JP4231340B2 - Continuous supply device for high-concentration saline and continuous supply method for high-concentration saline - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a continuous supply device for high concentration saline and a high concentration, which is required to produce a constant concentration saline used in an electrolytic sterilizer, etc. The present invention relates to a method for continuously supplying saline.
[0002]
[Prior art]
In response to the recent demand for water safety, safe water is supplied by sterilizing water with chlorine. As for the introduction of chlorine, there are a method of directly introducing a chlorine agent (bleaching powder) and a method of introducing hypochlorous acid. However, the former is difficult to control its input and requires a supervisor, while the latter needs to pay attention to the management of hypochlorous acid itself and is suitable for use on the assumption that it is not managed at home. Absent. For this reason, attempts have been made to electrolyze a constant concentration of saline to produce chlorine and treat the water.
[0003]
[Problems to be solved by the invention]
In order to electrolyze a constant concentration saline solution, it is first necessary to supply a constant concentration saline solution. For this reason, a constant concentration saline solution was prepared in advance and supplied to the apparatus to supply a constant concentration saline solution. However, in order to continuously supply a predetermined amount of saline solution with a constant concentration, it is necessary to provide a saline tank corresponding to the amount consumed in the device, and the entire device becomes extremely large. was there.
For this reason, attempts have been made to store the salt itself in the apparatus and supply the required amount of water to generate a constant concentration of salt solution. However, the dissolution rate is slow and the concentration distribution varies. was there. Due to the deliquescent nature of the salt, the introduction of a certain amount of salt was also a very difficult problem.
[0004]
The present invention solves the above-mentioned problems and provides a continuous supply apparatus and a continuous supply method for high-concentration saline, in which a high-concentration saline having a constant concentration is continuously generated and supplied at regular intervals. Let that be the issue. And the salt solution of the density | concentration requested | required can be supplied by diluting this high concentration salt solution with water.
[0005]
[Means for Solving the Problems]
Therefore, in the present invention,
Time measuring means for measuring salt dissolution time, means for supplying water, intake port for taking in water, and taking out high-concentration saline solution supplied with salt according to the measurement result of the time measuring means An apparatus body having a mouth and a container capable of storing a certain amount of water;
A salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body,
The salt holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the opening of the salt holding container is a high concentration dissolved The problem has been solved by providing a continuous supply device for high-concentration saline, characterized in that the salt solution is formed in an outer shape that forms a precipitation flow that precipitates downward.
[0006]
Further, water connected to a water supply pipe having a time measuring means for measuring the salt dissolution time and a control means for controlling one end of the supply of water to a shut-off state and a supply state connected to a means for supplying water. A high-concentration salt water extraction pipe provided with means for controlling the intake of the high-concentration saline solution to be in a shut-off state and a removal state based on the measurement result measured by the timing means connect the high concentration physiological saline having the outlet for taking out the high concentration saline salt is supplied, a control means for controlling the cut-off state and the extraction conditions were taken out of the high concentration physiological saline is connected to the outlet An apparatus main body which is a container capable of storing a certain amount of water and a salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus main body. The salt holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the opening of the salt holding container is dissolved. The problem has been solved by providing a continuous supply apparatus for high-concentration saline, characterized in that the high-concentration saline is formed in an outer shape that forms a precipitation flow that precipitates downward.
[0007]
Further, in the present invention, the outer shape in which the opening of the salt holding container is formed is a rising part that hangs downward to form a sedimentation flow in which the dissolved high-concentration saline precipitates downward. Solved the problem.
Further, in the present invention, the outer shape formed with the opening of the salt holding container hangs downward to form a precipitation flow in which the dissolved high-concentration saline precipitates downward, and the inclined portion converged The problem was solved by using a rising part having a gap.
[0008]
Further, in the present invention, the bottom of the outer shape in which the opening of the salt holding container is formed is an extension of the drooping wall that hangs downward to form a sedimentation flow in which the dissolved high-concentration saline is precipitated downward The problem was solved by forming it so as to protrude downward.
For taking out the high-concentration saline, the high-concentration saline is taken out in place of the piping for taking out the high-concentration saline, which is connected to the outlet and has a control means for controlling the taking-out of the high-concentration saline between the shut-off state and the take-out state. A problem is caused by supplying a certain amount of high-concentration saline by providing a trap or gap for storing a predetermined amount of high-concentration saline in the pipe and supplying the high-concentration saline stored in the trap or gap. Can be solved.
