JP2014156255A - Injection button for aerosol container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To soften a spray state of a content liquid of an aerosol container.SOLUTION: An injection button 10 comprises a stem fitting part 11 which can fit to an injection stem of an aerosol container in an approximately center part of a bottom surface. A conduction path is formed from the stem fitting part 11 to a nozzle hole 26, and a nozzle member 20 is arranged on an outlet part of the conduction path. The nozzle member 20 has a bottomed cylindrical shape, and includes an annular wall 23 formed inside the nozzle member so as to stand from a bottomed part 22. An inside of the annular wall 23 serves as a storage chamber 25 for storing a content liquid of the aerosol container. An outlet of the conduction path faces an opening part of the storage chamber 25. A plurality of nozzles 26 are annularly arranged on the bottomed part 22 on an outer side of the annular wall 23. An outer surface of the bottomed part 22 of the nozzle member 20 inclines with respect to a horizontal surface, and directs obliquely upward. The conduction path includes a longitudinal passage 12 extending upward from the stem fitting part 11 and a lateral passage 13 connected to the longitudinal passage 12. An inner diameter on a longitudinal passage 12 side of the lateral passage 13 is formed to be larger than an inner diameter of an outlet side passage of the lateral passage 13.

Description

  The present invention relates to a push button, that is, an injection button attached to an injection stem for injecting an internal solution provided at an upper end portion of an aerosol container.

In this type of conventional injection button, one that can be injected over a wide range from the nozzle orifice, one that can be injected linearly in a narrow range, one that has many nozzle orifices, or a powerful injection or There are various types such as those capable of realizing soft injection.
First of all, in the present invention, the present invention relates to an injection button that can soften the injection or spraying of the content liquid, that is, can realize soft spraying.

As what can implement | achieve this kind of soft spraying, the thing as described in the following patent documents can be mentioned.
In the invention described in the following Patent Document 1, it is an object to provide a nozzle that makes spray particles smaller and weakens the jetting force, a spray container using the nozzle, and a spray product.

  The structure is an aerosol product comprising an aerosol container filled with contents, an operation member attached to the aerosol container, and a nozzle attached to the operation member, and the nozzle has an injection hole communicating with the outside. A slit having a width of 0 to 0.2 mm is provided. Since such a slit is provided, the contents are subjected to passage resistance and vibration when the contents pass through the slits, and the contents can be sprayed with fine particles and softly.

The invention described in Patent Document 2 below has a strong spraying force, a quiet spraying sound, does not give the user a feeling of fear, and sprays with a uniform composition even after standing for a long time. It relates to spray products that can be produced.
FIG. 4 attached to Patent Document 2 discloses a typical conventional push button structure, in which a cylindrical tip is built in a cylindrical nozzle hole portion.

In the invention relating to the aerosol container described in Patent Document 3 below, it is an object to provide a device capable of easily suppressing the flow rate and softening the spray pattern and preventing clogging.
The structure is such that a sintered body is interposed in the small-diameter cylindrical portion of the housing that serves as a flow path for the aerosol contents, and this continuous porous sintered body suppresses the flow rate and prevents the introduction of foreign substances. Depending on the mounting position, the spray pattern is softened and the after-draw is improved.

JP 2012-217877 A JP-A-2005-194196 Japanese Patent Laid-Open No. 10-329879

Also in the present invention, as described above, the first problem is to enable the softer spraying of the content liquid in the aerosol container from the nozzle hole portion.
In order to realize this, the slits as in the first conventional example are not provided, or the porous sintered body as in the third conventional example is not used. The problem is to realize a soft spray by adopting the above.

  In order to solve the above problems, a first aspect of the present invention is an injection button attached to an injection stem provided at an upper end portion of an aerosol container. The injection button is fitted to the stem at a substantially central portion of a bottom surface. A stem fitting portion that can be joined, a conduction path is formed from the stem fitting portion toward the nozzle hole, and a nozzle member is provided at an outlet portion of the conduction path, and the nozzle member has a bottomed cylindrical shape. An annular wall is formed in the interior so as to stand up from the bottomed portion, and the interior of the annular wall forms a storage chamber for storing the content liquid ejected from the stem. The spray button for an aerosol container is characterized in that the outlet of the conduction path faces the part, and a plurality of injection holes are formed in an annular shape in the bottomed part outside the annular wall.

  According to a second aspect of the present invention, there is provided the spray button for an aerosol container according to the first aspect, wherein an outer surface of the bottomed portion of the nozzle member is inclined with respect to a horizontal plane and is directed obliquely upward. is there.

  According to a third aspect of the present invention, in the first or second aspect of the invention, the conduction path extends vertically upward from the stem fitting portion and a lateral path connected to the vertical path. The nozzle member is located at the outlet of the lateral passage, and the inner diameter of the outlet passage of the lateral passage is made larger than the inner diameter of the lateral passage of the lateral passage. This is an aerosol container spray button.

