JPH07149382A - Aerosol device with safety mechanism - Google Patents

Abstract

PURPOSE:To provide an aerosol device which eliminates a fear of an accidental detachment of its valve even under a high temperature inside an automobile in summer. CONSTITUTION:An aerosol device is provided with a container body 2 having a contacting face 5 and an engaging part 6, a housing 9 having a flange part 11 attached to the contacting face with a gasket 8 interposed in between, a mounting cap 25 for mounting the flange part 11 and the gasket 8 to the neck part 3 of the container with them pressed together vertically and a safety mechanism wherein a bent part 28 is provided in an inverted tapering form and is so deformed as to weaken the vertically pressing force exterted on the mounting cap 25 when the pressure or temperature inside the container body 2 exceeds a specific value.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to an aerosol device having a safety mechanism. More specifically, the present invention relates to an aerosol device capable of minimizing damage even when the internal pressure rises abnormally.

[0002]

2. Description of the Related Art Recently, the application of an aerosol device has been expanded to various fields, and a small and lightweight aerosol device which is convenient for carrying is also widely used. In such an aerosol device, for example, as shown in FIG. 9, a bottle-shaped container body 101 made of a synthetic resin and a gasket 1 at the mouth 102 thereof.
03, a valve housing 104, a valve housing 104, a stem rubber 106 for opening and closing the stem 105 inserted therein, and a gasket 103 are integrally attached to the mouth portion 102, which is a mounting cap 107 made of a metal sheet. Some have.

[0003] Such an aerosol device has sufficient pressure resistance under normal use. However, because of its portability, it may be brought into the interior of an automobile, and the internal pressure of the container may rise abnormally when the temperature inside the automobile exceeds 60 to 70 ° C, such as during the summer. And valve housing 104
The force applied upward to the
When the lower end edge 109 of the mounting cap 107, which is caulked in a tapered manner to the engaging portion 108, cannot withstand the force, the lower end edge 109 expands outwards all at once, and the mounting cap 107 and the valve housing 104 are separated from each other. There may be an accident that jumps out from 101 at once.

[0004]

SUMMARY OF THE INVENTION It is a technical object of the present invention to prevent the accidental popping out of the mounting cap or housing even in an abnormally high temperature in such a conventional aerosol device.

[0005]

SUMMARY OF THE INVENTION An aerosol device of the present invention has a container main body having an abutting surface at the upper end of the mouth and an engaging portion on the outer periphery of the mouth, and abutting on the abutting surface. And a tubular housing having a flange portion mounted on the upper surface of the gasket, a stem movably arranged in the housing, and a stem fitted around the lateral hole of the stem, With a stem rubber that opens and closes the lateral hole by the movement of, and a lower end edge that is locked to the upper surface portion that abuts the upper surface of the flange portion and the engaging portion of the container body, and the flange portion and the gasket are pressed vertically. And a mounting cap for attaching to the mouth of the container with at least one of the mouth of the container body, the gasket, the housing, the stem rubber, or the mounting cap. When pressure or temperature exceeds a predetermined level, deformation element that deforms to weaken the pressing force of the longitudinal direction is characterized in the configuration that is provided.

The deforming element may be composed of a deforming portion provided on the upper surface portion or the lower end edge of the mounting cap. The engaging portion of the mouth portion is provided with an engaging surface facing downward and having a right angle or an acute angle with respect to the axis, and the lower end edge of the mounting cap engages with the engaging surface, and when the internal pressure rises, the mounting cap. If a reverse taper-shaped bent portion that allows deformation is provided, the bent portion serves as the deformed portion. The bent portion can be provided at least at one position, preferably at a plurality of positions on the lower edge of the mounting cap.

In the aerosol device in which the inner side of the upper surface of the mounting cap pushes the stem rubber against the housing, the deforming portion is configured to reduce the pushing force of the stem rubber at the time of deformation, that is, the sealing pressure. Can be provided on the inner side of the upper surface of the.