[0009]
In the present invention, the salt container device storing salt is supported at a predetermined height from the container bottom of the apparatus main body, and the water taken in from the intake port for taking in water is stored and dissolved in high-concentration saline. Is a continuous supply method of high-concentration saline solution that is continuously taken out from the take-out port, and the salt solution is placed in a salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body. Connected to a means for supplying water, a step for closing the outflow pipe to prevent the outflow of water from the outlet for taking out the high-concentration saline supplied with salt, and a step for supplying water A step of taking a certain amount of water into the device main body, which is a container, from the intake port for taking in water, a step of preventing the intake after taking in the predetermined amount of water, and a high concentration required for taking out A step of measuring a predetermined time in which the salt water is generated without stirring, and after the elapse of the predetermined time, the outflow pipe is opened for removal, and the outflow pipe is removed after taking out the high-concentration saline necessary for the removal. The problem has been solved by a continuous supply method of high-concentration saline, which comprises a step of closing and a step of taking in the amount of water reduced by removal from the take-in port.
[0010]
In the present invention, the salt container device storing salt is supported at a predetermined height from the container bottom of the apparatus main body, and the water taken in from the intake port for taking in water is stored and dissolved in high-concentration saline. Is a continuous supply method of high-concentration saline, in which a salt holding container containing salt is stored in a means for maintaining a position at a predetermined height from the bottom of the apparatus main body. A step of setting, a step of closing the outflow pipe in order to prevent the outflow of water from the outlet for taking out the high-concentration saline supplied with salt, and a means for supplying water A step of taking a certain amount of water into the device body, which is a container, from a take-in port for taking in water, a step of preventing the take-in after taking in the predetermined amount of water, and a high concentration required for taking out A step of measuring a predetermined time in which the salt water is generated without stirring, and after the elapse of the predetermined time, the outflow pipe is opened for removal, and the outflow pipe is removed after taking out the high-concentration saline necessary for the removal. The problem has been solved by a continuous supply method of high-concentration saline, which comprises a step of closing and a step of taking in the amount of water reduced by removal from the take-in port.
[0011]
In the present invention, the salt container device storing salt is supported at a predetermined height from the container bottom of the apparatus main body, and the water taken in from the intake port for taking in water is stored and dissolved in high-concentration saline. Is a continuous supply method of high-concentration saline solution, in which the high-concentration saline solution is continuously taken out from the take-out port, and an outflow pipe for preventing the outflow of water from the take-out port for taking out the high-concentration salt solution supplied with salt And a step of setting a salt holding container containing salt in a means for maintaining a position at a predetermined height from the bottom of the apparatus body, and a means for supplying water A step of taking a certain amount of water into the device body, which is a container, from a take-in port for taking in water, a step of preventing the take-in after taking in the predetermined amount of water, and a high concentration required for taking out A step of measuring a predetermined time in which the salt water is generated without stirring, and after the elapse of the predetermined time, the outflow pipe is opened for removal, and the outflow pipe is removed after taking out the high-concentration saline necessary for the removal. The problem has been solved by a continuous supply method of high-concentration saline, which comprises a step of closing and a step of taking in the amount of water reduced by removal from the take-in port.
[0012]
In the present invention, the salt container device storing salt is supported at a predetermined height from the container bottom of the apparatus main body, and the water taken in from the intake port for taking in water is stored and dissolved in high-concentration saline. Is a continuous supply method of high-concentration saline solution, in which the high-concentration saline solution is continuously taken out from the take-out port, and an outflow pipe for preventing the outflow of water from the take-out port for taking out the high-concentration salt solution supplied with salt And a step of setting a salt holding container containing salt in a means for maintaining a position at a predetermined height from the bottom of the apparatus body, and a means for supplying water A step of taking a certain amount of water into the device body, which is a container, from a take-in port for taking in water, a step of preventing the take-in after taking in the predetermined amount of water, and a high concentration required for taking out A step of measuring a predetermined time in which the salt water is generated without stirring, a step of taking out a certain amount of high-concentration saline solution with respect to the take-out after the lapse of the predetermined time, and a step of taking in the amount of water reduced by the take-out from the intake port The problem was solved by the continuous supply method of high-concentration saline solution. The high-concentration saline is preferably a saturated saline solution due to time control.
