JP2014091063A - Pool water sterilizer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pool water sterilizer which allows the chlorine concentration of the entire pool water to rapidly reach a set concentration.SOLUTION: A pool water sterilizer comprises: a concentration sensor 5 which detects the bactericide concentration of pool water 10; a portable vessel 2 in which bactericide liquid 20 can be charged; a first pump 11 which transports the bactericide liquid 20 in the portable vessel 2; a dilution tank 3 in which the bactericide liquid 20 to be transported is temporarily stored and diluted; a water supply mechanism 4 which supplies water to the dilution tank 3; a first concentration control mechanism 6 which adjusts the bactericide concentration of diluted bactericide liquid 30 in the dilution tank 3; a second pump 12 which supplies the diluted bactericide liquid 30 in the dilution tank 3 to a pool 1; and a second concentration control mechanism 7 which controls the second pump 12 at the bactericide concentration of the pool water 10. The first concentration control mechanism 6 changes the bactericide concentration of the diluted bactericide liquid 30 in the dilution tank 3, and the second concentration control mechanism 7 controls the second pump 12 at the bactericide concentration of the pool water 10, so that the bactericide concentration of the pool water 10 is controlled.

Description

  The present invention relates to an apparatus for sterilizing pool water, and more particularly, to an apparatus for sterilizing pool water by supplying a sterilizing liquid such as sodium hypochlorite to the pool water and setting the sterilizing agent concentration to a set value.

  The pool is kept in a clear state by circulating water while filtering. Furthermore, in order to prevent bacterial growth and inactivate the bacteria, a sterilizing solution such as an aqueous sodium hypochlorite solution is added to the pool water. In the pool water, the concentration of the bactericide is regulated by law so that the bactericidal effect does not decrease. In order to realize this, an apparatus for adding a sterilizing liquid for sterilizing pool water has been developed. (See Patent Document 1)

JP-A-6-296968

  The sterilization apparatus described in Patent Document 1 is provided with a cathode plate and an anode plate facing each other, and an electrolysis apparatus that produces sterilization water containing active oxygen by electrolysis while flowing a saline solution therebetween, and circulating the sterilization water in a pool A stirrer that stirs in addition to water is provided, and a catalyst device that generates hypoxic acid and sodium hypochlorite, which are by-produced in the electrolyzer, are brought into contact with the catalyst and decomposed to generate active oxygen. This sterilizer electrolyzes salt water and sterilizes pool water with generated active oxygen, hypochlorous acid, sodium hypochlorite, and the like. Since this device electrolyzes salt water to prepare sterilizing water, not only is the device expensive, but the scales adhere to the positive and negative electrode plates provided in the electrical device over time. Therefore, there is a drawback that the maintenance for removing this is extremely troublesome.

  This disadvantage can be eliminated by adding a sterilizing liquid containing a sterilizing liquid such as sodium hypochlorite to the pool water. That is, the chlorine concentration of pool water is measured, and when the chlorine concentration is lower than the set concentration, an optimal amount of sterilizing liquid is added to the pool water to set the chlorine concentration of the pool water according to the degree lower than the set concentration. Can be a concentration. This device can adjust the chlorine concentration of pool water to a set concentration by measuring the chlorine concentration of pool water with a sensor and controlling the supply amount of the sterilizing liquid based on the measurement result, for example.

  However, since this conventional apparatus directly supplies the high concentration sterilizing liquid stored in the portable container to the pool water, it takes time for the supplied sterilizing liquid to be uniformly diffused throughout the pool, There is a drawback that the chlorine concentration of the pool water cannot be set uniformly. In addition, since this device takes time to make the chlorine concentration in the pool uniform, if the supply amount of the sterilizing liquid is controlled while measuring the chlorine concentration in the pool water, the sterilizing liquid is excessively supplied. is there. This is because there is a considerable time delay in supplying the sterilizing solution and increasing the chlorine concentration of the pool water for measuring the chlorine concentration.

  The number of people using the pool varies greatly depending on the time of day. If a large number of users use it at one time, the chlorine concentration of the pool water will drop rapidly, the sterilizing power will drop significantly and it will become cloudy. In this state, it is necessary to quickly supply the sterilizing liquid and set the chlorine concentration to the set concentration. However, if a large amount of sterilizing liquid is supplied in this state and the chlorine concentration becomes high, it will cause adverse effects on the user, so it is necessary to quickly raise the chlorine concentration to the set concentration, but it is not too high It is important to control it. For this reason, it is extremely important for the sterilizer for pool water to always maintain the chlorine concentration of the entire pool water at the set concentration even if the number of people using the pool varies greatly. If a large number of users use the chlorine concentration in the pool water, the sterilizing power is not sufficient, causing the bacteria to grow and activate. This is because it causes harmful effects such as strong skin irritation.

