JP4451918B1 - Circulation filtration system - Google Patents

Abstract

The present invention realizes more sanitary realization of resource saving, cost reduction and energy saving by reusing overflow water.
In a circulation filtration system, a collection tank section and a bathtub section are formed in a tank body by a partition plate. Hot water collected in the collection tank unit 14 can be reused, and cleaning and maintenance in the collection tank unit 14 are facilitated. Since the first drain port 20 is disposed in the collection tank portion 14 at a position lower than the height of the partition plate 13 and close to the upper end surface of the partition plate 13 and substantially horizontal, the bathtub portion from the collection tank portion 14 is provided. Backflow of hot water to 15 can be prevented. Since the second drain port 24 is disposed at a position lower than the first drain port 20 in the recovery tank unit 14 and lower than the water level W in the recovery tank unit 14 when the circulation pump 10 is stopped, the operation is suspended. Sometimes floating matter floating in the hot water in the collection tank section 14 can be automatically discharged.
[Selection] Figure 1

Description

  The present invention relates to a circulation filtration system that circulates and filters hot water in a tank body.

  For example, in a bathing facility, a circulating filtration system is provided in which hot water in a bathtub is circulated at regular or regular intervals to be filtered and returned to the bathtub for reuse. In such a circulation filtration system, there is an overflow type circulation filtration system in which hot water (overflow water) overflowing from a bathtub is temporarily collected in a collection tank installed in a machine room, and this overflow water is circulated and filtered (for example, , See Patent Document 1).

  In a conventional circulation filtration system, floating substances such as hair, dirt, and dust mixed in hot water flow out of the bathtub together with overflow water, and the overflow water containing floating substances is once collected in a collection tank and then filtered. It is configured to be sent to the device. However, since the recovery tank is installed in the machine room as described above, it is difficult to clean and maintain the recovery tank. As a result, Legionella bacteria are generated, which is unsanitary.

  Due to these sanitary problems, in recent years it has been prohibited to install a collection tank in the machine room, and overflow water containing suspended solids has not been collected and has been discarded. However, such a configuration can solve hygienic problems such as generation of Legionella, but it is not economical because the overflow water cannot be reused. Moreover, in order to replenish hot water corresponding to the discarded amount, it is necessary to heat water at a low temperature to an appropriate temperature, which is uneconomical in terms of energy.

Then, the circulation filtration system which aimed at resource saving, cost reduction, and energy saving by reusing overflow water, without becoming unsanitary is considered (for example, refer patent document 2).
This circulation filtration system forms a collection tank part and a bathtub part by partitioning a part of the bathtub with a partition plate, circulates and filters the hot water collected in the collection tank part, and returns it to the bathtub part. It is configured to be used. Moreover, according to this circulation filtration system, the recovery tank part for recovering hot water is not provided in the machine room, but is provided in a part of the bathtub, so that the cleaning tank part is cleaned and maintained. It can be done easily.

JP 2003-311107 A Japanese Patent No. 3768891

  However, in the circulation filtration system described in the above-mentioned Patent Document 2, although cleaning and maintenance in the recovery tank can be easily performed, for example, when the cleaning and maintenance in the recovery tank is not performed for a long time, There is a problem that the recovery tank section becomes unsanitary when overflowing water that is contaminated than usual due to a large number of people bathing in between flows into the recovery tank section. Therefore, further improvement for solving such problems has been demanded.

  This invention is made | formed in view of the said situation, The objective is to implement | achieve more resource-saving, cost reduction, and energy-saving by reusing overflow water further hygienically. It is to provide a circulation filtration system that can be used.

The present invention comprises a tank body having a suction port and an outlet, a filtration device that filters hot water, a heat exchanger that heats hot water, and a pump that circulates hot water, and the hot water in the tank body is By circulating through the pump, hot water in the tank body is sent from the suction port to the filtration device and filtered by the filtration device, and then heated to a predetermined temperature by the heat exchanger, and then from the jet port. In the circulating filtration system returned to the tank body, a part of the tank body is partitioned to form a recovery tank part having the suction port and a bathtub part having the jet port, the upper end of which is the tank body. A partition plate formed lower than the upper end, and formed at its lower end with a communication port that communicates the bottom in the tank of the bathtub section and the bottom in the tank of the recovery tank section, and the bathtub section Through the communication port The outflow amount adjusting means for adjusting the outflow amount of hot water flowing out to the recovery tank section, and the position within the recovery tank section that is lower than the height of the partition plate and close to the upper surface of the partition plate and substantially horizontal. A first drain outlet configured to drain hot water in the recovery tank section through the first drainage channel to the outside of the recovery tank section; and in the recovery tank section than the first drain outlet. A second drain outlet that is low and is disposed in an upper portion of the recovery tank section and configured to drain hot water in the recovery tank section through the second drainage channel to the outside of the recovery tank section; And an on-off valve that closes the second drainage channel when the pump is driven and opens the second drainage channel when the pump is stopped.

  According to the circulation filtration system of the present invention, the height of the partition plate forming the recovery tank part and the bathtub part is formed lower than the upper end of the tank body by partitioning a part of the tank body. Thereby, when the water level becomes higher than the partition plate, the hot water in the bathtub portion is recovered into the recovery tank portion as overflow water over the partition plate before reaching the height of the upper end of the tank body. At that time, the floating matter floating in the hot water in the bathtub is also collected in the collection tank together with the overflow water.

  In addition, since a communication port is formed at the lower end of the partition plate to communicate the bottom of the tank of the bathtub and the bottom of the tank of the collection tank, the hot water at the bottom of the bathtub is Due to the water pressure in the bath tub, it flows out to the collection tank through the communication port. In that case, the sediment which has settled in the bottom in a bathtub part also flows out into the collection tank part with the hot water of the bottom part in a bathtub part, and is collect | recovered. The hot water recovered in the recovery tank is sent from the suction port to the filtration device, where contaminants and precipitates are removed, sterilized and filtered, and then heated to a predetermined temperature by a heat exchanger and spouted. Is returned to the bathtub.

  As described above, according to the circulation filtration system of the present invention, the hot water collected in the collection tank part including the overflow water can be reused, and resource saving can be achieved by saving water resources. Cost reduction can be achieved by reducing the cost of sewerage. Further, it is possible to reuse the overflow water, which is a temperature close to the optimum temperature, by heating it to a predetermined temperature, so that it is not necessary to heat the low temperature water to the predetermined temperature, and energy saving can be achieved.