[0013]
The principle of solving the above problems is that high-concentration saline solution does not dissolve salt solution more than saturated salt solution, so if the dissolution time is too long or the amount of high-concentration saline solution required is small In this case, salt is not consumed. For this reason, obtain high concentration saline many times by adding salt once. That is, it is possible to repeatedly generate and supply high-concentration saline.
[0014]
It should be noted that the optimum use of the continuous supply device for high-concentration saline is effective for diluting the high-concentration saline at a predetermined ratio and using it as a predetermined concentration for electrolytic sterilization. is there. In that case, an intake port for taking in water to which one end is connected to a means for supplying water and a water supply pipe provided with a control means for controlling the supply of water to a cut-off state and a supply state is connected; A high-concentration salt water extraction pipe provided with a take-out port for taking out the high-concentration saline solution supplied with salt, and a control means connected to the take-out port to control the removal of the high-concentration saline solution between the shut-off state and the take-out state And a salt holding container supported by a means for maintaining a position at a predetermined height from the bottom of the device body, The holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the opening of the salt holding container is a dissolved high-concentration saline. Settling down By supplying electricity to a continuous supply device of high-concentration saline solution formed in the outer shape that forms the flow and a pair of electrodes connected to the drive means, the salt solution of a constant concentration is electrolyzed to generate chlorine ions An electrolytic cell for supplying the high-concentration saline solution with one end connected to the outlet and the other end connected to a high-concentration saline water intake port of the electrolytic cell; and means for supplying water A problem is provided by providing a water supply pipe connected to a water intake port that is connected and takes in water of the electrolytic cell, and a delivery pipe that delivers electrolytic water containing chlorine ions generated in the electrolytic cell. Can be solved.
Further, the present invention measures the salt dissolution time in a bath water circulation device in which bath water in a bathtub is pumped out by a circulation pump, filtered by a filtration device arranged in the circulation path, and kept warm by a heat retention device. timing means, means connected to the water supply pipe having a control means for controlling the supply of the bath water in the cutoff state to the supply state is connected water for supplying the bath water was placed at one end to the bathtub Connects the intake port for intake and the high-concentration salt water extraction pipe equipped with a control means for controlling the extraction of the high-concentration saline solution in a shut-off state and a removal state based on the measurement result measured by the timing means. and a high concentration diet with the outlet for taking out the high concentration saline saline is supplied, the control means for controlling is connected to the outlet of the extraction of the high concentration physiological saline to the cutoff state and the extraction conditions An apparatus main body, which is a container capable of storing a certain amount of water, to which a water extraction pipe is connected, and a salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus main body. The salt holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the opening of the salt holding container is dissolved. By supplying electricity to a continuous supply device of high-concentration saline formed in an outer shape that forms a sedimentation flow in which high-concentration saline precipitates downward, and a pair of electrodes connected to the drive means, An electrolytic cell for electrolyzing water to generate chlorine ions, and a high-concentration saline supply pipe with one end connected to the extraction port and the other end connected to a high-concentration saline water intake port of the electrolytic cell And means for supplying water A water supply pipe connected to a water intake for taking in water of the electrolytic cell, and a delivery line for sending electrolytic water containing chlorine ions generated in the electrolytic cell into the circulation path; The problem was solved by providing a continuous supply apparatus for high-concentration saline, which is characterized by being provided.
[0015]
The principle of solving the above problems is that high-concentration saline solution does not dissolve salt solution more than saturated salt solution, so if the dissolution time is too long or the amount of high-concentration saline solution required is small In this case, salt is not consumed. For this reason, obtain high concentration saline many times by adding salt once. That is, it is possible to repeatedly generate and supply high-concentration saline.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration diagram of the entire apparatus, and water W is stored in a water tank 1. Reference numeral 2 denotes a circulation pump, to which a water supply pipe 3 having one end arranged in the water of the water storage tank 1 is connected. 4 is a water diversion pipe, and is connected to the circulation pump 2 and a pipe H at one end. One of the water dividing pipes 4 is connected by a pipe H to a first port 5a of a first switching valve 5 used for taking in water. The second port 5b of the switching valve 5 and the intake port 6a of the device body 6 of the salt container device are connected by a pipe H. In this embodiment, the circulation pump 2, the water diversion pipe 4, and the first switching valve 5 constitute means for supplying water. In the apparatus main body 6, as a means for maintaining the position at a predetermined height from the bottom, a pedestal 6b having four legs is provided as this embodiment. In addition, as a means for maintaining a position at a predetermined height from the bottom, a housing that is suspended from the top may be used, or a support rib provided in the apparatus main body 6 may be used. Maintaining the position at a predetermined height from the bottom is that the dissolved high-concentration saline solution settles downward, so that the high-concentration saline solution can be reliably taken out, the precipitation flow is promoted, and the high concentration This is because no new salt is dissolved in the saline solution.
