JPH0350443A - Bath device having hot water feeding function - Google Patents

Abstract

PURPOSE:To enable a warm water of a specified temperature to be varied even in the case of a midway of operation and effect an automatic feeding of warmer waster by a method wherein when a bath water heating signal is outputted from a auxiliary heating signal generating device, an additional boiling or heating is carried out until an interior of the bath tub shows an increased temperature for a specified time or a specified amount of hot water to be sup plied to the bath tub. CONSTITUTION:In the case that bath water within a bath tub 1 is heated up to a specified temperature or a hot water is to be fed, an output from a temperature increasing switch 6 to be operated is applied to a T-flip flop 84 through a second OR circuit 83 together with an output of a water level sensor 23 for use in sensing a water level within the bath tub 1. A second AND circuit 64 corresponds to an auxiliary heating signal generating device 12. As a circulation pump P is started to drive in response to an output from the second AND circuit 64, an additional boiling or heating gas valve 25 is opened and then the additional heating gas burner 24 is started to ignite.

Description

[Detailed Description of the Invention] [Industrial Field of Application and Summary of the Invention] The present invention provides a method for filling a bath at a temperature determined empirically as a generally preferred bathing temperature (hereinafter referred to as constant-temperature bathing). This relates to a bath device equipped with a hot water filling function that can now be operated. The outline of the present invention is that even in the middle of the above-mentioned constant-temperature hot water filling operation, the operation is performed by high-temperature hot water filling (hotter hot water filling than constant-temperature hot water filling).
This enables the hot bath to be prepared quickly and easily, compared to the case where the hot bath is prepared by reheating the bath water after the hot water is filled. It is intended to do so. [Prior Art and Problems] Recently, efforts have been made to improve the functionality of bath equipment, and highly functional bath equipment that is equipped with an automatic hot water filling function has appeared. An example of this type of bath equipment is the one shown in Figure 4. A bathtub with hot water at a predetermined temperature is installed on the bathroom wall.
Constant temperature water filling switch (4) operated when filling water in 1).
) and a manual water filling switch (43) that is operated to fill the water with hot water at the temperature set by the hot water temperature setting device (5). Further, on the wall of the bathroom, a heat-retaining switch (5L) is installed to keep the inside of the bathtub (1) at the temperature set by the hot water temperature setting device (5) and to be operated at the same time. A temperature increase switch (6) is provided that is operated to increase the temperature inside the bathtub by a certain amount (usually about 2°C) from the current temperature.