In addition, according to the circulation filtration system of the present invention, since the outflow amount adjusting means can adjust the outflow amount of hot water through the communication port, the hot water filling amount (water level) of the bathtub portion is set to be higher than the height of the partition plate. If the drainage amount of the bathing capacity is reduced and the pump (circulation filtration pump) is operated to adjust the outflow amount by the outflow amount adjusting means, the overflow water will flow into the recovery tank part beyond the partition plate. Thereby, even if a bather does not enter the bath tub portion, suspended matter, sediment, and the like can be collected in the collection tank portion. Moreover, operation is only small the amount of hot water filling amount of input tub portion under a state of stopping (tank body), a space is formed collecting tank portion at the time of operation, then the volume of this space, bathing the inlet bathtub unit Fluctuates depending on the person coming in and out. And hot water is not drained outside the tank body until the number of bathers in the bathing section becomes a capacity. Thereby, it is hygienic, and also resource saving and energy saving can be achieved. On the other hand, if the amount of outflow is increased, the amount of overflow water that exceeds the partition plate is reduced accordingly. Thus, the amount of overflow water can be adjusted by adjusting the outflow amount of hot water through the communication port, and the overflow water can be recovered in an amount desired by the user.

  Further, according to the circulation filtration system of the present invention, since the recovery tank part is provided in a part of the tank body, cleaning and maintenance in the recovery tank part can be easily performed in the same manner as cleaning the tank body. It can be carried out. Thereby, troubles, such as generation | occurrence | production of Legionella bacteria, can be prevented easily and more sanitary circulation filtration can be performed.

  Further, according to the circulation filtration system of the present invention, in the collection tank section, the height position is lower than the height of the partition plate, and at a height position close to a substantially horizontal surface with the upper end surface of the partition plate, A first drainage port for draining hot water in the collection tank through the first drainage channel to the outside of the collection tank was provided. Therefore, when the number of bathers becomes more than the capacity and the water level reaches the first drainage port, the hot water in the recovery tank unit is drained from the first drainage port to the outside of the recovery tank unit together with the floating substances. Thereby, it can prevent that the hot water collect | recovered in the collection tank part flows back to a bathtub part exceeding a partition plate, and can maintain the hot water in a bathtub part hygienically.

Further, according to the circulation filtration system of the present invention, the hot water in the recovery tank section is located at a height position lower than the first drain outlet in the recovery tank section and at the upper portion of the recovery tank section. The second drainage port for draining the water to the outside of the collection tank through the second drainage channel. Moreover, according to the circulation filtration system of the present invention, the on-off valve is provided that closes the second drainage channel when the pump is driven and opens the second drainage channel when the pump is stopped. Accordingly, when the pump is driven, that is, in a state where hot water circulation filtration is performed, the second drainage channel is closed, so that the hot water in the collection tank is not discharged from the second drainage port. As much water as possible (the amount of water up to the height of the first drainage port located higher than the second drainage port) can be collected in the collection tank. On the other hand, when the drive of the pump is stopped, that is, when the circulating filtration of hot water is stopped, the second drainage channel is opened so that the hot water in the collection tank is drained from the second drainage port. Become. In addition, the floating matter floating in the hot water in the collection tank together with this drainage is also discharged from the second drainage port. Thus, when the pump is driven is stopped (circulation filtration system shutdown) can automatically be discharged from the second discharge port with hot water suspended solids floating on hot water recovery tank portion, the recovery tank portion Can be kept hygienic. The second drain outlet is automatically closed according to the elapsed time by a timer or the like after the second drainage channel is opened and after a predetermined time (after the time when the suspended matter or the like sufficiently flows out). It may be configured as follows. Moreover, it is good to comprise so that the hot water equivalent to the amount of hot water drained from the 2nd drainage port before operation | movement may be automatically supplied in a tank main body (inside a bathtub part) according to the detected water level by a water level sensor etc. .

  As described above, according to the circulation filtration system of the present invention, it is possible to more sanitarily realize resource saving, cost reduction, and energy saving by reusing the overflow water.

FIG. 1, showing an embodiment of the present invention, is an overall configuration diagram of a circulating filtration system

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an overall configuration diagram of a circulating filtration system 1 to which the present invention is applied.
The circulation filtration system 1 includes a tank body 2 and a circulation path 3. The tank body 2 has an opening at the top and is formed in a concave shape as a whole, and is capable of storing water therein. The tank body 2 has a spout 4 on the inner wall surface 2a and a bottom surface 2b. It has a nozzle 5 and suction ports 6 and 7. In addition, a washroom floor 2d is provided around the tank body 2.

The circulation path 3 includes a hair catcher 9, a circulation pump 10, a filtration device 11, and a heat exchanger 12 on a pipe 8 extending from the suction ports 6 and 7 to the ejection ports 4 and 5.
The circulation pump 10 circulates hot water in the circulation path 3 in the direction from the suction port 7 toward the jet ports 4 and 5 (see arrow A in the figure). The hair catcher 9 removes hair and towel scraps contained in hot water.

  The filtration device 11 removes contaminants and precipitates in the hot water with a filter medium (not shown). In addition, the floating substance which floats in the hot water is hard to be sucked from the suction port 7, and therefore is hardly sent to the filtering device 11. For this reason, it is difficult to remove the suspended matter by the filtration device 11. The circulating filtration system 1 is configured such that the suspended matter that is difficult to remove can be easily removed by the configuration and operation described later.

  The heat exchanger 12 heats hot and cold water to a predetermined temperature (a temperature suitable for bathing, for example, about 42 ° C.). With such a configuration, the hot water in the tank body 2 is circulated in the circulation path 3 by the circulation pump 10 (see arrow A in the figure), and hair, towel scraps, and the like are removed by the hair catcher 9. The contaminants and the like are removed by the filtration device 11 and heated to a predetermined temperature by the heat exchanger 12, and then returned to the tank body 2 from the jet ports 4 and 5 (see arrow B in the figure).

  In the above-described configuration, the partition plate 13 is disposed in the tank body 2. This partition plate 13 has a recovery tank part 14 having the above-described suction port 7 at the bottom by partitioning a part of the tank body 2, and the above-described jet port 4 at the lower part of the side surface, and the jet port 5 and the suction port. The bathtub part 15 which has 6 in the bottom part is formed. In this case, the bottom part of the collection tank part 14 is provided with a step so as to be lower than the bottom part of the bathtub part 15. In addition, although mentioned later in detail, the collection tank part 14 functions as an adjustment tank for collect | recovering hot water and reusing it hygienically and economically. Moreover, the bathtub part 15 functions as a bathtub in which a bather actually takes a bath.

