JP2552596B2 - Bath equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bath device, and more particularly to a bath device in which hot water can be directly supplied (filled) from a water heater to a bathtub.

[0002]

2. Description of the Related Art As a bath device of the above type, a water heater installed near a wall surface of a bathroom and a bathtub which are connected to each other by a pipe for water filling are widely used. Hot water is directly supplied to the bathtub by operation,
When the water level in the bathtub reaches the set water level, the filling operation automatically ends.

Such a bath device can be conveniently used because a predetermined amount of hot water can be poured into the bathtub simply by performing a filling operation. However, countermeasures for the remaining hot water in the bathtub are insufficient, and conventionally, when draining the remaining hot water, the bath plug at the bottom of the bathtub is removed to discharge all the remaining hot water in the bathtub. The current situation. Japanese Patent Laid-Open No. 3-129021 proposes a device that can automatically discharge the remaining hot water, but in this case also, all the remaining hot water is discharged.

The remaining hot water in the bathtub contains scales, but these scales are concentrated in the upper layer of the bathwater, and the middle and lower layers are relatively clean. . Therefore, in the conventional one that discharges all the remaining hot water,
There is a lot of wasted water. The present invention has been made in view of the above points, and "a bath device in which a hot water supply device and a bathtub are connected by a hot water filling circuit so that the hot water supply device can directly fill the hot water bath" The problem is to be able to reuse a large amount of remaining hot water without discharging all the hot water.

[Invention of claim 1]

[0006]

[Technical Means] A technical means of the present invention for solving the above-mentioned problem is to provide a position "in the middle of the side wall of the bathtub (B) where the hot water in the remaining scale of hot water at the end of bathing can be discharged. Is provided with a mouthpiece (3) having an outlet (31) of the water filling circuit (11) and a drain outlet (32) communicating with the drain circuit (4), and the drain valve (41) is provided in the drain circuit (4). And a drain circuit (41) is opened by a drainage operation signal preceding the water filling operation, and the drainage valve (41) is closed by a drainage end signal or a water filling operation signal ( 50) ”.

[0007]

The above technical means operates as follows. When filling water, as in the past, the water heater → water filling circuit (11)
→ The bathtub (B) is directly filled with water by the route of the exit (31). When the drainage operation is performed after the bath, the drainage valve (41) is opened by the drainage operation signal at this time, and the remaining hot water is drained from the drainage port (32) through the drainage circuit (4). At this time, the remaining hot water in the bathtub (B) is a scale deposit part where the scale is concentrated in the upper layer, but the base (3) is in the middle of the side wall of the bathtub (B), Since it is located in the vicinity of the lower part of the above, the molten metal concentrated portion in the upper layer is discharged from the drainage port portion (32) of the mouthpiece (3), and when the hot water in these portions is discharged, the draining operation is finished. In this state, clean hot water remains in the bathtub (B) below the mouthpiece (3).

Next, since the drain valve (41) is closed by the drain end signal or the water filling operation signal, in the water filling state,
In the bathtub (B), the hot water poured by the hot water filling and the remaining hot water are stored. When the remaining hot water is discharged as described above prior to the water filling operation, the water discharge operation signal is input to the drain valve (41) by the water filling operation, and the drain circuit (4)
If the water filling operation signal is output at the time when the drainage through the tank is finished, the above drainage and the water filling operation automatically proceed.

[0009]

[Effect] Since only the portion with the scale above the mouthpiece (3) is discharged and the remaining hot water below that is reused, there is a large amount of residual hot water that can be reused, and wasteful water use is eliminated. Also, the time required for filling with hot water can be shortened. [Invention of Claim 2] The present invention relates to the improvement of the invention of Claim 1 described above, and it is an object of the present invention to make it possible to automatically continue the discharging operation and the filling operation of the remaining hot water portion by the filling operation. And

[0010]

[Technical Means] A technical means of the present invention for solving the above-mentioned problem is to provide a position "in the middle of the side wall of the bathtub (B) where the hot water in the remaining scale of hot water at the end of bathing can be discharged. Is provided with a mouthpiece (3) having a drainage port (32) communicating with the outlet (31) of the water filling circuit (11) and the drainage circuit (4), and the drainage valve (41) is provided with the drainage circuit (4). A drainage detecting means (5) for detecting the completion of drainage and opening the drainage valve (41) in response to a water filling operation signal and outputting the drainage detecting means (5) when the drainage is completed. Switch circuit (50) for closing (41)
And a switch circuit (52) for operating the water filling device according to the output of the drainage detecting means (5) ”.