It is also possible to form a deforming portion by providing the engaging portion with an elastic deforming element that elastically deforms at a predetermined internal pressure to allow the mounting cap to rise. Such an elastically deformable element can be obtained by, for example, forming the engaging portion as a thin projection capable of elastically deforming, or by interposing an elastically deformable cushion material between the engaging portion and the lower end edge of the mounting cap. Can be realized. Such elastically deformable elements can be formed of a material whose resilience is reduced when above a predetermined temperature. Further, the gasket may be formed of a material whose elastic force is reduced when the temperature exceeds a predetermined temperature. Further, in the aerosol device in which the inner side of the upper surface of the mounting cap presses the stem rubber against the housing, the stem rubber may be formed of a material whose elastic force is reduced when the temperature exceeds a predetermined temperature. it can.
In those cases, the gasket and / or the stem rubber constitute the deformation element.

In any of the above cases, on the outer periphery of the mouth of the container,
It is preferable to form vertical grooves extending vertically.

[0010]

In the aerosol device of the present invention, when the internal pressure rises abnormally at high temperature, an upward force is applied to the housing, which causes the deformable element to deform. That is, plastic deformation or elastic deformation occurs in the deformed portion or the elastic deformation element.
Alternatively, the high temperature reduces the elastic force of the elastic deformation element. Therefore, the sealing pressure of the gasket or stem rubber becomes insufficient, and the gas inside the container leaks to the outside. However, since these deformations are partial, they do not significantly affect the entire arrangement of the parts or the whole assembled structure, and gradually reduce the internal pressure. Therefore, a dangerous accident such as popping out of the housing can be prevented.

That is, when the above-mentioned deforming element is constituted by the deforming portion of the upper surface portion or the lower end edge of the mounting cap, when the deforming portion is deformed, the other portion maintains the entire structure and the deforming portion is maintained. The sealing pressure of the gasket or stem rubber in the vicinity decreases. When the engaging portion is provided with an elastically deforming element that elastically deforms at a predetermined internal pressure to allow the mounting cap to rise, the elastically deforming element elastically deforms before the mounting cap or the like is largely deformed, and the mounting cap is Somewhat rises. Therefore, the sealing pressure of the gasket is reduced.

When such an elastically deformable element, or the gasket or the stem rubber is made of a material whose elastic force is reduced at a high temperature, elastic deformation is caused in response to an increase in internal pressure, and at the same time, the elastic force is generated by a high temperature. Is reduced,
The seal pressure is further reduced. Further, in any of the above cases, if a vertical groove is provided on the outer periphery of the mouth of the container, the vertical groove serves as a passage for gas leaking from the inside, so that the internal pressure is further reliably reduced.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, referring to the drawings, an explanation will be given of an aerosol device with a safety mechanism of the present invention. 1 is a cross-sectional view showing a main part of an embodiment of the aerosol device of the present invention, FIG. 2 is a sectional view showing a modified state of the aerosol device of FIG. 1, and FIG. 3 is a partial cut of a mounting cap in the aerosol device of FIG. FIG. 4 is a cutaway perspective view, FIG. 4 is a bottom view showing another embodiment of the mounting cap according to the present invention, FIG. 5 is a sectional view showing a modified state of still another embodiment of the aerosol device of the present invention, FIGS. FIG. 8 is a partially cutaway side view and sectional view showing still another embodiment of the aerosol device of the present invention, and FIG. 8 is a perspective view showing another embodiment of the container mouth portion according to the present invention.

The aerosol device 1 shown in FIG. 1 is roughly divided into a container body 2 integrally molded in a bottle shape from synthetic resin.
And a valve unit 4 attached to the mouth 3 of the container body 2. The mouth portion 3 has a substantially cylindrical shape, and a flat contact surface 5 is formed on the upper surface thereof. An engagement portion 6 formed of an annular protrusion is provided on the outer peripheral surface of the mouth portion 3, and an engagement surface 7 formed of the lower surface of the engagement portion 6 is provided.
Is a reverse taper surface that rises toward the center. The entire upper surface of the mouth portion 3 may be a contact surface, and the engagement surface 7 may be a surface perpendicular to the axis. The container body 2 is made of a hard synthetic resin such as PET or PBT.