  The present invention has been developed for the purpose of solving this drawback. An important object of the present invention is to provide a sterilizer for pool water that can quickly set the chlorine concentration of the entire pool water to a set concentration even when the number of users varies greatly.

Means for Solving the Problems and Effects of the Invention

  The sterilization apparatus for pool water according to the present invention includes a concentration sensor 5 for detecting the concentration of a sterilizing agent in pool water 10, a portable container 2 that can be filled with a sterilizing liquid 20 of 2 liters or more and 30 liters or less, and this portable A first pump 11 connected to the container 2 so as to be detachable and sucking and transferring the sterilizing liquid 20 in the portable container 2 and the sterilizing liquid 20 discharged from the first pump 11 are temporarily stored. The dilution tank 3 is controlled by controlling the dilution tank 3 to be diluted, the makeup water mechanism 4 for supplying water to the dilution tank 3, the amount of water supplied by the makeup water mechanism 4 and the amount of liquid supplied by the first pump 11. The first concentration control mechanism 6 which adjusts the concentration of the sterilizing agent to a predetermined concentration range to obtain the diluted sterilizing solution 30, and the inside of the dilution tank 3 in which the concentration of the sterilizing agent is controlled by the first concentration control mechanism 6 Use diluted sterilization solution 30 to pool 1 Sterilizing the pool water 10 by controlling the flow rate at which the second pump 12 supplies the diluted sterilizing liquid 30 to the pool 1 with the concentration of the sterilizing agent in the pool water 10 detected by the concentration sensor 5. And a second concentration control mechanism 7 for controlling the agent concentration to a set value. The first concentration control mechanism 6 controls the first pump 11 with the sterilizing agent concentration of the pool water 10 detected by the concentration sensor 5 and stores it in the dilution tank 3 with the sterilizing agent concentration of the pool water 10. The disinfectant concentration of the diluted disinfectant solution 30 is changed. The first concentration control mechanism 6 is configured such that the bactericidal concentration of the diluted bactericidal solution 30 when the bactericidal concentration of the pool water 10 is low is higher than the bactericidal concentration of the diluted bactericidal solution 30 when the bactericidal concentration of the pool water 10 is high. Adjust too high. The second concentration control mechanism 7 controls the second pump 12 with the sterilizing agent concentration of the pool water 10 detected by the concentration sensor 5 to control the sterilizing agent concentration of the pool water 10 to the set concentration.

  The pool water sterilizer described above has a feature that the sterilant concentration of the entire pool can be quickly set to a set value even when the number of people using the pool varies greatly. It does not supply high-concentration sterilization liquid stored in a portable container directly to the pool, but dilutes it in a dilution tank and supplies it to the pool. This is because a diluted sterilizing liquid that changes the sterilizing agent concentration according to the sterilizing agent concentration of the pool water is stored, and this diluted sterilizing liquid is supplied to the pool. Since the diluted sterilizing liquid is diluted to reduce the concentration of the sterilizing agent, the amount of liquid supplied to the pool increases in order to set the sterilizing agent concentration in the pool water to a set value. A large amount of the diluted sterilizing liquid supplied to the pool is quickly diffused throughout the pool as compared with the case where a small amount of high-concentration sterilizing liquid is supplied, and the concentration of the sterilizing agent is set to a set value. Furthermore, the above-mentioned sterilizer adjusts the concentration of the sterilizer in the dilution tank with the concentration of the sterilizer in the pool water. When a large number of people enter the pool at one time and the sterilizer concentration in the pool water drops rapidly, Increasing the bactericidal concentration, increasing the amount of bactericidal agent supplied to the pool, and setting the bactericidal concentration in the pool water more quickly, and conversely, the number of pool users is small and the bactericidal concentration in the pool water is abrupt. If the concentration of the sterilizing agent in the dilution water is not reduced to a low level, the concentration of the sterilizing agent in the dilution tank is lowered, the amount of the sterilizing agent supplied to the pool is increased, and the concentration can be quickly diffused.

