JP4288923B2 - Chemical supply tool - Google Patents

Description

【００３６】
評価
実施例１の薬液供給具１００Ａについては、天板１０Ａと薬液タンク１との重なりが最大となるようにした図２の態様（装着態様１）と、最小となるようにした図３の態様（装着態様２）と、天板を取り除いた態様（態様３）の３種を用意した。また、実施例２の薬液供給具１００Ｂは、通液孔１５を全開にした。
【００３７】
この合計４種の薬液供給具を試験宅Ａ及び試験宅Ｂにおいて、水洗トイレの手洗い付きロータンクの手洗い部に載置し、水のフラッシュ毎にトイレ内の室温とカランから供給される水の温度を測定し、当初充填した薬剤が無くなるまでのフラッシュ回数を数えた。結果を表２に示す。
【００３８】
【表２】

【００３９】
表２の結果から、実施例１において、天板の装着態様を変えて薬液タンクに多くの水を接触させるほど、薬液タンク内の薬剤が無くなるまでのフラッシュ回数が少なくなること、言い換えれば、１回のフラッシュ当たりのロータンクへの薬剤供給量が多くなることがわかる。したがって、本発明によれば、天板の調整によりロータンクへ供給する薬剤量を調整できることがわかる。
【００４０】
また、試験宅Ａと試験宅Ｂの結果を対比することにより、同じ天板の装着態様の薬液供給具であっても、薬液供給具の設置環境において、水温と室温の差が大きいほど１回のフラッシュ当たりのロータンクへの薬剤供給量が多くなることがわかる。したがって、当該設置環境に応じて、ロータンクへの薬剤供給量を調整できるようにした本発明の薬液供給具の有用性がわかる。
【００４１】
【発明の効果】
本発明の薬液供給具によれば、水洗トイレの手洗い付きロータンクの手洗い部に載置することにより、ロータンク内に薬剤を供給することができ、かつ薬液供給具の設置環境に応じてロータンクへの薬剤供給量を適切に調整することができる。
【図面の簡単な説明】
【図１】 薬液供給具の斜視図である。
【図２】 天板と薬液タンクとの重なりが多くなるように天板の装着方向を調整した薬液供給具の上面図（ａ）と、その薬液供給具の作用を示す断面図（ｂ）である。
【図３】 天板と薬液タンクとの重なり量が少なくなるように天板の装着方向を調整した薬液供給具の上面図（ａ）と、その薬液供給具の作用を示す断面図（ｂ）である。
【図４】 天板を取り外した薬液供給具の断面図である。
【図５】 薬液供給具の斜視図である。
【図６】 通液孔が無くなるように天板を調整した薬液供給具の上面図（ａ）と、その薬液供給具の作用を示す断面図（ｂ）である。
【図７】 通液孔が全開となるように天板を調整した薬液供給具の上面図（ａ）と、その薬液供給具の作用を示す断面図（ｂ）である。
【図８】 薬液供給具の斜視図（ａ）、及びロータンクの手洗い部に載置した薬液供給具の断面図（ｂ）である。
【符号の説明】
１ 薬液タンク
２ 薬液タンクの底部開口部
３ キャップ
４ 薬液供給ノズル
５ 先端開口部
１０Ａ、１０Ｂ 天板
１１ 第１の円盤状部材
１２ 通液孔
１３ 第２の円盤状部材
１４ 通液孔
１５ 通液孔
２０ 手洗い部
１００Ａ、１００Ｂ 薬液供給具
Ａ 薬剤[0001]
BACKGROUND OF THE INVENTION
The present invention is a chemical solution that is placed in a hand-washing part of a hand-washed low tank of a flush toilet and is suitable for mixing chemicals (fragrances, cleaning agents, disinfectants, etc.) with water supplied from a currant above the hand-washing part. Related to the supply tool.
