JP5879066B2 - Spray container - Google Patents

Description

  The present invention relates to a spray container.

  In Patent Document 1, a stem erected on the container body so as to be movable downward in an upwardly biased state, a nozzle member attached to the upper end of the stem and having a nozzle hole for ejecting the contents in the container body; A spray container is disclosed in which the inside of the container body and the inside of the stem are communicated by pressing the nozzle member together with the stem, and the contents in the container body are ejected from the nozzle holes.

  In this spray container, a cylindrical fixed member is fixed to the container body, and a cylindrical movable member is slidably fitted to the fixed member in the axial direction, and the movable member is attached to the fixed member. By pushing, the air between the fixed member and the movable member is pushed out, and the air flows into the container body. In addition, a check valve is provided between the container body and the fixing member, which allows air to flow from the fixing member side into the container body, but prohibits the reverse flow.

Japanese Utility Model Publication No. 2-70749

  By the way, in the conventional spray container mentioned above, there exists room for improvement with respect to stabilizing the ejection state, such as the magnitude | size of the droplet of the content ejected from a nozzle member, and the ejection range.

  This invention is made | formed in view of the situation which concerns, and it aims at providing the spray container which can stabilize the ejection state of the content.

As means for solving the above problems, the present invention provides the following means.
The present invention comprises a stem erected so as to be movable downward in an upwardly biased state, and a nozzle member attached to the upper end of the stem and having a nozzle hole for ejecting the contents in the container body. By pressing the member together with the stem, the inside of the container body communicates with the inside of the stem, and the contents in the container body are configured to be ejected from the nozzle hole. The fixed member is fixed, and a cylindrical movable member is slidably fitted in the axial direction of the container, and the fixed member is pushed into the fixed member. A spray container in which air is pushed out and air flows into the container body, and has a suction passage communicating the inside of the stem and the container body. In the passage, A valve member for switching between communication and blocking between the opening on the side and the inside of the container body is provided, and the valve member is separated from the valve seat body in a state of being biased toward the valve seat body side. A valve body seated on the valve seat body so as to be able to move away from the valve body, and the valve body is separated from the valve seat body as the internal pressure of the container body increases, so that the stem in the suction passage The opening on the side and the inside of the container body are communicated, and the inflow of air into the container body through the fixing member is allowed to the fixing member, while the reverse flow is prohibited, and the inside of the stem And a check valve that cuts off the communication between the opening on the stem side in the suction passage and connects the inside of the stem and the opening on the stem side in the suction passage by the downward movement of the stem. A spray container is provided.

In such a spray container, when the internal pressure of the container body becomes a predetermined value or more, the valve body is separated from the valve seat body, and the inside of the stem and the inside of the container body communicate with each other through the suction passage. Thereby, when the internal pressure of a container main body is more than predetermined value, the contents are ejected from a nozzle hole through a suction passage and a stem.
On the other hand, when the internal pressure of the container body is smaller than the predetermined value, the valve body is seated on the valve seat body, and the communication between the inside of the stem and the inside of the container body through the suction passage is blocked. Thereby, when the internal pressure of a container main body is smaller than predetermined value, supply toward the stem of the contents in a container main body can be stopped.
Therefore, only when the pressure in the container body becomes equal to or higher than a predetermined value, the contents in the container body are supplied into the stem and the contents are ejected, so that the ejection state of the contents is stabilized. Can do. In addition, liquid drainage is improved.

  In the spray container, a mounting cylinder mounted on the fixing member is disposed in the container body, and the valve seat body and the valve body are disposed in the mounting cylinder. It is preferable.

  In this case, in the spray container, except for the mounting cylinder, the valve seat body, and the valve body, a substantially equivalent configuration can be used, so that it can be easily manufactured.

  According to the spray container according to the present invention, the ejection state of the contents can be stabilized.

It is a longitudinal cross-sectional view of the spray container which concerns on embodiment of this invention. FIG. 2 is an enlarged cross-sectional view of a main part of FIG. 1 and a cross-sectional view around a stem. It is a principal part expanded sectional view of the spray container of the state which pushed down the stem from the state shown in FIG. It is a principal part expanded sectional view of FIG. 1, and is sectional drawing of the valve seat body and valve body which were distribute | arranged in the container main body. FIG. 5 is a cross-sectional view showing a state in which the valve body is separated from the valve seat body from the state shown in FIG. 4.