  Furthermore, the above pool water sterilizer changes the sterilant concentration of the dilution tank with the sterilant concentration of the pool water with the first concentration control mechanism, but detects and sets the sterilant concentration of the dilution tank. Does not control to value. The first concentration control mechanism adjusts the concentration of the sterilizing agent in the dilution tank by the amount of water supplied to the dilution tank and the supply amount of the sterilizing liquid. For this reason, it is not necessary to provide an expensive sensor for detecting the concentration of the bactericide in the dilution tank in the first concentration control mechanism. For this reason, the disinfectant concentration of the diluted disinfectant stored in the dilution tank cannot be controlled with high accuracy. However, the disinfectant concentration of pool water is controlled to a set value with high accuracy. That is, the second concentration control mechanism controls the second pump with the concentration of the pool water sterilizer detected by the concentration sensor, so that the supply amount of the diluted sterilization liquid is accurately set to the pool water sterilizer concentration. It is because it controls to become. With the above unique configuration, the above-mentioned pool water sterilizer can accurately control the pool water disinfectant concentration to the set value while reducing the manufacturing cost, and quickly set the entire pool water disinfectant concentration. Realizes excellent features that can be controlled by value.

  Furthermore, the above-described pool water sterilizer is of a size that can be carried by filling a portable container with 2 to 30 liters of sterilizing liquid, and is connected to the first pump to supply the sterilizing liquid to the dilution tank. Therefore, a feature that anyone can easily and easily connect a portable container to the first pump without using a dedicated instrument and replenish the sterilizing liquid is realized. This also realizes a feature that can reduce the cost of the sterilizer and reduce the running cost.

In the pool water sterilization apparatus according to the present invention, the first pump 11 is a constant flow pump, and the makeup water mechanism 4 supplies a fixed amount of water to the dilution tank 3, and a fixed amount of water supplied from the makeup water mechanism 4. On the other hand, the first concentration control mechanism 6 can control the operation time of the first pump 11 to control the concentration of the bactericide in the dilution tank 3.
The above sterilizer can simplify the mechanism for adjusting the concentration of the bactericidal agent of the diluted bactericidal solution stored in the dilution tank, and can adjust the bactericidal concentration of the diluted bactericidal solution to a set value while reducing the component cost.

In the sterilizing apparatus for pool water of the present invention, the portable container 2 can be filled with 3% to 20% sodium hypochlorite aqueous solution as the sterilizing liquid 20.
The above sterilizer can set one portable container and control the chlorine concentration of pool water to a set value for a long time.

The pool water disinfection device of the present invention has a suction cap 22B connected so that the portable container 2 can be attached to and detached from the opening 2A, and the suction pump 22B is connected to the first pump 11 by the suction cap 22B. The suction pipe connected to the suction side or the suction hose 13 connected to the weight 14 at the lower end is connected, the suction cap 22B is set in the portable container 2, and the first pump 11 is connected to the suction pipe. Alternatively, the sterilizing liquid 20 can be sucked through the suction hose 13 and transferred to the dilution tank 3.
In the above sterilization apparatus, the cap of the portable container is removed, and the suction cap connected to the suction pipe and the suction hose of the first pump is set on the portable container. Can be set to

  The pool water disinfection device of the present invention has a detachable storage portion 21 in which the portable container 2 can be detachably set, and the detachable storage portion 21 has a carriage 23 on which the portable container 2 can be placed and set in a fixed position. Then, the portable container 2 can be placed on the carriage 23 and set at a fixed position of the detachable storage portion 21. The above sterilization apparatus can set a portable container in a fixed position more easily.

In the pool water sterilization apparatus of the present invention, the dilution tank 3 can have a stirrer 31.
The above sterilizer can quickly and uniformly make the concentration of the sterilizing agent of the diluted sterilizing liquid in the dilution tank.

In the pool water sterilization apparatus of the present invention, the first concentration control mechanism 6 controls the makeup water mechanism 4 and the first pump 11 in a batch manner to control the concentration of the dilution tank 3 within a predetermined range. be able to.
The above sterilizer can control the concentration of the sterilizer in the dilution tank relatively accurately by the first concentration control mechanism.

It is a block diagram of the sterilizer of pool water concerning one example of the present invention. It is a figure which shows an example of the density | concentration of the dilution disinfection liquid with respect to the disinfectant density | concentration of pool water.

  Embodiments of the present invention will be described below with reference to the drawings. However, the embodiment described below exemplifies a pool water sterilization apparatus for embodying the technical idea of the present invention, and the present invention does not specify the pool water sterilization apparatus as the following structure. Further, in this specification, in order to facilitate understanding of the scope of claims, numbers corresponding to the members shown in the examples are indicated in the “claims” and “means for solving problems” sections. It is added to the members. However, the members shown in the claims are not limited to the members in the embodiments.