Gas burner for hot water supply (3) that heats the heat exchanger for intestinal feeding (3)
The combustion amount of step 4) is controlled by a proportional control circuit (6), and one input terminal of the proportional control circuit (6) is connected to a temperature determined empirically as a generally preferred bathing temperature. An appropriate temperature setting device (7) that stores the temperature (usually around 42°C)
) and the output of the hot water temperature setting device (5) are input alternatively. Furthermore, a temperature signal from a hot water temperature sensor (32) that detects the temperature of hot water supplied from the hot water heat exchanger (3) is applied to the other input terminal of the proportional control circuit (6). The proportional control circuit (6) proportionally controls the combustion amount of the hot water supply gas burner (34) while monitoring each of the temperature signals. In the following, the signal indicating the temperature suitable for bathing will be referred to as the appropriate temperature signal. Now, when the constant temperature hot water filling switch (4) is turned on, the hot water filling valve (33) opens and the wood pressure responsive gas valve (36) inserted into the gas circuit to the hot water gas burner (34) opens. The gas burner (34) begins to burn. Also, by turning on the constant temperature water filling switch (4), the appropriate temperature setting device (
7) is opened, and the appropriate temperature signal set in the appropriate temperature setting device (7) is sent to the proportional control circuit (
6), and as a result, hot water at a temperature that corresponds to the appropriate temperature signal set in the appropriate temperature setting device (7) is supplied to the bathtub (1), and the filling operation is started. Then, when the water level in the bathtub (1) reaches a predetermined target water level and a water filling completion signal is output from the water level detector (23). The signal closes the bird filling valve (33) and stops the hot water filling operation. Next, when the temperature increase switch (6) is turned on after the above-mentioned filling is completed, the mono multivibrator (1l), which operates in response to the turn-on signal, outputs the rHJ signal for a certain period of time, and the inside of the bathtub (1) is heated. Reheating is performed for a certain period of time, thereby warming the bathing water in the bathtub (1) by a certain temperature (usually about 2'C). However, in the conventional device mentioned above, the temperature increase switch (6
), the bathing water is reheated and heated to a certain temperature, so the temperature increase switch (6) needs to be turned on after the water filling operation is completed. In other words, the temperature increase switch (6) does not work effectively during the filling operation. For this reason, when filling hot water, use the appropriate temperature setting device (7
) If you cannot fill the hot water hotter than the set temperature (42°C), to prepare the hot bath, turn the temperature increase switch (6) once the hot water filling operation is completed. The conventional method described above has a problem in that it takes a long time to prepare a hot bath. In addition, by setting the island's desired temperature in the hot water temperature setting device (5) shown in Figure 4 and manually filling the hot water, it is possible to ensure that hot water is poured into the bathtub (1) from the beginning of filling the bath. However, in such a case, there is a risk that the desired bathing temperature may be set incorrectly, and the operation becomes complicated. The present invention has been made in view of the above-mentioned points.
A temperature increase switch (6) that is turned on when heating the bath water filled in the bathtub, a water level detector (23) that sends a signal when the water level in the bathtub reaches the target water level, and a predetermined temperature A constant temperature water filling switch (4) is provided, which is used when filling the bathtub (1) with warm water.
), the water filling operation continues until the water level detector (23) issues a water filling completion signal. The goal is to change this so that hot water can be filled, and thereby make it possible to quickly and easily prepare a hot bath. [Means] The technical means of the present invention for solving the above problems will be described with reference to the conceptual diagram in FIG. An AND circuit (10) which outputs a hot water filling signal upon receiving a negative signal of the completion signal and a closing signal of a constant temperature hot water filling switch (4), and an AND circuit (10) which outputs a high temperature signal in response to a closing signal of a temperature rising switch (6) and said temperature rising switch. (6) A hot water filling temperature setting device (10) that outputs an appropriate temperature signal lower than the above temperature in response to the non-turning signal;
! a hot water supply mechanism section (15) that supplies hot water at a temperature matching the temperature signal outputted by the bathtub (1) to the bathtub (1) and operates on the hot water filling signal of the AND circuit (10); and the AND circuit (10). Negative signal of hot water filling signal and temperature increase switch (6
) is provided with a supplementary heating signal generator (12) that generates a bathing water heating signal in response to the input signal of Reheat the heat until the temperature rises or heat it in a bathtub (
1) by supplying a fixed amount of hot water. [Operation] The above technical means operates as follows. First, when you turn on the constant temperature hot water filling switch (4) and perform hot water filling operation, the water level detector (23) that detects the water level in the bathtub (1) will output a hot water filling completion signal in the initial stage of hot water filling. Therefore, in response to the negative signal of the hot water filling completion signal and the ON signal of the constant temperature hot water filling switch (4), the AND circuit (io) outputs a hot water filling signal, and the hot water supply mechanism section (15) is activated by the hot water filling signal.
) starts supplying hot water to the bathtub (1). This starts the filling operation. On the other hand, a hot water supply mechanism section (1) supplies hot water to the bathtub (1).
5), the hot water supply temperature is controlled by a hot water filling temperature setting device (l4) which outputs a high temperature signal or an appropriate temperature signal indicating a lower temperature by operating the temperature increase switch (6). From this, temperature increase switch (6)
When the constant temperature tension reswitch (4) is operated without turning on the hot water, an appropriate temperature signal is output from the hot water filling temperature setting device (14) in response to the non-turning signal of the temperature rising switch (6). The hot water supply mechanism (1) is controlled by the appropriate temperature signal.
5) performs hot water supply operation. As a result, the water filling operation based on the appropriate temperature signal output by the water filling temperature setting device (l4) progresses, and eventually the water level in the bathtub (1) reaches the target water level and a water filling completion signal is output from the water level detector (23). Then, the AND circuit (10) does not output the hot water filling signal, and the above hot water filling operation stops. On the other hand, contrary to the above-mentioned hot water filling operation, the constant temperature hot water filling switch (
If the temperature increase switch (6) is turned on before or after the operation in step 4), the high temperature signal (as described above) is sent from the hot water filling temperature setting device (l4) by the input signal of the temperature rise switch (6). A signal indicating a temperature slightly higher than the appropriate temperature signal is output, and the hot water supply mechanism section (15) operates to supply hot water under the control of the high temperature signal,
As a result, high-temperature hot water filling is performed.