[0011]

[Operation / Effect] When the filling operation is performed, the drain valve (41) is opened by this signal, and the remaining hot water in the upper layer portion above the mouthpiece (3) in the bathtub (B) is discharged. It is similar to the invention of. When this drainage operation is completed, drainage detection means (5)
The switch circuit (50) is activated by the output from the drain valve.
(41) closes. At the same time, since the water filling device is activated by the output from the drainage detecting means (5), the water filling operation proceeds.

Therefore, the water filling operation proceeds continuously after the molten metal concentration portion of the remaining hot water in the bathtub (B) is once discharged by the water filling operation.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the embodiments of the present invention described above will be described in detail with reference to the drawings starting from FIG. [Embodiment 1] Embodiment 1 shown in FIG. 1 is a cap provided in the middle of the side wall of the bathtub (B) from the heat exchanger (E ₁ ) for hot water supply in the water heater (1).
The water filling circuit (11) equipped with the water filling valve (12) is connected to (3) to communicate with the outlet (31) and to the drainage port (32) of the base (3). ) Is introduced into the water heater (1) so that its downstream end faces the drain groove (M) below the installation part of the water heater (1), and a drain valve is provided near the downstream end of this drain circuit (4). (41)
And a water flow switch (51) that functions as drainage detection means (5)
And are inserted. Further, in order to detect the water level in the bathtub (B), a water level switch (61) is provided in the water heater (1) so as to communicate with the drain circuit (4).
1) is a type that turns off when the water level in the bathtub (B) reaches the set water level.

The water filling valve (12) and the drain valve (41) are controlled by a control device (C), and a drain switch (72) is connected to the control device (C) and can be operated remotely. ) And a water filling switch (71). This control device (C) corresponds to the invention of claim 1, and is configured as shown in FIG.
The drain switch (72) is inserted in the circuit of the timer (T) having a self-holding contact (T ₁ ). And this timer (T)
A parallel circuit of the other output contact (T ₂ ) and the water flow switch (51) has a switch circuit (50) inserted in the circuit of the drain valve (41).

On the other hand, a water filling switch is used to control the water filling.
(71) is inserted in the circuit of the relay (R), the water level switch (61) is inserted in series with the self-holding contact (R ₁ ) of this relay (R), and the output contact (R ₂ ) of the relay (R) is inserted. Is inserted in the circuit of the water filling valve (12). In this embodiment, when the drain switch (72) is operated, the self-holding contact (T ₁ ) of the timer (T) self-holds the output contact (T ₂ ) for a set time. Then, the drain valve (41) is turned on to open the drain circuit (4), and the hot water in the upper layer than the mouthpiece (3) in the bathtub (B) flows through the drain circuit (4) to the drain groove (M). Is discharged to. When the drainage is started, the water flow switch (51) turns on, so even if the output contact (T ₂ ) is opened after the set time of the timer (T) has elapsed, the drain valve (41) will open. The valve state is maintained and the draining operation continues. And the water level in the bathtub (B) is the mouthpiece
When it coincides with the drain port part (32) of (3), the flow of drainage in the drainage circuit (4) disappears, the water flow switch (51) turns off, and the drainage valve (41) closes. As a result, the discharge of the hot water in the portion where the scale is concentrated is completed, and the drain valve (41) is automatically closed.

Thereafter, when the water filling switch (71) is operated, the relay (R) is turned on and self-held by the self-holding contact (R ₁ ), and the water filling valve (R ₂ ) is closed by closing the output contact (R ₂ ). 12) opens. This activates the water filling device to activate the water filling circuit.
The bathtub (B) is filled with water from (11). At this time, the bathtub
The water level in (B) is monitored by the water level switch (61),
When the water level in the bathtub (B) reaches its set water level, the water level switch (61) turns off. As a result, the circuit of the relay (R) is cut off, the water filling valve (12) is closed, and the water filling operation is stopped. In this way, the water is filled to the set water level in the bathtub (B) by operating the water filling switch (71).

The control device (C) can be modified as shown in FIG. 3, and in this case, it corresponds to the invention of claim 2.
This control device (C) is provided with a switch circuit (50) similar to that shown in FIG. 2, which is operated by operating the water filling switch (71), and the water filling switch is activated by the output from the water flow switch (51) at the completion of drainage. A switch circuit (52) for opening the valve (12) is provided, and this switch circuit (52) is
A flip-flop circuit (53) in which the output of the water flow switch (51) is input to the set terminal and the output of the water level switch (61) is input to the reset terminal, and the output of the flip-flop circuit (53) and the water flow switch (51) AND that inputs the negative output of
It is composed of a circuit (54) and a switching transistor (55) which receives the output of the AND circuit (54) at its base and is inserted in series in the water filling valve (12). Here, the water level switch (61)
When the water level in the bathtub (B) reaches the set water level, its output contact turns on.

