JPH0714470B2 - Method and device for dissolving solid medicine - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a method and an apparatus for dissolving a solid medicine, and in particular, to treat treated water such as when sterilizing and disinfecting wastewater from a septic tank or a combined treatment tank. It is suitable for treating chemicals in water treatment facilities where the flow rate fluctuates significantly.

[Conventional technology]

As this type of prior art, there is a method in which a solid medicine is filled in a medicine cylinder having a water passage hole formed in the lower portion, and the solid medicine is placed in a flow path of the treated water to bring the treated water into contact with the solid medicine. Has been done.

When the flow rate of treated water is changed in such treatment, a method of varying the immersion depth of the drug cylinder in the treated water as a means for dissolving the solid medicine in the treated water at a predetermined ratio (Jitsuko Sho 50-5242). Gazette) A method of changing the opening degree of the water passage hole in the medicine bottle (Jpn. Kokoku Publication No. Sho 50-5603, No. 60-34341 publication), and a plurality of medicine cylinders are provided in the flow path of the treated water according to the amount of flowing water. There is known a method (Japanese Patent Publication No. 51-18395, Japanese Utility Model Laid-Open No. 60-95929) or a method in which an opening / closing plate called a gate or a damper is provided in the flow path of treated water to adjust the amount of flowing water.

On the other hand, in Japanese Patent Publication No. 59-13890, as a means for dissolving the solid medicine in a large amount of treated water, the medicine bottle is filled with the solid medicine, and the treated water is supplied to the upper portion of the medicine bottle in a shower shape to A method of causing treated water to flow down along the surface of the mold agent has been proposed.

[Problems to be Solved by the Invention]

However, when using a conventionally known method or apparatus for dissolving solid chemicals in water treatment facilities where the flow rate of treated water fluctuates significantly, such as wastewater treatment of septic tanks and combined treatment tanks, it should be treated. When the amount of water decreases, the amount of the drug dissolved becomes excessive, and when the amount of water to be treated increases, the amount of the drug dissolved becomes insufficient.Therefore, it is difficult to adjust the amount of treated water supplied to the solid drug frequently. However, the actual situation is that proper sterilization is not performed.

[Means for Solving the Problems]

The present inventor, even if the treated water changes in consideration of such circumstances, in order to always automatically dissolve the drug in the treated water at a substantially constant ratio, as a result of repeating a number of tests,
A plurality of drug chambers partitioned by partition walls are filled with a solid drug, and the treated water is introduced into an arbitrary water storage chamber out of a plurality of water storage chambers provided so as to be connected to the respective drug chambers. The amount of water flowing into the chemical chamber from the chemicals is regulated, and the treated water overflows from the water storage chamber filled with the treated water to the adjacent water storage chambers, and the treated water that flows down by contacting the solid drug in the chemical chamber flows down. The intended purpose was achieved by releasing from the lower part of the drug chamber.

FIGS. 1 and 2 show an example of an apparatus suitable for carrying out the method of the present invention, in which a plurality of drugs are inserted in a box (1) with vertical partition walls (2) (2). Room (3)
(3) ··· is formed on the partition plate (4) in the upper part of each drug chamber (3) (3) · ·, and the weir plate (5) (5) above the partition walls (2) (2) · ·. ) ・ ・ The water storage chambers (7) (7) ・ ・ that are surrounded by one side of the box body (1), the outer surface of the chemical hopper (6) and the dam plates (5) (5)
The side wall of each water storage chamber is provided with a weir plate (5)
It is higher than (5), and the orifices (8), (8), ... Are provided in the partition plate (4) that is connected to the respective drug chambers (3), (3), ... And the water storage chambers (7), (7) ,. Forming water passage holes (9) (9) ··· in the lower part of the chemical chamber (3) (3) · ·, and arranging a gutter (10) for supplying treated water to one water storage chamber (7), A trough (11) for discharging treated water is provided below each drug chamber (3) (3), and a drug hopper (6) is provided in the drug chamber (3).
(3) ··· is connected to the upper rear part.

FIGS. 3 to 5 show another example of an apparatus suitable for carrying out the method of the present invention, in which a plurality of vials (2), (2) ,. Medicine room (3)
(3) ··· is formed, and the inner cylinder (13) and the outer cylinder (14) are made the same number as the drug chamber (3) by the weir plates (5) (5) · · and the bottom plate (15) which are shorter than these. Divided water storage room (7) (7)
.. having a water supply device (16) having the .. (8) (8) ··· is provided, and the vertical groove (17) is provided at a position connected to the orifice (8) (8) · · · in each drug chamber (3) (3) · · of the drug cylinder (12).
(17) ・ ・ Put each medicine chamber (3) of the medicine barrel (12)
(3) ··· and the water storage chambers (7), (7) · · are communicated, and water holes (9) (9) · · are formed at the bottom of the drug chambers (3) (3) · · Treated water is supplied to the water storage chamber (7), and the treated water is discharged from the lower side of each drug chamber (3) (3).

