JP3881778B2 - Bath tub cleaning system - Google Patents

Description

【００３０】
本発明による給湯器付き風呂釜１０は、このタイミング時間（Ｔ_２）の経過を見計らって風呂釜の洗浄が開始される。したがって、下部循環口６２近辺の水位が水圧センサ５８では測定不可能であっても、洗浄開始水位は、上記数１及び数２の演算式により正確に求められるものであるから、風呂釜洗浄は、タイミング良く開始されることになる。
【００３１】
図３は、本発明に係る風呂釜洗浄システムの制御ルーチンを示したものである。この風呂釜洗浄システムでは、風呂リモコンの洗浄運転スイッチを入れ（Ｓ１）、浴槽６０の排水栓を抜くと、その水位が低下していくが、その水位は、水圧センサ５８の圧力信号により検知される。水位が浴槽６０の上部循環口６１の開口上縁側の水位Ｈ_１に達したことが検知される（Ｓ２：「ＹＥＳ」）と、Ｔ_１の計測がスタートする（Ｓ３）。このＴ_１計測は、浴槽６０の水位が上部循環口６１開口下縁側の水位Ｈ_２に達したと判断される（Ｓ５：「ＹＥＳ」）と、その計測を終了（Ｓ６）する。
【００３２】
Ｔ_１の計測を終了（Ｓ６）した後、水電磁弁４２が開き上部循環口６１の水位（Ｈ_２）での風呂釜ジャケット内を洗浄するために１回目の洗浄水落とし込み（Ｓ７）が行われる。この洗浄について、図４及び５を用いて、詳しく説明する。まず、図４（ａ）は風呂釜ジャケットを上側から見た図を示しており、図４（ｂ）は風呂釜ジャケットを側面（矢印Ａ）の方向から見た図を示している。
【００３３】
この図に示すように、風呂釜ジャケット内には洗浄水を落とし込むための落とし込み管６４が配設されており、更にこの落とし込み管６４から洗浄水が落とし込まれたとき、その洗浄水が風呂釜ジャケット内を周回するように邪魔板６３が設けられている。図５（ａ）及び（ｂ）は、この風呂釜ジャケット内を展開して示しており、矢印Ａ、Ｂ、Ｃ、Ｄそれぞれの方向から風呂釜ジャケットの内壁面が洗浄される状態を示している。
【００３４】
ここで図５（ａ）は、図３の制御フローチャートにおける１回目の洗浄水落とし込み（Ｓ８）を示している。ここで落とし込まれた洗浄水は、邪魔板６３により風呂釜ジャケットの内壁面に沿って貫流する流れが生じ、しかも洗浄水が水平方向に流れるため、上部循環口６１付近を水面としてジャケット内の壁面を洗浄することができる。
【００３５】
ここで、測定したＴ_１の値が３分を超えている（Ｓ８：「ＹＥＳ」）場合は、浴槽６０の水位の降下が排水によるものではないとみなし、この風呂釜洗浄システムを終了する。使用者が浴槽６０の湯水の排出を途中で止めた場合等により、洗浄に効果的な水位で洗浄できないためである。
【００３６】
Ｔ_１の値が３分を超えない（Ｓ８：「ＮＯ」）ときは、図３の制御フローチャートに示すように、Ｈ_２から水圧センサでは感知することのできない下部循環口６２中央部の水位Ｈ_３に到達するまでの時間Ｔ_２が上述したように、上記数１及び２により求められる（Ｓ９）。
【００３７】
そして、次にタイマーＴ_２がスタートし（Ｓ１０）、Ｔ_２時間経過した時点（Ｓ１１：「ＹＥＳ」）で２回目の洗浄水落とし込みによる下部循環口６２の洗浄が行われる（Ｓ１２）。この洗浄の様子を示したものが図５（ｂ）であり、風呂釜ジャケット内の水面が下部循環口６２の丁度中央付近にあるときに洗浄が行われ、それまで不正確だった洗浄を行うタイミングが正確に把握でき、従来除去することが困難であった下部循環口付近に付着した湯垢を効果的に除去することが可能となる。
【００３８】
尚、この実施例では、洗浄水の落とし込みによる水位の上昇が僅かなものなので、その上昇分を計算に入れていない。ここで、更に詳しく正確な値を求めたいとき、あるいは洗浄水の落とし込みによる水位の上昇が無視できないほど大きいときは、その水位上昇分をαとして、数２のΔｈ_２−３を（Δｈ_２−３＋α）と置き換えて計算すればよい。
【００３９】