In this case, the drainage operation proceeds by operating the water filling switch (71). The output of the flip-flop circuit (53) is generated at this time because the water flow switch (51) is turned on when the drainage operation is started, and the negative output of this is input to the AND circuit (54). Therefore, the output from the AND circuit (54) is in the "low level" state, and the switching transistor (55) does not conduct. When the drainage is completed, the water flow switch (51) is turned off, so that the inputs to the AND circuit (54) are both set to "high level", the AND circuit (54) is turned on, and the switching transistor (55) is turned on. ) Conducts. That is, the water filling valve (12) is opened and the water filling operation automatically proceeds. When the water filling is completed, the water level switch (61) is turned on, so the flip-flop circuit (53) is reset and the AND circuit (54)
Output becomes "low level", the switching transistor (55) turns "off", and the water filling valve (12) closes.

Further, the control device (C) may be a microcomputer, and its control program may follow the flow chart shown in FIG. in this case,
When the control program is executed, the operation of the water filling switch (71) is monitored, and when the water filling switch (71) is operated, the drain valve (41) is opened. Then, after a certain period of time, it is monitored whether or not the water flow switch (51) is "OFF", and when the water flow switch (51) is "OFF", the drain valve (41) is closed. The hot water filling valve (12) is opened. When the drainage is completed, the water flow switch (51) is turned off, and the water filling device is activated by opening the water filling valve (12). ) Is closed and the filling operation proceeds.

Thereafter, the output of the water level switch (61) is monitored, and when it is turned "off", the water filling valve (12) is closed. Since the water level switch (61) is turned off when the water level in the bathtub (B) reaches the set water level, the filling operation is stopped when the water level in the bathtub (B) reaches the set water level. With the above, a series of control operations is completed.

[Second Embodiment] A second embodiment shown in FIGS. 5 and 6.
Is a hot water heater water heater (1) with a circulation heating device.The hot water heater (1) has a heat exchanger for hot water supply, a heat exchanger for hot water supply (E ₁ ) and a heat exchanger for bath. (E ₂ ), which connects the hot water supply heat exchanger (E ₁ ) to the bathtub (B) and the outlet side of the bath heat exchanger (E ₂ ). It is connected.

On the other hand, the drainage circuit (4) is the bath heat exchanger.
It is connected to the inlet side of (E ₂ ), and the circulation pump (P) is inserted upstream of this connection. Then, the upstream end of the drainage circuit (4) is connected to the mouthpiece (3) provided in the middle of the side wall of the bathtub (B) to communicate with the drainage port (32), and the other water filling circuit (11). The downstream end of is connected to the base (3) and communicates with the outlet (31).

Therefore, between the bathtub (B) and the bath heat exchanger (E ₂ ), there is a circulation circuit which is communicatively connected through a part of the water filling circuit (11) and the drainage circuit (4). Will be configured,
By operating the circulation pump (P), the hot water in the bathtub (B) passes through the bath heat exchanger (E ₂ ) and returns to the bathtub (B). The bath heat exchanger (E ₂ ) is brought into an operating state together with the circulation pump (P) by an operation for circulating heating (reheating), that is, a reheating operation.

On the other hand, in the water filling circuit (11), the water filling valve (12) is provided upstream of the connection with the outlet side of the bath heat exchanger (E ₂ ).
Is inserted, and the heat exchanger for hot water supply (E ₁ ) is of a type that automatically enters the operating state when the hot water filling valve (12) is opened. Further, in this embodiment, the water filling operation is automatically stopped when the water level in the bathtub (B) reaches a constant water level. Therefore, the pressure-sensitive water level detection device (6) has a drainage circuit.
The structure is provided on the (4) side, and the water filling valve (12) is closed by the output of the water level detection device (6). Therefore,
In this embodiment, the combination of the hot water supply heat exchanger (E ₁ ), the water filling valve (12) and the water level detection device (6) functions as a water filling device.

The downstream end of the drainage circuit (4) is guided into the water heater (1) and a drain groove provided below the installation portion of the water heater (1).
The drainage valve (41) is inserted into the drainage circuit (4) at the downstream side of the connection with the inlet side of the bath heat exchanger (E ₂ ), which faces the (M). (5) Water flow switch as
(51) is inserted. The operation of the drain valve (41) and the water filling device is controlled by the control device (C), and first, the water filling switch (71) of the operation panel (7) for remote operation connected to the control device (C) is used. The draining operation proceeds, and then the water filling operation automatically proceeds.