  Hereinafter, with reference to drawings, the spray container concerning one embodiment of the present invention is explained.

  A spray container 1 according to this embodiment shown in FIG. 1 is a container capable of injecting contents such as cosmetic drugs and insecticides, and has a bottomed cylindrical container body 2. The container body 2 is formed of a synthetic resin material, has a mouth portion 3, and a cylindrical fixing member 4 is inserted into the container body 2 from the mouth portion 3. A cap 5 is screwed to the mouth 3. The container body 2, the fixing member 4 and the cap 5 are coaxially arranged with the axis L1 as a common axis. Hereinafter, the mouth 3 side is referred to as the upper side and the bottom side of the container body 2 is referred to as the lower side along the direction of the axis L1. In addition, a direction orthogonal to the axis L1 is referred to as a radial direction, and a circulation direction of the axis L1 is referred to as a circumferential direction.

  The container body 2 includes the mouth portion 3, a shoulder portion 6 that is connected to the lower end of the mouth portion 3 and gradually increases in diameter as it goes downward, and a trunk that extends downward from the lower end of the shoulder portion 6. The body 7 has a bottom 8 that closes the lower end opening of the body 7, and the lower part of the body 7 is a reduced diameter part 9 that is reduced in diameter compared to the upper part. A bottomed cylindrical stand 10 is fitted to the reduced diameter portion 9 so as to cover the reduced diameter portion 9 and the bottom portion 8.

  The fixing member 4 is made of a synthetic resin material, and has a cylindrical outer cylinder portion 12 having a flange portion 11 formed at the upper end, and is connected to the lower end of the outer cylinder portion 12 and extends in the direction of the axis L1 in the outer cylinder portion 12. And a flange portion 11 is arranged at the upper opening opening edge of the mouth portion 3 via an annular seal member 14. The outer cylinder part 12 and the inner cylinder part 13 are arrange | positioned coaxially with the axis line L1, and the lower ends are connected.

  The cap 5 is made of a synthetic resin material, and includes a top plate 15 and a peripheral wall portion 16 extending downward from the outer peripheral edge of the top plate 15. The cap 5 has an insertion opening 17 formed in the central region of the top plate 15, the top plate 15 is brought into contact with the flange portion 11 of the fixing member 4, and the female screw formed on the inner peripheral surface of the peripheral wall portion 16. The fixing member 4 is fixed by screwing the portion into a male screw portion formed on the outer peripheral surface of the mouth portion 3.

  As shown in FIG. 2, a stem 19 is provided through the top wall portion 18 of the inner cylinder portion 13, and the stem 19 is erected so as to be movable downward in an upward biased state. A through hole 20 penetrating in the radial direction is formed in a lower portion of the stem 19 positioned in the inner cylinder portion 13, and an upper end of the stem 19 protruding upward from the inner cylinder portion 13 communicates with the inside of the stem 19. And the nozzle member 22 which has the nozzle hole 21 which ejects the content in the container main body 2 is mounted | worn.

  A bottomed cylindrical outer cylinder 23 is fitted on the lower end of the stem 19, and a biasing leg 24 projects downward from the bottom of the outer cylinder 23. It is formed intermittently in the circumferential direction. A housing 25 that accommodates the outer cylindrical body 23 and the urging leg portion 24 is fixed and disposed in the inner cylinder portion 13, and the lower end of the urging leg portion 24 is in contact with the bottom portion 26 of the housing 25. The urging leg portion 24 is disposed so as to be elastically deformed by being pressed against the bottom portion 26 of the housing 25 when the stem 19 is moved downward. The stem 19 includes the outer cylindrical body 23 and the urging leg portion 24. Therefore, it is supported so that it can move downward in the upward biased state.

  In addition, an opening is formed in the central region of the bottom 26 of the housing 25, and an attachment cylinder portion 27 protruding upward from the inner peripheral edge of the opening is formed. A connection pipe 28 is fitted into the mounting cylinder 27, and the connection pipe 28 reaches the lower end of the fixing member 4 as shown in FIG.