  The height of the partition plate 13 (see H1 in the figure) is lower than the height of the tank body 2 (see H2 in the figure). In addition, a communication port 16 is formed at the lower end of the partition plate 13 to communicate the bottom portion in the tank of the bathtub portion 15 and the bottom portion in the recovery tank portion 14. The communication port 16 is provided such that the bathtub portion 15 side (right side in the figure) is greatly opened and the opening area gradually decreases toward the collection tank portion 14 side (left side in the figure). For example, a net 16a in which a steel material is formed in a confetti shape is attached to the opening of the communication port 16 on the bathtub portion 15 side. A valve 18 (corresponding to the outflow amount adjusting means) is provided at a portion of the communication port 16 on the collection tank portion 14 side.

  The valve 18 extends from the end of the communication port 16 on the side of the collection tank 14 so as to bend downward, and the tip thereof faces the bottom of the collection tank 14 from above. By adjusting the opening / closing amount (opening degree or closing degree) of the valve 18, the outflow amount of hot water (see arrow C in the figure) flowing from the bathtub portion 15 to the collection tank portion 14 through the communication port 16 is adjusted. It can be done. Further, since the valve 18 is bent downward, hot water can easily flow through the valve 18 from the bathtub portion 15 at a high position to the recovery tank portion 14 at a low position.

  A grating 19 is disposed above the collection tank section 14. The grating 19 is formed, for example, of a steel material in a lattice shape, and a first drain port 20 is provided in part of the grating 19. Further, the grating 19 protrudes inwardly at the upper part of the side wall surface of the partition plate 13 and the support part 22 formed so as to protrude inwardly at the upper part of the inner wall surface 2 c of the tank body 2. And a height position slightly lower than the height of the partition plate 13 and close to a substantially horizontal surface with the upper end surface of the partition plate 13 (H3 in the figure). Reference). Therefore, the first drain port 20 provided in the grating 19 is also at a height slightly lower than the height of the partition plate 13 and is close to a substantially horizontal surface with the upper end surface of the partition plate 13. At this position (see H3 in the figure). The height position close to the upper end surface of the partition plate 13 and a substantially horizontal surface is defined in the collection tank unit 14 while preventing the backflow of hot water from the collection tank unit 14 to the bathtub unit 15 as will be described later. It means that the first drain port 20 is provided at a height position as close as possible to the height of the upper end surface of the partition plate 13 so that as much hot water as possible can be collected.

  The first drainage port 20 is connected to a first drainage channel 20a extending to the outside of the tank body 2 (collection tank unit 14). Thereby, the hot water which flowed into the 1st drain outlet 20 is drained outside the tank main body 2 (collection tank part 14) through the 1st drainage channel 20a.

Further, in the collection tank section 14, the height position is slightly lower than the first drain port 20, and the highest position in the collection tank section 14 (see H 4 in the figure). A second drainage port 24 is provided. The second discharge port 2 4, when the circulation pump 10 is driven stop (circulation filtration system 1 is shut down), and out discharge and suspended matters floating in hot water in the collection tank 14 to the hot water together with Is . Further, by appropriately designing the height position where the second drain port 24 is attached, the amount of hot water drained from the second drain port 24 when the operation is stopped can be adjusted.

  The second drain port 24 is attached to the inner wall surface of the collection tank unit 14 (in this case, the inner wall surface 2c of the tank body 2) in a bowl shape. The second drainage port 24 is connected to a second drainage channel 24a connected to the first drainage channel 20a. As a result, the hot water flowing into the second drainage port 24 passes through the second drainage channel 24a and a part of the first drainage channel 20a (portion downstream from the part where the second drainage channel 24a is connected). The water is drained to the outside of the tank body 2 (collection tank part 14).

  An electric valve 26 (corresponding to an on-off valve) that is automatically opened and closed by a motor 25 is provided in the middle part of the second drainage channel 24a (downstream part piped outside the collection tank unit 14). . When the circulation pump 10 is driven, the motor 25 closes the motor-operated valve 26 and blocks the second drainage channel 24a. Further, the motor 25 opens the electric valve 26 and opens the second drainage channel 24a when the circulation pump 10 is stopped. After the motor 25 has opened the second drainage channel 24a, the elapsed time counted by a timer (not shown) is sufficiently discharged for a predetermined time (floating matter floating in the hot water in the collection tank 14 is sufficiently discharged. If it exceeds the time), the motor-operated valve 26 is automatically closed to block the second drainage channel 24a.

  In addition, a bypass drainage channel 24b connected to the first drainage channel 20a is provided in the middle of the second drainage channel 24a (upstream part piped inside the collection tank unit 14). The bypass drainage channel 24b is provided with a manual valve 27 that is manually opened and closed. The manual valve 27 is always closed regardless of whether the circulation pump 10 is driven or stopped, and seals the bypass drainage channel 24b.

Further, in the above configuration, the collection tank 14 of the bottom forming connection port 28 via the communicating pipe 29 and valve 30, the water level sensor over 31 functioning as water gauge is connected. Here it is communicated through the communicating pipe 29 to the interior of the inner and the recovery tank portion 14 of the water level sensor over 31. Therefore, changes in conjunction to the hot water in the water level of the hot water of the water level of the water level sensor over 31 in the collection tank 14. Water level Sensor 31, by detecting the hot water in the water level of the water level sensor over 31 by the water level sensor over from above in the interior of the six different lengths extend below 31 electrode rod 31a to 31f, the collecting tank The water level in the part 14 is detected. Then, the water level Sensor 31, in accordance with the detected water level, sends a signal to start signal or hot water for stopping the hot water supply to supply hot water 32, from the supply water 32 to the inlet tub 15 Hot water supply (see arrow D in the figure) is stopped or started.

  Moreover, in the above-described configuration, the filtration device 11 has a backwash function. This backwashing function is a function of removing contaminants collected on the filter medium together with hot water and discharging them. If it demonstrates concretely, in the filtration apparatus 11, at the time of backwashing, the valve in the filtration apparatus 11 will switch, and the flow of the hot water in a filter medium will become the reverse direction at the time of normal time (at the time of circulation filtration). In addition, the motor-operated valve 33 provided in the backwash pipe 8a that connects the suction port 6 at the bottom of the bathtub portion 15 and the upstream part of the pipe 8 (in this case, the part upstream of the hair catcher 9) is a motor. When it is automatically opened by 34, hot water in the bathtub portion 15 is sent from the suction port 6 to the filtration device 11. The sent hot water flows in the reverse direction through the filter medium, so that the filter medium is backwashed, and contaminants and the like accumulated in the filter medium are discharged from the discharge pipe 11a together with the hot water.

