JP2001046920A - Spraying device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a spraying device by which the spraying range, diameter of the sprayed droplet, spraying intensity, etc. are separately controlled. SOLUTION: This spraying device is provided with a spraying mechanism 13 having a spray controlling mechanism for controlling the distance between a turning flow member 26 for giving a turning flow to supplied pressurized liq. and a spraying hole 29 to change the spraying state and a pressure and flow rate controlling valve mechanism 14, and such controlling operations are combined. Consequently, the spray angle, diameter of the droplet, spraying intensity, etc. are separately controlled.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a sprayer for spraying water and other liquids. More particularly, the present invention relates to a sprayer that can be separately adjusted such as spray angle, spray droplet size, spray strength, and the like.

[0002]

2. Description of the Related Art In general, a sprayer is provided with a spray nozzle mechanism, and a liquid supplied under pressure is sprayed from the spray nozzle mechanism. There are various types of this nozzle mechanism,
Generally, it has a small-diameter spray hole formed at the tip end, and a swirling flow member housed inside the spray hole.

[0003] This swirling flow member is a member usually called an "insect", and has a spiral groove formed on the outer peripheral surface.
Then, the supplied liquid passes through the spiral groove on the outer periphery of the swirling flow member, forms a swirling flow, and is sprayed from the spray hole. In this case, the swirling flow is reduced in diameter when passing through the small-diameter spray hole, becomes a strong swirling flow, and is jetted as fine droplets in a predetermined angle range by the centrifugal force.

In general, a small gap is formed between the tip of the swirling flow member and the spray hole, and the distance between the tip of the swirling flow member and the spray hole is adjusted. By adjusting the gap of the above gap, spray angle, droplet diameter,
It is configured such that the spray amount and the like can be adjusted.

In such a conventional nozzle mechanism, when the gap between the swirling flow member and the spray hole is adjusted, the spray angle, the droplet diameter, the spray amount, and the like are simultaneously adjusted. For example, when this gap is reduced, the spray angle increases, the droplet diameter decreases, and the spray amount decreases at the same time. When the gap is increased, the spray angle is reduced, and simultaneously, the droplet diameter is increased and the spray amount is increased.

[0006] For general sprayer use purposes, it is sufficient to adjust the spraying conditions as described above. But,
Depending on the purpose of use of the nebulizer, the above adjustment may be inconvenient.

For example, when using a nebulizer for medical purposes, when spraying distilled water or a chemical solution on a wide range of skin burns or inflamed sites, fine droplets are applied to alleviate irritation to the skin. It is preferable to spray with a wide spray angle and a small spray amount, that is, weak spray. In addition, when cleaning foreign matter adhering to bruises or abrasions, it is preferable to spray medium-sized droplets relatively strongly at a relatively narrow angle. When disinfecting such a wound, it is preferable to spray fine droplets weakly at a narrow angle.

[0008] Further, when washing healthy skin, it is preferable to intensely spray droplets having a large diameter. Further, when cleaning dirt attached to the skin at the time of diaper change or the like, it is preferable to spray large diameter droplets weakly in order to prevent scattering of dirt.

[0009] Further, even when the atomizer is used not only in the medical field but also in the industrial field and other fields, the spray angle, the droplet diameter, the spray strength and the like are separately adjusted in the same manner as described above. Is often preferred.

[0010]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned circumstances, and has been made based on the above-mentioned circumstances. The spread of the spray pattern, that is, the spray strength determined by the spray angle, the droplet diameter, the droplet speed, and the spray amount is determined. It is an object to provide a sprayer which can be adjusted separately and which is easy to use.

[0011]

According to a first aspect of the present invention, there is provided a container main body for containing a liquid to be sprayed, and a liquid in the container main body being pressurized and supplied to a nozzle mechanism for spraying. A pressure supply mechanism, wherein the nozzle mechanism section includes a spray mechanism, and the spray mechanism includes a spray hole, and a swirling flow member that provides a swirling flow to the pressurized liquid stored and supplied inside the spray hole. A spray adjusting mechanism that adjusts a distance between a tip end surface of the swirling flow member and the spray hole to change a spray state, and the nozzle mechanism unit supplies the spray mechanism to the spray mechanism. And a pressure / flow rate adjusting valve mechanism for adjusting the pressure and / or flow rate of the liquid to be adjusted.