  In the first one of the present invention, a conduction path is formed from the stem fitting portion fitted to the injection stem of the aerosol container toward the injection hole, and an injection hole member is provided at the outlet portion of the conduction path. The nozzle member has a bottomed cylindrical shape, and an annular annular wall is formed in the interior so as to stand up from the bottomed portion, and the inside of the annular wall stores the content liquid ejected from the stem. The contents of the aerosol container have a structure in which the outlet of the conduction path faces the opening of the storage chamber, and a plurality of nozzle holes are formed in the bottomed portion outside the annular wall. Passes through the conduction path and is stored in the storage chamber at one end from the outlet of the conduction path, and then the liquid overflowing from the storage chamber is transferred to the outside from a plurality of annular nozzle holes around the annular wall. It will be sprayed.

  As described above, in the present invention, the content liquid in the aerosol container is once stored in the storage chamber, and then the content liquid overflowing from the storage chamber is sprayed to the outside from the surrounding nozzle, and the injection The state or spray state can be made softer.

  In the second one of the present invention, in addition to the above-described effect, the outer surface of the bottomed portion of the nozzle hole member is inclined with respect to the horizontal plane and is directed obliquely upward, so that it is a soft spray. However, the spray can reach farther.

In the third aspect of the present invention, in addition to the above-described effects, the conduction path further extends in a vertical direction extending vertically upward from a stem fitting portion connected to the stem, and a lateral direction continuous to the vertical path. It is characterized in that the inner diameter of the outlet side passage of the lateral passage is made larger than the inner diameter of the lateral passage on the longitudinal passage side.
Thus, by making the inner diameter of the outlet side passage larger than the inner diameter of the longitudinal passage side which is the base end side of the inner diameter of the lateral passage, the injection pressure can be reduced even in the conduction path, The spraying of the content liquid in the aerosol container can be made a softer spray.

The whole injection button concerning one embodiment of the present invention is illustrated, The (A) is a front view, The (B) is a central longitudinal section. It is an enlarged view of the part enclosed by the square of FIG. 1 (B), and shows the nozzle member.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 illustrates the entire injection button according to an embodiment of the present invention, in which (A) is a front view and (B) is a central longitudinal sectional view.
FIG. 2 is an enlarged view of a portion surrounded by a square in FIG. 1B and shows a nozzle member.

  The injection button 10 according to the present invention has a generally cylindrical shape whose overall shape gradually decreases in outer diameter toward the upper portion, and is not shown in the approximate center of the bottom surface, A stem fitting portion 11 that is fitted to a content liquid injection stem provided at the upper end of the aerosol container is provided, and a vertical passage 12 extends substantially vertically upward from the stem fitting portion 11. A lateral passage 13 is connected from an intermediate portion of the direction passage 12.

The vertical passage 12 and the horizontal passage 13 form a conduction path for the content liquid injected from the injection stem of the aerosol container.
The nozzle member 20 is disposed at the outlet of the conduction path.

In a portion where the vertical passage 12 and the horizontal passage 13 are connected, a small-diameter passage 15 having a smaller inner diameter than the other portions is formed.
The inner diameter of the small-diameter passage 15 is smaller than the inner diameter of the lateral passage 13 and is similarly smaller than the inner diameter of the longitudinal passage 12.

Due to the presence of the small-diameter passage 15, when the content liquid injected from the injection stem of the aerosol container is introduced into the lateral passage 13, the injection pressure is reduced.
As described above, the nozzle member 20 is disposed at the outlet of the lateral passage 13.

The nozzle member 20 has a substantially cylindrical shape with a bottom, as can be seen from the enlarged view of FIG.
An annular wall 23 is formed on the inner side of the bottomed portion 22 of the nozzle member 20 so as to stand in an annular shape in a substantially vertical direction.
A portion surrounded by the annular wall 23 forms a small chamber, and this portion forms a storage chamber 25 in which the liquid content of the aerosol container injected can be stored.

Here, the outlet 13d of the lateral passage 13 and the opening 25k of the storage chamber 25 are formed so as to face each other.
Due to the positional relationship between the lateral passage 13 and the storage chamber 25, the injected content liquid of the aerosol container can be temporarily stored in the storage chamber 25 satisfactorily.

Further, in the nozzle member 20, a plurality of nozzle holes 26 are formed in an annular shape on the outer peripheral portion of the annular wall 23 of the bottomed portion 22.
In this embodiment, six nozzle holes 26 are provided in the annular shape at the same interval.

