JPH0365230A - Method and apparatus for dissolving solid medical agent - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a method and device for dissolving solid chemicals, and is particularly useful for dissolving treated water, such as when sterilizing wastewater from septic tanks and combined treatment tanks. It is suitable for chemical treatment in water treatment equipment where the flow rate fluctuates significantly.

[Conventional technology]

This type of prior art involves filling a cartridge with a water hole at the bottom with a solid drug, placing it in the flow path of the treated water, and bringing the treated water into contact with the solid drug. method is being done.

In such a process, when the flow rate of treated water changes, a method of changing the immersion depth of the cartridge into the treated water is used as a means to dissolve the solid drug in the treated water at a predetermined ratio (Utility Model Publication No. 50-5242). (Japanese Utility Model Publication No. 50-5603, 1983), Method of changing the opening degree of the water hole in the cartridge
0-34341), a method of installing a plurality of cartridges in the flow path of treated water according to the flow rate (Japanese Patent Publication No. 51-18395, Japanese Utility Model Application Publication No. 60-95929), or a method of installing a gate in the flow path of treated water. Or, by installing an opening/closing plate called a damper,
Methods of adjusting the amount of water flowing are known.

On the other hand, Japanese Patent Publication No. 59-13890 describes a method for dissolving solid drugs in a large amount of treated water by filling a cartridge with a solid drug and supplying the treated water in a shower to the upper part of the cartridge. A method has been proposed in which treated water flows down along the surface of mold chemicals.

[Problem to be solved by the invention]

However, when using conventionally known methods or devices for dissolving solid chemicals in water treatment facilities where the flow rate of treated water fluctuates significantly, such as wastewater treatment from septic tanks and combined treatment tanks, it is necessary to When the amount of water decreases, the amount of drug dissolved becomes excessive, and when the amount of water to be treated increases, the amount of dissolved drug becomes insufficient, so the problem is that the amount of treated water supplied to the solid drug must be adjusted frequently. The reality is that proper sterilization is not being carried out.

[Means to solve the problem]

Taking these circumstances into consideration, the inventor of the present invention has repeatedly conducted numerous tests in order to automatically dissolve chemicals in treated water at a nearly constant rate even when the treated water changes.
A plurality of chemical chambers partitioned by partition walls are filled with a solid drug, and the treated water is guided to any one of the plurality of water storage chambers provided in connection with each of the chemical chambers, and each water storage chamber is The amount of water flowing into the chemical chamber is regulated, and the treated water is sequentially overflowed from the water storage chamber filled with treated water to the adjacent water storage chamber, and the treated water that comes into contact with the solid chemicals in the chemical chamber and flows down. The intended purpose was achieved by releasing the drug from the lower part of the drug chamber.

Figures 1 and 2 show an example of an apparatus suitable for carrying out the method of the present invention, in which a box body (1) is provided with a vertical partition wall (2
) (2)... multiple drug rooms (3) (3)...
The partition plates (4) at the top of each drug chamber (3) (3)... are provided with dam plates (5) (5)... By applying the The side walls are made higher than the weir plates (5) (5), and each chemical chamber (3) (3)... and water storage chamber (7) (7)...
The orifice (8) (8) is connected to the partition plate (4) connected to the
・Water holes (9) are provided at the bottom of the chemical chamber (3) (3)
)(9)..., a gutter θD) is installed to supply treated water to one water storage chamber (7), and each chemical chamber (3) (3)...
・It is equipped with a gutter (11) that discharges treated water downward, and the chemical hopper (6) is connected to the chemical chamber (3) (3)...
It is connected at the rear upper part of the.

Figures 3 to 5 show another example of an apparatus suitable for carrying out the method of the present invention, in which a radial partition wall (
2) Multiple drug rooms (3) (3) with (2)...
..., and the inner cylinder 0■ and the row cylinder round are connected to the medicine chamber (3
) is provided with a water supply device qO having the same number of water storage chambers (7) (7)..., and this water supply device 06) is fitted into the cartridge 02), and each water storage chamber (7) (7)... Inner cylinder 0 at the bottom of
3) with an orifice (8) (8)..., and the cartridge q2.
The orifice (8) in each drug chamber (3) (3)...
) (8)... By drilling vertical grooves θ (+7)... into each drug chamber <3)<3)... and water storage chamber (7) (7)... of the cartridge 02).・Communicate with the drug room (3) (3)・
Water holes (9) (9) are formed at the bottom of ・ to supply treated water to one water storage chamber (7), and each chemical chamber (3) (3)
Treated water is discharged from below.