この実施例によれば、浴槽６０の排水栓を抜いて浴槽の水位が低下していくときに、初めに上側循環口６１付近まで水位が下がった時点で風呂釜ジャケットの内壁面を洗浄し、次いで更に浴槽の水位が下がって下側循環口６２付近まできたときに再度風呂釜ジャケット内が洗浄される。
【００４０】
そして、特に風呂釜ジャケットの内底面付近では湯垢が堆積しやすいが、その場所の洗浄が、たとえ圧力センサでは浴槽水位を測定できなくてとも演算手法を用いてその水位を正確に把握することにより所期の水位状態においてなされる。
【００４１】
また、浴槽の排水栓が半開きになっていて排水スピードが遅くなっているときには、浴槽水位の降下スピードが遅いことが検知されて、圧力センサで測定できない水位での風呂釜洗浄が禁止されることから、不用意に風呂釜洗浄が行われるようなことは回避される。
【００４２】
また、浴槽の排水途中に風呂釜洗浄の予定を変更し、浴槽内の湯を使いたいと思ったときには排水栓を塞ぐだけで、圧力センサで測定できない水位での風呂釜洗浄が禁止されるのも、この給湯器付き風呂釜を利用する上で便利なものとしている。
【００４３】
本発明は、上記した実施の形態に何等限定されるものではなく、本発明の趣旨を逸脱しない範囲で種々の改変が可能である。例えば、浴槽の形状も種々あることから洗浄開始タイミング時間（Ｔ_２）を求めるのにいろいろな演算式や補正式を用いることは勿論必要であろう。浴槽の水位Ｈ_１からＨ_２に至るまでに排出する水量から単位時間当たりの排水量を求め、Ｈ_２からＨ_３に至るまでに排出する水量をその単位時間当たりの排水量で割った値から洗浄開始タイミング時間（Ｔ_２）を求めることもできる。ただし、この手法も水位降下速度を排水量に置き換えただけで本発明の趣旨を逸脱するものではない。
【００４４】
また、風呂釜ジャケットの洗浄水の落とし込み量は適宜選択可能にしたり、更にその洗浄水を一般給湯系から供給する際に、その一般給湯系のガスバーナを点火させて湯を落とし込むようにしてもよく、その選択ボタンスイッチを風呂リモコンに設けても便利である。また、浴槽の排水を途中で中止する場合の風呂釜洗浄停止の判断機能を持たせことも効果的である。
【００４５】
【発明の効果】
本願発明に係る風呂釜洗浄システムは、その浴槽の排水中における浴槽水位を検知できる範囲で、その水位降下速度を計測し、風呂釜ジャケット内の特に浴槽水位を検知できない下部循環口付近の水位を演算により求め、その求めた洗浄タイミング時間で、湯垢の貯まりやすい内底部分を効果的に洗浄することが可能になったものである。
【００４６】
また、請求項２に記載したように所定水位の降下時間が一定の時間を超える場合に、浴槽の排水が停止されたとして、圧力センサが測定できない水位での風呂釜洗浄を禁止するようにすれば、使用者は排水途中で予定を変更することもでき、非常に使い勝手がよいものとなる。
【図面の簡単な説明】
【図１】本発明の一実施の形態に係る給湯器付き風呂釜の概略構成を示した図である。
【図２】本発明の風呂釜洗浄システムを概念的に説明するために示した図である。
【図３】本発明の風呂釜洗浄システムを実現するための制御フローチャートを示した図である。
【図４】（ａ）は風呂釜ジャケットを平面的に見た図、（ｂ）はこれを側面的に見た図である。
【図５】（ａ）は水位Ｈ_１からＨ_２のときの洗浄の様子を示した図、（ｂ）は水位Ｈ_３のときの洗浄の様子を示した図である。
【符号の説明】
１０ 給湯器付き風呂釜
５０ 風呂追焚系
５８ 水圧センサ
６０ 浴槽
６１ 上部循環口
６２ 下部循環口
６３ 邪魔板
６４ 落とし込み管[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a bath tub cleaning system, and more particularly to a bath tub cleaning system that cleans and removes scales and the like that adhere to and accumulate on the inner surface of a bath tub jacket when the bath is used.