As described above, according to the above technical means, when the temperature increase switch (6) is turned on regardless of whether the constant temperature water filling switch (0) is operated, the high temperature water filling operation is executed. Also, when the temperature increase switch (6) is turned on under conditions where the AND circuit (1o) no longer outputs the hot water filling signal due to completion of filling, etc., the turning signal and the AND circuit (1o) are turned on.
10) (negative output of the water filling signal), the supplementary heating signal generator (12) issues a bathing water heating signal. Then, depending on the heating signal, the inside of the bathtub (1) is reheated for a certain period of time or until the temperature rises to a certain degree, or a certain amount of hot water is supplied to the bathtub (1), and as a result, If the temperature increase switch (6) is operated after filling the bathtub with hot water, the temperature inside the bathtub can be raised in the same way as described above. [Effects] The present invention has the following unique effects. Regardless of whether before or after the hot water filling operation, if you turn on the temperature increase switch (6), you can switch to high temperature hot water filling operation, so you can either wait until the Wk filling is completed before raising the temperature inside the bathtub, or Compared to the conventional method mentioned above, where you had to fill the hot water manually, which could result in setting the desired bathing temperature incorrectly, preparation for a hot bath can be done quickly and easily. ．． [Example] Next, the example of the present invention described above will be described in detail with reference to the drawings. As shown in Figure 2, the bathtub (1) and the reheating heat exchanger (
The reheating circuit (2l) configured to circulate 2) is equipped with, from the upstream side, a reheating water temperature sensor (22), a circulation pump (P), and a water level detection, as in the conventional circuit described above. A reheating gas valve (25) is inserted in the gas circuit to the reheating gas burner (20) that heats the reheating heat exchanger (2). In addition, the hot water supply circuit (3l) drawn out downstream from the hot water heat exchanger (3) is connected to the bathtub (1) via the above-mentioned reheating circuit (2l), and this circuit has a , the hot water temperature sensor (32) and the hot water filling valve (33) are inserted in this order from the upstream side.
Warm switch (1) that is operated to warm the inside to a certain temperature
31) , Temperature increase switch (6) that is operated to heat the inside of the bathtub (1) to a certain temperature or to set the carcass temperature slightly higher.
), constant temperature water filling switch (4) and its release switch (
45) and a hot water temperature setting device (5). The hot water temperature setting device (5) is provided with a temperature display (50) for displaying the set temperature, and a temperature increase button (53) and a temperature decrease button (54) for adjusting the temperature setting. Next, the control circuit will be explained. The output of the lukewarm switch (8l) is applied to a mono multivibrator (hereinafter abbreviated as MM) (80),
The output of the M M (81) is applied to the hot water filling valve (33) via the first OR circuit (82) to open and close it. The output of the temperature increase switch (6), which is operated when heating the bathing water in the bathtub (1) to a certain temperature or filling high-temperature water, is the output of the water level detector (23) that detects the water level in the bathtub (1). etc., is applied to a T flip-flop (hereinafter abbreviated as TFF) (80) through a second OR circuit (83), and the Q output of the TFF (84) is a high temperature signal (44 in this embodiment). The Q output of T F F (84) is applied to the high temperature storage memory (85) which stores the temperature signal In the example, the second game corresponds to the appropriate temperature storage memory (86) that stores the signal indicating 42°C.
(7B) is applied. Then, the first and second gates (75). The output side of (7B) is a proportional control circuit (8
7), and the proportional control circuit (87) includes a hot water temperature sensor that detects the output of the high temperature storage memory (85) or the appropriate temperature storage memory (86) and the hot water temperature from the hot water heat exchanger (3). The output of (32) is determined, and from this, the proportional valve (35) inserted in the gas circuit to the candy bath gas burner (30) is determined.
) to control the combustion amount of the hot water supply gas burner (34). Next, the output of the constant temperature water filling switch (4) is applied to an RS flip-flop (hereinafter abbreviated as RSFF) (86), and the output of the R S F F (86) is
The output of the water level detector (23) that detects the water level in the bathtub (1) is applied to the IAND circuit (63), and the output of the IAND circuit (83) is applied to the hot water supply gas burner (3).
The voltage is applied to the main valve (39) inserted in the gas circuit to 0 and the above-mentioned first OR circuit (82) which opens and closes the hot water filling valve (33). In addition, in this example, the above LA
The ND circuit (83) is the AN described in the section of the technical means described above.
Compatible with D circuit (10). Next, the temperature increase adjustment button (53) provided on the dry temperature setting device (5)
) and temperature decrease 7JJ button (54) are respectively connected to the UP input terminal (66) and DOWN input terminal (67) of the UP/DOWN counter (65).
The output of the counter (65) is displayed by a temperature display (50). Also, the output of the UP/DOWN counter (65) is the temperature increase switch (6) mentioned above.
is applied to one input terminal of the comparator (5B) via the third gate (77), which is opened and closed by the Q signal of T F F (84), which receives the signal. Further, the output of the UP/DOWN counter (65) is sent to the unit reheating temperature recording memory (
86), and in the unit reheating temperature storage memory (89), when the above-mentioned temperature increase switch (6) is turned on when the hot water is completely filled, the temperature of the bathtub (1) is added. A predetermined temperature (in this example, it is set to 2°C) is stored as the temperature at which the inside of the device is raised. Further, the output of the adder circuit (47) is the above-mentioned T F F (8
4) is applied to the comparator (5B) via the fourth gate (76) which is opened and closed by the Q output. The comparator (56) is connected to the adder circuit (47) or the U
A hot water temperature sensor (for reheating) that detects the output of either one of the P/DOWN counters (65) and the temperature inside the bathtub (1).
22), and the comparison result is applied to the 52AND circuit (80).
The output of the ND circuit (80 is applied to the reheating gas valve (25) inserted in the gas circuit to the reheating gas burner (20) and the circulation pump (P) inserted in the reheating circuit (2!). The output of the second AND circuit (84) is connected to the second OR circuit (83) together with the output of the temperature increase switch (6) mentioned above.
) is applied. In this embodiment, the second AND circuit (64
) is the supplementary heating signal generator (
12). Furthermore, the above UP/DOWN
The data input terminal (83) of the counter (85) has a bathtub (
1) The output of the reheating hot water temperature sensor (22) that detects the temperature inside is applied, and the UP/DOWN
The load input terminal (66) of the counter (85) is configured to receive the above-mentioned turn-on signal of the temperature increase switch (6). In addition, (56) in Fig. 2 is a temperature-sensitive senna (22) for reheating.
) is an A/D converter that converts the temperature signal into a digital signal. Next, we will explain the actual operation of the above. First, if you operate the constant temperature water filling switch 0) without turning on the temperature increase switch (6), the RSFF (86) will be set incorrectly. At the initial stage of filling water, the water level detector (23) that detects the water level in the bathtub (1) does not output a filling completion signal, so a negative signal of the filling completion signal and the constant temperature water filling switch (0 In response to the input signal, the LAND circuit (63) outputs the rHJ signal as a hot water filling signal, which is the first OR
It is applied to the hot water filling valve (33) via the circuit (82) to open it. In other words, the filling operation begins. Further, the output of the above-mentioned LAND circuit (63) causes the main valve (39) inserted in the gas circuit to the hot water supply gas burner (34) to be opened. On the other hand, in the above situation where the temperature increase switch (6) is not turned on, T F
(84) is in a non-set state. That is, the T
The Q output of F Then, the appropriate temperature signal is applied to the proportional control circuit (87). The proportional control circuit (87) then operates the above-mentioned 42 while determining the output of the hot water temperature sensor (32).
The combustion amount of the hot water supply gas burner (34) is controlled so that the hot water of '''C is supplied to the bathtub (1).In other words, the combustion amount of the hot water supply gas burner (34) is controlled so that the above condition is satisfied. The opening of the proportional valve (35) inserted into the circuit is adjusted.As the water filling operation progresses and the water level in the bathtub (1) reaches a predetermined target water level, the water level detector (23) is activated. The rHJ signal as a filling completion signal is output, and as a result, the filling signal of the I AND circuit (83) disappears and its output changes to an "L" signal. Then, the hot water filling valve (33) inserted in the hot water supply circuit (31) and the main valve (39) inserted in the gas circuit to the hot water supply gas burner (34)
) closes and the filling operation stops, which causes the above 42
The bathtub (1) is now filled with warm water at °C. On the other hand, if the temperature increase switch (6) is pressed before and after turning on the constant temperature water filling switch (4), TF F (84
)'s Q output becomes rl{J state and the high temperature storage memory (8
The first gate (75) corresponding to 5) is opened and the high temperature signal of 44'C stored in the high temperature storage memory (85) is applied to the proportional control circuit (87), and the temperature Hot water is supplied from the hot water supply heat exchanger (3) to the bath 4Pi (1), allowing high-temperature hot water to be filled. When the high temperature water filling using the temperature increase switch (6) is completed and the water level detector (23) outputs an "H" signal, the third AND circuit (57) temporarily outputs an "L" signal. T F F (84) is in the initial state (Q terminal is rI
, the state in which the J signal was issued) is restored. In addition, when the water level in the bathtub (1) becomes low due to using bath water in the above-mentioned condition where the tension is completed, the water level detector (23) that detects the water level in the bathtub (+) will issue an rlJ signal. Then, hot water is again supplied from the hot water supply heat exchange oak (3) to the bathtub (1) to keep the water level in the bathtub (1) constant.