When fitting the inner cylinder (13) of the water bottle (16) to the medicine cylinder (12), a U-shaped protrusion (18) is formed on the inner surface of the inner cylinder (13).
(18) · · · Formed into the vertical groove (17) of the medicine barrel (12)
(17) ··· is slidably inserted to adjust the water bottle (16) to a desired position of the medicine bottle (12), and then the medicine bottle (12) and the water bottle (16) are fixed by a push screw.

FIGS. 6 to 7 show another example of an apparatus suitable for carrying out the method of the present invention, in which a cylindrical bearing (19) is radially provided from a cylindrical bearing (19) to a partition wall (2) ( 2) ··· Multiple drug chambers (3) (3) · with a protruding partition
· Forming the radial weir plate (5) below the cylindrical shaft (20)
(5) ··· and the bottom plate (15), the drug chamber (3) (3)
・ The same number of divided water storage chambers (7), (7) ・ ・ are formed, and through holes (21) (21) ・ ・ are provided above the weir plates (5) (5) ・ ・ in the water storage chamber. Moreover, the upper portion of the arbitrary water storage chamber (7) is opened, and the cylindrical shaft (20) at the lower portion of the water storage chamber (7) (7) ... Is provided with orifices (8) (8). ) (3) ··· Cylindrical bearing (19) with vertical groove (17)
(17) ····
(3) .. Forming water passage holes (9) (9) ..
The tubular shaft (20) is fitted to the tubular bearing (19), the tubular shaft (20) is adjusted to a desired position of the tubular bearing (19), and then both are fixed by a push screw to treat the treated water. The water is supplied to the opening of the cylindrical shaft (20) and the water passage hole (9) of the drug chamber (3) (3) ...
(9) It is to be released from.

A typical solid drug suitable for carrying out the present invention is a tablet obtained by pressure-molding chloroisocyanuric acid and salts thereof or calcium hypochlorite.

[Action]

According to the present invention, the drug chamber is divided into a plurality of partitions by the partition wall, and each pharmacist is provided with a plurality of water storage chambers connected to each other to regulate the amount of water flowing into the drug chamber from each water storage chamber and fill the treated water. Since it overflows from the stored water storage chamber to the adjacent water storage chamber in sequence, even if the amount of water to be treated changes, the treated water supplied from one water reservoir is always led to one chemical chamber, Since this limited amount of treated water comes into contact with a predetermined amount of solid medicine in the medicine chamber, the dispersion of the medicine contained in the treated water is significantly reduced.

Example 1 In the solid medicine dissolving apparatus shown in FIGS. 1 and 2, five medicine chambers (3) having an inner volume of 1500 cm ³ were provided,
Water storage room (7) at the top of each drug room (3) (3)
(7) the internal volume of ... and 150 cm ³ (height 40mm weir), the orifice (8) (8) ... the caliber used after the 2.5mm respectively, diameter 15 mm, thickness of 9 mm, weight 2.5 Trichloroisocyanuric acid tablets (g) were charged from the hopper (6) and filled in the drug chambers (3) (3) .. so that the drug layer height was 20 cm, and treated water (active chlorine disappeared). Tap water) flows down from the gutter (10) to the water storage chamber (7) at one end while changing the flow rate with the passage of time, and the water flowing out from the water passage holes (9) (9) at the bottom of the medicine chamber is guttered ( The effective chlorine concentration of this water was measured by the iodine titration method.

The test conditions and results of this example were as shown in the table below.

Example 2 In the apparatus for dissolving a solid medicine shown in FIGS. 3 to 5, the inner volume of each medicine chamber (3) of a medicine cylinder (12) having an inner diameter of 125 mm was set to 200 cm ³ respectively, and the water storage chamber (7) (7) ... Orifice (8) with an internal volume of 40 cm ³ (weir height 15 mm)
Use (8) with a diameter of 3.3 mm and a diameter of 3
Trichloroisocyanuric acid tablets with a thickness of 0 mm, a thickness of 13 mm, and a weight of 15 g are put into the medicine chamber (3) from above the medicine barrel (12).
(3) ····, filled with treated water (the same as in Example 1) while changing the flow rate with the passage of time, flowing down into one water storage chamber (7), and the orifice at the position where the height of the drug layer is 15 cm Through the water through the water holes (9) (9) at the bottom of the medicine chamber.
・ The water released from was collected and the effective chlorine concentration was measured.

The test conditions and results of this example were as shown in the table below.

Reference Example 1 Radial partition walls (2) (2) of the medicine barrel (12) in Example 2
..Removed, and weir plate (5) of inner cylinder (13) and outer cylinder (14)
(5) When a similar test was conducted using the dissolution apparatus from which the ... Was removed, the results were as shown in the table below.