[0002]
[Prior art]
Patented as a chemical supply tool that is placed in the hand-washing part of a low tank with hand-washing in a flush toilet and used to mix chemicals (fragrances, cleaning agents, disinfectants, etc.) with water supplied from the currant above the hand-washing part A medicine supply tool for flush toilets described in Document 1 is known. This medicine supply device is provided with a medicine outlet hole at the bottom of a chemical tank (drug container) for storing a liquid medicine, the medicine is led out from the outlet hole into the impregnated body and impregnated. The chemicals contained in the impregnated body are dissolved in water and flowed down into the low tank.
[Patent Document 1]
JP-A-2001-342666 [Problems to be Solved by the Invention]
The above-described chemical supply tool is structurally complex and expensive to manufacture. On the other hand, as shown in FIG. 8, the chemical supply tool 100x having a simpler mechanism includes a chemical liquid tank 1 for storing the liquid chemical A and a cap 3 attached to the bottom opening 2 of the chemical liquid tank 1. It is conceivable that the chemical liquid supply nozzle 4 and the foot 6 are provided on the cap 3. The drug A is held in the tip opening 5 of the chemical solution supply nozzle 4 by the surface tension and the inside of the chemical solution tank 1 being in a weak negative pressure state.
[0003]
When this chemical supply tool 100x is placed on the water inlet 21 of the hand-washing part 20 of the low tank, the water in the flush toilet is flushed, and when water W is supplied from the currant to the hand-washing part 20 as indicated by the arrow, W flows down into the raw tank so as to wash the chemical supply nozzle 4 holding the chemical A. Therefore, according to this chemical solution supply tool 100x, it is possible to mix the drug A into the raw tank every time water is supplied from the currant with a simple mechanism.
[0004]
The chemical liquid tank 1 has a negative pressure according to the amount of the medicine A supplied into the raw tank, but the drug dilution liquid, water or air adhering to the tip opening 5 of the chemical liquid supply nozzle 4 is at its tip. Since it enters the chemical tank 1 from the opening 5, the chemical tank 1 immediately returns to a weak negative pressure state. Thereafter, this action is repeated every time water is supplied from the currant, and the medicine A is mixed into the low tank.
[0005]
However, as described above, even when the impregnated body impregnated with the chemical is exposed to the flow of water in the hand-washing portion, the chemical impregnated in the impregnated material is dissolved in water and allowed to flow down into the low tank, as shown in FIG. Even when the medicine A is mixed into the raw tank from the medicine supply nozzle 4 provided at the bottom of the medicine tank 1 like the medicine supply tool 100x, when the medicine tank is exposed to the water supplied from the currant, Since the air in the chemical liquid tank expands or contracts due to the difference between the temperature of the water supplied from the currant and the room temperature of the toilet, the amount of chemical supplied from the chemical tank to the low tank varies. The installation environment of chemical supply tools such as the temperature of the water supplied from Karan and the room temperature of the toilet varies from household to household, and varies greatly depending on the season. For this reason, when designing the chemical liquid supply tool, the amount of chemical supplied from the chemical liquid tank into the raw tank cannot be uniquely determined.
[0006]
In contrast, according to the present invention, the chemical supply amount is appropriately set according to the installation environment of the chemical supply device in the chemical supply device that supplies the chemical into the low tank by placing it in the hand wash part of the hand-washed low tank of the flush toilet. It aims to be able to adjust to.
[0007]
[Means for Solving the Problems]
The present inventor supplies the raw tank to the low tank for every toilet or the season in which the chemical liquid supply tool is placed in the chemical supply tool in which the chemical is supplied to the raw tank from the opening of the cap attached to the bottom opening of the chemical tank. In order to make the amount of chemicals to be appropriate, it has been found that it is effective to provide a top plate on the chemical tank so that the amount of water supplied from the currant can be adjusted to contact the chemical tank. .
[0008]
That is, the present invention comprises a chemical tank for storing a liquid drug, a cap attached to the bottom opening of the chemical tank, and a top plate provided on the chemical tank, and the toilet of the flush toilet is attached from the opening of the cap. Provided is a chemical supply device for supplying a chemical to a low tank, wherein all or part of the top plate is movable so that the amount of contact of water supplied from the currant with the chemical solution tank can be adjusted. .
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings. In each figure, the same numerals indicate the same or equivalent components.