[0017]
A take-out port 6 c for taking out high-concentration saline is formed below the apparatus body 6.
Reference numeral 7 denotes a second switching valve, and the first port 7 a and the extraction port 6 c are connected by a pipe H. The second port 7 b of the second switching valve and the third port 5 c of the first switching valve 5 are connected by a pipe H. Reference numeral 8 denotes an electrolytic cell in which a pair of electrode plates 8a and 8b serving as a cathode and an anode connected to a power supply source E are arranged. A high-concentration saline water intake 8 c of the electrolytic cell 8 and a third port 7 c of the second switching valve 7 are connected by a pipe H through an on-off valve 9.
[0018]
Reference numeral 10 denotes a circulation path, one end of which is connected to the other one of the water distribution pipes 4, and the other end is disposed in the water storage tank 1. One end of the pipe H is connected to the delivery port 8d provided in the electrolytic cell 8, and the other end is connected to the throttle portion of the aspirator 11 provided in the circulation path 10 via the on-off valve 12 via the pipe H. ing.
Yes. Reference numeral 13 denotes a timer as time measuring means, which is connected to the command control means 14. Further, the first switching valve 5, the second switching valve 7, the on-off valve 9, and the on-off valve 12 are connected to the command control means 14.
A water level meter 15 is provided as means for detecting the water level of the device body 6 of the salt container device. This may be to set a predetermined amount of water with a timer. This is because a high-concentration saline solution such as a saturated saline solution is obtained without the apparatus body 6, and strict control of the water level is not necessary.
[0019]
Next, the salt holding container 16 supported by the means for maintaining the position at a predetermined height from the bottom in the apparatus main body 6 will be described with reference to FIG.
The salt holding container 16 stores salt therein. Preferably, it is a purified salt and is in the form of a powder excellent in deliquescence.
Further, the salt holding container forms a large number of openings 16a for the stored salt to come into contact with surrounding water and dissolve without stirring, and the outer shape of the salt holding container formed with the large number of openings 16a is dissolved. It is preferable that the outer surface 16b hangs downward as shown in FIG. 2A so as to form a sedimentation flow in which the high-concentration saline solution settles downward along the outer shape.
Moreover, it is preferable to form the outer surface that hangs downward so as to have an inclined portion 16b converged downward as shown in FIG. 2B. Also, as shown in FIG. 2C, the bottom 16c of the outer shape is formed so as to protrude downward on the extension of the hanging wall that hangs downward to form a precipitation flow in which the dissolved high-concentration saline precipitates downward. It is preferable to do.
[0020]
Since this is an external surface that hangs downward, the dissolved salt solution precipitates according to its weight ratio, and at the same time, the undissolved water is replaced with the dissolved saline solution without stirring, so that This is to facilitate the dissolution by contacting with sodium chloride. In addition, after the density | concentration of salt solution increases and it becomes saturated salt solution as a whole, salt will not be melt | dissolved but it will be hold | maintained until naturally new water supply is performed.
[0021]
Next, generation of high-concentration saline and electrolysis water will be described with reference to the flowchart of FIG.
At the start, in step 1 (hereinafter referred to as ST1), the on-off valve 9 and the on-off valve 12 are closed based on the command of the command control means 14, and in ST2, the first switching valve 5 is set only to the port 5c in FIG. 4C. In step ST3, the second switching valve 7 is controlled so that only the port 7a in FIG. 5C is communicated.
Next, in ST4, salt is stored in the salt holding container 16 supported by the means 6b for maintaining the position at a predetermined height from the bottom in the apparatus main body 6.
Next, the ST5 circulation pump 2 operates to suck up the stored water W from the water storage tank 1 through the water supply pipe 3 and return to the water storage tank 1 through the water distribution pipe 4 through the circulation path 10.
[0022]
When the generation of the high-concentration saline is instructed, the first switching valve 5 is controlled in ST6 so that the ports 5a and 5b shown in FIG.
When a predetermined water level is detected by the water level meter 15 as a means for detecting the water level of the apparatus main body 6 in ST7, the first switching valve 5 is controlled to a state where the ports 5a and 5c in FIG. 4B are communicated in ST8.