Next, when the above-described hot water filling operation is completed and the "L" signal is output from the above-mentioned LAND circuit (63), the rLJ signal is applied to the second AND circuit (84). In this state, the temperature inside the bathtub (1) should be further warmed (when the temperature increase switch (6) is turned on, the turning signal will be UP/D).
Applied to the load input terminal (66) of the OWN counter (65), the temperature inside the bathtub (1) at this time is UP/D.
Loaded into the OWN counter (65).゛Also, by turning on the temperature increase switch (6), the fourth gate (76) corresponding to the adder circuit 07) is opened, and as a result, the output of the UP/DOWN counter (B5) and the unit reheater temperature are The output of the adding circuit (47) that adds the stored temperature (2°C in this embodiment) in the storage memory (89) is compared to i.
W (5B) is applied. Also, in this state, the Q output of T F F (84) is in the "L" state, so the third gate (77) is maintained in the closed state. As a result, the comparator (56) starts comparing the current temperature in the bathtub (1) with the output of the adder circuit (47) which is 2°C higher than the current temperature in the bathtub (1).
) is low, rH is output from the comparator (56).
” signal is output, and the second AND receives this signal.
The circuit (84) also outputs the r}{J signal. The rl{J signal output from the second AND circuit (64) corresponds to the bathing water heating signal described in the technical means section. Then, the circulation pump (P) starts to be driven by the output of the second AND circuit (84) and the reheating gas valve (2
5) is opened and the reheating gas burner (24) begins to burn, causing the temperature inside the bathtub (1) to rise to 2°CiJ. The inside of the bathtub (1) is reheated in circulation until it gets warm. When the above-mentioned reheating operation progresses and the temperature inside the bathtub (1) rises by 2°C, the output of the comparator (56) changes to the rLJ signal, and as a result, the output of the second AND circuit (60) also becomes "L".
Return to state. As a result, the 4J ring pump (P) stops and the gas valve for reheating is stopped. (25) closes and the reheating operation stops.