Example 3 In the solid medicine dissolving apparatus shown in FIGS. 6 to 7, the inner volume of each medicine chamber (3) of the medicine cylinder (12) having an inner diameter of 131 mm was 800 cm ³ , and the cylindrical shaft (20 ) Water reservoir (7)
(7) the internal volume of ... to 3.5 cm ³ and (height 20mm weir), a ... diameter of the orifice (8) (8) used after the 3.0mm respectively, diameter 30 mm, thickness 13 mm, weight 15 g of trichloroisocyanuric acid tablet was put in from above the medicine barrel (12) and filled in each drug chamber (3) (3) ..., and the flow rate of treated water (same as in Example 1) was changed with time. While introducing it, it is introduced into the cylindrical shaft (20) and sprinkled with water at the height of 20 cm of the drug layer, collecting the water discharged from the water passage holes (9) (9) .. The chlorine concentration was measured.

The test conditions and results of this example were as shown in the table below.

[Effect of the Invention] According to the present invention, when the treated water is brought into contact with the solid medicine to dissolve the medicine, the medicine can always be dissolved to a substantially constant concentration even if the supply amount of the treated water changes. When the wastewater of the septic tank with a marked change in the flow rate or the combined treatment tank comes into direct contact with the solid drug, the drug can be dissolved just enough to be processed safely and economically, and the flow rate fluctuates. When a chemical solution is mixed with the treatment liquid to be treated, if the supply amount of the solution to be brought into contact with the solid medicine is changed according to the change of the treatment solution, a constant concentration of the chemical solution can be obtained in proportion to the treatment liquid. When mixed with the treatment liquid, the supply of the chemical to the treatment liquid can be maintained at a constant rate, which is also effective for the chemical treatment of industrial water.

[Brief description of drawings]

1 is a partially cutaway perspective view showing an example of an apparatus suitable for carrying out the present invention, FIG. 2 is a longitudinal sectional view of the same, and FIG. 3 shows another example of an apparatus suitable for carrying out the present invention. Transverse view, 4th
FIG. 5 is a sectional view taken along the line AA of FIG. 3, FIG. 5 is a longitudinal sectional view of the water supply device of the present invention, and FIG. 6 is a perspective view with a part omitted showing another example of an apparatus suitable for carrying out the present invention. FIGS. 7A and 7B are enlarged perspective views in which a part of the tubular shaft of the present invention is omitted, in which (2) is a partition wall, (3) is a drug chamber, (5) is a weir plate, and (7). Is the water reservoir,
(8) represents an orifice, and (9) represents a water passage hole.

Claims (4)

[Claims] 1. A solid medicine is filled in a plurality of medicine chambers partitioned by partition walls, and the treated water is treated in any of a plurality of water reservoirs provided so as to be connected to the respective medicine chambers. Guide,
The amount of water flowing from each water storage chamber into the drug chamber was regulated, and the treated water overflowed from the water storage chamber filled with the treated water to the adjacent water storage chambers in sequence, and then contacted with the solid drug in the drug chamber to flow down. A method for dissolving a solid medicine, characterized in that treated water is released from the lower part of the medicine chamber. 2. A plurality of drug chambers are formed in a box body with vertical partition walls interposed therebetween, and a water storage chamber connected to each drug chamber is provided above each drug chamber with a dam plate interposed therebetween. The side wall of the solid medicine is higher than the dam plate, an orifice is provided at a connecting portion between each medicine chamber and the water storage chamber, and a water passage hole is formed in a lower portion of the medicine chamber. 3. A water storage chamber in which a plurality of drug chambers are formed by interposing radial partition walls in the drug cylinder, and the inner cylinder and the outer cylinder are divided into the same number as the drug chambers by a lower weir plate and a bottom plate. A water supply device is provided, the water supply device is fitted into a medicine bottle, and an orifice is provided at the connecting portion between each medicine chamber of the medicine cylinder and each water storage chamber of the water supply device so that both chambers communicate with each other, and water is passed to the lower portion of the medicine chamber. A device for dissolving a solid medicine, characterized in that holes are formed. 4. A plurality of drug chambers are formed in the lower part of the drug cylinder with a partition having a partition wall radially protruding from a cylindrical bearing, and a radial dam plate and a bottom plate are fixed to the lower part of the cylindrical shaft. A water storage chamber divided into the same number as the drug chamber is formed, a through hole is provided in the upper part of the dam plate in the water storage chamber, and the upper part of any water storage chamber is opened, and a tubular shaft is fitted to the tubular bearing, Dissolution of solid medicine characterized in that an orifice is provided at a portion where the cylindrical bearing of the medicine chamber and the cylindrical shaft of the water storage chamber come into contact with each other so that both chambers communicate with each other and a water passage hole is formed at a lower portion of the medicine chamber. apparatus.