Therefore, by adjusting the distance, that is, the gap between the swirling flow member and the spray hole of the spray adjusting mechanism, it is possible to adjust the spray angle and the droplet diameter.
Further, by adjusting the pressure / flow rate adjusting mechanism, it is possible to adjust the intensity of the spray such as the speed of the droplet and the amount of spray independently of the spray angle and the droplet diameter.

Further, by combining the above-described adjustment of the spray adjusting mechanism and the adjustment of the pressure / flow rate adjusting mechanism, the relationship between the spray angle and the droplet diameter can be adjusted. Therefore,
By combining these adjustments, the spray angle,
The droplet diameter, the strength of the spray and the like can be set separately, and a sprayer suitable for various uses can be provided.

Further, the present invention according to claim 2 is characterized in that the nozzle mechanism is mounted on the container body. Therefore, it can be operated with one hand, and is convenient.

Further, the present invention according to claim 3 is characterized in that the nozzle mechanism is connected to the container body via a flexible hose. . Therefore, the container main body can be placed on a floor or a table, and only the nozzle mechanism can be operated, which is convenient. This also makes it easy to enlarge the container body.

According to a fourth aspect of the present invention, the pressurizing supply mechanism includes a pressurizing pump mechanism for pressurizing air into the container main body, and the pressure of the air pressurized into the container main body. And pressurizes and supplies the liquid. Therefore, once air is injected, it can be used continuously for a predetermined time, and is easy to use.

According to a fifth aspect of the present invention, in the above-mentioned spray mechanism, the spray adjusting mechanism is provided at a tip side of the pressure / flow rate adjusting valve mechanism. Is provided with a spray adjusting member for adjusting the distance between the tip end surface of the swirling flow member and the spray hole by screwing, and the pressure / flow rate adjusting valve mechanism is opened by screwing. The pressure / flow rate adjusting member for adjusting the degree is provided, and the diameter of the screw portion for screwing the pressure / flow rate adjusting member is the diameter of the screw portion for screwing the spray adjusting member of the spray adjusting mechanism. It is characterized by being formed larger.

Therefore, since the spray mechanism and the pressure / flow rate adjusting valve mechanism are integrally disposed, the size can be reduced. Further, since the spray adjusting member of the spray mechanism and the pressure / flow rate adjusting member of the pressure / flow rate adjusting valve mechanism are arranged close to each other, they can be easily adjusted.

In this case, when the spray adjusting member of the spray adjusting mechanism on the tip side is rotated, the pressure / flow adjusting member of the pressure / flow adjusting valve mechanism is rotated, and the setting may be undesirably changed. is there. However, in this case, the diameter of the screw portion for screwing the spray adjusting member is smaller than the diameter of the screw portion of the pressure / flow rate adjusting member, and the torque for screwing the spray adjusting member is smaller. Therefore, when the spray adjusting member is rotated to perform the adjusting operation, the pressure / flow rate adjusting member is prevented from rotating undesirably.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1 to 3 show a first embodiment of the present invention. This embodiment is a pressurized sprayer used for medical purposes and the like.

In FIG. 1, reference numeral 1 denotes a container main body of the sprayer, which comprises a pressure-resistant container 2 and a lid member 3 which is detachably screwed into an opening of the container. The container 2 contains a liquid F such as water or a chemical to be sprayed.

A pressure pump mechanism 4 is detachably screwed through the cover member 3 in an airtight manner. By manually reciprocating the handle 5 of the pressurizing pump mechanism 4, air is press-fitted into the container 2.

Further, a handle 6 for gripping the sprayer is protruded from the lid member 3. An operation section 9 is provided at the base end of the handle 6, and a nozzle mechanism mounting section 8 is provided on the opposite side of the handle 6 to protrude. The nozzle mechanism 10 is attached to the nozzle mechanism attaching section 8.

In the lid member 3, a liquid supply passage,
An on-off valve mechanism (both not shown) is built in. A liquid supply pipe 7 protrudes from the lower surface of the lid member 3,
The lower end of the liquid supply pipe 7 reaches near the bottom of the container 2. When the operation unit 9 is pressed, the opening / closing valve mechanism built in the lid member 3 opens, and the liquid F pressurized by the pressurized air in the container is supplied to the liquid supply pipe 7 and the opening / closing valve. The nozzle mechanism 10 is configured to be supplied to the nozzle mechanism mounting portion 8 through a liquid supply passage, and to be sprayed from the tip of the nozzle mechanism 10.

Although not shown, the container main body 1 releases safety air to the outside when the pressure of the air in the container 2 becomes higher than a predetermined pressure, if necessary. A valve mechanism or a pressure indicator for displaying the internal air pressure is mounted.

