JP6310313B2 - Spraying equipment - Google Patents

Description

  The present invention relates to a spray device.

In a sprayer or a spraying apparatus that sprays the spray liquid in the container into the air, a conduit for sending the spray liquid in the container is inserted into the spray liquid (see, for example, Patent Document 1), and the spray liquid to be sprayed is the container It is designed to be sent from what is underneath.
Here, the sprayed liquid to be sprayed may be a colloidal solution that is generated by mixing a liquid with a solid or liquid having a specific gravity greater than that of the liquid and insoluble substances are not soluble in the liquid. When a container containing such a spray liquid is left for a long time, insoluble substances in the liquid precipitate, and the concentration of the spray liquid on the upper side of the container is different from the concentration of the spray liquid on the lower side. May be thinner). Then, when the liquid surface is pressurized during spraying, the dense portion on the lower side of the container is sent out from the conduit first, and the concentration decreases as the remaining amount of liquid decreases. Therefore, when the spray liquid is a medicine or a disinfectant, the original effect cannot be exhibited. In particular, when the spraying device is large or stationary, the problem becomes serious because the sprayed liquid inside cannot be stirred by shaking the container each time it is used.

  On the other hand, a venturi system as shown in Patent Document 2 can be employed for a sprayer or a spray device. In the case of this venturi system, the spray liquid in the container is strongly sucked out of the conduit during spraying, so that convection occurs near the tip of the fluid pipe and in the container. Thereby, even if it is a case where a spray liquid is stirred and the above-mentioned colloid solution is used for a spray liquid, the problem that it sends out from the part with a high density | concentration can be improved.

JP 2012-223688 A JP-T-2006-519690

By the way, in a sprayer or a spraying device, large spray particles that cannot be sprayed into the air even when atomized are collected and returned to the container again.
Here, when the colloidal solution, which is a spray liquid, is a liquid that is easily oxidized, in the venturi system, spray particles that have vigorously come into contact with air in the venturi portion return to the container. As a result, a new problem arises in that the spray liquid containing a large amount of oxygen accelerates the oxidation of the remaining spray liquid inside the container and reduces the effect of the drug.
SUMMARY OF THE INVENTION Therefore, the present invention provides a spray device suitable for spraying a spray liquid that improves the imbalance in the concentration of the spray liquid in the container in the spray device and increases in concentration in the lower portion of the container over time. The purpose. It is a second object of the present invention to provide a spraying apparatus suitable for spraying a spray liquid that easily oxidizes by limiting the amount of the spray liquid in the container that comes into contact with air.

In order to solve the above problems, the invention described in the claims has the following configuration.
In addition, the code | symbol in parenthesis shows the code | symbol used in embodiment of invention, and does not limit the technical scope of this invention .
(Feature point)
A container (10) capable of storing a spray liquid (a spray agent L), a spray unit (20) capable of spraying the spray liquid (L) in a mist, and a spray liquid stored in the container (10) ( L) and a spraying device (1) provided with a conduit (40) for supplying the spraying part (20) to the inside of the container (10) in which a spray liquid (L) is injected. A space portion (60) that communicates with the housing portion (50) through the communicating portion (30) and has a smaller volume than the housing portion (50), and the communicating portion (30). And a check valve (31) capable of allowing the spray liquid (L) to flow only from the housing portion (50) to the space portion (60), and provided by the conduit (40). When the spray liquid (L) of 60) is sucked out, the check valve (31) is opened, and the spray liquid (L) flows from the storage part (50) to the space part (60). Along with this, the spray liquid (L) in the vicinity of the storage part (50) and the communication part (30) can be stirred. Is formed, the spray part (20) is characterized by being sprayable formed by sucking the atomized liquid (L) in the form of mist by sending air through the venturi.

(Function)
According to the present invention, when the spray device is operated, the spray liquid (L) in the space (60) is sucked out from the conduit (40). When the liquid level of the spray liquid (L) in the space part (60) is lowered and a difference occurs between the liquid level of the storage part (50), the check valve (31) is opened and the storage part (50) The spray liquid (L) flows toward the space (60). Then, the spray liquid (L) in the vicinity of the accommodating portion (50) and the communicating portion (30) is agitated with this flow. As a result, the thinly concentrated spray liquid (L) on the upper side of the storage part (50) and the densely sprayed liquid (L) on the lower side are mixed, and only the dense part is discharged first. Can be prevented. The space part (60) is a space having a smaller volume than the housing part (50), and a space independent from the housing part (50) by providing a check valve (31) between the space part (50) and the housing part (50). It is formed as. Thereby, the amount of the spray liquid (L) in the storage section (50) that comes into contact with air can be limited, and the spray liquid (L) in the storage section (50) can be prevented from being oxidized.
The present invention employs a venturi system for the spray section (20). The compressed liquid (L) in the space portion (60) is sucked out of the conduit (40) by sending compressed air to the spray portion (20).