In ST9, the timer 13 is started to measure the salt dissolution time and time is measured. When a certain amount of dissolution time is reached in ST10, a time signal is output to the command control means 14 to supply high-concentration saline. That is, in ST11, the second switching valve 7 is controlled so that the ports 7a and 7c in FIG.
Next, in ST12, the on-off valve 9 is controlled to be in an open state, and in ST13, the first switching valve 5 is controlled so that the ports 5a and 5b in FIG. 4A are communicated, and water W is taken into the apparatus main body 6 in ST14. In order to control the supply amount of the high-concentration saline by time, the timer 13 is started and timed.
[0023]
When the time required for supplying high-concentration saline is reached in ST15, a time signal is output to the command control means 14, and the on-off valve 9 is closed in ST16.
Next, in ST17, the second switching valve 7 is controlled to communicate with the ports 7b and 7c in FIG. 5B, and in ST18, the first switching valve 5 is controlled to communicate with the ports 5a and 5c in FIG. 4B.
Next, in ST19, the on-off valve 9 is controlled to be in an open state, and the timer 13 is started in ST20 to measure the amount of water to be diluted depending on time.
[0024]
When the time required for supplying the water to be diluted in ST21 is reached, a time signal is output to the command control means 14, and the on-off valve 9 is closed in ST22. In ST23, the second switching valve 7 is controlled so that only the port 7a shown in FIG. 5C is communicated, and in ST24, the first switching valve 5 is controlled so that only the port 5c shown in FIG. 4C is communicated.
Next, in order to control the electrolysis time in ST25, the timer 13 is started and timed, and in ST26, the electrode of the electrolytic cell 8 is energized to electrolyze the saline to generate chlorine ions.
[0025]
When the predetermined electrolysis time is reached in ST27, the electrolysis is stopped in ST28.
Next, the opening / closing valve 12 is controlled to be opened in ST29, and the atmosphere opening valve 17 of the electrolytic cell 8 is released in ST30, and the action of the aspirator 11 provided in the circulation path 10 in ST31 causes the electrolytic water in the electrolytic cell 8 to flow. Is fed into the circulation path 10. It can be expected that the circulating water in the circulation path and the water stored in the water storage tank 1 are sterilized and disinfected by chlorine ions generated by the supply. The electrolyzed water in the electrolytic cell 8 is instantaneously released into the circulation path 10 by the action of the atmosphere release valve 17 and the aspirator 11.
[0026]
Next, the on-off valve 12 is closed in ST32, and the atmosphere release valve 17 of the electrolytic cell 8 is closed in ST33.
In the case of generating high-concentration saline again, the first switching valve 5 in ST8 is again controlled so that the ports 5a and 5b in FIG. 4A are connected, and water W is taken into the apparatus main body 6. By repeating this, high-concentration saline can be generated until the salt held in the salt holding container 16 is consumed.
[0027]
In this embodiment, a certain amount of high-concentration saline solution is taken out by managing the time for taking in new water, but in the pipe H between the second switching valve 7 and the on-off valve 9, A trap or a gap for holding a certain amount of high-concentration saline may be provided, and this may be satisfied and measured.
Further, in this embodiment, when water is taken into the apparatus main body, the water level detecting means is shown, but a trap or a gap for holding a certain amount of water is provided in front of the apparatus main body, Satisfaction may be measured.
[0028]
In addition, the salt holding container dissolves without salt in contact with the water around the salt holding container, so that the dissolution rate is achieved by allowing the water level to reach the upper position of the stored salt. Therefore, it is preferable that the water level be sufficiently high.
[0029]
As an embodiment of the present invention, an apparatus and method for sterilizing chlorine by releasing chlorine ions into the water stored in the water storage tank and the circulating water in the circulation path have been shown. In the circulation path shown in FIG. A bath water circulator provided with a chlorine sterilizer as shown in FIG. 6 and a bath water circulator as shown in FIG. It may be configured as a chlorine sterilization method for the apparatus.