  The pool water sterilization apparatus shown in FIG. 1 includes a concentration sensor 5 that detects the concentration of the sterilant in the pool water 10, a portable portable container 2 that can be filled with a sterilizing liquid 20 of 2 liters or more and 30 liters or less, The removable container 2 is set in the removable storage part 21 and the removable storage part 21 so that the empty portable container 2 can be replaced with a portable container 2 filled with the sterilizing solution 20 by detaching the portable container 2. A first pump 11 that is connected to the portable container 2 so as to be detachable and sucks and transfers the sterilizing liquid 20 in the portable container 2, and a sterilizing liquid 20 discharged from the first pump 11 has a predetermined concentration. The dilution tank 3 that is diluted and temporarily stored, the replenishing water mechanism 4 that supplies the diluting water of the sterilizing liquid 20 to the diluting tank 3, the amount of water supplied by the replenishing water mechanism 4 and the first pump 11 are supplied. Control the amount of sterilizing solution 20 to dilute The first concentration control mechanism 6 that adjusts the concentration of the sterilizing agent in the tank 3 to a predetermined concentration range to obtain the diluted sterilizing solution 20, and the second pump that supplies the diluted sterilizing solution 20 in the dilution tank 3 to the pool 1. 12 and the flow rate at which the second pump 12 supplies the diluted sterilizing liquid 20 to the pool 1 with the sterilizing agent concentration of the pool water 10 detected by the concentration sensor 5, and setting the sterilizing agent concentration of the pool water 10 to the set concentration And a second density control mechanism 7 for controlling the second density control.

  The concentration sensor 5 detects the disinfectant concentration of the pool water 10. In an apparatus in which the sterilizing solution 20 is a sodium hypochlorite aqueous solution, the concentration sensor 5 detects the chlorine concentration and maintains the chlorine concentration of the pool water 10 at a set concentration. The set concentration is set higher than the minimum concentration prescribed by law. However, if the pooled water 10 is in a state where the sterilization breeding and activities can be stopped by lowering the concentration lower than the minimum required by the law, the set concentration is set lower than the minimum required by the law. You can also The sterilizer of FIG. 1 provides the concentration sensor 5 in the pool 1 and detects the concentration of the sterilizing agent in the pool water 10. As shown in FIG. 1, the pool 1 is connected to a filtration device 8 that circulates and filters the pool water 10 to keep the pool water 10 in a clear state, so that the pool water 10 circulated by the filtration device 8 is sterilized. The agent concentration can also be detected by a concentration sensor.

  The portable container 2 is a container for storing a sterilizing liquid 20 having a predetermined concentration. The sterilizing liquid 20 having a liter of 2 liters or more and 30 liters or less, preferably 3 liters or more and 20 liters or less, can be easily replaced by all workers. A container that stores water. If the portable container 2 is too small, it needs to be replaced frequently. On the other hand, if the portable container 2 is too large, it is too heavy to be easily replaced by all workers. Therefore, the portable container 2 is a container that stores the sterilizing liquid 20 in the above-mentioned range in consideration of both the replacement frequency and the time required for replacement.

  The portable container 2 is preferably filled with a sodium hypochlorite aqueous solution of 3% to 20%, more preferably 5% to 15%, as the sterilizing solution 20. Sodium hypochlorite aqueous solution is inexpensive and has excellent sterilizing power and is optimal for this application. However, the sterilizing apparatus of the present invention does not specify a sterilizing solution as a sodium hypochlorite aqueous solution, and can use all liquids that have a sterilizing action by adding them to pool water, such as a sodium chlorate aqueous solution.

  The portable container 2 shown in the figure is provided with a cylindrical opening 2A protruding upward, a cap 22 is provided on the opening 2A, the opening 2A is closed with the cap 22, and the sterilizing liquid 20 is provided. The container is sealed to prevent leakage. Until the portable container 2 is set in the sterilizer and the first pump 11 is connected, the opening 2A is closed with the transport cap 22A so that the sterilizing liquid 20 does not leak. After setting in the detachable storage portion 21, the transport cap 22A is removed, and the suction pipe connected to the suction side of the first pump 11 and the suction hose 13 formed by connecting the weight 14 to the lower end are connected. The inhalation cap 22B is set in the opening 2A. In this state, the first pump 11 is in a state where the sterilizing liquid 20 can be sucked through the suction pipe and the suction hose 13 and transferred to the dilution tank 3. In this sterilizer, the transporting cap 22A is removed and replaced with a suction cap 22B, so that the sterilizing liquid 20 can be sucked from the portable container 2 by the first pump 11. For this reason, the portable container 2 can be replaced | exchanged and it can set to the state which can inhale the germicide 20 easily.