[0002]
[Prior art]
Conventionally, a so-called natural circulation bath water heater has been known. This is because when hot water is poured into a bathtub, the hot water heated by a general hot water supply system heat exchanger and gas burner is poured into the bathtub via a bath tub provided close to the bathtub, When the hot water is reheated, the hot water in the bathtub is circulated in the bath and heated by a heat exchanger and a gas burner provided in the circulation system to maintain the set temperature. .
[0003]
In this type of bath water heater, human dirt and dirt adhere to and accumulate not only on the inner wall of the bathtub but also on the inner surface of the bath jacket jacket. It needs to be cleaned regularly later. In this case, generally, after draining the bathtub drainage and draining the hot water in the bathtub, water or hot water is poured from the circulation port side from the bathtub to the bath jacket jacket with a hose, etc. It has been done to wash away.
[0004]
Recently, there has also been proposed a system that automatically cleans the inside of the bath tub jacket by detecting the level of the hot water surface of the bathtub with a water pressure sensor when the bathtub is drained.
For example, in Japanese Patent Publication No. 7-35925, hot water heated in a general hot water supply system is poured into a bathtub via a bath tub, and the inside of the bath tub jacket is washed. When the bath water level drops to the bath basin circulation port, the detection signal first sterilizes the inside of the kettle with high-temperature pouring, lifts the attached and accumulated hot water, and then raises the flow of hot water. The floating hot water is washed off to the bathtub side.
[0005]
Also, for example, as another technique, when the drainage tap of a bathtub is removed and the water level of the bathtub is decreasing, the water level of the upper circulation port leading to the bath jacket of the bathtub is detected 3 minutes after There is also a method of dropping the washing water on the assumption that the water level has dropped to the lower circulation port. This is because the scale in the bathtub is particularly likely to adhere to and accumulate on the lower inner wall surface of the bath jacket, so that the scale in the bath jacket at a low water level near the lower circulation port is intensively washed away.
[0006]
[Problems to be solved by the invention]
However, the bath cleaning system shown in the former Japanese Examined Patent Publication No. 7-35925 detects the water level of the bathtub at the time of draining the bathtub, and starts cleaning by the detection signal. It cannot be detected at a very low position due to the sensitivity problem of the water pressure sensor that detects the water level. For this reason, when washing is started at the bathtub water level that can be detected by the water pressure sensor, there has been a problem that it is not possible to sufficiently wash off the scales particularly attached and deposited on the bottom wall surface in the bath tub jacket.
[0007]
The latter technology was proposed because the sensitivity of the water pressure sensor cannot detect the bathtub water level near the lower circulation port leading to the bath tub jacket of the bathtub. It is controlled on the assumption that the stopper is fully open.If the drain stopper is half-open, etc., the washing operation is performed even though the drainage speed is slow and the water level has not yet lowered to the lower circulation port. Will be started. Therefore, since the drainage speed may vary depending on the opening / closing state of the drain plug, there is a problem that the bath pot jacket is not sufficiently cleaned at the bathtub water level near the lower circulation port.
[0008]
The problem to be solved by the present invention is to wash away the deposits that are often deposited and deposited on the bottom wall surface of the bath jacket jacket, especially at the bathtub water level that cannot be detected by the water pressure sensor near the lower circulation port. It is an object of the present invention to provide a bath tub cleaning system capable of accurately grasping the start timing and effectively washing away the scales adhered and deposited in the bath tub jacket.
[0009]
In order to solve this problem, the bath tub cleaning system of the present invention is a bath tub cleaning system that cleans the inside of a bath tub jacket with hot water or water when the tub water level reaches a predetermined water level during drainage of the tub, The water level detection means for detecting the bathtub water level in the drainage of the bathtub, and the water level drop speed is measured from the change in the bathtub water level detected by the water level detection means, and measured by the water level detection means based on the water level drop speed Cleaning timing time calculating means for calculating the time until the inside of the bath jacket jacket is lowered to the set water level of the bathtub to be cleaned, and cleaning the inside of the bath jacket jacket with the passage of the cleaning timing time calculated by the calculating means And a bath tub cleaning control means.