Next, the operation of the above configuration will be described.
When the bather enters the bath tub portion 15, the hot water level in the bath tub portion 15 increases accordingly, and the amount of hot water flowing from the bath tub portion 15 into the recovery bath portion 14 increases. The space in 14 increases or decreases according to the number of bathers in the bathtub portion 15 (in proportion). In this case, as described above, since the height (H1) of the partition plate 13 that partitions the bathtub portion 15 and the recovery tank portion 14 is formed lower than the height (H2) of the tank body 2, the bathtub portion Even if the water level in 15 is higher than the height of the partition plate 13, the hot water does not flow out of the bath body 2 from the bath tub portion 15, but exceeds the partition plate 13 from the bath tub portion 15. In other words, it is discharged into the recovery tank section 14, that is, is recovered into the recovery tank section 14 as overflow water overflowing from the bathtub portion 15. At this time, the floating matter floating in the hot water in the bathtub portion 15 is also collected into the collection tank portion 14 together with the overflow water (see arrow E in the figure). Even when there is no bather in the bathtub portion 15, the hot water in the bathtub portion 15 overflows into the recovery tank portion 14, and the suspended matter does not stay in the bathtub portion 15 and is clean. And hygienic.

  On the other hand, in the lower layer of the bathtub portion 15, a water flow is formed in the direction from the bathtub portion 15 toward the recovery tank portion 14 mainly by hot water jetted from the jet outlets 4 and 5 (see arrow C in the figure). And, regardless of whether or not the bather has entered the bathtub portion 15 by such a water flow, the hot water in the bathtub portion 15 (especially the hot water at the bottom in the tank of the bathtub portion 15) is transferred to the bathtub portion. 15 will flow out into the collection tank 14 through the communication port 16, that is, it will be collected in the collection tank 14. At this time, the sediment that is sinking in the lower layer of the bathtub portion 15 also flows out into the collection tank portion 14 together with this water flow and is collected.

  And the hot water collected in the collection tank part 14 is circulated in the circulation path 3 by the circulation pump 10, so that hair, towel scraps and the like are removed by the hair catcher 9, and contaminants etc. are removed by the filtration device 11. Is removed and heated to a predetermined temperature by the heat exchanger 12, and then returned to the bathtub portion 15 from the jet nozzles 4 and 5.

  Further, when the opening area of the communication port 16 is adjusted to be small by the valve 18, the outflow amount of hot water (see arrow C in the figure) flowing out from the bathtub portion 15 into the collection tank portion 14 through the communication port 16 is reduced. Accordingly, the amount of overflow water (see arrow E in the figure) recovered from the bathtub portion 15 over the partition plate 13 and into the recovery tank portion 14 increases. On the other hand, when the opening area of the communication port 16 is greatly adjusted by the valve 18, the amount of hot water flowing out from the bathtub portion 15 into the collection tank portion 14 through the communication port 16 increases. Therefore, the amount of overflow water exceeding the partition plate 13 is reduced.

  Moreover, when a large number of bathers enter the bathtub portion 15 all at once, the amount of hot water flowing out of the bathtub portion 15 over the partition plate 13 and into the collection tank portion 14 increases all at once. The level of hot water in the section 14 is also increased at the same time. In this case, as described above, the first drain port 20 provided in the grating 19 is held at a height lower than the height of the partition plate 13. Therefore, when the water level reaches the height (H3) of the first drain port 20, the hot water in the recovery tank unit 14 does not flow backward to the bathtub portion 15 beyond the partition plate 13, but first. The drainage port 20 is drained together with suspended matter to the outside of the collection tank unit 14 (see arrow F in the figure). Note that when the circulation pump 10 is driven (when the circulation filtration system 1 is in operation), the second drainage channel 24 a communicating with the second drainage port 24 is blocked by the motor-operated valve 26, so that the recovery tank unit The hot water collected in 14 is not drained from the second drain port 24.

Next, a design example in the case of applying the circulation filtration system 1 having the above configuration to a large bathtub that is installed in, for example, a super public bath will be described.
First, the area S1 (bottom area) of the bathtub portion 15 will be described. The area S1 of the bathtub part 15 is calculated | required by Formula (1) shown next.
Bathing area S1 = [Capacity of bathing area] x [Area where bathing person occupies bathing area] (1)

  Here, generally, when bathers take a large number of people, the minimum necessary area per bather is at least 1 square meter. Therefore, for example, when providing the bathtub part 15 for 10 persons, the area S1 of the bathtub part 15 calculated | required by Formula (1) will be 10 square meters.

Next, when the number of bathers in the bath portion 15 is a capacity (in this case, 10 people), the amount of hot water that overflows from the bath portion 15 (the overflow water amount V at the time of bathing capacity) is calculated. The overflow water amount V at the time of bathing is determined by the following equation (2).
Overflow amount at bathing capacity V = [Volume that one bather occupies the bathing area] × [Number of bathers] (2)

  Here, the volume that one bather occupies the bath tub portion 15, that is, the outflow amount of hot water overflowing from the bath tub portion 15 as one bather bathes is 50 liters (0.05 cubic meters). Assuming that the amount of overflow water V obtained by the equation (2) is 500 liters (the amount of hot water flowing out when ten persons bathing in the bathtub portion 15 take a bath).

  Here, the circulation filtration system 1 having the above-described configuration is used in view of recovering and reusing the hot water that has been overflowing and draining outside the tank body 2 from the bathtub portion 15 into the recovery tank portion 14. It was developed based on this. Therefore, in order to reuse hot water overflowing from the bathtub portion 15 without waste, a space having a volume corresponding to at least the overflow water amount V (in this case, 500 liters) at the time of bathing is used when the circulating filtration system 1 is operated. It is necessary to form in the collection tank part 14. Next, a design example for forming a space having a volume corresponding to the overflow water amount V in the collection tank portion 14 during the operation of the circulating filtration system 1 will be described.

In circulation filtration system 1 having the above configuration, a state in which the operation of the circulation filtration system 1 is stopped, ie upon state shape hot water circulating pump 10 is stopped is not circulated, the second water outlet 24 second drainage 24a which is connected, Ru Tei is opened by an electric valve 26. Therefore, when stopping the operation of the circulation filtration system 1, hot water in the recovery tank 14, when the water level reaches the height of the second water outlet 24 (H4), said second water outlet 24 is drained (see arrow G in the figure). In addition to the drainage from the second drainage port 24, floating substances floating in the hot water in the collection tank unit 14 are automatically discharged from the second drainage port 24.

The hot water in the collection tank 14 is drained from the second drain port 24, so that the water level (W) in the bathtub section 15 and the collection tank 14 under the condition that the operation of the circulation filtration system 1 is stopped, in other words, If it does so, the water level (W) in the tank main body 2 which consists of these tanks of the bathtub part 15 and the collection tank part 14 will be the height position (H4) of the 2nd drainage port 24. That is, in a state where the operation of the circulation filtration system 1 is stopped, the water level of hot water stored in both the bathtub portion 15 and the collection tank portion 14 is finally equal to the height position of the second drainage port 24. Become. The motor-operated valve 26 serving as a drain valve is automatically closed based on the elapsed time by a timer after the suspended matter in the collection tank unit 14 is sufficiently discharged. And before the filtration operation is started, hot water is automatically replenished into the tank body 2 (in the bathtub portion 15) from the replenishing hot water device 32 based on the water level detected by the water level sensor 31, and is necessary before the filtration operation. The water level is restored.