[0010]
FIG. 1 is a perspective view of a chemical solution supply tool 100A according to an aspect of the present invention.
[0011]
The medicine discharge container 100A includes a chemical liquid tank 1 for storing a liquid chemical A such as a toilet fragrance, a cleaning agent, and a sterilizing agent, and a cap 3 attached to the bottom opening 2 of the chemical liquid tank 1. The outer shape of the chemical liquid tank 1 as viewed from above is a slightly flat rectangle with rounded corners. The cap 3 is provided with a chemical solution supply nozzle 4 and a foot 6 integrally with the cap 3, and the chemical A has a surface tension and a negative negative pressure in the chemical solution tank 1 at the tip opening 5 of the chemical solution supply nozzle 4. It is held by becoming a state.
[0012]
A top plate 10 </ b> A is fitted on the top of the chemical tank 1. The top plate 10A has an outer shape when viewed from the upper surface, which is substantially the same as the outer shape when the chemical liquid tank 1 is viewed from the upper surface, and is slightly smaller in size. Further, the top plate 10A rotates on the chemical liquid tank 1 as indicated by an arrow, and the mounting direction with respect to the chemical liquid tank 1 is variable.
[0013]
By providing the top plate 10A in such a manner that the mounting direction can be changed, when the water from the currant is supplied from directly above the chemical supply tool 100A, the contact amount of the water supplied from the currant to the chemical tank is adjusted. Can do. By this adjustment, for example, the amount of medicine entering the raw tank from the chemical liquid tank can be adjusted as follows.
[0014]
First, when water is supplied from the currant, the medicine A held in the tip opening 5 of the chemical solution supply nozzle 4 is washed by the water from the currant and enters the raw tank. The negative pressure is generated in the chemical liquid tank 1 due to the mixing of the chemical A into the low tank, but this negative pressure is immediately eliminated when the diluted chemical, water, or air enters the chemical liquid tank 1 from the tip opening 5. .
[0015]
When the water temperature is lower than the room temperature, the chemical tank 1 is cooled by the water supplied from the currant, but when the water supply from the currant stops, the chemical tank gradually warms up, and the air in the head space in the chemical tank 1 expands. And the inside of the chemical | medical solution tank 1 will be in a pressurized state. For this reason, the medicine A is pushed out and also enters the low tank. When the water temperature is higher than room temperature, the head space in the chemical tank 1 is warmed and expanded when water is supplied from the currant, whereby the medicine A is discharged. Accordingly, the larger the difference between the water temperature and the room temperature, and the greater the amount of water supplied from the currant to the chemical tank 1, the greater the amount of chemical that enters the raw tank due to the expansion of the head space when the temperature of the chemical tank 1 rises. Will increase.
[0016]
On the other hand, according to this chemical supply tool 100A, the contact amount of the water supplied from the currant to the chemical tank can be adjusted by the top board 10A. Therefore, the amount of medicine entering the raw tank from the chemical tank can be adjusted to an appropriate amount.
[0017]
In the present invention, as the drug A, a drug whose viscosity is adjusted to 5 to 1000 mPa · s (20 ° C.) is used, and the diameter of the tip opening 5 of the drug solution supply nozzle 4 is preferably 1 to 5 mm. If the viscosity of the drug A exceeds 1000 mPa · s or the hole diameter of the tip opening 5 is smaller than 1 mm, it is difficult for the drug A to be led out from the drug solution tank 1 to the tip of the drug solution supply nozzle 4. On the other hand, if the viscosity of the drug A is lower than 5 mPa · s, or the hole diameter of the tip opening 5 is wider than 5 mm, the drug A tends to leak excessively from the tip opening 5.
[0018]
As a method of using this chemical solution supply tool 100A, in the installation environment of the chemical solution supply device, when it is desired to reduce the amount of the medicine entering the raw tank, first, as shown in FIG. 2 (a), the top plate 10A, the chemical solution tank 1 and The mounting direction of the top plate 10A with respect to the chemical solution tank 1 is adjusted so that there is as much overlap as possible, and this is placed on the water inlet 21 of the hand-washing portion 20 of the low tank with hand-washing of the flush toilet.