  The detachable storage unit 21 includes a carriage 23 on which the portable container 2 is placed. The portable container 2 is placed on the carriage 23 and the portable container 2 is exchanged. That is, the portable container 2 formed by closing the opening 2 </ b> A with the transport cap 22 </ b> A is placed on the carriage 23, and the carriage 23 is moved to transfer the portable container 2 to the detachable storage section 21. When the portable container 2 is set in the detachable storage part 21, the transport cap 22A is removed, and the suction hose 13 connected to the suction side of the first pump 11 is inserted into the portable container 2. . Further, the opening 2A is sealed with a suction cap 22B connected to the insertion hose 13.

  The first pump 11 sucks the sterilizing liquid 20 from the portable container 2, supplies it to the dilution tank 3, and uses the water supplied to the dilution tank 3 as the diluted sterilizing liquid 30. The concentration of the bactericidal agent of the diluted sterilizing liquid 30 stored in the dilution tank 3 is controlled by the amount of the sterilizing liquid 20 supplied to the dilution tank 3 by the first pump 11. Precisely, the concentration of the sterilizing agent in the diluted sterilizing solution 30 is adjusted by the amount of the sterilizing solution 20 with respect to the amount of water supplied to the dilution tank 3. The first pump 11 is controlled by the first concentration control mechanism 6 and supplies the sterilizing liquid 20 to the dilution tank 3. As the first pump 11, a constant flow pump such as a diaphragm pump, a piston pump, a guard pump or the like is suitable. The constant flow pump can accurately adjust the flow rate of the sterilizing liquid 20 supplied to the dilution tank 3 according to the operation time, the number of revolutions, the number of reciprocating motions, and the like. However, the first pump is not necessarily a constant flow pump. Even if it is a pump other than a constant flow rate pump, the flow of the sterilizing solution 20 supplied to the dilution tank 3 can be controlled to be almost constant by controlling the operation time. This is because the germicide concentration in the pool 1 can be accurately controlled without accurately controlling the germicide concentration of the diluted germicide 30 stored in the dilution tank 3.

  The dilution tank 3 is a sealed tank having an internal volume of 50 liters to 300 liters, preferably about 100 liters, for example, and the dilution tank 3 of FIG. The stirrer 31 stirs the supplied sterilizing solution 20 and water so that the concentration of the sterilizing agent in the diluted sterilizing solution 30 is quickly made uniform. However, the dilution tank is not necessarily provided with a stirrer. This is because the sterilizing apparatus of the present invention can accurately control the concentration of the sterilizing agent in the pool water 10 even if the concentration of the sterilizing agent in the dilution tank 3 is not uniform.

  The dilution tank 3 in FIG. 1 is provided with a level sensor 32 that detects the level of water. The level sensor 32 detects the liquid level in the dilution tank 3, detects the flow rate of the water 40 supplied by the makeup water mechanism 4, and outputs the detected flow rate of the water 40 to the first concentration control mechanism 6. To do.

  The makeup water mechanism 4 supplies water at a predetermined flow rate to the dilution tank 3. The simplest makeup water mechanism 4 is an on-off valve 43 connected to the outlet side of a water pipe (not shown). The makeup water mechanism 4 opens the opening / closing valve 43 to supply tap water to the dilution tank 3 and closes the opening / closing valve 43 to stop the supply of tap water. However, the makeup water mechanism 4 can be realized by a water pump 41 and a water tank 42 as shown in FIG. 1 operates the water pump 41 to supply the water 40 in the water tank 42 to the dilution tank 3, stops the operation of the water pump 41, and stops the replenishment of the water 40. Further, as shown in FIG. 1, the makeup water mechanism 4 may be provided with a flow meter 44 and detect the amount of water supplied to the dilution tank 3 with the flow meter 44.

  The first concentration control mechanism 6 controls the operation of the first pump 11 to adjust the sterilizing agent concentration of the diluted sterilizing liquid 30 in the dilution tank 3. The first concentration control mechanism 6 is the supply amount of the sterilizing liquid 20 to the dilution tank 3 of the first pump 11 with respect to the amount of water supplied to the dilution tank 3, and the concentration of the sterilizing agent in the diluted sterilizing liquid 30 in the dilution tank 3. Control. The first concentration control mechanism 6 detects the amount of water supplied to the dilution tank 3 from the level sensor 32 with a signal. When the level sensor 32 detects that the liquid level of the dilution tank 3 has been lowered to the lowest level, the first concentration control mechanism 6 supplies water to the dilution tank 3 by the makeup water mechanism 4, and the liquid level of the water. When the level rises to the maximum level, the supply of water is stopped and the flow rate of the water supplied to the dilution tank 3 is detected. This is because the water supply flow rate can be detected from the difference between the minimum level and the maximum level of the dilution tank 3. The first concentration control mechanism 6 detects the amount of water supplied to the dilution tank 3, detects the supply amount of the sterilizing liquid 20 relative to this amount of water, and supplies the sterilizing liquid 20 of this supply amount to the first concentration control mechanism 6. The predetermined sterilizing liquid 20 is supplied to the dilution tank 3 by operating the pump 11.