  The through-hole 20 of the stem 19 is covered with a radial gap at the upper end of the outer cylinder 23, and the upper end of the outer cylinder 23 is an elastomer disposed on the lower surface of the top wall 18 of the inner cylinder 13. Alternatively, through an annular check valve 29 formed of an elastically deformable material such as a rubber material, the through hole 20 contacts the lower surface of the top wall portion 18 of the inner cylinder portion 13 with a biasing force. Communication with the gap between the body 23 is blocked. The inner peripheral edge of the check valve 29 is in contact with the lower surface of the flange portion 30 formed in a portion of the stem 19 positioned above the through hole 20 and bends downward as the stem 19 moves downward. Yes.

  The check valve 29 is sandwiched and supported between the lower surface of the top wall portion 18 of the inner cylinder portion 13 and the upper end edge of the housing 25. A flange portion 31 protruding outward in the radial direction is formed at the upper portion of the housing 25, and the flange portion 31 is fitted in the upper portion of the inner cylinder portion 13. A plurality of passage holes 32 penetrating in the direction of the axis L <b> 1 are formed in the flange portion 31, and a plurality of grooves 33 penetrating in the radial direction are formed in the upper end edge of the housing 25.

  As shown in FIG. 3, in the state where the stem 19 is moved downward, the inner peripheral edge side of the check valve 29 is bent downward by the flange portion 30, and the upper end edge of the outer cylinder 23 is the check valve 29. Away from the bottom. As a result, the through hole 20 communicates with the groove 33 and the passage hole 32 through the gap between the outer cylinder 23 and the check valve 29, whereby the inside of the stem 19 and the inside of the container body 2 are communicated.

  On the other hand, a passage hole 34 is formed in a portion of the top wall portion 18 of the inner cylinder portion 13 that is located radially outside the upper end edge of the housing 25, and the outer peripheral edge of the check valve 29 slightly hangs downward. In contact with the inner circumferential surface of the inner cylinder portion 13, the passage hole 34 is closed so that it can be opened and closed. The check valve 29 is configured to allow air to flow into the container body 2 from the outside of the inner cylinder portion 13 through the passage hole 34, but prohibit the reverse flow.

  As shown in FIG. 1, a cylindrical movable member 35 is slidably fitted in the direction of the axis L1 between the outer cylindrical portion 12 and the inner cylindrical portion 13 of the fixed member 4, and the movable member The upper portion of 35 protrudes upward from the insertion opening 17 of the cap 5. Furthermore, an overcap 36 is provided at the upper end of the movable member 35.

  The overcap 36 integrally includes a top plate 37 and a peripheral wall portion 38 that hangs down from the outer peripheral edge of the top plate 37, and the upper end portion of the movable member 35 is fitted to the lower surface of the central region of the top plate 37. A fitting cylinder 39 is formed.

  A gap is formed between the outer peripheral surface of the inner cylindrical portion 13 of the fixed member 4 and the inner peripheral surface of the movable member 35. Here, on the outer peripheral surface of the inner cylinder part 13 and the inner peripheral surface of the movable member 35, a plurality of longitudinal grooves extending along the entire length in the direction of the axis L1 are formed along the circumferential direction. An inner peripheral surface (for example, a part) of the movable member 35 may be in sliding contact.

  The movable member 35 has a flange portion 40 projecting outward in the radial direction at the lower end thereof, and the outer peripheral surface of the flange portion 40 is in close contact with the inner peripheral surface of the outer cylinder portion 12. Above the flange portion 40, a slit 41 penetrating the movable member 35 in the radial direction is formed so as to extend in a certain range in the circumferential direction. In addition, even if the slit 41 is single, multiple may be provided in the circumferential direction. Further, a groove 42 that is recessed upward is formed at the lower end edge of the movable member 35, and the lower end of the movable member 35 is configured to be elastically deformable in the radial direction.

  Next, as shown in FIGS. 1 and 4, the connection pipe 28 is connected to the suction pipe 45 via a valve member Va including a valve seat body 43 and a valve body 44. The valve seat body 43 is a cylindrical body made of a synthetic resin material, and protrudes outward in the radial direction from the upper cylindrical portion 46 into which the lower end portion of the connection pipe 28 is fitted, and the lower end of the upper cylindrical portion 46. A flange portion 47, a lower cylindrical portion 48 extending downward from the outer peripheral edge portion of the flange portion 47, and a valve seat portion 51 communicating with the upper cylindrical portion 46 and protruding downward from the inner peripheral edge portion of the flange portion 47. Have.