Furthermore, when the second AND circuit (64) outputs the "L" signal, the TFF (84) described above is returned to its initial state (the state in which the Q terminal outputs the "L" signal), and thereby , the output of the UP/DOWN counter (65), that is, the set temperature of the hot water temperature setting device (5) is
7) is applied to the comparator (56) instead. From then on, the inside of the bathtub (1) will be kept at the temperature set in the 7th temperature setting device (5). Furthermore, when the lukewarm switch (61) is turned on, the hot water filling valve (33) is opened for a certain period of time while the hot water supply gas burner (34) is maintained in a non-combusting state, thereby filling the bathtub (1) with a certain amount of water. Cold water is supplied. This makes it possible to perform an operation to make the inside of the bathtub (1) lukewarm. In the above embodiment, the temperature of hot water supplied from the hot water supply heat exchanger (3) is proportionally controlled, but it may also be controlled in a feedforward manner. That is, a water temperature sensor and a meter are installed on the upstream side of the hot water supply heat exchanger (3), and their outputs are cut off to determine the temperature of hot water supplied to the bathtub (1).
The high temperature memory memory (85) and the appropriate temperature memory memory (85) mentioned above
The combustion amount of the hot water supply gas and burner (30) is calculated so that the temperature matches the temperature stored in the bathtub (1) after filling with hot water. When increasing the humidity by a certain temperature, the temperature inside the bathtub (1) was monitored by the reheating water temperature sensor (22) and reheated, but when the temperature increase switch (6) was turned on, The inside of the bathtub (1) may be reheated for a certain period of time. As described above, according to the above, the temperature increase switch ( 6
), it is possible to perform a high-temperature bath filling operation, and compared to the conventional bathtub mentioned above, in which the temperature inside the bathtub could only be raised after the bathtub was filled, it is possible to create a hot bath. Even if you wish to take a bath, the time required from filling the bath to being able to take a bath can be shortened. In the second embodiment shown in FIG. 3, the present invention is applied to a so-called high-temperature hot water bath device that supplies hot water into the bathtub (+) when heating the bathing water in the bathtub (1). This was carried out.