Next, the configuration of the nozzle mechanism 10 will be described with reference to FIGS. This nozzle mechanism 10
Has a tube main body 11 formed by using a rigid material such as metal, and has a tubular shape of a predetermined length as a whole. At the base end, an attachment member 12 for detachably attaching the nozzle mechanism 10 to the nozzle attachment portion 8 is provided.

Further, a spray mechanism 13 is provided at a distal end of the pipe main body 11, and a pressure / flow rate adjusting valve mechanism 14 is provided at a proximal end thereof. The spray mechanism 13 is a mechanism for spraying the liquid supplied under pressure, and the pressure / flow rate adjusting valve mechanism 14 is a pressure / flow rate of the liquid supplied to the spray mechanism 13 or both of them. Is to adjust.

Next, the spray mechanism 13 will be described with reference to FIGS. The spray mechanism 13 is provided with a spray adjusting mechanism 20 for atomizing and spraying the supplied liquid as described above and adjusting the angle of the spray, the diameter of the atomized droplets, and the like.

In the figure, reference numeral 21 denotes a main body, which is attached to the distal end of the tube main body 11. A cap member 22 is provided on the distal end side of the main body 21. The cap member 22 has a substantially cylindrical shape with a bottom, and is screwed around the outer peripheral surface of the main body portion 21 by a screw portion 23 and rotated. It is configured to screw in the axial direction. An O-ring 24 having substantially the same diameter as the thread 23 is interposed between the main body 11 and the cap member 22 to maintain liquid tightness therebetween. A small diameter spray hole 29 is formed at the center of the tip of the cap member 22.

A swirling flow member 26 is attached to the tip of the main body 21. This swirling flow member 26
Is a member commonly called "insect", and has a spiral groove 28 formed on the outer peripheral surface thereof. A T-shaped passage 27 is formed in the swirling flow member 26 and opens to the outer periphery thereof. The T-shaped passage 27 is formed through the passage 25 formed in the main body 21 and the pipe main body 11. Is in communication with

Therefore, the liquid supplied through the pipe main body 11 flows through the spiral groove 28 through the passages 25 and 27 to form a swirling flow. Is done. In this case, the above-described spray holes 29
Has a small diameter, so that when the liquid passes through, the flow is reduced in diameter, and its swirling becomes stronger, and the liquid is ejected from the spray holes 29. In this case, due to the centrifugal force due to the strong swirling, the liquid is atomized as fine droplets, and is sprayed conically in a range of a predetermined angle θ.

In this case, the above-described droplet diameter and spray range θ
Can be adjusted by the spray adjusting mechanism 20 as described above.
A gap H through which the liquid passes is formed between the tip surface of the swirling flow member 26 and the inner surface of the tip portion of the cap member 22. The liquid swirled by the swirling flow member 26 passes through the gap H and is sent to the spray hole 29. In this case, the strength of the swirling of the liquid ejected from the spray hole 29 changes depending on the interval of the gap H. When the gap H becomes smaller, the swirling flow becomes stronger, the diameter of the droplet to be sprayed becomes smaller, and the angle θ of the spraying range becomes wider. Conversely, this gap H
Becomes wider, the swirling flow becomes weaker, the diameter of the droplet to be sprayed becomes larger, and the angle θ of the spraying range becomes smaller.

Therefore, by rotating and screwing the cap member 22, the gap H can be adjusted, and the diameter of the droplet and the angle of the spray range can be adjusted. Therefore, in this embodiment, the cap member 22 is configured as a spray adjusting member for adjusting these.

Next, the pressure / flow rate regulating valve mechanism 1 will be described.
4 will be described with reference to FIG. 31 in the figure is
The main body 31 is provided with the mounting member 1 described above.
2 and is mounted in a liquid-tight manner, and protrudes from the distal end of the mounting member 12. A cap-shaped pressure / flow rate adjusting member 32 is screwed through a threaded portion 33 at the tip of the main body 31. Therefore, this pressure
By rotating the flow rate adjusting member 32, this pressure
The flow rate adjusting member 32 advances in the axial direction. An O-ring 34 having substantially the same diameter as the screw portion 33 is interposed in the vicinity of the thread portion 33 to maintain liquid tightness between the main body portion 31 and the pressure / flow rate adjusting member 32. The proximal end of the tube body 11 is attached to the distal end of the pressure / flow rate adjusting member 32.