  Since the present invention is configured as described above, the spraying apparatus is suitable for spraying the spray liquid that improves the imbalance of the spray liquid concentration in the container and the concentration of the lower part of the container increases with time. An apparatus can be provided. Moreover, the spraying apparatus suitable for spraying the spray liquid which is easy to oxidize can be provided by limiting the quantity which the spray liquid in a container contacts air.

It is the 1st Embodiment of this invention, Comprising: It is a longitudinal cross-sectional view of a spraying apparatus. It is a longitudinal cross-sectional view of the spraying device in the state where the check valve is opened. It is the 2nd Embodiment of this invention, Comprising: It is a longitudinal cross-sectional view of a spraying apparatus.

Preferred embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
As shown in FIG. 1, the spray device 1 according to the first embodiment includes a cylindrical container 10 whose upper side opens, and a spray unit 20 fixed to a lid 11 that closes the opening of the container 10. Yes. The spray unit 20 has a mechanism that can spray the spray liquid (spraying agent L) in a mist form, and in this embodiment, the venturi effect is used. The spray section 20 is provided with an introduction pipe 21 into which compressed air is sent and a discharge pipe 22 for sending out the atomized spray L into the air. A venturi portion (not shown) is provided between the introduction tube 21 and the discharge tube 22.

  An inner cylinder 16 is provided inside the container 10. The inner cylinder 16 includes a cylindrical portion 16A fitted to the inner wall of the container 10, a funnel portion 16B having a diameter reduced downward from the lower end of the cylindrical portion 16A, and the vicinity of the bottom plate 12 of the container 10 from the lower end of the funnel portion 16B. The pipe portion 16C is extended to the end. A space between the inner side of the container 10 and the outer side of the inner cylinder 16 is defined as a housing part 50, and a space inside the inner cylinder 16 is defined as a space part 60. On the other hand, a communication portion 30 that communicates the accommodating portion 50 and the space portion 60 is provided at the lower end portion of the tube portion 16C of the inner cylinder 16. The communication part 30 is provided with a check valve 31 so that the spray L flows only from the housing part 50 toward the space part 60.

The conduit 40 is connected to the venturi section of the spray section 20 and supplies the spray L to the venturi section. The conduit 40 is inserted from the spray portion 20 toward the inside of the inner cylinder portion 16, and the tip thereof extends to the vicinity of the check valve 31.
The bottom plate 12 of the container 10 is formed with an injection port 14 for the spray L. Here, the spray L is a deodorant or a disinfectant, and is a colloidal solution in which an insoluble component substance for adjusting the generation concentration of chlorine dioxide gas is mixed into the chlorine dioxide solution. Since chlorine dioxide obtains a deodorizing / sterilizing effect by a strong oxidizing action, the spray L is also a solution that is easily oxidized. The spray L is injected from the inlet 14 with the bottom plate 12 of the container 10 facing upward. Then, after closing the inlet 14, the container 10 is turned over, so that the spray L flows from the check valve 31 toward the space 60 inside the inner cylinder 16. Strictly speaking, until the liquid level of the accommodating portion 50 and the space portion 60 becomes substantially equal, the water pressure generated by the difference in liquid level between the accommodating portion 50 and the space portion 60 is lower than the operating pressure of the check valve 31. Continue until.

When using the spray device 1 in which the spray L is injected as described above, negative pressure is generated in the venturi portion by sending the compressed air from the introduction pipe 21 to the spray portion 20, and the spray L in the space portion 60. Is sucked up from the conduit 40. Then, the liquid level of the space part 60 is lowered, and a difference is generated between the liquid level of the storage part 50. Then, when the water pressure generated by the difference in liquid level between the container 50 and the space 60 exceeds the operating pressure of the check valve 31, the check valve 31 opens, and the liquid level in the container 50 and the space 60 is substantially equal. Until it becomes, the propellant L in the container 50 flows into the space 60.
Here, as shown in FIG. 2, the flow of the propellant L generated in the vicinity of the communication portion 30 causes convection in the accommodating portion 50, and thus the propellant L in the accommodating portion 50 is agitated. Therefore, a substance having a specific gravity greater than that of the liquid that does not dissolve in the liquid is mixed as the composition of the spray L, and the liquid concentration at the upper part and the lower part of the container 50 is different when left for a long time (the lower part becomes darker) Even in such a case, the spraying agent L is stirred by performing the spraying operation, and only the portion having a high concentration is not supplied first. As a result, when the amount of the spray L is reduced, the concentration becomes thin, and the disadvantage that the effect of the liquid agent is reduced can be prevented.