In this second embodiment, the high temperature memory memory (85) and the appropriate temperature memory memory (8B) in the first embodiment are
In addition, a hot water temperature storage memory (97) for setting the hot water temperature (in this embodiment, it is set at 80°C) is provided, and the output circuit of the hot water temperature storage memory (87) The provided third gate (9B) is a second monomer vibrator (hereinafter abbreviated as 2MM) 2M
It is designed to be opened and closed by the output of M (94). The output of the LAND circuit (83) is applied to the second AND circuit (64) that applies an input signal to the second M M (94), as in the first embodiment described above, and Along with this output, the Q output of T F F (84) is applied. Further, the first gate (75) inserted in the output circuit of the high temperature storage memory (85) has T F F (84
) and the rHJ signal output from the Q terminal of
) is opened and closed by the output of the third AND circuit (85) which receives the rHJ signal and outputs the rHJ signal. In the second embodiment, when the constant temperature water filling switch (4) is turned on and the temperature rising switch (6) is operated before and after that, the 3rd AND circuit 0
The rHJ signal is output from 5) and the high temperature signal (a signal indicating 44°C) stored in the high temperature storage memory (85) is applied to the proportional control circuit (87), thereby causing the You can also use hot water in the same way. On the other hand, if you turn on the temperature increase switch (6) to warm the inside of the bathtub after filling with hot water, the LAND circuit (63) will be set to "L" after filling with hot water, as described in the explanation of the first embodiment.
”, the second AND circuit (60 outputs the rHJ signal by the rHJ signal output from TFF (84), and the second AND circuit (60) captures the rising edge of the signal
(94) outputs the rHJ signal for a certain period of time. Then,
The third gate (9B) is opened by the rHJ signal, so that the hot water temperature (80°C) stored in the third gate (9B) is applied to the proportional control circuit (87). Then, the combustion amount of the hot water supply gas burner (34) is controlled in the same manner as in the first embodiment described above, and the hot water at the hot water temperature set at 80@C is supplied to the second
Bathtub (1) for a certain period of time set in M M (94)
is supplied to

[Brief explanation of drawings]

Figure 1 is a conceptual diagram of the present invention, and Figure 2 is a circuit diagram of an embodiment of the present invention. Fig. 3 is an explanatory diagram of the second embodiment of the present invention, and Fig. 4 is an explanatory diagram of the conventional example. (15) ● (1B) ● (23) ● Bathtub ● Constant temperature hot water filling reswitch ● Temperature increase switch ● AND circuit, hot water filling temperature setting device, hot water supply mechanism, reheating 3 mechanism, water level detector

Claims (1)

[Claims] A temperature increase switch (6) that is turned on when heating the bath water filled in the bathtub (1), a water level detector (23) that outputs a water filling completion signal when the water level in the bathtub reaches the target water level, and A constant temperature water filling switch (4) is provided to turn on hot water at a predetermined temperature when filling the bathtub (1), and when the constant temperature water filling switch (4) is turned on, the water level detector (23)
In bath equipment equipped with an automatic water filling function that continues filling water until the water filling completion signal is issued, water
A which outputs a hot water filling signal in response to the negative signal of the hot water filling completion signal outputted by 3) and the ON signal of the constant temperature hot water filling switch (4).
An ND circuit (10) and a hot water filling temperature setting device (14) that outputs a high temperature signal when the temperature increase switch (6) is turned on and outputs an appropriate temperature signal lower than the above temperature when the temperature rise switch (6) is not turned on. ), and a hot water supply mechanism unit ( 15), and a supplementary heating signal generator (12) which generates a bathing water heating signal based on the negative signal of the water filling signal of the AND circuit (10) and the ON signal of the temperature increase switch (6),
When a bath water heating signal is output from the supplementary heating signal generator (12), the inside of the bathtub (1) is reheated for a certain period of time or until a certain temperature rises, or a certain amount of hot water is supplied to the bathtub (1). A bath device equipped with a hot water filling function.