  Accordingly, as shown by the arrow in FIG. 2, the content liquid of the aerosol container injected from the outlet 13d of the lateral passage 13 is temporarily stored in the storage chamber 25 and then overflowed from the storage chamber 25. Since the liquid overflows from the outer peripheral portion of the opening 25k of the storage chamber 25 and is sprayed to the outside from the plurality of nozzle holes 26, 26,... Provided in the bottomed portion 22 on the outer periphery of the annular wall 23. is there.

  As described above, once the content liquid of the aerosol container is stored in the storage chamber 25, the injection pressure is further reduced, and the plurality of injection holes 26 annularly arranged in the bottomed portion 22 are extremely soft to the outside. It will be sprayed.

In this embodiment, the bottomed portion 22 of the nozzle member 20 faces slightly upward.
That is, the outer surface of the bottomed portion 22 of the nozzle hole member 20 is not perpendicular to the horizontal plane but is inclined obliquely and is formed in a state facing slightly upward.
Thereby, it is devised so that the sprayed content liquid can reach further.

Although the embodiment has been described above, various design changes can be made in the present invention as follows.
The outer diameter shape and size of the injection button according to the present invention can be arbitrarily changed in design.
Instead of a substantially cylindrical shape, it may be a quadrangular prism shape, or may be another prismatic shape having a polygonal cross section.

In short, a stem fitting portion may be provided on the bottom surface portion, and a conduction path may be provided from the stem fitting portion toward the injection port.
The configuration of the conduction path is not limited to the configuration of the longitudinal passage and the lateral passage as in the above embodiment, and it is only necessary that the passage is formed from the stem fitting portion to the injection port.

Although it is highly desirable to provide a small-diameter passage as in the above-described embodiment in the middle portion of the conduction path, the adoption of this small-diameter passage is optional.
The angle formed between the longitudinal passage and the lateral passage does not have to be a right angle and can be set to an arbitrary angle.

In the embodiment described above, the outer surface of the bottomed portion of the nozzle member is formed so as to face obliquely upward, but this configuration is also arbitrary, and the outer surface of the bottomed portion of the nozzle member is perpendicular to the horizontal plane. It can also be formed.
At this time, the lateral passage is also formed horizontally.

The inner diameter of the annular wall provided inside the nozzle member can be freely designed, and the volume of the storage chamber formed thereby can be freely changed as required.
Here, it is important that the opening of the storage chamber and the outlet of the lateral passage face each other. By adopting this configuration, the content liquid ejected from the lateral passage, that is, the outlet of the conduction passage, is stored very well. It is stored in the room, and then overflows from the annular edge of the annular wall to the outside, so that it is possible to spray a very soft content liquid from a plurality of nozzle holes arranged in an annular shape on the outer side.

The size of the entire nozzle member can also be designed as necessary.
Also, the number of nozzle holes drilled in an annular shape can be freely designed.

  As mentioned above, this invention provides the injection button for aerosol containers which can implement | achieve extremely soft spraying by simple structure by providing the nozzle member which has a storage chamber in the inside in the exit part of the conduction path of an injection button. Was made.

DESCRIPTION OF SYMBOLS 10 Injection button 11 Stem fitting part 12 Longitudinal passage 13 Lateral passage 13d Outlet (of lateral passage)
15 small-diameter passage 20 nozzle member 22 bottomed portion 23 annular wall 25 storage chamber 25k opening (of storage chamber)
26 Outlet

Claims (3)

In the injection button attached to the injection stem provided at the upper end of the aerosol container,
This injection button has a stem fitting portion (11) that can be fitted to the stem at a substantially central portion of the bottom surface, and a conduction path (12, 13) from the stem fitting portion (11) toward the injection port (26). And a nozzle member (20) is provided at the outlet of the conduction path (12, 13),
The nozzle member (20) has a bottomed cylindrical shape, and an annular annular wall (23) is formed in the interior thereof so as to stand up from the bottomed portion (22), and the interior of the annular wall (23) is , Forming a storage chamber (25) for storing the content liquid ejected from the stem,
The outlet (13d) of the conduction path (12, 13) faces the opening (25k) of the storage chamber (25),
A spray button for an aerosol container, wherein a plurality of injection holes (26) are formed in an annular shape in a bottomed portion (22) outside the annular wall (23).   The spray button for an aerosol container according to claim 1, wherein an outer surface of the bottomed portion (22) of the nozzle member (20) is inclined with respect to a horizontal plane and is directed obliquely upward. The conduction path (12, 13) includes a longitudinal passage (12) extending vertically upward from the stem fitting portion (11) and a lateral passage (13) connected to the longitudinal passage (12). The nozzle member (20) is located at the outlet of the lateral passage (13),
The inner diameter of the outlet (13d) side passage of the lateral passage (13) is formed larger than the inner diameter of the lateral passage (13) on the longitudinal passage (12) side. A spray button for an aerosol container according to 1.