【The invention's effect】
As described above, according to the present invention, not only a chlorine-generating substance that is not dangerous to handle and complicated to manage as in ordinary households, but also uses salt and utilizes the highly deliquescent salt property. High-concentration saline solution does not dissolve salt solution over saturated salt solution, so that salt is consumed even if the dissolution time is too long or the amount of high-concentration saline solution required is small. Therefore, it is possible to provide a stable generation device. For this reason, obtain high concentration saline many times by adding salt once. That is, it is possible to repeatedly generate and supply high-concentration saline. Further, it is possible to provide a continuous supply apparatus and a continuous supply method for high-concentration saline that continuously generate and supply high-concentration saline at a constant concentration at regular intervals. By diluting the high-concentration saline with water, a constant-concentration saline can be reliably supplied to the required application such as electrolysis.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of an embodiment of an electrolytic sterilization apparatus according to the present invention. FIG. 2 is an explanatory diagram of a salt holding container according to an embodiment of the present invention. FIG. 5 is a diagram illustrating the operation of the second switching valve 7 according to the embodiment of the present invention. FIG. 6 is a diagram illustrating the operation of the second switching valve 7 according to the embodiment of the present invention. Overall configuration diagram when applied to a well-circulating circulation system [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1: Reservoir 2: Circulation pump 4; Water split pipe 5; 1st switching valve 6; Device main body 6b; Base 7; Second switching valve 8; Electrolysis tank 9; On-off valve 13; timer 14 as time measuring means; command control means 15; water level gauge 16; salt holding container 17;

Claims (10)

A time measuring means for measuring the salt dissolution time;
An intake port connected to the means for supplying water and for taking in water;
According to the measurement result of the time measuring means, and a take-out port for taking out high-concentration saline supplied with salt,
An apparatus body that is a container capable of storing a certain amount of water;
A salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body,
The salt holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the salt holding container formed with the large number of openings The continuous supply device for high-concentration saline is characterized in that the outer shape of is formed into an outer shape that forms a precipitation flow in which dissolved high-concentration saline is precipitated downward. A time measuring means for measuring the salt dissolution time;
A water intake port connected to a means for supplying water at one end, and a water supply pipe provided with a means for controlling to control the supply of water to a cut-off state and a supply state;
According to the measurement result measured by the time measuring means, a high concentration saline solution extraction pipe provided with a control means for controlling the extraction of the high concentration saline solution to a cut-off state and a removal state is connected, and salt is supplied. An outlet for taking out the high-concentration saline,
An apparatus body that is a container capable of storing a certain amount of water;
A salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body,
The salt holding container has a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the salt holding with the many openings formed therein. The continuous supply apparatus for high-concentration saline is characterized in that the outer shape of the container is formed into an outer shape that forms a precipitation flow in which dissolved high-concentration saline is precipitated downward.   The outer shape formed with the opening of the salt holding container is a rising portion that hangs downward to form a precipitation flow in which the dissolved high-concentration saline solution settles downward. Or the continuous supply apparatus of the high concentration salt solution of 2.   The outer shape formed with the opening of the salt holding container is a rising part having a sloped portion that hangs downward and forms a precipitation flow in which a dissolved high-concentration saline solution settles downward. The continuous supply apparatus for high-concentration saline according to claim 1 or 2, wherein the apparatus is a continuous supply apparatus.   The bottom of the outer shape in which the opening of the salt holding container is formed protrudes downward on the extension of the drooping wall that hangs downward to form a precipitation flow in which the dissolved high-concentration saline precipitates downward. The continuous supply apparatus for high-concentration saline according to claim 1, 2 or 3 or 4, wherein the continuous supply apparatus is configured so as to be formed. The salt container device containing salt is supported at a predetermined height from the container bottom of the main body of the device, and the water taken in from the intake port for taking in water is stored, and the dissolved high-concentration saline solution is continuously taken out from the outlet. A continuous supply method of high-concentration saline,
Supplying salt to a salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body;
A step of closing the outflow pipe in order to prevent the outflow of water from the take-out port for taking out the high-concentration saline supplied with the salt;
A step of taking a certain amount of water into a device body, which is a container, from a take-in port for taking in water connected to a means for supplying water;
Preventing uptake after uptake of the predetermined amount of water;
Measuring a predetermined time during which high-concentration saline necessary for removal is generated without stirring;
Opening the outflow line for removal after a predetermined time and closing the outflow line after removal of high-concentration saline required for removal; and