  From this state, when the circulating filtration system 1 is operated (the circulation pump 10 is driven) and the opening / closing amount of the valve 18 is adjusted to adjust the amount of hot water flowing out through the communication port 16 to be small, the hot water in the recovery tank section 14 is adjusted. Is gradually moved into the bathtub portion 15 through the circulation path 3 (see arrows A and B in the figure). Thereby, the water level in the collection tank part 14 falls gradually, and the water level in the bathtub part 15 comes to rise gradually by that much. Then, the final water level in the bathtub portion 15 during operation of the circulation filtration system 1 (the water level during operation) reaches the height (H1) of the partition plate 13, and thereby the hot water in the upper layer of the bathtub portion 15. However, it will be in the state which overflows continuously (always) to the collection tank part 14 side. On the other hand, a hot water / moisture space that has moved to the bathtub portion 15 is formed in the collection tank section 14, thereby allowing hot water (overflow water) overflowing from the bathtub section 15 into the collection tank section 14 to be collected. It becomes. In order to achieve such a state, the operating conditions of the circulating filtration system 1 (for example, the level of hot water in the bathtub portion 15 during operation or the total amount of hot water to be circulated) must be changed. It is sufficient to do this once. Further, when the operating conditions are changed, adjustments may be made as appropriate.

Thus, during operation of the circulating filtration system 1, a hot water / moisture space moved to the bathtub portion 15 is formed in the collection tank portion 14. Therefore, a space having a volume corresponding to the overflow water amount V (500 liters in this case) obtained by the above formula (2) in the bathing capacity is efficiently formed in the collection tank unit 14 during the operation of the circulation filtration system 1. For this purpose, a space having a volume corresponding to the overflow water amount V may be formed in the bathtub portion 15 in a state where the operation of the circulation filtration system 1 is stopped.

Here, since the area S1 of the bathtub portion 15 is designed to be 10 square meters in this case based on the formula (1), a space having a volume corresponding to the overflow water amount V when the bathtub portion 15 is in the capacity bathing. In order to form, it is necessary to design by adjusting the difference D between the height of the partition plate 13 and the water level in the bathtub portion 15 in a state where the operation is stopped. This difference D is obtained by the following equation (3).
The difference between the height of the partition plate and the water level when the operation is stopped D = [volume of the space formed in the bathtub portion] / [area of the bathtub portion] (3)

  In this case, the volume of the space formed in the bathtub portion 15 is 500 liters corresponding to the overflow water amount V at the time of bathing, and the area S1 of the bathtub portion 15 is 10 square meters. The difference D is 50 millimeters.

Here, as described above, the water level of the incoming tub portion 15 in a state where the operation is stopped is determined by the height of the second water outlet 24 (H4). Accordingly, the height of the partition plate 13, for example in case of designing from the bottom of the recovery tank 14 at 600 mm, the second water outlet which determines the water level of the incoming tub portion 15 in a state where the operation is stopped 24 the height from 50 mm slightly lower height than the partition plate 13, i.e., it may be designed to be disposed in slightly lower height than 550 mm from the bottom of the collection tank 14.

Thereby, under the state where the operation of the circulation filtration system 1 is stopped , a space having a volume corresponding to the overflow water amount V at the time of the bathing capacity is formed in the bathtub portion 15. A space having a volume corresponding to the overflow water amount V in the capacity bathing is formed in the portion 14. As a result, during operation of the circulating filtration system 1, hot water corresponding to the overflow water amount V at the time of capacity bathing can be recovered in the recovery tank section 14.

  By the way, when the number of bathers in the bathtub portion 15 exceeds the capacity (in this case, 10 people), hot water exceeding the overflow water amount V at the time of the capacity bathing flows into the collection tank portion 14. That is, for example, when 12 people bathe in the bathing section 15 for 10 people, 600 liters of hot water exceeding the overflow water amount V (500 liters) at the time of bathing will flow into the collection tank 14. .

Here, during operation of the circulation filtration system 1, the second drainage channel 24 a connected to the second drainage port 24 is closed by the electric valve 26. Therefore, when hot water exceeding the overflow water amount V at the time of bathing in the capacity flows into the recovery tank section 14, the excess hot water cannot be drained from the second drainage port 24. However, in the circulation filtration system 1 having the above-described configuration, even when the circulation filtration system 1 is in operation at a position slightly higher than the second drainage port 24 and lower than the height of the partition plate 13. The first drain port 20 is provided so that hot water can be drained even after the operation is stopped . Accordingly, even during operation of the circulating filtration system 1 that cannot discharge hot water from the second drain port 24, hot water can be drained from the first drain port 20, and the bathtub portion 15 from the recovery tank portion 14. It is possible to prevent the hot water from flowing back into the tub and maintain the hot water in the bathtub portion 15 in a sanitary manner.

By the way, when the total amount of hot water circulated in the circulation filtration system 1 is reduced by the drainage from the first drain port 20 as described above, the amount of hot water stored in the bathtub portion 15 is reduced. It becomes difficult for overflow water to flow out of the bathtub portion 15. Further, along with this, the amount of hot water in the collection tank section 14 is reduced, and the water level in the collection tank section 14 is hardly raised. However, the circulation filtration system 1 having the above configuration is provided with a water level sensor over 31 for detecting the hot water level in the collection tank 14, the predetermined low water level is detected by the water level sensor over 31, replenishing water Hot water is newly supplied from the vessel 32 (see arrow D in the figure). With such a configuration, old hot water is drained and new hot water is supplied to the circulation filtration system 1 as a whole. In addition, the hot water supplied from the hot water supply device 32 allows sufficient hot water to be stored in the bathtub portion 15, so that the hot water overflows from the upper layer of the bathtub portion 15 into the collection tank portion 14. The clean state can be restored immediately.

  As described above, by designing each part of the circulating filtration system 1 based on predetermined conditions, when the number of bathers is less than the capacity, the overflow water can be reused, while the number of bathers When the capacity exceeds the capacity, the overflow water for the number of persons exceeding the capacity can be replaced with new hot water.

  Now, the volume of the above-mentioned collection tank section 14 is determined by appropriately designing the arrangement position, height dimension, etc. of the partition plate 13. Here, one design example of the collection tank unit 14 will be described in more detail.