A ring-shaped gasket 8 made of a rubber thin plate is arranged on the upper surface of the mouth portion 3, and a housing 9 is fitted on the inner surface of the mouth portion 3. Housing 9 is mouth 3
A bottomed tubular main body portion 10 fitted into the inner surface of the main body 10, a flange portion 11 spreading outward from the upper portion thereof, and a tubular portion 12 extending below the main body portion 10.
And the cylindrical portion 12 communicate with each other through a hole 14. The main body portion 10 is a portion that accommodates the stem 15 so as to be vertically movable, and ribs 16 that guide the stem 15 are radially provided on the inner surface of the cavity 13. The flange portion 11 is a portion for fixing the housing 9 to the container body 2, and the tubular portion 12 is a portion for fixing the dip tube 17.

The stem 15 has a conventionally known shape, is housed in a space 13 of the main body 10 of the housing 9 so as to be vertically movable, and is biased upward by a spring 18. An annular groove 19 is formed in an intermediate portion of the stem 15 in the vertical direction, and the inside of the annular groove 19 and the inner hole 20 of the stem 15 are communicated with each other by a lateral hole 21. The lateral hole 21 is always closed by a stem rubber 22 fitted around the annular groove 19. The peripheral edge portion of the stem rubber 22 is held in a step portion 23 formed on the upper surface of the housing 9, and is pressed against a protrusion 24 having a triangular cross section provided on the inner edge of the step portion 23. The stem 15 may be of a tilting operation type.

Further, the stem rubber 22, the flange portion 11 of the housing 9, and the gasket 8 are fixed to the mouth portion 3 by a bottomed cylindrical mounting cap 25. That is, the upper surface portion 26 of the mounting cap 25 has the stem rubber 22 and the flange portion 11
Of the flange portion 11, the gasket 8 and the engaging portion 6 are covered by the side surface portion 27, and the inwardly bent portion 28 formed at the lower end edge serves as the engaging surface 7 of the engaging portion 6. It is locked. Mounting cap 25
A stem insertion hole 29 for penetrating the stem 15 is formed in the center of the upper surface portion 26 of the inner surface 26 of the upper surface portion 26.
The a pushes the upper surface of the annular projection 30 and the stem rubber 22 constituting the step portion 23 downward, and the outer peripheral portion of the stem rubber 22 is sandwiched between the inner side 26a and the step portion 23. Further, the flange portion 11, the gasket 8 and the engaging portion 6 are sandwiched between the upper surface portion 26 and the bent portion 28 of the mounting cap 25. A pressing portion 31 folded inward in a V shape is formed at a portion of the mounting cap 25 corresponding to the outer peripheral surface of the gasket 8. The mounting cap 25, the gasket 8, the housing 9, the stem 15, and the stem rubber 2 assembled as described above.
2. The spring 18 constitutes the valve unit 4 as a whole.

An aerosol device 1 constructed as described above
In FIG. 1, the gasket 8 seals between the container body 2 and the housing 9, and the stem rubber 22 seals between the housing 9 and the stem 15. When the stem 15 is pushed downward against the urging force of the spring 18, the inner peripheral edge of the stem rubber 22 is bent downward,
Since the lateral hole 21 of the stem 15 is opened, the contents of the container body 2 are discharged to the outside through the space 13, the lateral hole 21 of the housing 9 and the inner hole 20 of the stem 15. The inside of the container body 2 is usually 4 to 5 kgf / cm ² , and the maximum is 13
It is within the safe range up to about 15 kgf / cm ² . The hard resin container itself can sufficiently withstand an internal pressure of 80 kgf / cm ² and an operating environment temperature of 50 ° C.