  The above first concentration control mechanism 6 replenishes water to the maximum level every time the diluted sterilizing liquid 30 in the dilution tank 3 is lowered to the minimum level, and then supplies the sterilizing liquid 20 to The diluted sterilizing solution 30 is controlled to a predetermined concentration. The first concentration control mechanism 6 controls the concentration of the diluted sterilizing solution 30 by supplying the diluted sterilizing solution 30 to the dilution tank 3 in a batch manner without continuously controlling the concentration of the diluted sterilizing solution 30. However, it is also possible to continuously adjust the concentration of the sterilizing agent of the diluted sterilizing liquid 30 in the dilution tank 3 to a predetermined concentration by continuously supplying water and the sterilizing liquid 20 to the dilution tank 3. The first concentration control mechanism 6 controls the ratio between the flow rate of the water supplied to the dilution tank 3 and the flow rate of the sterilizing liquid 20 supplied to the dilution tank 3 by the first pump 11, thereby reducing the dilution tank 3. The bactericidal concentration of the diluted bactericidal solution 30 is adjusted. The flow rate of water supplied to the dilution tank 3 can be detected with a flow meter. Further, the flow rate of the sterilizing liquid 20 supplied from the first pump 11 to the dilution tank 3 can be controlled by the rotational speed of the first pump 11 and the speed at which the first pump 11 is reciprocated.

  The first concentration control mechanism 6 detects the amount of water supplied to the dilution tank 3 with the level sensor 32 and the flow meter 44. The amount of water supplied to the dilution tank 3 is determined by the on-off valve 43 that supplies tap water. It can be detected by the valve opening time, the operation time of the water pump 41, and the like, and can be detected more accurately by using these in combination with the flow meter 44.

  The first concentration control mechanism 6 controls the supply amount of the sterilizing liquid 20 relative to the amount of water supplied to the dilution tank 3 to control the concentration of the sterilizing agent in the diluted sterilizing liquid 30 in the dilution tank 3. The bactericidal concentration of the diluted bactericidal solution 30 is not always controlled to be constant. The bactericidal concentration of the diluted bactericidal solution 30 in the dilution tank 3 is changed by the bactericidal concentration of the pool water 10. In order to realize this, the first concentration control mechanism 6 controls the first pump 11 with the disinfectant concentration of the pool water 10 detected by the concentration sensor 5. The first concentration control mechanism 6 changes the sterilizing agent concentration of the diluted sterilizing liquid 30 stored in the dilution tank 3 with the sterilizing agent concentration of the pool water 10 to be detected. It adjusts so that the disinfectant concentration of the diluted disinfectant 30 in the state where the disinfectant concentration of the pool water 10 is low is higher than the disinfectant concentration of the diluted disinfectant 30 in the state where the disinfectant concentration of the pool water 10 is high.

  Since the first concentration control mechanism 6 changes the diluted sterilizing solution 30 in the dilution tank 3 with the sterilizing agent concentration in the pool water 10, the sterilizing agent in the diluted sterilizing solution 30 in the dilution tank 3 with respect to the sterilizing agent concentration in the pool water 10. The density is stored as a function or as a lookup table. FIG. 2 shows the concentration of the diluted sterilizing solution 30 with respect to the concentration of the sterilizing agent in the pool water 10. The first concentration control mechanism 6 that adjusts the concentration of the diluted sterilizing solution 30 with the characteristic indicated by the curve A in this figure indicates that the concentration of the diluted sterilizing solution 30 is linear as the concentration of the sterilizing agent in the pool water 10 decreases. Increase to. As shown by the curve B, the first concentration control mechanism 6 can also increase the concentration of the diluted sterilizing solution 30 step by step as the concentration of the sterilizing agent in the pool water 10 decreases.

