JP2868781B2 - Bath automatic hot water filling equipment - Google Patents

Description

The present invention relates to a bath automatic hot water filling apparatus that can perform hot water filling accurately and reliably even when hot water is supplied from a high place.

(B) Conventional technology Conventionally, as an automatic bath hot water filling method, a bath automatic hot water filling device having a bath additional heating circuit with a pump and a bath dropping circuit connected to the additional heating circuit has been used. A water level sensor is provided in the bath return pipe of the bath reheating circuit, and while the hot water is supplied to the bath from the cistern through the pipe going out of the bath, the water level sensor detects the bath water level and fills the hot water based on the detected value. There is a way.

In this method, since the bath and the water level sensor are separated, it is important to accurately detect the bath water level.

Therefore, it is necessary to detect that the hot water has been poured onto the bus adapter by the water level sensor, and to fill the bath return pipe with the water level sensor from the bath with water in the additional heating circuit.

Further, the hot water filling up to the set water level is performed using the water level sensor after filling the bath return pipe with water as a reference (reference water level).

That is, the difference from the set water level is supplied by the above method based on the water level extended up to the bath adapter.

With the above method, the hot water can be automatically filled regardless of the installation position of the bath, and the adjustment of the reference water level at the time of installation of the bath is forgotten, and the troublesome adjustment is released.

FIG. 3 shows the output change of the water level sensor in the above method.

That is, when the water rises above the bus adapter, the water level sensor output rises, the rising output ΔV ₀ is detected, then circulated by a reheating circuit, and the bath return pipe with the water level sensor is filled with hot water, With the value at that time as a reference water level, a difference ΔV ₁ from the set water level is supplied.

(C) Problems to be Solved by the Invention However, as a result of research conducted by the present applicant, in the above-described bath automatic hot water filling method, when the hot water rises above the bus adapter, the rising output ΔV _{0 with} respect to time is reduced by the bath. It was found that the temperature significantly changed depending on the piping method of the outgoing pipe and the bath return pipe, and the presence or absence of hot or cold water in the bath return pipe return pipe.

In particular, as shown in FIG. 5, when hot water is supplied from a high place and there is no residual water in the bath return pipe 50, when the hot water rises from the bus adapter 51, the hot water in the bath 52 flows back through the bath return pipe 50. , The output suddenly rises, and the water level sensor 53 quickly detects ΔV ₀ .

However, at this time, the hot water is circulated by the additional heating circuit in a state in which the hot water is not sufficiently filled in the bath return pipe 50. For this reason, the pump 54 sucks air and hot water at the same time, and air remains in the bath return pipe.
The water cannot be filled, and an accurate reference water level cannot be detected.
55 is a hot water supply device.

An object of the present invention is to provide a bath automatic hot water filling apparatus capable of solving the above-mentioned problems.

(D) Means for Solving the Problems The present invention comprises a reheating circulation channel for circulating and heating the hot water in the bathtub, and a water level sensor provided in the reheating circulation channel. In the bath automatic hot water filling device that determines that the hot water is filled in the additional heating circulation channel by the output change, and detects the reference water level with the water level sensor, the output change of the water level sensor per unit time When the value is equal to or more than a predetermined range, the automatic water filling apparatus is not provided for the detection of the reference water level.

Further, when the output change per unit time of the water level sensor is within a predetermined range, the water level detection in the bathtub is started, and the detected value of the water level sensor at that time is set as a reference water level, from the hot water filling channel to the set water level. It also has the characteristic of hot water.

(E) Embodiment Hereinafter, the present invention will be specifically described based on an embodiment shown in the accompanying drawings.

First, the configuration of the bath automatic hot water filling apparatus A according to the present invention will be specifically described with reference to FIG.

As shown in the drawing, the bath automatic hot water filling apparatus A is the same as a hot water supply system capable of filling a desired amount of hot water into a bath, similarly to the bath automatic hot water filling apparatus described in the section of the prior art. It has the form of hot water channel,
As will be described later, there is a difference in the configuration in which a bypass pipe for filling the bath return pipe with hot water is provided between the discharge side of the pump and the bath return pipe.

Here, the hot water filling channel will be described with reference to FIG. That is, the cistern 10 receiving hot water through the hot water supply pipe 9 branched from the hot water supply pipe 8 connected to the hot water supply heat exchanger 7
A pump 13 is provided via a three-way switching valve 12 provided in the lower piping 11 thereof.
And is in communication with the suction port 14. In the drawing, reference numeral 6 denotes a water supply pipe for supplying water to the hot water supply heat exchanger 7.