[0019]
After the chemical solution supply tool 100A is placed on the hand-washing section 20, when the water in the flush toilet is flushed and supplied from the currant, the water W may come into contact with the chemical solution tank 1 as shown in FIG. Since it is obstructed by the plate 10 </ b> A, it flows along the top plate 10 </ b> A and then flows to the hand-washing unit 20 through the side of the chemical tank 1. Therefore, the temperature change of the chemical liquid tank 1 due to the water supply is suppressed to the minimum, and after the water supply from the currant is stopped, the expansion amount of the air in the head space of the chemical liquid tank 1 is also suppressed, and the medicine A pushed out from the chemical liquid tank 1 Is kept to a minimum.
[0020]
On the other hand, when it is desired to increase the amount of medicine entering the raw tank in the installation environment of the chemical solution supply tool, first, as shown in FIG. 3 (a), the overlapping of the top plate 10A and the chemical solution tank 1 is minimized. The mounting direction of the top plate 10A with respect to the chemical tank 1 is adjusted, and this is placed on the water suction port 21 of the hand-washing portion 20 of the low tank with hand-washing of the flush toilet.
[0021]
After the chemical solution supply tool 100A is placed on the hand-washing unit 20, when the water in the flush toilet is flushed and supplied from the currant, the water W flows along the top plate 10A as shown in FIG. It flows through the upper surface of the chemical tank 1 to the hand-washing unit 20. Accordingly, the amount of water W that contacts the chemical tank 1 during water supply increases, and the temperature change of the chemical tank 1 due to water supply increases. Therefore, after the water supply from the currant stops, the amount of expansion of the air in the head space of the chemical liquid tank 1 increases, and the amount of the medicine A pushed out from the chemical liquid tank 1 can be increased.
[0022]
Furthermore, when increasing the amount of medicine entering the low tank, the top plate 10A may be removed as shown in FIG. Thereby, after the water supply from the currant stops, the amount of the medicine pushed out from the chemical liquid tank 1 can be further increased.
[0023]
When adjusting the amount of medicine entering the raw tank between the mounting mode shown in FIG. 2 and the mounting mode shown in FIG. 3, the mounting direction of the top plate 10A with respect to the chemical tank 1 is changed as appropriate.
[0024]
This chemical supply tool 100A has a very simple configuration and a small number of components. The chemical liquid tank 1, the cap 3 integrated with the chemical liquid supply nozzle 4, and the top board 10A can be easily manufactured by plastic molding. Therefore, this chemical supply tool 100A can be obtained at a low cost. Further, the medicine A can be reliably mixed into the raw tank by the water supply from the currant, and the medicine A does not spread to the hand washing section 20 at that time, so that the hand washing section 20 is not contaminated with the medicine A. Furthermore, according to this chemical solution supply tool 100A, the amount of medicine entering the low tank can be adjusted by changing the mounting direction of the top plate 10A or by removing it.
[0025]
In the present invention, the top plate can take various modes in order to be able to adjust the contact amount of the water supplied from the currant to the chemical tank.
[0026]
For example, FIG. 5 is a perspective view of a chemical supply tool 100B according to a different aspect of the present invention.
[0027]
This chemical solution supply device 100B also includes a chemical solution tank 1 and a cap 3 attached to the bottom opening 2 of the chemical solution tank 1, and the cap 3 is provided with a chemical solution supply nozzle 4 and a foot 6 integrally with the cap 3. The medicine A is held in the tip opening 5 of the chemical solution supply nozzle 4 by the surface tension and the inside of the chemical solution tank 1 being in a weak negative pressure state, and the top plate is fitted to the top of the chemical solution tank 1. 1 is the same as the above-described chemical solution supply tool 100A of FIG. 1, but the top plate 10B is composed of a first disk-shaped member 11 and a second disk-shaped member 13 having liquid passage holes 12 and 14, respectively. The first disk-shaped member 11 can rotate on the second disk-shaped member 13 below as shown by the arrow, whereby the overlapping amount of both the liquid-permeable holes 12 and 14 changes, and the top plate 10B as a whole is liquid-permeable. The hole 15 is opened and closed.