  The first concentration control mechanism 6, for example, dilutes the sterilizing liquid 20 stored in the portable container 2 10 to 100 times and stores it as a diluted sterilizing liquid 30 having a low sterilizing agent concentration. The sterilizing agent concentration of the diluted sterilizing liquid 30 in the dilution tank 3 is specified by the concentration of the sterilizing liquid 20 stored in the portable container 2 and the dilution rate of the sterilizing liquid 20. For example, when the portable container 2 stores a 10% sodium hypochlorite aqueous solution and the first concentration control mechanism 6 dilutes the sterilizing liquid 20 of the portable container 2 ten times in the dilution tank 3, the diluted sterilizing liquid 30. The concentration of is 1%. The first concentration control mechanism 6 calculates the dilution rate of the sterilizing solution 20 from the concentration of the sterilizing agent in the portable container 2 and the concentration of the pool water 10, and the makeup water mechanism 4 supplies the dilution tank 3 from the dilution rate. The amount of water and the amount of liquid that the first pump 11 supplies the sterilizing liquid 20 to the dilution tank 3 are calculated, and the replenishment water mechanism 4 supplies the calculated amount of water to the dilution tank 3, and the calculated liquid. The amount of the sterilizing liquid 20 is controlled so that the first pump 11 supplies the dilution tank 3, and the diluted sterilizing liquid 30 in the dilution tank 3 is adjusted by the concentration of the sterilizing agent in the pool water 10.

  For example, when the chlorine concentration, which is the bactericide concentration of the pool water 10, is 0.5 ppm, which is the minimum concentration prescribed by law, the first concentration control mechanism 6 is the concentration of sodium hypochlorite stored in the dilution tank 3. As the chlorine concentration in the pool water 10 decreases, the concentration of sodium hypochlorite in the diluted sterilizing solution 30 is adjusted higher as shown in FIG.

  The second pump 12 sucks the diluted sterilizing liquid 30 in the dilution tank 3 and supplies it to the pool 1. The second pump 12 is a turbine pump or a centrifugal pump. The flow rate at which the second pump 12 supplies the diluted sterilizing liquid 30 to the pool 1 is controlled by the second concentration control mechanism 7, and the chlorine concentration of the pool water 10 is adjusted to the set value.

  The second concentration control mechanism 7 controls the second pump 12 with the sterilizing agent concentration of the pool water 10 detected by the concentration sensor 5 to control the sterilizing agent concentration of the pool water 10 to the set concentration. The second concentration control mechanism 7 operates the second pump 12 in a state where the chlorine concentration of the pool water 10 is lower than the set value, and increases the chlorine concentration of the pool water 10. When the chlorine concentration of the pool water 10 becomes higher than the set value, the operation of the second pump 12 is stopped. Since the chlorine concentration of the pool water 10 gradually decreases, the second concentration control mechanism 7 controls the operation of the second pump 12 so that the chlorine concentration of the pool water 10 always becomes the set value. Since the second concentration control mechanism 7 operates the second pump 12 so that the chlorine concentration of the pool water 10 becomes the set value, the pool water 10 is independent of the concentration of the diluted sterilizing liquid 30 in the dilution tank 3. The chlorine concentration can be set to the set value.

  When the chlorine concentration of the pool water 10 falls below the set value, the second concentration control mechanism 7 operates the second pump 12 to suck in the diluted sterilizing liquid 30 in the dilution tank 3 and supply it to the pool 1. Since the diluted sterilizing liquid 30 is diluted to reduce the concentration of the sterilizing agent, the diluted sterilizing liquid 30 is added to the pool 1 in a larger amount than the sterilizing liquid 20 of the portable container 2 that is not diluted. The diluted sterilizing solution 30 added in a large amount diffuses more smoothly throughout the pool 1 and quickly increases the chlorine concentration of the entire pool water 10 to the set value. When the chlorine concentration of the pool water 10 reaches the set value, the second concentration control mechanism 7 stops the operation of the second pump 12.

  The second concentration control mechanism 7 operates the second pump 12 to increase the chlorine concentration until the chlorine concentration of the pool water 10 rises to the set value. Therefore, a larger amount of diluted sterilizing liquid 30 is supplied to the pool 1 as the chlorine concentration in the pool water 10 becomes lower. However, since the sterilizing apparatus of the present invention adjusts the concentration of the sterilizing agent in the dilution tank 3 as the chlorine concentration in the pool water 10 decreases, even if the chlorine concentration in the pool water 10 decreases considerably, The diluted sterilizing liquid 30 can be supplied to the pool 1 to quickly increase the chlorine concentration to the set value.

  In the pool water sterilization apparatus of FIG. 1, the second pump 12 supplies the diluted sterilization liquid 30 to the outlet side of the circulation filtration apparatus 8 that circulates and filters the pool water 10. Since this sterilizer supplies the diluted sterilizing liquid 30 to the pool water 10 circulating for filtration, the diluted sterilizing liquid 30 is further diluted with the pool water 10 and supplied to the pool 1. According to this structure, the diluted bactericidal solution is diffused into the pool water 10 more quickly, and the chlorine concentration of the pool water 10 can be raised to the set value more quickly.

  The sterilization apparatus of the present invention prevents the growth and activation of bacteria even when the pool is used for a large number of swimmers at one time and the sterilant concentration decreases to a set value quickly. Thus, the pool 1 can be safely used.