As the control device (C), a microcomputer is adopted and the control program based on the flowchart shown in FIG. 6 is executed. The actual control will be described in detail below with reference to this flowchart.
When the water filling switch (71) is operated, the water level detection device (6)
Is output. When there is no remaining hot water in the bathtub (B), the pressure does not act on the water level detection device (6), so there is no output from the water level detection device (6).
(B) It is determined that there is no hot water remaining inside.

In this case, the water filling valve (12) is opened so that the water filling device is in the operating state, and the outlet (31) of the mouthpiece (3) enters the bathtub through the water filling circuit (11). It is filled with water. When the water level in the bathtub (B) reaches the set water level, the water level detection device (6)
Output (H) becomes the set value (H ₁ ) and the filling operation is stopped. When there is remaining hot water, the output (H) from the water level detection device (6) is at or above a certain level (H ₀ ), so it is judged in the above judgment step that there is remaining hot water. Then, the drain valve (41) is opened, the circulation pump (P) is operated, and the remaining hot water is discharged to the drain groove (M) via the drain valve (41). At this time, since a flow is generated in the drain valve (41), the water flow switch (51) is turned on.

When the water level in the bathtub (B) drops to the position of the base (3), no flow occurs in the drain valve (41), the water flow switch (51) is turned off, and drainage is completed. Can be detected. Then, by the output of the water flow switch (51), the drain valve (41) is opened, the circulation pump (P) is stopped, the water filling valve (12) is opened, and the water filling device is in the operating state. Hot water is filled into the bathtub (B) from the exit (31) through the tension circuit (11). At this time, when the water level in the bathtub (B) is detected by the water level detection device (6) and the output (H) of the water level detection device (6) reaches the set value (H ₁ ), the water filling valve (12) turns on. Close the valve,
The filling operation stops.

As described above, when there is remaining hot water in the bathtub (B), it is sufficient to operate the hot water filling switch (71).
After the remaining hot water above the level (3) is discharged, the filling operation will automatically proceed. In the above embodiment, the water flow switch (51) is used to detect the completion of drainage, but the completion of drainage is detected even if the output (H) from the water level detection device (6) is at a certain level. Of course, a timer may be used to close the drain valve (41) and open the water filling valve (12) at the same time when the time required for draining has elapsed.

Further, in any of the above embodiments, the mouthpiece is
When there is remaining hot water below (3), the water level may be raised to above the mouthpiece (3) by supplying water to the bathtub or supplying hot water, and then the above-mentioned drainage may be performed.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of the overall structure of a first embodiment of the present invention.

FIG. 2 is an explanatory diagram of a control device (C) for this.

FIG. 3 is an explanatory view of a modified example of the control device (C).

FIG. 4 is a flowchart when the control device (C) is a microcomputer.

FIG. 5 is an explanatory diagram of the overall structure of the second embodiment.

FIG. 6 is a flow chart when the control device (C) is a microcomputer.

[Explanation of symbols]

 (B) ・ ・ ・ Bathtub (11) ・ ・ ・ Water filling circuit (31) ・ ・ ・ Exit (4) ・ ・ ・ Drainage circuit (32) ・ ・ ・ Drainage port (3) ・ ・ ・ Mouthpiece (41) ... Drain valve (50) ... Switch circuit (5) ... Drainage detection means (52) ... Switch circuit

Claims (2)

(57) [Claims] 1. A bath apparatus in which a water heater and a bathtub are connected to each other by a water filling circuit so that the water heater can directly fill the bathtub with a bath in the middle of the side wall of the bathtub (B). A mouthpiece (3) having a drainage port (32) communicating with the outlet (31) of the water filling circuit (11) and the drainage circuit (4) at a position where the hot water in the remaining hot water at the end can be discharged. ) Is provided, and a drain valve (41) is provided in the drain circuit (4).
And a drain circuit (41) is opened by a drainage operation signal preceding the water filling operation, and the drainage valve (41) is closed by a drainage end signal or a water filling operation signal ( 50) Bath equipment equipped with. 2. A bath device in which a hot water supply device and a bath tub are connected and connected by a hot water filling circuit so that the hot water supply device can directly fill the hot tub with hot water. A mouthpiece (3) having a drainage port (32) communicating with the outlet (31) of the water filling circuit (11) and the drainage circuit (4) at a position where the hot water in the remaining hot water at the end can be discharged. ) Is provided and the drain valve (41) is provided with the drain circuit (4).
And a drainage detecting means (5) for detecting the completion of drainage, and the drainage valve (4)
A switch circuit (50) is provided which opens 1) and closes the drain valve (41) by the output of the drain detection means (5) at the completion of drainage, and the output of the drain detection means (5) fills the water. Switch circuit for operating the device (52)
Bath equipment with.