Then, at the tip of the main body 31,
The valve body 35 is integrally provided to protrude. The valve body 35 has a substantially truncated cone shape. A passage 37 is formed at the center of the main body 31, and the passage 37 is configured to communicate with the nozzle mechanism mounting portion 8 of the container main body 1 via the mounting member 12. I have. The distal end of the passage 37 is opened to the outer peripheral surface of the base end of the valve body 35 via a T-shaped passage 39.

A cylindrical concave valve seat 36 is formed in the pressure / flow rate adjusting member 32. The valve seat 36 communicates with the inside of the base end of the pipe main body 11 through a passage 38. And the above pressure
By rotating and screwing the flow rate adjusting member 32, the valve body 35 is seated on the valve seat 36 to close the valve mechanism, and the pressure / flow rate adjusting member 32 is screwed forward. As a result, the valve body 35 is opened apart from the valve seat 36, and by adjusting the amount of screwing of the pressure / flow rate adjusting member 32, the valve body 35 and the valve seat 36 are adjusted. Is configured to be able to adjust the valve opening.

Then, the diameter of the thread portion 33 for screwing the pressure / flow rate adjusting member 32 of the pressure / flow rate adjusting mechanism 14,
The diameter of the O-ring 34 is larger than the diameter of the cap member 22 of the spray mechanism 13, that is, the diameter of the thread portion 23 on which the spray adjusting member is screwed, and the diameter of the O-ring 24. Therefore, the torque required to rotate the pressure / flow rate adjusting member 32 is larger than the torque required to rotate the cap member, that is, the spray adjusting member.

Next, the operation of the above atomizer and its nozzle mechanism will be described. As described above, the above container 2
The liquid F inside is sprayed from the nozzle mechanism 10. In this case, by rotating the spray adjusting member 22 of the spray mechanism 13 and appropriately changing the width of the gap H in FIG. 3 described above, the size of the sprayed droplet diameter and the angle of the spray range θ
Adjust etc.

In order to change the spray strength determined by the speed of the droplets, the spray amount, etc., the pressure / flow rate adjusting member 32 of the pressure / flow rate adjusting mechanism 14 is rotated and screwed, and the valve is rotated. The opening degree of the body 35 and the valve seat 36 is changed, the pressure and / or flow rate of the liquid supplied to the spray mechanism 13 is changed, and the strength of the spray is adjusted.

Therefore, the droplet diameter and the angle of the spray range,
The spray intensity can be set separately for each. In addition, the diameter of the droplet sprayed from the spray mechanism 13 and the angle of the spray range vary to some extent depending on the pressure and flow rate of the liquid supplied via the pressure / flow rate adjusting mechanism 14. , The droplet diameter, the angle of the spray range, the strength of the spray, and the like can be set separately.

For example, if the gap H of the spray mechanism 13 is set small and the valve opening of the pressure / flow rate adjusting mechanism 14 is set small, the spray can be performed with a large droplet diameter, a narrow angle range, and a slow droplet speed. Further, if the gap H of the spray mechanism 13 is increased and the valve opening of the pressure / flow rate adjusting mechanism 14 is set to a correspondingly small value, the droplet diameter and the droplet velocity under the above conditions are not changed. The spray amount, spray angle and the like can be changed.

In this embodiment, the diameter of the thread 33 and the O-ring 34 of the pressure / flow rate adjusting member 32 is larger than the diameter of the thread 23 and the O-ring 24 of the spray adjusting member 22 of the spray mechanism 13. Setting, the spray adjusting member 22
The torque required to rotate the pressure / flow rate adjusting member 32 is larger than the torque required to rotate the. Therefore, when the adjustment is performed by rotating the spray adjusting member 22, the pressure / flow rate adjusting member 32 is prevented from being undesirably rotated and the adjustment is undesirably changed.

The present invention is not limited to the above embodiment. For example, FIG. 4 shows a nozzle mechanism 10 of a sprayer according to a second embodiment of the present invention. In this apparatus, a pressure / flow rate adjusting mechanism 14 is provided at a distal end portion of a pipe main body 11, and a spray mechanism 13 is integrally provided at the distal end side. In the case of this embodiment, the tip of the pressure / flow rate adjusting member 32 of the pressure / flow rate adjusting mechanism 14 is extended to constitute the main body 21a of the spray mechanism, and the cap member 22 is attached to the main body 21a. It is screwed.