[0010]
According to the bathtub cleaning system having the above-described configuration, when the inside of the bathtub jacket is washed with hot water or water when the bathtub water level reaches the predetermined water level during draining of the bathtub, Detected by the detection means, measures the water level descent rate from the detected change in the bath water level, and takes the time until the inside of the bathtub jacket, which cannot be measured by the water level detection means, falls to the predetermined water level of the bathtub to be cleaned. Is calculated by the cleaning timing time calculating means, and the inside of the bath tub jacket is cleaned as the calculated cleaning timing time elapses.
[0011]
Therefore, even if the bathtub water level that should actually be cleaned in the bath tub jacket cannot be detected, the timing of the start of cleaning is accurately grasped, and cleaning at that timing is performed.
[0012]
In this case, when the descent time between the predetermined water levels of the bathtub water level exceeds a certain time, it is preferable to prohibit the cleaning of the bath jacket at the cleaning timing calculated by the calculation means. This is because in such a case, it is assumed that the drain plug has not been removed.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a schematic configuration of a bath with a water heater in the present embodiment. As shown in the figure, this hot water heater-equipped bath 10 has a general hot water supply system 20 in addition to the general hot water supply system 20 that heats the water flowing through the water supply pipe 21 by the heat exchanger 22 and the gas burner 23 and discharges the water from the hot water discharge pipe 24. 20 is provided in the bathtub pouring system 40 for pouring the hot water heated in 20 into the bathtub 60 via a branch pipe 41 provided by branching from the outlet pipe 24, and in the bathtub pouring system 40. It comprises a bath pot remedy system 50 that circulates hot water and heats it with a heat exchanger 51 and a gas burner 52.
[0014]
In the general hot water supply system 20, a water flow sensor 25 that detects the flow and flow rate of water and a water temperature thermistor 26 that detects the water temperature are provided in the water supply pipe 21, and the hot water heated by the heat exchanger 22 is provided in the hot water discharge pipe 25. A hot water temperature thermistor 27 for detecting the temperature of the hot water is provided. In addition, the gas burner 23 has a common stop line with the gas burner 52 of the bath pot tracking system 50, the original stop line is provided with the original electromagnetic valve 28, and the branch line to the gas burner 23 is provided in the branch line. A main solenoid valve 29 and a proportional control valve 30 are provided. Further, a motor driven blower fan 31 for supplying combustion air to the gas burner 23 is provided. The tap pipe 24 is provided with a faucet (a tap) 32 such as a kitchen, a washroom, or a shower.
[0015]
The bath tub remedy system 50 includes an upper circulation port 61 and a lower circulation port 62 that communicate with the jacket of the bath tub in the bathtub 60, and the flow in the bathtub 60 passes through the heat exchanger 51 disposed in the jacket. The circulation path is provided with a circulation pump 53, and a hot water temperature thermistor 54 that detects the hot water temperature of the bathtub 60 is provided in the circulation path. A main solenoid valve 55 and a proportional solenoid valve 56 are also provided in the gas conduit of the gas burner 52 that heats the heat exchanger 51, and a motor driven blower fan 57 that supplies combustion air to the gas burner 52 is also provided. Is provided.
[0016]
In the bathtub pouring system 40, a water solenoid valve 42 is provided in a branch pipe 41 provided by branching from the outlet pipe 24 of the general hot water supply system 20, and the bath pouring system 40 is connected to the bath pot jacket of the bath chase system 50 through a hopper 43. It is. A water pressure sensor 58 for detecting the level of hot water poured into the bathtub 60 via the bath pouring system 40 and the bath kettle jacket is provided in the bath pot jacket of the bath chase system 50.
[0017]
The bath with water heater 10 can be remotely controlled by a bath remote controller 65 and a hot water remote controller 66. Control of general hot water, automatic pouring of water into a bathtub, or control of hot water in a hot water tank is performed via a controller 67. Done. The controller 67 includes a water flow sensor 25 for the general hot water supply system 20, an incoming water temperature thermistor 26, a hot water temperature thermistor 27, an original electromagnetic valve 28 for the gas burner 23, a main electromagnetic valve 29, a proportional electromagnetic valve 30, and a motor for driving the blower fan 31. Are electrically connected. Further, it is connected to the water electromagnetic valve 42 of the bathtub pouring system 40 in an electrical signal manner.