  The lower cylinder part 48 is formed to have a larger diameter than the upper cylinder part 46, and a bottomed cylindrical valve body holding cylinder 50 in which the valve body 44 is accommodated is disposed. Here, in the flange portion 47 of the valve seat body 43, an inner tube 49 protrudes downward from a portion located radially inward from the lower tube portion. The inner cylinder 49 is shorter in the direction of the axis L1 than the lower cylinder part 48. The upper end portion of the valve body holding tube 50 is fitted between the lower tube portion 48 and the inner tube 49.

  The valve body 44 is formed in a crested cylindrical shape, and the top portion 44A is formed in a dome shape. A flange portion 52 that protrudes radially outward is formed in the lower portion of the valve body 44, and a spring 53 is disposed between the flange portion 52 and the bottom portion of the valve body holding cylinder 50. The valve body 44 is urged upward by a spring 53 to bring the top portion 44A into contact with the valve seat portion 51, and the top portion 44A is seated on the valve seat portion 51 so as to be movable away from the valve seat portion 51. .

  An annular guide peripheral wall portion 54 that protrudes upward is formed on the outer peripheral edge of the flange portion 52 formed at the lower portion of the valve body 44, and this guide peripheral wall portion 54 contacts the inner peripheral surface of the valve body holding cylinder 50. A pocket portion 55 that is an annular space is formed between the outer peripheral surface of the valve body 44 and the guide peripheral wall portion 54. In addition, a plurality of flow holes 56 penetrating in the radial direction are formed in the upper portion of the valve body holding cylinder 50 at intervals in the circumferential direction.

  A bottomed cylindrical exterior holding cylinder 57 is externally fitted to the lower cylinder part 48, and the exterior holding cylinder 57 has a bottom part 58 and a peripheral wall part 59 rising from the outer peripheral edge of the bottom part 58. A gap is provided between the peripheral wall portion 59 of the exterior holding cylinder 57 and the outer peripheral surface of the lower cylinder portion 48. Further, a gap is provided between the lower end edge of the lower cylinder portion 48 and the bottom portion 58 of the exterior holding cylinder 57. The upper end portion of the peripheral wall portion 59 is formed to have a larger diameter than other portions, and is fitted on the flange portion 47 of the valve seat body 43. A plurality of ribs 70 are formed along the circumferential direction on the inner circumferential surface of the peripheral wall portion 59 so as to protrude inward in the radial direction and extend in the direction of the axis L1 to come into contact with the outer circumferential surface of the lower cylindrical portion 48. ing. The rib 70 extends from the bottom 58 and is set to a height that is approximately half the height of the peripheral wall 59. The rib 70 may not be formed.

  A circular opening 60 is formed in the central region of the bottom 58, and a mounting cylinder portion 61 projects downward from the periphery of the opening 60, and the suction pipe 45 is fitted into the mounting cylinder portion 61. 1, the lower end of the suction pipe 45 is immersed in the contents of the container body 2.

  Further, a vent hole 62 penetrating in the radial direction is formed in a connection portion between the upper end portion and the other portion of the peripheral wall portion 59, and the vent hole 62 is provided between the lower cylindrical portion 48 and the peripheral wall portion 59. And communicates with the inside of the lower cylindrical portion 48 through the gap. Here, a gap in the direction of the axis L1 is formed between the valve body holding cylinder 50 and the bottom 58 of the exterior holding cylinder 57, and the opening 60 of the bottom 58 is formed between the outer peripheral surface of the valve body holding cylinder 50 and the lower cylinder. It communicates with the gap between the inner peripheral surface of the portion 48 and communicates with the inside of the valve body holding cylinder 50 through the flow hole 56.

  A bottomed cylindrical mounting cylinder 63 is externally fitted to the exterior holding cylinder 57. The mounting cylinder 63 includes an outer bottom 64 having an opening through which the mounting cylinder 61 of the exterior holding cylinder 57 passes, an outer fitting peripheral wall 65 extending upward from the outer peripheral edge of the outer bottom 64, and an upper end of the outer fitting peripheral wall 65. An annular plate portion 66 extending radially outward from the outer peripheral portion, and a mounting peripheral wall portion 67 extending upward from the outer peripheral edge of the annular plate portion 66.