In addition, the discharge port 15 of the pump 13 is connected to a reheating heat exchanger 17 through a water flow switch 16, while the reheating heat exchanger 17 is connected to a bath through a bath piping 18. It is connected to a bus adapter 20 provided at 19.

On the other hand, one end of a bath return pipe 21 is connected to the bus adapter 20, and the other end of the bath return pipe 21 is connected to the three-way switching valve 12.

Further, a water level sensor 22 is provided in the middle of the bath return pipe 21.

In the present embodiment, in the configuration of the hot water filling channel described above, the discharge port 15 of the pump 13 and the middle of the bath return pipe 21 are further connected by a bypass pipe 23, and a shutoff valve 24 is connected to the bypass pipe 23. Are attached to form an air vent channel.

With the configuration of the air vent passage, hot water can be directly supplied from the pump 13 to the bath return pipe 21 by opening the shut-off valve 24, and air staying in the pipe 21 can be eliminated.

Next, with reference to FIG. 2 and FIG. 3, a description will be given of a bath automatic hot water filling method using the bath automatic hot water filling apparatus A.

In the flowchart shown in FIG.
0), (101) and (102) are provided for detecting the presence or absence of residual water up to the bath adapter 20 of the bath 19.

That is, as shown in step (100), first, the shut-off valve 24 of the bypass pipe 23 is opened, and a predetermined time (for example, 60 to 10) is set.
0sec) only, hot water supply pipe 9 → systan 10 → lower pipe 11 →
Hot water is supplied to the bath 19 through the hot water filling channel consisting of the pump inlet 14 → bath going pipe 18 and the air venting channel consisting of the hot water supply pipe 9 → cistern 10 → lower pipe 11 → pump inlet 14 → bypass pipe 23. Then, the air in the bath return pipe 21 is evacuated.

Thereafter, as shown in step (101), the shut-off valve 24 is closed, and the three-way switching valve 12 is operated, so that the pump inlet 14 → bath going pipe 18 → bath 19 → bath return pipe 21 → pump inlet 14 A circulation path for additional heating is formed to circulate hot water.

In the hot water supply circulation operation, the water flow switch 16 connected to the discharge port 15 of the pump 13 is operated for a predetermined time (for example,
If it is continuously turned on (about 20 seconds), it is determined that the remaining water is present (102Y).

When it is determined that the remaining water is present (102Y), it is determined whether or not the bath water level in the bath 19 is higher than the set water level (103). Through the flow path, reheating and heat keeping operation is performed (104).

Then, if it is determined in step (102) that the state is not the remaining water state (102N), as shown in step (105), the shut-off valve 24 of the bypass pipe 23 is opened and a predetermined time (for example, 60 to 100 seconds) is set. Only), the hot water is supplied to the bath 19 through the bath going pipe 18 and the bypass pipe 23, and the air in the bath returning pipe 21 is vented.

Thereafter, as shown in step (106), the shutoff valve 24 is closed, and hot water is supplied into the bath 19 through the bath outflow piping 18.

Along with the hot water supply, the output change per unit time of the water level sensor 22 provided in the bath return pipe 21 is within a predetermined range (a range of 0 to 20 cm / min) as shown in FIGS.
When ΔV ₀ has been reached (107Y), the three-way switching valve 12 is actuated to form a recirculation flow channel for additional heating and circulate hot water (108).

However, as shown in FIG. 4, the output change of the water level sensor 22 per unit time suddenly exceeds a predetermined range (range of 0 to 20 cm / min) in terms of bath water level as in the case of hot water supply at a high place. When the gradient becomes ΔV ₂ (107N), the three-way switching valve 12 is not actuated by a control device such as a microcomputer depending on the output value, and thereafter, as shown in FIG. As shown in FIGS. 1 and 3, when the output change per time becomes ΔV ₀ within a predetermined range ( ₀ to 20 cm / min) (107Y), the three-way switching valve 12
Is operated to form a circulation path for additional heating and circulate hot water (108).

That is, even in the case of hot water supply at a high place, after the bath return pipe 21 is completely depleted of air and filled with hot water, the three-way switching valve 12 is operated to form a recirculation flow path for additional heating, The hot water is circulated (108).

In the hot water supply circulation operation, the water flow switch 16 connected to the discharge port 15 of the pump 13 is operated for a predetermined time (for example,
When it is continuously turned on, it is determined that the bath return pipe 21 is full of hot water.

These are determined based on the circulation flow rate, the pipe diameter of the bath going pipe 18 and the bath returning pipe 21, and the certainty of the water filling.

Also, after the ON state of the water flow switch 16 has elapsed, it is determined that the reference water level has been detected (109), the three-way switching valve 12 is operated, and the flow path changes from the recirculation flow path to the hot water filling flow path, Hot water is filled through the bath pipe 18 (11
0).