By the way, the propellant L sucked up from the conduit 40 becomes mist-like particles in the venturi portion and is sprayed into the air from the discharge pipe 22 of the spray portion 20. On the other hand, spray particles that are so large that they are not sprayed in the air are collected inside the spray section 20 and returned to the space section 60.
Here, the spray agent L which becomes mist-like particles in the spray portion 20 and then returns to the space portion 60 contains a large amount of oxygen in the air due to intense contact with the air in the venturi portion. The agent L will promote oxidation. However, the volume of the space portion 60 is smaller than the volume of the accommodating portion 50, the amount of the propellant L accommodated in the space portion 60 is reduced, and the amount of the propellant L in the space portion 60 is reduced. Each time the spraying agent L that is not affected by the oxidation is supplied from the accommodating unit 50, the spraying agent L in the space 60 can minimize oxidation. Furthermore, since the space part 60 and the accommodating part 50 are partitioned by the check valve 31, the oxygen contained in the propellant L in the space part 60 reaches the accommodating part 50, thereby oxidizing the propellant L. Can be prevented.

Thereby, even if the propellant L is a liquid that is easily oxidized, it is possible to prevent the disadvantage that the effect of the liquid agent is reduced due to oxidation inside the container 10.
(Second Embodiment)
FIG. 3 shows a spray device 1 according to the second embodiment. In the second embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals. Also, description of the same parts as those of the first embodiment is omitted, and only characteristic parts of the present embodiment will be described.
In the second embodiment, the partition plate 17 is provided inside the container 10 to form the accommodating portion 50 and the space portion 60. In the lower part of the partition plate 17, a communication part 30 that connects the accommodating part 50 and the space part 60 is provided. Further, the communication part 30 is provided with a check valve 31, and the spray L flows in the space part 60 that is separated from the check valve 31 by the partition plate 17. The conduit 40 is inserted from the spray part 20 toward the space part 60, and its tip extends to the vicinity of the bottom plate 12.

(Summary)
As described above, according to the first and second embodiments, even if the propellant L is not a complete solution, the propellant L in the container 10 is agitated along with the spraying operation. It is possible to prevent the concentration of the liquid agent from changing drastically between the start of use of the propellant L and the end of use. In particular, it is suitable for a stationary spray device or a large spray device that cannot be shaken with a container each time it is used.
Even if the spray L is a solution that is easily affected by oxidation, it is possible to minimize the influence of oxidation in the space 60 and to prevent the housing 50 from being affected.

The spray device 1 according to the present invention is used not only when spraying a spray liquid formed by mixing an insoluble substance having a specific gravity greater than that of a liquid but also when spraying a spray liquid that is a complete solution. It doesn't matter. Moreover, you may utilize not only when spraying the spray liquid which is easy to receive the influence of oxidation, but when spraying the spray liquid which is hard to receive the influence of oxidation.
The spray unit 20 is not limited to the method using the venturi effect, and any method can be adopted as long as the spray agent L is sucked out from the conduit 40 such as a spray nozzle.

1 Spraying equipment 10 containers
11 Lid 12 Bottom plate
14 Inlet 16 Inner cylinder
16A Tube 16B Funnel
16C pipe section
17 Partition plate 20 Spray section
30 Communication part 31 Check valve
40 Conduit 41 Suction outlet
50 Housing part 60 Space part L Spray (spraying liquid)

Claims (1)

A spray apparatus comprising: a container capable of storing a spray liquid; a spray unit capable of spraying the spray liquid in a mist; and a conduit for supplying the spray liquid stored in the container to the spray unit. ,
Inside the container, a storage part into which the spray liquid is injected, a space part that communicates with the storage part through a communication part, and has a smaller volume than the storage part, and is provided in the communication part; and A check valve capable of flowing the spray liquid only from the housing portion to the space portion, and
When the spray liquid in the space is sucked out by the conduit, the check valve is opened, and the spray liquid flows from the storage portion to the space portion. With this flow, the storage portion and the vicinity of the communication portion Of the spray liquid is formed to be stirrable ,
The spraying device is characterized in that the spraying part is formed so as to be sprayed in a mist form by sucking out the sprayed liquid by sending out air by a venturi .