[0018]
In addition, the circulation pump 53 of the bath remedy system 50, the hot water temperature thermistor 54, the main electromagnetic valve 55 of the gas burner 52, the proportional control valve 56, the motor for driving the blower fan 57, and the water pressure sensor for detecting the hot water level in the bathtub 60. 58 is electrically connected. Further, the ignition igniter 33 for the gas burners 23 and 52 and the frame rods 34 and 59 for detecting the ignition of the gas burners are connected to the controller 67 as a matter of course.
[0019]
Although not shown, the bath remote controller 65 and the hot water remote controller 66 are provided with various switches such as an automatic pouring switch, a memorial switch, a plenty of switches, a hot switch, a slime switch, and a bath tub washing switch in addition to a power switch. It has been. The bath remote controller is also provided with a bath cleaning switch (not shown) for automatically cleaning the bath. Alternatively, the bath tub cleaning switch may be turned ON / OFF.
[0020]
In the bath heater 10 with the water heater configured as described above, when the automatic switch of the bath remote controller 65 or the hot water remote controller 66 is pressed, the water electromagnetic valve 42 is opened by a command from the controller 67 and the general hot water supply system 20 performs the hot water combustion operation. Start. Then, hot water heated by the heat exchanger 22 and the gas burner 23 of the general hot water supply system 20 passes through the branch pipe 41 of the bathtub pouring system 40, passes through the bath jacket, and is poured into the bathtub 60.
[0021]
The hot water level in the bathtub 60 is detected by a water pressure sensor 58 provided in the bath jacket, and if the pressure signal of the water pressure sensor 58 becomes a set pressure corresponding to the set hot water level of the bathtub 60, a command from the controller 67 is given. Thus, the water electromagnetic valve 42 is turned off, the frequency signal from the water flow sensor 25 is lost, and hot water combustion in the bathtub by the general hot water supply system 20 is stopped.
[0022]
After the hot water supply of the general hot water supply system 20 is stopped, the circulation pump 53 of the bath chase system 50 starts to circulate the hot water in the bathtub 60, and if the bath temperature sensed by the hot water temperature thermistor 54 is lower than the set temperature, The blower fan 57 of the bath chase system 50 is driven, and the signal of the rotation speed is transmitted to the controller 67, whereby the main electromagnetic valve 55 and the proportional control valve 56 of the gas burner 52 are opened, and gas is supplied to the gas burner 52. At the same time, the ignition igniter 33 is operated, and the gas burner 52 is ignited. Thereby, the hot water in the bathtub 60 is circulated and heated by the bath tracking system 50.
[0023]
When the hot water in the bathtub 60 circulated by the circulation pump 53 reaches the set temperature, the hot water temperature thermistor 54 senses the temperature and finishes heating the bath, and the circulation pump 53 stops. This remedy heating is repeated several times, and after 10 minutes from the end of combustion, the circulation pump 53 is activated again to circulate the bath water again. At this time, if the bath temperature is lower than the set temperature, the remedy is there. Heating is repeated.
[0024]
At this time, if the temperature of the bath is not lowered, the operation of the circulation pump 53 stops there, and after 10 minutes, the operation is repeated. In the meantime, when the pressure signal of the water pressure sensor 58 becomes equal to or lower than the set pressure, the water electromagnetic valve 42 of the bathtub pouring system 40 is turned on, and the hot water is automatically added to the bathtub 60 by the hot water supply operation by the general hot water supply system 20. When the automatic pouring switch is pressed, all operations are stopped.
[0025]
Next, a description will be given of a bath tub cleaning system for cleaning the inside of the bath tub jacket after using the bath in the bath tub 10 having the water heater configured as described above. FIG. 2 conceptually shows the concept for realizing the bath tub cleaning system of the present invention. The bathtub 60 is provided with an upper circulation port 61 and a lower circulation port 62, and water pressure is provided in the middle of both circulation ports. It is assumed that there is a limit that the sensor 58 cannot measure the bathtub water level.
[0026]
Then, water pressure sensor 58 is slightly tub water level H ₁ position of the upper and the start position of the water level drops, the water level difference between the bath water level H ₂ at the opening lower edge of the upper circular opening 61 of the upper circulation port 61 (Delta] h _1- and ₂₎ to determine the bath time water is applied to the effluent (T ₁₎ because lowering speed of the tub water level by calculating equation of the next number 1 (V) therebetween.