Then, when the output value (pressure difference) per unit time of the water level sensor 22 provided in the bath return pipe 21 becomes ΔV ₁ as shown in FIGS. 1 and 3 due to the hot water supply. (111Y), it is determined that hot water has been filled in bath 19 to the set water level, and the hot water filling operation is stopped.

Thereafter, a reheating and heat retention operation is performed through the reheating circulation channel (104).

In the sequence of the above bath automatic hot water filling method, the opening time of the shutoff valve 24 of the bypass pipe 23 is set to about 30 seconds.

Further, the pressure loss of the shut-off valve 24 is substantially the same as that of the bath outflow pipe 18 with the additional heat exchanger 17, and when the shut-off valve 24 is opened, the bath outflow pipe 18 and the bath return pipe 21 are almost The same flow rate is set. (This is because the water filling time of the bath return pipe 21 is set in hours).

As described above, in the present embodiment, the output change per unit time of the water level sensor 22 is detected only when there is a change of 0 to 20 cm / min in conversion of the bath water level, so that the reference water level due to the circulation of the bath return pipe 21 is detected. Can be detected accurately and reliably, and based on the reference water level, the subsequent hot water filling can be continued and stopped at the set water level. Therefore, high hot water filling water level accuracy can be secured.

In addition, the present applicant changed the position of the bath 19 to a higher position, and also changed the piping configuration and the amount of residual water in the return pipe with respect to the bath automatic hot water filling apparatus A having the configuration shown in FIG. The output change per unit time of the water level sensor 22 for detecting the reference water level in the bus adapter 20 is calculated in terms of bath water level,
It was found to vary from 75 to 516 cm / min.

On the other hand, the water level rising speed in a practical bath varies depending on the size of the bath and the flow rate of hot water supply, but 0.3 to 10 c
m / min.

For this reason, the output change per unit time of the water level sensor 22 is configured to detect only a change of 0 to 20 cm / min in terms of bath water level.

(F) Effect As described above, in the present invention, when the output change of the water level sensor is equal to or more than a predetermined range (range of 0 to 20 cm / min), the detection of the reference water level is not performed, and the detection is performed within the predetermined range. In the case of, the water level detection is started, so that the reference water level by the bath return pipe circulation can be detected accurately and reliably, and based on the same water level,
The subsequent hot water filling can be continued and stopped at the set water level. Therefore, high hot water filling water level accuracy can be secured.

[Brief description of the drawings]

FIG. 1 is an explanatory view of the conceptual configuration of an automatic bath water filling apparatus according to the present invention, FIG. 2 is a flowchart showing a sequence of the automatic bath water filling method according to the present invention, and FIG. 3 is a normal operation of a water level sensor. FIG. 4 is a graph showing an operation state of the water level sensor when there is an abnormality, and FIG. 5 is a conceptual configuration explanatory view of hot water supply from a high place. In the figure, A: Bath automatic hot water filling device 10: Systan 13: Pump 16: Water volume switch 17: Heat exchanger for additional heating 18: Bath outgoing pipe 19: Bath 20: Bath adapter 21: Bath return pipe 22: Water level sensor 23 : Bypass pipe 24: Shutoff valve

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Koichi Matsuyama 431-1 Uozakihama-cho, Higashinada-ku, Kobe-shi, Hyogo Inside Nippon Yupro Corporation (72) Inventor Hiroshi Munemura 43-1 Uozakihama-cho, Higashinada-ku, Kobe-shi, Hyogo Within Nippon Yupro Co., Ltd. (72) Inventor Toshiharu Oe 43-1, Uozakihama-cho, Higashinada-ku, Kobe City, Hyogo Prefecture Within Nippon Yupro Co., Ltd. (56) References JP-A-63-153355 (JP, A) JP-A-63- 21439 (JP, A)

Claims (2)

(57) [Claims] 1. A reheating circulation channel for circulating and heating hot water in a bathtub, and a water level sensor provided in the reheating circulation channel, wherein the reheating circulation is controlled by an output change of the water level sensor. In a bath automatic hot water filling device that determines that the flow path is filled with hot water and detects a reference water level with the water level sensor, when an output change per unit time of the water level sensor is equal to or more than a predetermined range, A bath automatic hot water filling device, which is excluded from the detection of the reference water level. 2. The bath automatic hot water filling apparatus according to claim 1, wherein when the output change per unit time of said water level sensor is within a predetermined range, detection of the water level in said bathtub is started, and said water level sensor at that time is detected. A bath automatic hot water filling apparatus characterized in that hot water is applied from a hot water filling channel to a set water level using a detected value as a reference water level.