  The mounting cylinder 63 accommodates the exterior holding cylinder 57 by the outer bottom 64 and the outer peripheral wall portion 65, and the upper portion of the mounting peripheral wall portion 67 is externally fitted to the lower portion of the fixing member 4 (outer cylindrical portion 12). The valve seat body 43, the valve body 44, and the like in the exterior holding cylinder 57 are held at predetermined positions in the container body 2. Here, the upper surface of the flange portion 47 of the valve seat body 43 is in contact with a protruding portion 13A that is integrally formed with the bottom portion of the inner cylinder portion 13 of the fixing member 4 and extends downward. A plurality of the protrusions 13A are formed along the circumferential direction of the bottom of the inner cylinder portion 13, and a gap is provided between the adjacent protrusions 13A to allow the inside of the inner cylinder portion 13 to communicate with the container body 2. It has been.

  Further, a plurality of through holes 68 penetrating in the direction of the axis L1 are formed in the annular plate portion 66 in the circumferential direction. The through hole 68 communicates with the vent hole 62, whereby the inner side of the lower cylinder portion 48 is a gap between the peripheral wall portion 59 of the exterior holding cylinder 57 and the outer peripheral surface of the lower cylinder portion 48, and the vent hole. 62 communicates with the inside of the container body 2. In the present embodiment, the suction passage referred to in the present invention corresponds to the connection pipe 28 and the suction pipe 45.

  Hereinafter, the operation of the spray container 1 will be described.

Referring to FIGS. 1 and 2, when the movable member 35 is pushed downward with the movable member 35 inserted between the outer cylinder portion 12 and the inner cylinder portion 13, the fixed member 4 and the movable member 35 are The cylinder space S1 surrounded by is pressurized. The cylinder space S1 includes a space below the flange portion 40 of the movable member 35, a space between the movable member 35 and the inner cylinder portion 13, and a space between the movable member 35 and the nozzle member 22. ing.
When the cylinder space S1 is thus pressurized, the pressure in the cylinder space S1 acts on the check valve 29 through the passage hole 34 of the fixing member 4. As a result, the check valve 29 is opened by the outer peripheral side of the check valve 29 being bent downward and deformed (see arrow I in FIG. 2).

When the check valve 29 is opened, the cylinder space S1 and the container body 2 communicate with each other, and air flows into the container body 2 from the cylinder space S1.
Therefore, by repeating the movement of the movable member 35 in the axis L1 direction, air is supplied into the container main body 2 by the piston movement by the cooperation of the fixed member 4 and the movable member 35, and the internal pressure of the container main body 2 is reduced. Can be increased.

When the movable member 35 is pushed down to the lower end position and the pressing operation is stopped, the pressurization of the cylinder space S1 by the movable member 35 is stopped, and the check valve 29 is restored and deformed, whereby the check valve 29 is closed. The
After that, when the movable member 35 is pulled up, the cylinder space S1 becomes negative pressure, and the slit 41 of the movable member 35 is opened by this negative pressure. Then, outside air flows in through the slit 41, and the cylinder space S1 rises to atmospheric pressure.

Then, referring to FIG. 5, when the internal pressure of the container body 2 increases, the content in the container body 2 flows through the suction pipe 45 and flows into the lower cylindrical portion 48 of the valve seat body 43, It flows into the valve body holding cylinder 50 through the flow hole 56 (see arrow II in FIG. 5). Here, the air in the valve body holding cylinder 50 passes through the gap between the peripheral wall portion 59 of the exterior holding cylinder 57 and the outer peripheral surface of the lower cylinder portion 48, the vent hole 62, and the through hole 68. (Outside of the container body 2).
And if the internal pressure in the container main body 2 becomes more than a predetermined value and the content pushes down the valve body 44 via the pocket part 55, the valve body 44 will open (refer arrow III in FIG. 5).
When the valve body 44 is thus opened, the contents are supplied to the stem 19 side through the connection pipe 28 (see arrow IV in FIG. 5).

  When the contents are ejected from the spray container 1, referring to FIG. 3, the movable member 35 is first lifted and removed from the fixed member 4, and the nozzle member 22 is pressed down. When the nozzle member 22 is pressed, the inner peripheral edge side of the check valve 29 is bent downward by the flange portion 30 as described above, and the upper end edge of the outer cylinder 23 is separated from the check valve 29, thereby causing a passage. The hole 32 communicates with the groove 33 and the through hole 20, and the stem 19 communicates with the inside of the container body 2.