  In the configuration in which the circulating pump 10 is used to circulate hot water like the circulating filtration system 1 having the above configuration, a vortex is generated in the hot water by the suction force of the circulating pump 10, and air is supplied to the circulating pump 10. May be inhaled. When air is sucked into the circulation pump 10, the circulation function of the circulation pump 10 is impaired. Therefore, in order to prevent the generation of such vortices, it is necessary to secure a certain level of hot water in the recovery tank section 14 while forming a space in the recovery tank section 14 as described above.

  Here, when this inventor uses the pump which has a big suction | attraction force for circulating the hot water of a large bathtub as the circulation pump 10, if a water level is about 130 millimeters or more, it will not produce a vortex. Find out experimentally. Therefore, when a space having a volume corresponding to the overflow water amount V (500 liters) at the time of bathing is formed in the recovery tank section 14 as described above, the hot water level in the recovery tank section 14 is 130 mm. It is necessary to design the collection tank 14 so as to ensure the degree.

Here, the height (H 1) of the partition plate 13, the disposition position (H 3) of the first drain port 20, the disposition position (H 4) of the second drain port 24, etc. are in the collection tank unit 14. It is designed to form a space with a volume corresponding to the overflow water amount V during the bathing of a capacity. Therefore, here, by designing the area S2 (bottom area) of the recovery tank section 14, the water level of the hot water in the recovery tank section 14 is secured. The area S2 of the recovery tank unit 14 is obtained by the following equation (4).
Area S2 of the collection tank section = [volume of space formed in the collection tank section] / ([second drain outlet height] − [water level in the collection tank section to be secured]) (4)

  In this case, the volume of the space formed in the collection tank unit 14 is 500 liters, the height of the second drainage port 24 is 550 mm from the bottom of the collection tank unit 14, and the water level in the collection tank unit 14 to be secured Is 130 millimeters, the area S2 of the recovery tank portion 14 obtained by the equation (4) is approximately 1.2 square meters.

  Therefore, by designing the area S2 of the recovery tank 14 to be 1.2 square meters (in this case, about 12% of 10 square meters, which is the area S1 of the bathtub 15), the recovery tank 14 overflows when the capacity is bathed. When a space having a volume corresponding to the amount of water V is formed, the water level in the recovery tank section 14 is secured to some extent (in this case, about 130 millimeters or more). Thereby, it is prevented that air is sucked into the circulation pump 10 and the circulation function of the circulation pump 10 is impaired.

Next, the economic effect obtained by the circulation filtration system 1 having such a configuration will be described with specific numerical values.
Generally, there are at least five bathtubs in each bathroom for men and women in a super public bath. For example, “normal hot water bath”, “hot spring bath”, “water bath”, “bubble bath” ”,“ Yakuyu ”and many other types of baths are available. And a bather usually takes a bath several times by repeatedly bathing in a favorite bath among many kinds of baths or bathing in different kinds of baths in order.

Here, on the assumption that one bather takes a bath on average three times, the configuration in which the present invention is not applied, that is, the configuration in which all the hot water overflowing from the bath tub is drained (the configuration in which the overflow water is not reused). The annual amount of wastewater, the sewerage charge for this amount of drainage, and the fuel fee for this amount of wastewater are calculated under the following conditions.
・ The amount of hot water discharged per bather = 0.05 [cubic meter / person] (see above)
・ Number of bathers per day = 1,500 [person / day]
・ Sewer usage per cubic meter of water = 200 [yen / cubic meter]
-Temperature of water (well water) before heating = 17 [° C]
-Suitable temperature for hot water in the bathtub = 42 [℃]
・ Charge per liter of special A heavy oil = 45 [yen / liter]
-Calorific value per liter of special A heavy oil = 8,773 [kcal / liter]
(= 42,700 [kj / kg])
・ Boiler efficiency = 88 [percent]

The annual amount of wastewater calculated under these conditions is
Annual drainage = 0.05 [cubic meter / person] x 1,500 [person / day] x 3 [times]
× 365 [Sun]
= 82,125 [cubic meter / year]
It is.

And the sewerage charge for this amount of wastewater is
Sewerage charges = 82,125 [cubic meter / year] x 200 [yen / cubic meter]
= 16,425,000 [yen / year]
Is calculated as

The fuel charge for this amount of wastewater is
Fuel charge = 82,125,000 [liter / year] x 45 [yen / liter]
× (42 [° C.] − 17 [° C.]) / (8,773 [kcal / liter]
× 88 [percent]
≒ 11,967,325 [yen / year]
Is calculated as

As described above, in the configuration in which all of the hot water overflowing from the bath tub is drained (a configuration in which the overflow water is not reused), the sewage fee and the combustion fee require tens of millions of yen per year.
On the other hand, according to the configuration of the circulating filtration system 1 to which the present invention is applied, since it is a configuration that reuses all hot water (overflow water) that has been drained in the past, it is calculated as described above. Costs of tens of millions of yen can be eliminated, and resource saving, cost reduction, and energy saving can be greatly expected.

  As described above, according to the circulation filtration system 1 of the present embodiment, since the hot water collected in the collection tank unit 14 including the overflow water is reused, resource saving is achieved by saving water resources. The cost can be reduced by reducing water charges. In addition, the overflow water, which is a temperature close to the optimum temperature, can be reused by heating to a predetermined temperature, and it is not necessary to heat the low temperature water to the predetermined temperature, thereby saving energy.

  In addition, according to the circulation filtration system 1 of the present embodiment, the flow amount of hot water through the communication port 16 can be adjusted by the valve 18, so if the flow amount is adjusted to a small amount, the partition plate 13 is exceeded accordingly. On the other hand, if the amount of overflow water increases, the amount of overflow water exceeding the partition plate 13 decreases correspondingly if the amount of outflow is adjusted to be large. In this way, the amount of overflow water can be adjusted by adjusting the outflow amount of hot water through the communication port 16, and the overflow water can be adjusted and recovered in an amount desired by the user.

  Moreover, according to the circulation filtration system 1 of this embodiment, if the number of bathers is below a capacity, hot water can be appropriately collect | recovered from the bathtub part 15 to the collection tank part 14, and in the collection tank part 14 The collected hot water is continuously circulated and reused without being drained to the outside. Moreover, in the upper layer of the bathtub part 15, since hot water continuously overflows into the collection tank part 14, the floating substance floating in the upper layer of the bathtub part 15 can always be collected in the collection tank part 14. . And according to the flow of the hot water in the upper part of the bathtub part 15 like this, a clean feeling can be given to the bather even in appearance.