In addition, when fitting the inner cylinder 03) of the water supply device 0ω to the cartridge Q21, a U-shaped protrusion 08) 0ω is attached to the inner surface of the cylinder 0.
... and this is the longitudinal groove of the cartridge θ force 07)07)...
After adjusting the water supply device 0ω to the desired position of the cartridge 021, the cartridge (E and water supply device Q6) is fixed with a set screw.

Figures 6 and 7 show another example of an apparatus suitable for carrying out the method of the present invention, in which partition walls (2) (2) extend radially from the cartridge (cylindrical bearing 09 at the lower part of +21). Multiple drug rooms (3) (3) with partitions that protrude...
... and a radial weir plate (5) at the bottom of the cylindrical shaft 12I.
(5) ... and the bottom plate (+5) make up the drug chamber (3) (
3)... are formed into water storage chambers (7) (7)... divided into the same number of sections, and through holes (21) (21)... are formed in the upper part of the weir plates (5) (5)... in the water storage chambers. and the upper part of any water storage chamber (7) is opened, and the cylindrical shaft Q (D) is provided with an orifice (8) (8)... in the lower part of the water storage chamber (7) (7)..., and the drug chamber is opened. (3) Vertical groove Q in the cylindrical bearing 09 of (3)...
T) Q7)... to communicate between the two chambers, and the drug chamber (3)
(3) Form water holes (9) (9)... at the bottom of...
The cylindrical shaft 12I is fitted into the cylindrical bearing Q9), and the cylindrical shaft (
After adjusting C) to the desired position of the cylindrical bearing 09), fix both with a push screw, supply the treated water to the opening of the cylindrical shaft C2 (D), and fill the chemical chambers (3), (3), etc. Water hole (9)
(9) The water is discharged from...

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

[Effect]

According to this invention, the medicine chamber is divided into a plurality of parts by partition walls, and each medicine room is provided with a plurality of water storage chambers connected to each other,
The amount of water that flows into the chemical room from each water storage room is regulated, and the treated water is sequentially overflowed from a full water storage room to the adjacent water storage room, so even if the amount of water to be treated changes, one Treated water supplied from one water storage chamber is always introduced into the chemical chamber, and because this limited treated water comes into contact with a predetermined amount of solid chemicals in the chemical chamber, variations in the chemicals contained in the treated water occur. is significantly reduced.

Example 1 In the solid drug dissolving device shown in Figs. 1 and 2, the drug chamber (3) having an internal volume of 1500C11''
The internal volume of the water storage chamber (7) (7) at the top of each chemical chamber (3) (3) is 150 cm'' (weir height 4hm), and the orifice (8) (8) ... with a diameter of 2.5 mm, respectively, with a diameter of 15 mm,
Trichloroisocyanuric acid tablets with a thickness of 9 mm and a weight of 2.5 g are introduced from the hopper (6) and placed in each drug chamber (3) (
3)... is filled so that the height of the chemical layer is 20 cm, and treated water (tap water in which active chlorine has disappeared) is poured into one end of the water storage chamber (7 ), and the water flows through the water holes (9) (9) at the bottom of the chemical chamber.
The water flowing out was collected in the gutter 01), and the effective chlorine concentration of this water was measured by iodometry.

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

(Measurement time is indicated by elapsed time) Example 2 In the solid drug dissolving apparatus shown in FIGS. 3 to 5, the internal volume of each drug chamber (3) of the cartridge Q21 with an inner diameter of 125 mm was c- and water storage chamber (7) (7)
The internal volume of ... is 40 cm" (weir height 15 mm), and the diameter of orifice (8) (8) is 3.3
mm, diameter 30mm, thickness 13mm
, a trichloroisocyanuric acid tablet weighing 15 g was introduced from above into the cartridge Q21, and each drug chamber (3) (3)...
The treated water (same as in Example 1) was poured into one water storage chamber (7) while changing the flow rate over time, and water was injected through the orifice into the medicinal herbal medicine 1 layer at a height of 15 cm. The water released from the water holes (9) (9) at the bottom of the chemical chamber 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 The cartridge in Example 2 (+21 radial septum (2) (2
)..., and remove the weir plate (5) of the inner cylinder 0□ and the outer cylinder Oa (
5) When a similar test was conducted using a dissolving apparatus in which... was removed, the results were as shown in the table below.

