3a) to <3g) and insert it into the casing (1), so it is easy to assemble and reduces costs. I can do it.
尚、上記実施例では、断熱材(3)は7枚に分割した断
熱部材(3a)〜(3g)により構成するようにしたが
、このうち左右各側部、前部、前下部および背部の各断
熱材(3C)〜(3g)を一体形成づるJ:うにしても
よい。In the above embodiment, the heat insulating material (3) is composed of seven heat insulating members (3a) to (3g), of which the left and right sides, the front, the lower front, and the back Each of the heat insulating materials (3C) to (3g) may be integrally formed.
また、上記実施例では、貯湯槽〈2)の貯溜水中に水熱
交換器(4)を浸漬することによって貯溜水を加熱する
にうにしたが、貯湯槽(2)の外部に水熱交換器を配設
し、該水熱交換器に貯湯槽(2)から貯溜水を導くこと
により貯溜水を加熱するようにしてもよい。In addition, in the above embodiment, the water heat exchanger (4) was immersed in the water stored in the hot water tank (2) to heat the water. The water may be heated by introducing the water from the hot water tank (2) to the water heat exchanger.
さらに、上記実施例では本発明をヒートポンプ式の貯湯
式給湯機に適用した場合について説明したが、電気ヒー
タその他の加熱手段を用いる給湯機にも適用することが
できるのは言うまでもない以上説明したように、本発明
によれば、貯湯槽−10−
を、その横断面が矩形状で各角部がアール状に成形され
た直方体状に形成し、該アール状角部と上記貯湯槽を囲
繞する矩形状横断面の断熱材の隅角部との間に上下方向
に延びる配管用隙間を形成するという簡単な構造によっ
て、配管を外部に露出させることなく上記隙間を有効利
用して行うことができ、よって設置スペースの狭小化お
よび外観の向上を図るとともに、ヒートロスの低減化を
図ることができる貯渇式給4mを容易にかつ低コストで
もって提供することができるものである。Further, in the above embodiments, the present invention is applied to a heat pump hot water storage type water heater, but it goes without saying that the present invention can also be applied to a water heater that uses an electric heater or other heating means. According to the present invention, the hot water storage tank -10- is formed in the shape of a rectangular parallelepiped with a rectangular cross section and rounded corners, and the rounded corners and the hot water storage tank are surrounded. With a simple structure in which a gap for piping extending vertically is formed between the corners of the heat insulating material having a rectangular cross section, the gap can be effectively utilized without exposing the piping to the outside. Therefore, it is possible to easily provide a 4 m storage type feeder that can reduce the installation space, improve the appearance, and reduce heat loss at a low cost.
第1図ないし第3図は本発明の実施例を示し、第1図は
正面側のケーシングおよび断熱材の一部を取除いた状態
での正面図、第2図は縦断側面図、第3図は第2図のI
II−III線断面図であり、第4図は従来例を示す第
2図相当図である。
(2)・・・貯湯槽、〈2a)・・・角部、(3)・・
・断熱材、(3a)〜(3g)・・・面熱部材、く27
)・・・隅角部、(28)・・・隙間。
−11−1 to 3 show embodiments of the present invention, in which FIG. 1 is a front view with a portion of the front casing and heat insulating material removed, FIG. 2 is a vertical side view, and FIG. The figure is I in Figure 2.
It is a sectional view taken along the line II-III, and FIG. 4 is a view corresponding to FIG. 2 showing a conventional example. (2)... Hot water tank, <2a)... Corner, (3)...
・Insulating material, (3a) to (3g)... surface heating member, 27
)... Corner, (28)... Gap. -11-
Claims (1)
の外周が断熱材〈3)で囲繞された貯湯式給湯機におい
て、上記貯湯槽(2)は、樹脂により横断面が略矩形状
で各角部(2a)がアール状に成形された略直方体状に
形成されていて、該アール状角部(2a)と上記貯湯槽
(2)を囲繞する矩形状横断面の断熱材(3)の隅角部
(27)との間には上下方向に延びる配管用隙間(28
)が形成されていることを特徴とする貯湯式給湯機。(1) It has a hot water storage tank (2) for storing hot water, and the hot water storage tank (2)
In the hot water storage type water heater whose outer periphery is surrounded by a heat insulating material (3), the hot water storage tank (2) is an approximately rectangular parallelepiped made of resin with a cross section of approximately rectangular shape and each corner (2a) of which is rounded. The rounded corner part (2a) and the corner part (27) of the heat insulating material (3) with a rectangular cross section surrounding the hot water storage tank (2) are arranged in the vertical direction. Extending piping gap (28
) is formed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2026783A JPS59145444A (en) | 1983-02-08 | 1983-02-08 | Storage type hot water feed device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2026783A JPS59145444A (en) | 1983-02-08 | 1983-02-08 | Storage type hot water feed device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS59145444A true JPS59145444A (en) | 1984-08-20 |
Family
ID=12022412
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2026783A Pending JPS59145444A (en) | 1983-02-08 | 1983-02-08 | Storage type hot water feed device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS59145444A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0527554U (en) * | 1991-09-13 | 1993-04-09 | 株式会社白山製作所 | Adiabatic structure of heat storage body in heat storage heater |
EP0634176A2 (en) * | 1993-06-14 | 1995-01-18 | C. STIEFENHOFER GmbH | Insulation of pipes and fittings in a steam steriliser |
JP2010117097A (en) * | 2008-11-14 | 2010-05-27 | Hitachi Appliances Inc | Water heater |
CN102654310A (en) * | 2011-03-04 | 2012-09-05 | 三菱电机株式会社 | Hot water supply system |
JP2015127599A (en) * | 2013-12-27 | 2015-07-09 | ダイキン工業株式会社 | Hot water storage unit and hot water supply device |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5724439B2 (en) * | 1973-09-27 | 1982-05-24 |
-
1983
- 1983-02-08 JP JP2026783A patent/JPS59145444A/en active Pending
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5724439B2 (en) * | 1973-09-27 | 1982-05-24 |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0527554U (en) * | 1991-09-13 | 1993-04-09 | 株式会社白山製作所 | Adiabatic structure of heat storage body in heat storage heater |
EP0634176A2 (en) * | 1993-06-14 | 1995-01-18 | C. STIEFENHOFER GmbH | Insulation of pipes and fittings in a steam steriliser |
EP0634176A3 (en) * | 1993-06-14 | 1995-04-12 | Stiefenhofer Gmbh C | Insulation of pipes and fittings in a steam steriliser. |
JP2010117097A (en) * | 2008-11-14 | 2010-05-27 | Hitachi Appliances Inc | Water heater |
CN102654310A (en) * | 2011-03-04 | 2012-09-05 | 三菱电机株式会社 | Hot water supply system |
JP2012184865A (en) * | 2011-03-04 | 2012-09-27 | Mitsubishi Electric Corp | Hot water supply system |
JP2015127599A (en) * | 2013-12-27 | 2015-07-09 | ダイキン工業株式会社 | Hot water storage unit and hot water supply device |
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