  Moreover, in the lower layer of the bathtub portion 15, the sediment that has settled on the bottom portion of the bathtub portion 15 through the communication port 16 can always be collected in the collection tank portion 14. That is, according to the circulation filtration system 1 of the present embodiment, the bottom portion of the bathtub portion 15 and the bottom portion of the recovery tank portion 14 in the bottom portion of the partition plate 13 located in the vicinity of the bottom surface of the tank body 2. Since the communication port 16 is provided for communication, the suspended matter floating in the hot water of the bathtub portion 15 is not only collected in the collection tank portion 14, but also the sediment sinking to the bottom of the bathtub portion 15 is removed. Can also be recovered in the recovery tank section 14.

  Moreover, according to the circulation filtration system 1 of this embodiment, even if the number of bathers in the bathtub portion 15 exceeds the capacity, the hot water for the capacity exceeding the capacity is drained from the first drain port 20. And the backflow of the hot water from the collection tank part 14 to the bathtub part 15 can be prevented, and the hot water in the bathtub part 15 can be maintained hygienically.

  That is, if the number of bathers in the bathtub portion 15 does not exceed the capacity, the floating matter floating in the upper layer of the bathtub portion 15 is collected without supplying hot water in the bathtub portion 15. It can always collect | recover in the tank part 14, and the deposit currently settled in the bottom part of the bathtub part 15 can also be always collect | recovered by the collection tank part 14. FIG. Therefore, the circulation filtration system 1 of the present embodiment is superior in hygiene and economically than the conventional configuration.

  Moreover, in the circulation filtration system 1 of this embodiment, the collection tank part 14 which bears the function equivalent to the collection tank of a conventional structure is integrated with the bathtub part 15 by partitioning a part in the tank main body 2 with the partition plate 13. It is structured. Therefore, by temporarily removing the grating 19, cleaning and maintenance in the collection tank portion 14 can be easily performed in the same manner as cleaning the tank body 2 (the bathtub portion 15). That is, unlike the conventional configuration in which the collection tank is installed at a position away from the bathtub (such as a machine room), the labor required for cleaning and maintenance of the collection tank unit 14 can be significantly reduced. Thereby, troubles, such as Legionella bacteria generating in recovery tank part 14, can be prevented easily, and more sanitation circulation filtration and reuse of hot water can be performed.

  Furthermore, in the conventional configuration, a recovery pump for sending hot water in the recovery tank installed in the machine room to the filtration device has to be provided separately from the circulation filtration pump (circulation pump 10). In the circulation filtration system 1 of this embodiment, such a recovery pump can be dispensed with.

  Further, according to the circulation filtration system 1 of the present embodiment, in the collection tank section 14, the height is lower than the height of the partition plate 13, and the surface is substantially horizontal with the upper end surface of the partition plate 13. A first drainage port 20 for draining hot water in the collection tank unit 14 to the outside of the collection tank unit 14 through the first drainage channel 20a was provided at a near height position. Therefore, when the water level reaches the first drain port 20, the hot water in the collection tank unit 14 is drained from the first drain port 20 to the outside of the recovery tank unit 14. Thereby, it can prevent that the hot water collected in the collection tank part 14 flows backward into the bathtub part 15 over the partition plate 13, and keeps the hot water in the bathtub part 15 hygienic. Can do.

Moreover, according to the circulation filtration system 1 of the present embodiment, the height of the upper portion of the recovery tank section 14 is a height position lower than the first drain port 20 in the recovery tank section 14. in position, a second drain port 24 for draining hot water in the collection tank 14 to the outside of the second recovery reservoir 14 through the drain passage 24a, when the operation is stopped, in the collection tank 14 The suspended matter was configured to flow out of the circulating filtration system 1 together with hot water. Further, according to the circulation filtration system 1 of the present embodiment, the motor-driven valve 26 that closes the second drainage channel 24a when the circulation pump 10 is driven and opens the second drainage channel 24a when the circulation pump 10 is stopped is provided. Therefore, when the circulation pump 10 is driven, that is, in a state in which hot water circulation filtration is performed (when hot water circulation filtration is performed by the circulation filtration system 1), the second drainage passage 24a is closed. The hot water in the recovery tank section 14 is not discharged from the second drain port 24, and as much hot water as possible in the recovery tank section 14 (the first drainage located at a position higher than the second drain port 24). The amount of water up to the height of the mouth 20) can be recovered. On the other hand, when the drive stop of the circulation pump 10, i.e., in the state in which hot water circulation filtration is stopped, since the second drain passage 24a is opened, hot water in the collection tank 14 is the second wastewater The water is drained from the mouth 24. Along with this drainage, floating matter floating in the hot water in the collection tank 14 is also discharged from the second drainage port 24. Thus, when the circulation pump 10 is driven stop (circulation filtration system 1 is shut down) automatically be discharged from the second discharge port 24 together with the hot water suspended solids floating on hot water in the collection tank 14 And the inside of the collection tank 14 can be maintained in a sanitary manner.

  Thus, according to the circulation filtration system 1 of the present embodiment, it is possible to more sanitarily realize resource saving, cost reduction, and energy saving by reusing the overflow water.

  In addition, since the manual valve 27 that is manually opened and closed is provided in the bypass drainage channel 24b that connects the second drainage channel 24a and the first drainage channel 20a, the motor-operated valve 26 is temporarily broken. In addition, the second drainage channel 24a can be opened to the first drainage channel 20a by the manual valve 27, so that the drainage function by the second drainage port 24 and the discharge function of floating substances can be functioned without impairing. it can. That is, in this case, the manual valve 27 functions as an auxiliary on-off valve for the motor-operated valve 26.

  The first drain port 20 provided in the circulation filtration system 1 drains hot water to the outside of the recovery tank unit 14 when the water level in the recovery tank unit 14 does not reach the first drain port 20. On the contrary, the hot water is drained to the outside of the recovery tank section 14 only when the level of the hot water in the recovery tank section 14 reaches the first drain port 20. That is, the first drain port 20 drains hot water to the outside of the recovery tank unit 14 on the condition that the level of the hot water in the recovery tank unit 14 reaches the first drain port 20.

  Thereby, when the water level of the hot water in the collection tank part 14 does not reach the first drain port 20, the state in which a space is formed in the collection tank part 14 can be maintained. The hot water can be collected and reused.

  Further, the first drain port 20 drains the hot water in the recovery tank section 14 to the outside of the recovery tank section 14 before reaching the height of the partition plate 13, thereby allowing the bathtub section to enter the bathtub section. This prevents the backflow of hot water to 15. That is, for example, even when a large number of bathers bathe in the bath tub portion 15 all at once and the amount of hot water flowing out from the bath tub portion 15 to the recovery bath portion 14 increases rapidly, the recovery bath portion The amount of hot water that has exceeded the volume of the space formed in 14 can be discharged to the outside through the first drain port 20, and the reverse flow of hot water from the collection tank portion 14 to the bathtub portion 15 can be prevented. Therefore, the hot water in the bathtub portion 15 can be kept hygienic.