[0027]
[Expression 1]
V = Δh _1-2 / T ₁
[0028]
Then, using the water level difference (Δh _2-3 ) from the bathtub water level H ₂ to the bathtub water level H _{3 at} the center position of the lower circulation port 62 and the descending velocity (V) obtained by the above equation (1). The washing start timing time (T ₂ ) from the bath water level H ₂ to the bath water level H ₃ is obtained by the following equation ( ₂ ).
[0029]
[Expression 2]

[0030]
The bath with a hot water heater 10 according to the present invention starts cleaning the bath with the lapse of this timing time (T ₂ ). Therefore, even if the water level in the vicinity of the lower circulation port 62 cannot be measured by the water pressure sensor 58, the cleaning start water level can be accurately obtained by the above formulas 1 and 2, so It will be started in a timely manner.
[0031]
FIG. 3 shows a control routine of the bath tub cleaning system according to the present invention. In this bath tub cleaning system, when the washing operation switch of the bath remote control is turned on (S1) and the drain plug of the bathtub 60 is pulled out, the water level decreases, but the water level is detected by the pressure signal of the water pressure sensor 58. The Water level is detected that reaches the water level _{H 1} of the opening on the edge of the upper circular opening 61 of the tub 60: and (S2 "YES"), the measurement of _{T 1} is started (S3). The _{T 1} measurement, it is determined that the water level of the tub 60 has reached the level of _{H 2} upper circulation port 61 opened under edge side: and (S5 "YES"), and ends (S6) the measurement.
[0032]
After completion (S6) the measurement of T _1, in order to clean the bathtub jacket in the water level of the upper circular opening 61 water solenoid valve 42 is opened (H ₂₎ dropped into 1st wash water (S7) row Is called. This cleaning will be described in detail with reference to FIGS. First, FIG. 4 (a) shows a view of the bathing jacket from the upper side, and FIG. 4 (b) shows a view of the bathing jacket from the side (arrow A).
[0033]
As shown in this figure, a drop pipe 64 for dropping wash water is provided in the bath pot jacket, and when the wash water is further dropped from the drop pipe 64, the wash water is supplied to the bath pot. A baffle plate 63 is provided so as to go around in the jacket. FIGS. 5 (a) and 5 (b) show the inside of the bath jacket in a developed state, and show the state in which the inner wall surface of the bath jacket is cleaned from the directions of arrows A, B, C, and D, respectively. Yes.
[0034]
Here, Fig.5 (a) has shown the 1st washing water dropping (S8) in the control flowchart of FIG. The wash water dropped here causes a flow that flows through the inner wall surface of the bath jacket by the baffle plate 63, and the wash water flows in the horizontal direction, so that the vicinity of the upper circulation port 61 is the water surface in the jacket. The wall surface can be cleaned.
[0035]
Here, when the measured value of T ₁ exceeds 3 minutes (S8: “YES”), it is considered that the drop in the water level of the bathtub 60 is not due to drainage, and this bath cleaning system is terminated. This is because, for example, when the user stops discharging hot water from the bathtub 60 halfway, the water level cannot be cleaned effectively.
[0036]
When the value of T ₁ does not exceed 3 minutes (S8: “NO”), as shown in the control flowchart of FIG. 3, the water level H at the center of the lower circulation port 62 that cannot be sensed by the water pressure sensor from H ₂ as time T ₂ of the to reach the above-described _three, is determined by the number 1 and 2 (S9).
[0037]
Then, then the timer _{T 2} is started (S10), after the lapse of _{T 2} hours: cleaning of the lower circulation port 62 is performed by the darken second wash water at (S11 "YES") (S12). FIG. 5 (b) shows the state of this cleaning, and the cleaning is performed when the water surface in the bath jacket jacket is just near the center of the lower circulation port 62, and the cleaning that has been inaccurate until then is performed. It is possible to accurately grasp the timing, and it is possible to effectively remove scale adhering to the vicinity of the lower circulation port, which has been difficult to remove conventionally.
[0038]
In this embodiment, since the rise in the water level due to the dropping of the washing water is slight, the rise is not taken into account. Here, when it is desired to obtain an accurate value in more detail, or when the rise in the water level due to the dropping of the washing water is so large that it cannot be ignored, the amount of rise in the water level is defined as α, and Δh _2-3 in Equation ₂ is (Δh _{2- 3} + α) to calculate.
