JP2007162375A - Circulating filtration system for pool - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize reduction of cost by decreasing operation power of a circulating pump and decreasing electric power consumption amount. <P>SOLUTION: The circulating filtration system is provided with an overflow circulating path 20 which circulates and filters overflow water of a pool 1 through a second circulating pump 40 and a filtering device 41. The overflow circulating path 20 has a first circulating system R1 which makes the overflow water to flow in an overflow water container 23 once and pumps up the flowed-in stored water by the second circulating pump 40 and returns it to the pool 1 and a second circulating system R2 which prevents the overflow water from flowing in the overflow water container 23 by bypassing the overflow water container 23. In addition the second circulating system R2 is used during circulating filtration, and the first circulating system R1 is used for a specified time after commanding the start of circulating filtration. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an overflow-type circulation filtration system used for a pool.

In recent years, in circulation filtration systems used in pools, there are an increasing number of cases where an overflow-type pool filtration system is installed due to demands for improving the filtration performance of the pool and improving the transparency of the filtered water (Patent Literature). 1).
Patent Document 1 is a circulation filtration system provided with a constant circulation path and an overflow circulation path. The overflow water of the pool is taken in from a circulation inlet provided around the upper surface of the pool, and once flows into the overflow water tank. The stored water is pumped up by a circulation pump, passed through a filtration device, and returned to the pool again. The stored water in the overflow water tank is pumped up by a circulation pump so that the water level in the pool becomes a predetermined water level.
JP 2002-70349 A

  However, in the conventional overflow-type circulation filtration system, the overflow water is generally allowed to flow into the overflow tank by natural flow without using a pump. It is installed so that the surface of the stored water consisting of When the circulation filtration is performed using the overflow circuit, all the water returned to the pool, that is, the circulated water is pumped from the overflow water tank using the circulation pump. For this reason, the circulation pump always takes an actual lifting height from the surface of the stored water to the pool surface. Therefore, there is a problem that the load on the circulation pump is increased and the operation time of the circulation pump is long, so that the amount of electric power used for the circulation filtration is increased and the cost of electricity is increased.

  The present invention has been made in view of the above-described problems, and provides a pool circulation filtration system that reduces the operating power of a circulation pump and reduces the amount of power used to reduce the cost. For the purpose.

In order to achieve the above object, the pool filtration system according to the present invention is a pool filtration system for circulating and filtering pool overflow water through a circulation pump and a filtration device. By flowing naturally from the inlet, it flows into the overflow water tank once, and the stored water stored in the overflow water tank is pumped up by the circulation pump and returned to the pool, and the overflow water is circulated without passing through the overflow water tank. A second circulation system that sucks in the circulation pump from the inlet and returns it to the pool. Use the second circulation system when performing circulation filtration, and use the first circulation system for a certain period of time after the start command for circulation filtration. It is characterized by doing so.
In the present invention, the actual lift of the circulation pump when performing circulation filtration using the second circulation system is the height from the water surface located at the circulation inlet forming the suction water surface to the water surface of the pool forming the discharge water surface. On the other hand, the actual head of the circulation pump when using the first circulation system is the height from the surface of the stored water in the overflow tank to the surface of the pool. Since the overflow water flows into the overflow tank by naturally flowing down from the circulation inlet without using a pump or the like, the water level of the stored water in the overflow tank is lower than the water level of the circulation inlet. Therefore, the circulation pump when the second circulation system is used can be operated with a lower actual head than when the first circulation system is used, and the load applied to the circulation pump can be reduced.
In addition, since the second circulation system sucks overflow water from the circulation inlet using a circulation pump, there is no water to circulate when the circulation filtration is not overflowed. The filtration operation cannot be started. Therefore, for a certain period of time after the start command of the circulation filtration, the water in the pool can be overflowed by using the first circulation system to pump the stored water with the circulation pump and sending it into the pool.

In the circulation filtration system for a pool according to the present invention, the second circulation system bypasses the overflow water tank, passes through the bypass pipe branched from the first pipe connecting the circulation inlet and the overflow water tank, and overflows. It is preferable to join the second piping connected to the circulation pump from the water tank.
In the present invention, the first circulation system and the second circulation system can be selected by switching between the case where the overflow water is allowed to pass through the bypass pipe and the case where the overflow water is not allowed to pass.

Moreover, in the circulation filtration system for pools according to the present invention, it is preferable to provide a first valve between the branching point of the first pipe and the overflow water tank, and to provide a second valve on the bypass pipe.
In the present invention, when the overflow water is circulated using the first circulation system, the first valve is opened and the second valve is closed. On the other hand, when using the second circulation system, the first valve is closed and the second valve is opened. Thus, the first circulation system and the second circulation system can be switched by opening and closing the respective valves.

In the circulation filtration system for pools according to the present invention, it is preferable to overflow the pool by detecting the water pressure and water level in the pool and controlling the flow rate of the circulation pump when performing circulation filtration.
In the present invention, it is possible to avoid wasteful operation by efficiently controlling the circulation pump so that the flow rate is necessary for the pool overflow.