  In short, the first drain port 20 disposed at a position that is lower than the height of the partition plate 13 and close to the upper surface of the partition plate 13 in the collection tank section 14 receives as much hot water as possible. A sufficient volume of the space formed in the recovery tank section 14 for recovery is secured, and the backflow of hot water from the recovery tank section 14 to the bathtub section 15 is prevented to sanitize hot water in the bathtub section 15. It was prepared for the purpose of maintaining it.

  In addition, the second drainage port 24 provided in the circulation filtration system 1 is closed during operation of the circulation filtration system 1 and cannot be drained. It has no effect on removal. However, since the second drainage port 24 is opened and can be drained when the circulation filtration system 1 is not in operation, it acts to remove hot water drainage in the collection tank section 14 and floating matters associated with the drainage. To do.

In short, the second drainage port 24 that is lower than the first drainage port 20 in the collection tank unit 14 and disposed at the height position of the upper portion of the collection tank unit 14 is provided in the circulation filtration system 1. operation automatically ejected and suspended solids floating on hot water recovery tank portion 14 when stopping, thereby, for example, and if not if done long-term cleaning and maintenance of the collection tank 14, It is provided for the purpose of maintaining the inside of the collection tank 14 in a sanitary manner even when overflowing water contaminated more than usual flows into the collection tank 14 due to a large number of people taking a bath in a short period of time. .

  Note that the first drain port 20 and the second drain port 24 are arranged not on the lower side portion of the recovery tank portion 14 but on the upper side portion of the recovery tank portion 14. On the other hand, the communication port 16 is arranged not in the upper part of the collection tank part 14 but in the lower part of the collection tank part 14. That is, the first drainage port 20 and the second drainage port 24 and the communication port 16 are arranged apart from each other above and below the recovery tank section 14, and their arrangement positions and functions are completely different. Is.

The first discharge port 20 is intended to act primarily during operation of the circulation filtration system 1, a second water outlet 24 is one that acts after the primarily operation of the circulation filtration system 1 has suspended. Thus, the first drain port 20 and the second drain port 24 have completely different configurations and functions.

  In addition, by providing the first drain port 20 and the second drain port 24 as described above, it is possible to easily discharge the floating matter that is difficult to remove by the filtration device 11 to the outside of the tank body 2 and remove it. It is possible to keep the inside of the collection tank section 14 and thus the tank body 2 clean and hygienic.

In addition, this invention is not limited only to one Embodiment mentioned above, For example, it can deform | transform or expand as follows.
The second drain port 24 may be detachably provided, for example, by being hooked on the inner wall surface of the collection tank unit 14 (the inner wall surface 2c of the tank body 2) by a hook member or the like. In this case, all or part of the second drainage channel 24a (at least a part piped in the collection tank part 14 or a part thereof) is formed in, for example, a bellows shape and has a flexibility and a stretchability. It is good to comprise. According to such a configuration, the operator can remove the second drainage port 24 and move the second drainage port 24 to a portion of the collection tank unit 14 where there is a particularly large amount of suspended matter. Things can be made easier to remove.

  In addition, the shape of the first drain port 20 is not limited to the shape shown in the figure (the shape in which the upper part is open and the lower part is in an arc shape or a hemispherical shape), and is appropriately changed and implemented. be able to.

  Further, the shape of the second drainage port 24 is not limited to the shape as shown in the figure (rectangular container shape with an open top), and for example, is formed in a groove shape or a tubular shape like a ridge. It can be implemented with appropriate modifications.

  As the on-off valve, only the manual valve 27 may be provided without providing the electric valve 26. Thereby, the circulation filtration system 1 can be comprised, without using the expensive motor operated valve 26, and cost can be held down.

  The outflow amount adjusting means is not limited to adjusting the outflow amount by opening and closing the valve 18. For example, the outflow amount adjusting means is provided with an opening cover plate for adjusting the opening area of the communication port 16 at the communication port 16. You may make it provide in a dam shape. In this case, for example, the opening lid portion may be provided with a support plate that is long in the vertical direction at the communication port 16 and attached to the support plate so as to be slidable in the vertical direction. Furthermore, it is good to provide the fixing member (for example, screw etc.) for fixing the slidable opening cover part in the said slide position.

  The present invention can be applied to, for example, a small bathtub for home use as well as a large bathtub installed in a super public bath. The present invention is applicable not only to so-called bathtubs but also to swimming and swimming pools, for example. In short, the present invention can be applied to all systems configured to circulate and filter hot water or water in the tank body.

  In the drawings, 1 is a circulation filtration system, 2 is a tank body, 4 and 5 are jet outlets, 7 is a suction port, 10 is a circulation pump (pump), 11 is a filtration device, 12 is a heat exchanger, 13 is a partition plate, 14 is a recovery tank section, 15 is a bathtub section, 16 is a communication port, 18 is a valve (outflow amount adjusting means), 20 is a first drain port, 20 a is a first drain channel, and 24 is a second drain port. , 24a denotes a second drainage channel, and 26 denotes an electric valve (open / close valve).

Claims (2)

A tank body having a suction port and a jet outlet, a filtration device for filtering hot water, a heat exchanger for heating the hot water, and a pump for circulating hot water are provided, and the hot water in the tank body is circulated by the pump. As a result, hot water in the tank body is sent from the suction port to the filtration device, filtered by the filtration device, heated to a predetermined temperature by the heat exchanger, and returned from the jet port to the tank body. In the circulating filtration system
Forming a collection tank part having the suction port and a bathtub part having the jet port by partitioning a part in the tank body, the upper end thereof is formed lower than the upper end of the tank body, A partition plate formed at the lower end thereof with a communication port communicating the bottom in the bath of the bathtub portion and the bottom of the recovery tank in the bath;
Outflow amount adjusting means for adjusting the outflow amount of hot water flowing out from the bathtub portion to the recovery tank portion through the communication port;
The recovery tank section is disposed at a position lower than the height of the partition plate in the recovery tank section and close to a substantially horizontal surface with the upper end surface of the partition plate, and the recovery tank section passes hot water in the recovery tank section through a first drainage channel. A first drain configured to be drained to the outside of the
It is lower than the first drain outlet in the collection tank section and is disposed in an upper part of the collection tank section, and the hot water in the collection tank section is passed through a second drainage channel to the outside of the collection tank section. A second drain outlet configured to be drainable to
An on-off valve that closes the second drainage channel when the pump is driven and opens the second drainage channel when the pump is stopped. The bottom of the collection tank is provided lower than the bottom of the bathtub portion,
The circulating filtration system according to claim 1, wherein the outflow amount adjusting means is configured by a valve extending downward from the communication port.

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