A continuous supply method of high-concentration saline, comprising the step of taking in the amount of water reduced by taking out from the take-in port. The salt container device containing salt is supported at a predetermined height from the container bottom of the main body of the device, and the water taken in from the intake port for taking in water is stored, and the dissolved high-concentration saline solution is continuously taken out from the outlet. A continuous supply method of high-concentration saline,
Setting a salt holding container containing salt in a means for maintaining a position at a predetermined height from the bottom of the apparatus body; and
A step of closing the outflow pipe in order to prevent the outflow of water from the take-out port for taking out the high-concentration saline supplied with the salt;
A step of taking a certain amount of water into a device body, which is a container, from a take-in port for taking in water connected to a means for supplying water;
Preventing uptake after uptake of the predetermined amount of water;
Measuring a predetermined time during which high-concentration saline necessary for removal is generated without stirring;
After the predetermined time has passed, the step of opening the outflow conduit for the removal and closing the outflow conduit after removing the high-concentration saline necessary for the removal, and the amount of water reduced by the removal from the intake port A continuous supply method of high-concentration saline. The salt container device containing salt is supported at a predetermined height from the container bottom of the main body of the device, and the water taken in from the intake port for taking in water is stored, and the dissolved high-concentration saline solution is continuously taken out from the outlet. A continuous supply method of high-concentration saline,
A step of closing the outflow pipe in order to prevent the outflow of water from the take-out port for taking out the high-concentration saline supplied with the salt;
Setting a salt holding container containing salt in a means for maintaining a position at a predetermined height from the bottom of the apparatus body; and
A step of taking a certain amount of water into a device body, which is a container, from a take-in port for taking in water connected to a means for supplying water;
A step of preventing uptake of the predetermined amount of water after uptake; a step of measuring a predetermined time during which high-concentration saline necessary for removal is generated without stirring; and
After the predetermined time has elapsed, the outflow conduit is opened until the trap or void is filled with the high-concentration saline solution formed in the outflow conduit for removal, and the trap or void is filled with the high-concentration saline solution. Closing the outflow line;
And a step of taking in the amount of water reduced by taking out from the take-in port, and a continuous supply method of high-concentration saline. The salt container device containing salt is supported at a predetermined height from the container bottom of the main body of the device, and the water taken in from the intake port for taking in water is stored, and the dissolved high-concentration saline solution is continuously taken out from the outlet. A continuous supply method of high-concentration saline,
A step of closing the outflow pipe in order to prevent the outflow of water from the take-out port for taking out the high-concentration saline supplied with the salt;
Setting a salt holding container containing salt in a means for maintaining a position at a predetermined height from the bottom of the apparatus body; and
A step of taking a certain amount of water into a device body, which is a container, from a take-in port for taking in water connected to a means for supplying water;
Preventing uptake after uptake of the predetermined amount of water;
Measuring a predetermined time during which high-concentration saline necessary for removal is generated without stirring;
Removing a certain amount of high-concentration saline solution for removal after a predetermined time;
A step of taking in the amount of water reduced by taking out from the take-in port, and a continuous supply method of high-concentration saline. In the circulator of the bath water in which the bath water in the bathtub is pumped out by a circulation pump, filtered by a filtration device arranged in the circulation path, and kept warm by a heat retention device.
A time measuring means for measuring the salt dissolution time;
Intake for taking in water connected to a water supply pipe having a control means for controlling the supply of the bath water between a shut-off state and a supply state connected to a means for supplying bath water having one end arranged in the bathtub Mouth,
According to the measurement result measured by the time measuring means, a high concentration saline solution extraction pipe provided with a control means for controlling the extraction of the high concentration saline solution to a cut-off state and a removal state is connected, and salt is supplied. An outlet for taking out the high-concentration saline,
An apparatus body that is a container capable of storing a certain amount of water;
A salt holding container supported by means for maintaining a position at a predetermined height from the bottom of the apparatus body,
The salt holding container forms a large number of openings for the salt stored therein to contact the water around the salt holding container and dissolve without stirring, and the opening of the salt holding container is a high concentration dissolved A continuous supply device of high-concentration saline formed in an outer shape that forms a precipitation flow in which the salt solution settles downward;
An electrolyzer for generating chlorine ions by electrolyzing a constant concentration of saline by energizing a pair of electrodes connected to the driving means;
A supply pipe for high-concentration saline, one end of which is connected to the outlet and the other end is connected to a high-concentration saline intake of the electrolytic cell;
A water supply pipe connected to a means for supplying water and connected to a water intake for taking in water of the electrolytic cell;
A continuous supply apparatus for high-concentration saline, comprising: a delivery pipe for delivering electrolytic water containing chlorine ions generated in the electrolytic tank into the circulation path.

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