  According to the circulation filtration system for a pool of the present invention, the suction water surface of the circulation pump is the water surface of the stored water in the overflow tank when the first circulation system is used, and is circulated when the second circulation system is used. It becomes the water surface located at the inflow port. Since the water level of the stored water is lower than the water level at the circulation inlet, the circulation pump when using the second circulation system can be operated with a smaller actual head than when using the first circulation system. The load applied to the circulation pump can be reduced. For this reason, the driving power of the circulation pump can be reduced to reduce the amount of power used, and the cost of electricity can be reduced.

Hereinafter, a pool circulation filtration system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.
FIG. 1 is an overall view showing a circulating filtration system for a pool according to an embodiment of the present invention, and FIGS. 2A, 2B, and 2C are schematic views showing an operation method of the circulating filtration in the circulating filtration system. 3 is explanatory drawing which shows the magnitude | size of the actual head of a 2nd circulation pump.

The circulation filtration system according to the present embodiment maintains the water quality in the pool by circulating and filtering the overflow water of the pool.
As shown in FIG. 1, reference numeral 1 is a pool, to which a constant circulation path 10 and an overflow circulation path 20 are provided.
The constant circulation path 10 circulates the water in the pool 1 at all times. The first circulation inlet 11 is provided on the side of the pool 1 and the water in the pool 1 flows from the first circulation inlet 11. In this system, the first circulation pump 12 and the first filtration device 13 are passed through and returned from the first water supply port 14 to the pool 1 again. This flow is performed regardless of the overflow circuit 20.

  The overflow circuit 20 circulates the overflow water, and an overflow groove 21 is provided around the upper surface of the pool 1, and the second circulation inlet 22 (the circulation inlet of the present invention) is provided at the bottom of the predetermined position in the overflow groove 21. Equivalent). The overflow circuit 20 includes a first circulation system R1 that passes through the overflow water tank 23 and a second circulation system R2 that does not pass through the overflow water tank 23.

As shown in FIG. 1, the first circulation system R <b> 1 is connected to the overflow water tank 23 from the second circulation inlet 22 through the first pipe 24, and again from the overflow water tank 23 through the second pipe 25 to the pool 1 again. It connects to the pool 1 from the 2nd water supply port 26 provided in the side surface. The second pipe 25 is provided with a second circulation pump 40 (corresponding to the circulation pump of the present invention) and a second filtration device 41 (corresponding to the filtration device of the present invention).
As a result, the overflow water once flows into the overflow water tank 23 from the overflow groove 21, and the stored water accumulated in the overflow water tank 23 is pumped up from the second pipe 25 by the second circulation pump 40. The first pipe 24 is provided with a first valve 27.

On the other hand, the second circulation system R <b> 2 bypasses the overflow water tank 23, passes through the bypass pipe 30 branched at the branch portion 32 located on the upstream side of the first valve 27 of the first pipe 24, and passes through the second pipe 25. Are joined to the upstream side of the second circulation pump 40. The bypass pipe 30 is provided with a second valve 31.
When the operation of the circulation filtration is started, the overflow water flowing in the overflow groove 21 is sucked from the second circulation inlet 22 by the action of the second circulation pump 40, passes through the second filtration device 41, and enters the pool 1. Returned.

The first valve 27 and the second valve 31 shown in FIG. 1 are each preferably provided with a strainer on the upstream side, and dust and the like are preferably removed before passing through the second filtration device 41.
In the second pipe 25, a detector 42 such as a flow meter or a differential pressure gauge is provided on the downstream side of the second filtration device 41. When the pool 1 is overflowed and circulated and filtered, the water pressure and water level in the pool 1 are detected by the detector 42, and the flow rate of the second circulation pump 40 is controlled by the inverter 43. As described above, in the overflow circuit 20, the second circulation pump 40 is efficiently controlled so as to have a flow rate required for the overflow of the pool 1, thereby eliminating unnecessary operation.

Next, the operation method of the overflow circuit in the circulation filtration system having the above configuration will be described with reference to the drawings.
FIG. 2A shows a case where the second circulation pump 40 is stopped and the circulation filtration is not performed in the overflow circuit 20, and the second valve 31 provided in the bypass pipe 30 is closed. The first valve 27 provided in the first pipe 24 is opened. At this time, the water surface in the pool 1 is the water surface L1 at the time of stop which becomes substantially the same position as the upper surface of the pool, and the water surface in the overflow water tank 23 becomes the water surface L3 at the time of stop.
When the circulation filtration operation is stopped, the internal water naturally flows into the overflow water tank 23 in the overflow groove 21 and the first pipe 24, so that no water is accumulated. That is, since the overflow water is sucked from the second circulation inlet 22 by the second circulation pump 40, there is no water to circulate when the circulation filtration that has not overflowed is stopped, so that the circulation is performed using the second circulation system R2. The filtration operation cannot be started.