  As a result, the compressed air in the container body 2 is drawn into the through hole 20 from the groove 33 as shown by the arrow α in FIG. 3, and the content from the connection pipe 28 is shown by the arrow β in FIG. Be drawn into. Then, as shown by an arrow γ in FIG. 3, the mixture of the contents and the compressed air flows through the stem 19 and is ejected from the nozzle hole 21 with momentum.

On the other hand, in the spray container 1 of the present embodiment, the internal pressure of the container body 2 decreases as the contents are ejected.
Here, in this embodiment, when the internal pressure of the container main body 2 becomes less than a predetermined value, the valve body 44 is seated on the valve seat portion 51 by the upward biasing force of the spring 53, and the inside of the stem 19 and the inside of the container main body 2 are The communication is cut off, and the supply of the contents in the container body 2 to the stem 19 side is stopped.
Therefore, even if the nozzle member 22 is operated in this state, the contents are not ejected.

As described above, in the spray container 1 of the present embodiment, when the internal pressure of the container body 2 exceeds a predetermined value, the valve body 44 is separated from the valve seat body 43 and the suction passage (the suction pipe 45 and the connection) The stem 19 and the container body 2 communicate with each other via the pipe 28). Thereby, when the internal pressure of the container body 2 is equal to or higher than a predetermined value, the contents are ejected from the nozzle hole 21 through the suction passage and the stem 19.
On the other hand, when the internal pressure of the container body 2 is smaller than a predetermined value, the valve body 44 is seated on the valve seat body 43, and communication between the stem 19 and the container body 2 through the suction passage is blocked. . Thereby, when the internal pressure of the container main body 2 is smaller than a predetermined value, the supply of the contents in the container main body 2 toward the stem 19 can be stopped.
Therefore, only when the pressure in the container body 2 becomes a predetermined value or more, the contents in the container body 2 are supplied into the stem 19 and the contents are ejected, so that the ejection state of the contents is stabilized. Can be made.

  In the spray container 1, a mounting cylinder 63 mounted on the fixing member 4 is disposed in the container body 2, and a valve seat body 43 and a valve body 44 are disposed on the mounting cylinder 63. ing. In the case of this configuration, in the spray container 1, except for the mounting cylinder 63, the valve seat body 43, the valve body 44, and the like, substantially the same configuration can be used, so that a container that can easily obtain the desired effect is produced. It becomes possible to do.

  As mentioned above, although embodiment of the spray container concerning this invention was described, this invention is not limited to above-described embodiment, In the range which does not deviate from the meaning, it can change suitably.

  DESCRIPTION OF SYMBOLS 1 Spray container, 2 Container main body, 4 Fixing member, 19 Stem, 21 Nozzle hole, 22 Nozzle member, 28 Connection pipe (uptake passage), 29 Check valve, 35 Movable member, 43 Valve seat body, 44 Valve body, 45 Suction pipe, 63 mounting cylinder, Va valve member.

Claims (2)

A stem erected so as to be movable downward in an upwardly biased state;
A nozzle member attached to the upper end of the stem and having a nozzle hole for ejecting the contents in the container body,
By pressing the nozzle member together with the stem, the inside of the container body communicates with the inside of the stem, and the contents in the container body are configured to be ejected from the nozzle hole.
A cylindrical fixed member is fixed to the container main body, and a cylindrical movable member is slidably fitted to the fixed member in a container axial direction, and the movable member is moved relative to the fixed member. Is a spray container in which air between the fixed member and the movable member is pushed out and air flows into the container body,
Having a suction passage communicating the inside of the stem and the inside of the container body;
A valve member for switching communication and blocking between the opening on the stem side and the inside of the container body is disposed in the suction passage,
The valve member includes a valve seat body and a valve body seated on the valve seat body so as to be movable away from the valve seat body in a state of being biased toward the valve seat body side,
The valve body communicates the opening on the stem side in the suction passage with the inside of the container body by separating from the valve seat body as the internal pressure of the container body increases.
In the fixing member,
While allowing the inflow of air into the container body through the fixing member, prohibit the reverse flow,
A check valve that blocks communication between the inside of the stem and the opening on the stem side in the suction passage, and communicates the inside of the stem and the opening on the stem side in the suction passage by the downward movement of the stem; A spray container characterized by being provided . In the container body, a mounting cylinder mounted on the fixing member is disposed,
The spray container according to claim 1, wherein the valve seat body and the valve body are disposed in the mounting cylinder.

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