DESCRIPTION OF SYMBOLS 1 ... Pool 2 ... Portable container 2A ... Opening part 3 ... Dilution tank 4 ... Supply water mechanism 5 ... Concentration sensor 6 ... 1st concentration control mechanism 7 ... 2nd concentration control mechanism 8 ... Filtration apparatus 10 ... Pool water 11 ... 1st pump 12 ... 2nd pump 13 ... Suction hose 14 ... Weight 20 ... Disinfectant liquid 21 ... Desorption storage part 22 ... Cap 22A ... Cap for transportation
22B: Cap for suction 23 ... Cart 30 ... Diluted sterilization solution 31 ... Stirrer 32 ... Level sensor 40 ... Water 41 ... Water pump 42 ... Water tank 43 ... Open / close valve 44 ... Flow meter

Claims (7)

A concentration sensor (5) for detecting the concentration of the bactericidal agent in the pool water (10), a portable container (2) that can be filled with a sterilizing liquid of 2 to 30 liters, and a portable container (2) A first pump (11) that is connected so as to be removable and sucks and transfers the sterilizing liquid (20) of the portable container (2), and a sterilizing liquid (20) discharged from the first pump (11). ) Is temporarily stored and diluted, a replenishing water mechanism (4) for supplying water to the diluting tank (3), the amount of water supplied by the replenishing water mechanism (4) and the first The first concentration control mechanism (6) which controls the amount of liquid supplied by the pump (11) and adjusts the concentration of the bactericide in the dilution tank (3) to a predetermined concentration range to obtain the diluted bactericidal solution (30). And a second pump (12) for supplying the pool (1) with the diluted sterilizing liquid (30) in the dilution tank (3) whose concentration of the sterilizing agent is controlled by the first concentration control mechanism (6). The concentration sensor (5) The second pump (12) controls the flow rate at which the diluted sterilizing liquid (30) is supplied to the pool (1) at the detected concentration of the sterilizing water in the pool water (10), and the sterilizing agent concentration in the pool water (10) is controlled. A second concentration control mechanism (7) for controlling the value to a set value,
The first concentration control mechanism (6) controls the first pump (11) with the disinfectant concentration of the pool water (10) detected by the concentration sensor (5) to sterilize the pool water (10). By changing the concentration of the bactericidal agent in the diluted bactericidal solution (20) stored in the dilution tank (3),
The bactericidal concentration of the diluted bactericidal solution (30) when the concentration of the bactericidal agent in the pool water (10) is low is higher than the bactericidal concentration of the diluted bactericidal solution (30) when the concentration of the bactericidal agent of the pool water (10) is high. Adjust higher,
The second concentration control mechanism (7) controls the second pump (12) with the disinfectant concentration of the pool water (10) detected by the concentration sensor (5), and the pool water (10) A sterilizer for pool water that controls the disinfectant concentration of water to a set concentration.   The first pump (11) is a constant flow pump, and the makeup water mechanism (4) supplies a fixed amount of water to the dilution tank (3), and a fixed amount of water supplied from the makeup water mechanism (4). On the other hand, the first concentration control mechanism (6) controls the operating time of the first pump (11) to control the concentration of the disinfectant in the dilution tank (3). Sterilization equipment.   The sterilizer for pool water according to claim 1 or 2, wherein the portable container (2) is filled with 3-20% sodium hypochlorite aqueous solution as a sterilizing solution (20). The portable container (2) has an inhalation cap (22B) connected so as to be detachable from the opening (2A),
A suction pipe connected to the suction side of the first pump (11) or a suction hose (13) connected to a weight (14) at the lower end is connected to the suction cap (22B). And
The suction cap (22B) is set in the portable container (2), and the first pump (11) sucks the sterilizing liquid (20) through the suction pipe or the suction hose (13) to dilute the tank. The pool water disinfection device according to any one of claims 1 to 3, wherein the device is transferred to (3).   The transportable container (2) has a detachable storage part (21) that can be detachably set, and the detachable storage part (21) is a carriage (23) on which the transportable container (2) can be placed and set at a fixed position. 5. The pool according to claim 1, wherein the portable container (2) is placed on a carriage (23) and set at a fixed position of the detachable storage part (21). Water sterilizer.   The pool water sterilizer according to any one of claims 1 to 5, wherein the dilution tank (3) has a stirrer (31).   The first concentration control mechanism (6) controls the makeup water mechanism (4) and the first pump (11) in a batch manner to control the concentration of the dilution tank (3) within a predetermined range. Item 7. A pool water disinfection device according to any one of Items 1 to 6.

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