(Measurement time is indicated by elapsed time) Example 3 In the solid drug dissolving device shown in FIGS. 6 and 7, the internal volume of each drug chamber (3) of the 021 cartridge 021 with an inner diameter of 131 mm was 800 c. -, the internal volume of the water storage chambers (7) (7)... of the cylindrical shaft Qal is 3.5 cra" (height of the weir 20 cm), and the diameters of the orifices (8) (8) are respectively 3.0+mm, diameter 30
A trichloroisocyanuric acid tablet of ma+, thickness 13 mm, weight ff 115 g is introduced from above the cartridge (12), filled into each drug chamber (3), (3), and the treated water (same as in Example 1) ) while changing the flow rate over time.
Water is introduced into the cylindrical shaft Qr5 and sprinkled at a height of 20co+ of the drug layer, and the water passage holes (9) (9) at the bottom of the drug chamber are...
The water released from the tank was collected and its available chlorine concentration was measured.

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

(Measurement time is indicated by elapsed time) [Effects of the Invention] According to the present invention, when the treated water is brought into contact with a solid chemical to dissolve the chemical, even if the supply amount of the treated water fluctuates, the chemical is maintained. Since it can always be dissolved at a nearly constant concentration, it is safe and economical because it dissolves just the right amount of chemicals when the wastewater from a septic tank or combined treatment tank, where the flow rate changes significantly, comes into direct contact with solid chemicals. When mixing a chemical solution with a processing solution that can be processed and whose flow rate fluctuates, by changing the supply amount of the dissolving solution that is brought into contact with the solid drug according to changes in the processing solution, a constant concentration of the drug solution can be maintained in the processing solution. Since it can be obtained in proportion to , if it is mixed with the treatment liquid, the supply of the chemical to the treatment liquid can be maintained at a constant ratio, so it is also effective for chemical treatment of industrial water.

[Brief explanation of drawings]

FIG. 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 cross-sectional view of the same, and FIG. Cross-sectional view shown, No. 4
The figure is a cross-sectional view taken along the line A-A in FIG. 3, FIG. 5 is a vertical cross-sectional view of the water supply device of the present invention, and FIG. 6 is a partially cutaway perspective view showing another example of a device suitable for carrying out the present invention. FIG. 7 is an enlarged perspective view with a part cut away showing the cylindrical shaft of the present invention, in which (2) is a partition wall, (3) is a drug chamber, (5) is a weir plate, and (7) is a partition wall. is a water storage chamber,
(8) represents an orifice, and (9) represents a water hole.

Claims (4)

[Claims] (1) Filling a plurality of chemical chambers partitioned by partition walls with a solid drug, and guiding treated water to any one of the plurality of water storage chambers provided in connection with each of the chemical chambers; The amount of water flowing into the chemical room from each water storage room was regulated, and the treated water sequentially overflowed from the water storage room filled with treated water to the adjacent water storage room, coming into contact with the solid chemicals in the chemical room and flowing down. A method for dissolving solid drugs, characterized in that treated water is released from the lower part of a drug chamber. (2) A plurality of drug chambers are formed by interposing vertical partition walls in the box body, and a water storage chamber is provided above each drug chamber and connected to each drug chamber with a dam plate interposed therebetween, and the side walls of each water storage chamber are 1. A device for dissolving a solid drug, characterized in that the height is set higher than a weir plate, an orifice is provided at a connecting portion between each drug chamber and a water storage chamber, and a water passage hole is formed in a lower part of the drug chamber. (3) A water supply device having a water storage chamber in which a plurality of drug chambers are formed by interposing radial partitions in the cartridge, and the inner cylinder and outer cylinder are divided into the same number of drug chambers by a weir plate and a bottom plate shorter than these chambers. The water supply device is fitted into the cartridge, an orifice is provided at the connecting portion of each drug chamber of the cartridge and each water storage chamber of the water supply device to communicate the two chambers, and a water passage hole is provided at the bottom of the drug chamber. A device for dissolving solid drugs, characterized in that: (4) A plurality of drug chambers are formed at the lower part of the cartridge by interposing partitions with partition walls projecting radially from the cylindrical bearing, and a radial weir plate and a bottom plate are fixed to the lower part of the cylindrical shaft to form drug chambers. A water storage chamber is formed into the same number of compartments, a through hole is provided in the upper part of the weir plate in the water storage chamber, the upper part of any water storage chamber is opened, a cylindrical shaft is fitted into the cylindrical bearing, and a drug chamber is formed. A device for dissolving a solid drug, characterized in that an orifice is provided at a portion where the cylindrical bearing and the cylindrical shaft of the water storage chamber contact each other to communicate the two chambers, and a water passage hole is formed in the lower part of the drug chamber.