[0039]
According to this embodiment, when the water level of the bathtub is lowered by removing the drain plug of the bathtub 60, the inner wall surface of the bath jacket is first washed when the water level drops to the vicinity of the upper circulation port 61. Next, when the water level in the bathtub further drops to the vicinity of the lower circulation port 62, the inside of the bath jacket is washed again.
[0040]
In addition, although it is easy to accumulate scales near the inner bottom of the bath jacket, it is possible to accurately clean the water level using an arithmetic method even if the pressure sensor cannot measure the bath water level. This is done at the desired water level.
[0041]
Also, when the bathtub drain plug is half open and the draining speed is slow, it is detected that the bathtub water level descends slowly, and bath tub cleaning at a water level that cannot be measured with a pressure sensor is prohibited. Therefore, careless washing of the bath can be avoided.
[0042]
In addition, if you change the schedule of bath tub cleaning during the drainage of the bathtub and you want to use the hot water in the tub, you can simply close the drain plug and prohibit bath bath cleaning at water levels that cannot be measured with a pressure sensor. However, it is said that it is convenient for using the hot water bath with a water heater.
[0043]
The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. For example, since there are various bathtub shapes, it is of course necessary to use various arithmetic expressions and correction expressions to obtain the cleaning start timing time (T ₂ ). The amount of water discharged per unit time is determined from the amount of water discharged from the water level H ₁ to H ₂ of the bathtub, and washing starts from the value obtained by dividing the amount of water discharged from H ₂ to H ₃ by the amount of water discharged per unit time. The timing time (T ₂ ) can also be obtained. However, this method also does not depart from the spirit of the present invention only by replacing the water level descent rate with the amount of drainage.
[0044]
In addition, the amount of wash water dropped in the bath jacket can be selected as appropriate, and when supplying the wash water from the general hot water supply system, the gas burner of the general hot water supply system may be ignited to drop the hot water. It is also convenient to provide the selection button switch on the bath remote control. In addition, it is also effective to have a function of determining whether to stop washing in the bath when draining the bathtub is stopped halfway.
[0045]
【The invention's effect】
The bathtub cleaning system according to the present invention measures the water level lowering speed within a range where the bathtub water level in the drainage of the bathtub can be detected, and in particular the water level near the lower circulation port in the bathtub jacket where the bathtub water level cannot be detected. It is possible to effectively wash the inner bottom portion where the scale easily accumulates with the obtained washing timing time.
[0046]
Further, as described in claim 2, when the descent time of the predetermined water level exceeds a certain time, it is prohibited to wash the bath at the water level where the pressure sensor cannot measure, assuming that the drainage of the bathtub is stopped. In this case, the user can change the schedule during the drainage, which is very convenient.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a bath with a water heater according to an embodiment of the present invention.
FIG. 2 is a view for conceptually explaining a bath cleaning system of the present invention.
FIG. 3 is a view showing a control flowchart for realizing the bath tub cleaning system of the present invention.
4A is a plan view of a bathing pot jacket, and FIG. 4B is a side view of the same.
FIG. 5A is a view showing a state of cleaning when the water level is H ₁ to H ₂ , and FIG. 5B is a view showing a state of cleaning when the water level is H ₃ .
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Bathing pot 50 with a water heater Bath remedy system 58 Water pressure sensor 60 Bath 61 Upper circulation port 62 Lower circulation port 63 Baffle plate 64 Drop pipe

Claims (2)

A bath tub cleaning system that cleans the inside of the tub jacket with hot water or water when the tub level reaches a predetermined level during drainage of the tub, and a water level detection means for detecting the tub level during drainage of the tub, The water level lowering speed is measured from the change in the bathtub water level detected by the water level detecting means, and the set water level of the bathtub to be washed in the bath jacket jacket that cannot be measured by the water level detecting means based on the water level lowering speed. Washing bath time characterized by comprising: a cleaning timing time calculating means for calculating a time until it descends, and a bath cleaning control means for cleaning the inside of the bath jacket after the cleaning timing time calculated by the calculating means has elapsed. Cleaning system. A cleaning prohibition control unit for prohibiting cleaning of the bath jacket at the cleaning timing calculated by the calculation unit when the descent time between the predetermined water levels by the cleaning timing time calculation unit exceeds a certain time; The bath tub cleaning system according to claim 1.

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