[0028]
As a method of using this chemical supply tool 100B, when it is desired to reduce the amount of chemical entering the raw tank in the installation environment of the chemical supply tool, first, as shown in FIG. The liquid passage hole 12 of the first disk-like member 11 and the liquid passage hole 14 of the second disk-like member 13 are not overlapped with each other, and the liquid passage hole 15 is closed as a whole of the top plate 10B. Accordingly, when water is supplied from the currant, the water W is prevented from coming into contact with the chemical liquid tank 1 by the top plate 10B as shown in FIG. 6 (b). Therefore, after flowing along the top plate 10B, the chemical liquid tank 1 flows to the hand-washing part 20 through the side. Therefore, the temperature change of the chemical liquid tank 1 due to the water supply is suppressed to the minimum, and after the water supply from the currant is stopped, the expansion amount of the air in the head space of the chemical liquid tank 1 is also suppressed, and the medicine A pushed out from the chemical liquid tank 1 Is kept to a minimum.
[0029]
On the other hand, in the installation environment of the chemical solution supply tool, when it is desired to increase the amount of the medicine entering the raw tank, as shown in FIG. 7A, the first disk-shaped member 11 is rotated to form the first disk-shaped member. The liquid passage hole 12 of the member 11 and the liquid passage hole 14 of the second disk-shaped member 13 are overlapped to fully open the liquid passage hole 15 as the entire top plate 10B. As a result, when water is supplied from the currant, the water W flows radially along the top plate 10B as shown in FIG. 20 flows. Accordingly, the amount of water W that contacts the chemical tank 1 during water supply increases, and the temperature change of the chemical tank 1 due to water supply increases. Therefore, after the water supply from the currant stops, the amount of expansion of the air in the head space of the chemical liquid tank 1 increases, and the amount of the drug A pushed out from the chemical liquid tank 1 can be increased.
[0030]
When adjusting the amount of medicine entering the low tank between the mode shown in FIG. 6 and the mode shown in FIG. 7, the opening amount of the liquid passage hole 15 is appropriately adjusted by rotating the first disk-shaped member 11. adjust.
[0031]
As described above, all of the illustrated modes are provided by fitting the top plates 10A and 10B to the top of the chemical solution tank 1, but in the present invention, the method of providing the top plate on the chemical solution tank is limited to this. Absent. The top plate may be screwed into the chemical tank, or may be supported by the cap 3 using an arm or the like.
[0032]
Further, in place of the cap 3 having the chemical solution supply nozzle 4, an impregnated body impregnated with the chemical derived from the chemical solution tank is provided in the cap, and the impregnated body is exposed to the flow of water in the hand-washing portion, whereby the chemical is contained in the low tank. A top plate can also be movably provided in the chemical solution supply tool that is supplied to the device, which can be an embodiment of the present invention.
[0033]
【Example】
Example 1 and Example 2
A chemical supply tool 100A (Example 1) shown in FIG. 1 and a chemical supply tool 100B (Example 2) shown in FIG. 5 were produced. In this case, in both cases, the capacity of the chemical tank 1 was 100 mL, and the size of the outer shape was L94 × W60 × H55 mm. Further, in the chemical solution supply tool 100A of FIG. 1, the size of the outer shape of the top plate 10A is L70 × W60 × H11 mm. In the chemical solution supply device 100B of FIG. 5, the size of the outer shape of the top plate 10B is set to 60 mm in diameter, and the liquid passage hole 15 is formed with eight holes having an area of 0.5 cm ² when fully opened.
[0034]
As the drug A, 40 mL of a blue drug having a composition shown in Table 1 (viscosity 80 mPa · s (20 ° C.)) was filled.
[0035]
[Table 1]

[0036]
Regarding the chemical solution supply tool 100A of Evaluation Example 1, the mode of FIG. 2 (mounting mode 1) in which the overlap between the top plate 10A and the chemical solution tank 1 is maximized, and the mode of FIG. Three types of (mounting mode 2) and a mode (mode 3) from which the top plate was removed were prepared. Further, in the chemical liquid supply tool 100B of Example 2, the liquid passage hole 15 was fully opened.