Therefore, as shown in FIG. 2 (b), for a certain period of time after the circulation filtration start command, the pool 1 is stored by pumping the stored water in the overflow water tank 23 by the second circulation pump 40 using the first circulation system R1. The water in the pool 1 overflows by being fed into the pool. The water surface at which the water level overflows at this time is defined as an operating water surface L2. After the overflow of the pool 1 is confirmed, the first valve 27 is gradually closed and the second valve 31 of the bypass pipe 30 is gradually opened.
Subsequently, as shown in FIG. 2C, when the first valve 27 is fully closed and the second valve 31 is fully opened, the flow of the overflow water is transferred from the first circulation system R1 to the second circulation system R2. Is done. At this time, the stored water in the overflow water tank 23 decreases from the stored water surface L3 at the time of stoppage to the stored water surface L4 at the time of operation, and the water in the pool 1 rises from the water surface L1 at the time of stoppage to the water surface L2 at the time of operation. In addition, the stored water surface from the storage water surface L3 at the time of stop to the storage water surface L4 at the time of operation is described with the code | symbol L5.
Further, the water surface when overflow water is accumulated in the water surface of the second circulation inlet 22 or the overflow groove 21 is denoted by reference numeral L6.

  Next, when the operation of the circulation filtration is stopped (when shifting from FIG. 2 (c) to FIG. 2 (b)), the second valve 31 is fully closed and the first valve 27 is fully opened at the same time. The pump 40 is stopped. That is, the overflow water flows into the overflow water tank 23 by switching from the second circulation system R2 to the first circulation system R1. And since the 2nd circulation pump 40 stops, the circulation of overflow water stops and overflow water does not return in the pool 1.

As shown in FIGS. 1 and 3, the actual head of the second circulation pump 40 when using the first circulation system R <b> 1 is from the stored water surface L <b> 5 of the stored water in the overflow water tank 23 to the operating water surface L <b> 2 in the pool 1. It becomes the first actual lifting head H1 that makes a height of.
On the other hand, the actual lift of the second circulation pump 40 when the second circulation system R2 is used is the second actual lift having a height from the water surface L6 of the second circulation inlet 22 to the water surface L2 during operation in the pool 1. H2.

  As described above, in the circulation filtration system for a pool according to the present embodiment, the suction water surface of the second circulation pump 40 is the stored water surface L5 of the stored water in the overflow water tank 23 when the first circulation system R1 is used. When the second circulation system R2 is used, the water surface L6 is located at the second circulation inlet 22. Since the stored water surface L5 is positioned lower than the water surface L6 of the second circulation inlet 22, the second circulation pump 40 when using the second circulation system R2 is more than when using the first circulation system R1. The actual head can be reduced (H2 <H1), and the load on the second circulation pump 40 can be reduced. For this reason, the driving power of the second circulation pump 40 can be reduced to reduce the amount of power used, and the cost of electricity can be reduced.

As mentioned above, although embodiment of the circulation filtration system for pools by this invention was described, this invention is not limited to said embodiment, In the range which does not deviate from the meaning, it can change suitably.
For example, in the present embodiment, the second circulation system R2 is always used during the operation of circulating filtration. However, the circulation filtration may be performed by switching to the first circulation system R1. For example, when many people enter the pool 1 at once and the overflow water suddenly increases, the overflow water may be temporarily introduced into the overflow water tank 23 and circulated and filtered.

1 is an overall view showing a circulating filtration system for a pool according to an embodiment of the present invention. (A), (b), (c) is a schematic diagram which shows the operation method of the circulation filtration in a circulation filtration system. It is explanatory drawing which shows the magnitude | size of the actual head of a 2nd circulation pump.

Explanation of symbols

1 pool 10 constant circulation path 20 overflow circulation path 21 overflow groove 22 second circulation inlet 23 overflow water tank 24 first piping 25 second piping 27 first valve 30 bypass piping 31 second valve 40 second circulation pump 41 second filtration Device 42 Detector R1 First circulation system R2 Second circulation system

Claims (4)

A pool filtration system for circulating and filtering pool overflow water through a circulation pump and a filtration device,
A first circulation system in which the overflow water is allowed to flow naturally from the circulation inlet to once flow into the overflow water tank, and the stored water stored in the overflow water tank is pumped up by the circulation pump and returned to the pool;
Without passing through the overflow water tank, the second circulation system for sucking the overflow water from the circulation inlet with the circulation pump and returning it to the pool;
With
When performing the circulation filtration, use the second circulation system,
The circulation filtration system for a pool, wherein the first circulation system is used for a predetermined time after the start command of the circulation filtration.   The second circulation system bypasses the overflow water tank, passes through a bypass pipe branched from the first pipe connecting the circulation inlet and the overflow water tank, and is connected from the overflow water tank to the circulation pump. The circulation filtration system for a pool according to claim 1, wherein the circulation filtration system is joined to the second pipe.   The circulating filtration for a pool according to claim 2, wherein a first valve is provided between the branching portion of the first pipe and the overflow water tank, and a second valve is provided on the bypass pipe. system. 4. When performing the circulation filtration, the pool is overflowed by detecting a water pressure or a water level in the pool and controlling a flow rate of the circulation pump. Circulation filtration system for pools as described in 1.

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