In this embodiment, since the spray mechanism 13 and the pressure / flow rate adjusting mechanism 14 are integrally formed, the whole is formed in a small size. Also, the spray adjusting member 22
Since the pressure and flow rate adjusting members 32 are arranged close to each other, the operation for adjusting them becomes easy. In this case, as described above, since the torque required to rotate the pressure / flow rate adjusting member 32 is larger than the torque required to rotate the spray adjusting member 22, the rotational operation of the spray adjusting member 22 is performed. In addition, the pressure / flow rate adjusting member 32 does not rotate undesirably.

This embodiment has the same configuration as the above-described first embodiment except for the above points.
The same reference numerals are given to portions corresponding to the above-described embodiment, and description thereof will be omitted.

FIG. 5 shows a third embodiment of the present invention. In this embodiment, a nozzle mechanism 10 similar to that of the first embodiment is connected to a container main body 1 via a flexible hose 40. In this embodiment, a grip portion is provided at a base end portion of the nozzle mechanism 10, and an operation portion 9 of an on-off valve is provided at the grip portion.

In this embodiment, the operation can be performed by gripping the grip portion of the nozzle mechanism 10 during use, and the operation is facilitated. Further, since there is no need to hold and lift the container body 1 during use, the weight of the container body 1 is not restricted, and the container body 1 is not restricted.
Can be enlarged.

[0048]

As described above, according to the present invention, the angle of spray and the diameter of droplets can be adjusted by adjusting the distance, that is, the gap between the swirling flow member of the spray adjusting mechanism and the spray holes. By adjusting the pressure / flow rate adjusting mechanism, it is possible to adjust the intensity of the spray such as the speed of the droplet and the amount of the spray independently of the spray angle and the droplet diameter. In addition, by combining the above-described adjustment of the spray adjustment mechanism and the adjustment of the pressure / flow rate adjustment mechanism, the spray angle, the droplet diameter, the spray strength, and the like can be separately set, and the sprayer suitable for various uses. And the effect is great.

[Brief description of the drawings]

FIG. 1 is a side view of a sprayer according to a first embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of a nozzle mechanism according to the first embodiment.

FIG. 3 is an enlarged longitudinal sectional view showing a part of a spray mechanism according to the first embodiment.

FIG. 4 is a longitudinal sectional view of a nozzle mechanism according to a second embodiment of the present invention.

FIG. 5 is a side view of a sprayer according to a third embodiment of the present invention.

DESCRIPTION OF SYMBOLS 1 Container main body 2 Container 4 Pressurizing pump mechanism 8 Nozzle mechanism attaching section 10 Nozzle mechanism 13 Spray mechanism 14 Pressure / flow rate adjusting mechanism 22 Spray adjusting member 23 Thread 26 Rotating flow member 29 Spray hole 32 Pressure・ Flow rate adjusting member 33 Screw part 35 Valve body part

Claims (5)

[Claims] 1. A container body for containing a liquid to be sprayed,
A pressurizing supply mechanism for pressurizing the liquid in the container body to supply the liquid to the nozzle mechanism and spraying the liquid; the nozzle mechanism includes a spraying mechanism; the spraying mechanism includes a spraying hole; A swirling flow member for providing a swirling flow to the pressurized liquid stored and supplied inside the nozzle, and a spray adjustment for adjusting a distance between a tip end surface of the swirling flow member and the spray hole to change a spray state. A spray mechanism, wherein the nozzle mechanism section includes a pressure / flow rate adjusting valve mechanism for adjusting the pressure and / or flow rate of the liquid supplied to the spray mechanism. 2. The container according to claim 1, wherein the nozzle mechanism is attached to the container body.
Sprayer. 3. The sprayer according to claim 1, wherein the nozzle mechanism is connected to the container body via a flexible hose. 4. The pressure supply mechanism includes a pressure pump mechanism for pressurizing air into the container body, and pressurizes and supplies the liquid by the pressure of the air pressurized into the container body. The spray according to claim 1, wherein the sprayer is a sprayer. 5. The spray mechanism is provided with the spray mechanism at a tip end of the pressure / flow rate regulating valve mechanism, and the spray mechanism is screwed to rotate the swirling flow member. A spray adjusting member for adjusting the distance between the tip surface and the spray hole is provided, and the pressure / flow adjusting valve mechanism is provided with a pressure / flow adjusting member for adjusting the valve opening by screwing. The diameter of the screw portion for screwing the pressure / flow rate adjusting member is formed larger than the diameter of the screw portion for screwing the spray adjusting member of the spray mechanism. 1 sprayer.