[0037]
A total of four types of chemical supply tools are placed in the hand washing part of the hand-washed low tank of the flush toilet at the test house A and the test house B, and the room temperature in the toilet and the temperature of the water supplied from the currant at each flush of water. And the number of flushes until the initially filled drug was exhausted was counted. The results are shown in Table 2.
[0038]
[Table 2]

[0039]
From the results of Table 2, in Example 1, the more the water is brought into contact with the chemical tank by changing the mounting mode of the top plate, the fewer the number of flushes until the chemical in the chemical tank disappears, in other words, 1 It can be seen that the amount of medicine supplied to the low tank per flush is increased. Therefore, according to this invention, it turns out that the chemical | medical agent amount supplied to a low tank can be adjusted by adjustment of a top plate.
[0040]
In addition, by comparing the results of the test house A and the test house B, even when the chemical liquid supply tool is mounted on the same top plate, the larger the difference between the water temperature and the room temperature in the chemical liquid supply tool installation environment, the more once. It can be seen that the amount of medicine supplied to the low tank per flush increases. Therefore, the usefulness of the chemical solution supply device of the present invention in which the amount of the chemical supplied to the low tank can be adjusted according to the installation environment can be understood.
[0041]
【The invention's effect】
According to the chemical solution supply device of the present invention, by placing it in the hand washing part of the hand-washed low tank of the flush toilet, it is possible to supply the chemical into the raw tank, and to the raw tank according to the installation environment of the chemical solution supply device. The drug supply amount can be adjusted appropriately.
[Brief description of the drawings]
FIG. 1 is a perspective view of a chemical solution supply tool.
FIG. 2 is a top view (a) of a chemical solution supply device in which the mounting direction of the top plate is adjusted so that the overlap between the top plate and the chemical solution tank increases, and a cross-sectional view (b) showing the operation of the chemical solution supply device. is there.
FIG. 3 is a top view (a) of a chemical solution supply device in which the mounting direction of the top plate is adjusted so that the amount of overlap between the top plate and the chemical solution tank is reduced, and a cross-sectional view (b) showing the operation of the chemical solution supply device. It is.
FIG. 4 is a cross-sectional view of the chemical liquid supply tool with the top plate removed.
FIG. 5 is a perspective view of a chemical solution supply tool.
FIG. 6 is a top view (a) of a chemical liquid supply tool in which the top plate is adjusted so that a liquid passage hole is eliminated, and a cross-sectional view (b) showing the operation of the chemical liquid supply tool.
FIG. 7 is a top view (a) of a chemical liquid supply tool in which the top plate is adjusted so that the liquid passage hole is fully opened, and a cross-sectional view (b) showing the action of the chemical liquid supply tool.
FIG. 8 is a perspective view (a) of the chemical solution supply tool and a cross-sectional view (b) of the chemical solution supply device placed on the hand-washing portion of the raw tank.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Chemical liquid tank 2 Bottom opening 3 of chemical liquid tank Cap 4 Chemical liquid supply nozzle 5 Tip opening 10A, 10B Top plate 11 First disk-shaped member 12 Through hole 13 Second disk-shaped member 14 Through hole 15 Through liquid Hole 20 Handwashing section 100A, 100B Chemical solution supply tool A

Claims (3)

It consists of a chemical tank that stores liquid chemicals, a cap attached to the bottom opening of the chemical tank, and a top plate provided on the chemical tank. The chemical is supplied from the opening of the cap to the low tank with hand-washing in the flush toilet. a chemical supply device, by mounting direction with respect to the chemical liquid tank is variable as a whole top plate, chemical liquid supply device that can adjust the amount contact to the chemical tank of the water supplied from Curran.   The chemical | medical solution supply tool of Claim 1 with which a top plate is detachable.   The chemical liquid supply tool according to claim 1, wherein the top plate has a liquid passage hole that can be opened and closed.

Images