Such an aerosol device 1 is, for example, 70
When placed under to 80 ° C. in a high temperature environment, the internal pressure, for example, 15 kgf / cm ² or more, or 40 kgf / cm ² or more increases, a force corresponding to the opening area of the container mouth part 2 to the valve (total pressure) For example, when the opening area is 1 cm ² , a force of 15 kgf or more, or 40 kgf or more is applied upward. Therefore, as shown in FIG. 2, a force A for stretching the bent portion 28 is applied to the bent portion 28. However, since the bent portion 28 is bent in a reverse taper shape, it can withstand a considerably large force, and when it is extended a little, the mounting cap 25 is slightly lifted (arrow B) so that it does not come off. Can be held at. Therefore, the sealing pressure pressing the gasket 8 is loosened, the contact state between the contact surface 5 of the mouth portion 3 and the surface of the gasket 8 becomes incomplete, and the gas inside can be leaked from that portion. That is, the bent portion 28 at the lower end edge of the mounting cap 25 acts as a deformed portion,
Since the sealing pressure for tightening the gasket 8 is reduced, the gas inside the container leaks from the gap between the container opening 3 and the gasket 8 or the like.

When the mounting cap 25 is deformed, the holding portion 31 folded in a V shape on the side surface portion thereof.
May grow. In that case, the sealing pressure for pressing the gasket 8 is further reduced, and the degassing action is ensured.
As shown in FIG. 3, the bent portion 28 is usually formed on the entire circumference of the lower end edge of the mounting cap 25, and the pressing portion 31 is also formed on the entire circumference. However, as shown in FIG. 4, a claw-shaped bent portion 28a may be partially provided. In that case, the force for extending the bent portion 28a is small, and the gas easily escapes from the portion 28b having no bent portion. Further, the bent portion 28c having a short length may be formed on the entire circumference, and the bent portion 28a having a long length may be partially provided. The pressing portion 31 may not be provided on the entire circumference but may be provided partially.

Further, the mounting cap 25 shown in FIG.
Is the slit 3 that reaches the stem insertion hole 29 in the upper surface portion 26.
2 are formed in a radial shape, and therefore, when a large internal pressure is applied, as shown in FIG.
6a expands upward (arrow D). Therefore, the force with which the stem rubber 22 of the mounting cap 25 is pressed is reduced, and gas leaks from the gap between the stem rubber 22 and the housing 9 and, in some cases, the gap between the stem rubber 22 and the stem 15. That is, in this embodiment, the upper surface portion 26
The inner side 26a also acts as a deforming portion.

In the aerosol device 35 shown in FIG. 6, an annular groove 36 is formed somewhat above the lower end of the engaging portion 6, so that a thin annular protrusion 38 having an engaging surface 37 on the lower surface is elastically deformed. It is formed as an element. In this case, when the internal pressure of the container rises abnormally, the annular projection 38 flexes upward somewhat somewhat before the bent portion 28 of the mounting cap 25 is completely extended. As a result, the mounting cap 25 rises to some extent, the sealing pressure for pressing the gasket 8 decreases, and gas leaks from between the mouth portion 3 of the container and the gasket 8. Further, when the internal pressure decreases due to the leakage of gas, the annular protrusion 38 returns to its original state and becomes ready for use. Note that such elastic deformation gradually increases as the internal pressure increases, so that the degassing action also gradually progresses.
Therefore, it is safer.

The container body 2 shown in FIG. 6 has a mouth portion 3 and a body portion 39.
And have a cylindrical shape with almost the same diameter. Thus, in the present invention, the shape of the container does not matter. The annular projection 38 as an elastically deformable element is not normally broken at its root, but it may be broken. In that case, the mounting cap 25 rises together with the annular projection 38 by the amount of the annular groove 36, whereby the sealing action of the gasket 8 is lost. The annular protrusion 38 may not be provided all around the mouth portion 3 but may be provided partially. Alternatively, the annular protrusion 38 may be formed separately from the mouth portion 3 of the container and fixed to the mouth portion 3.

In the embodiment shown in FIG. 7, between the lower surface (engaging surface) of the engaging portion 6 and the bent portion 28, an annular cushion material 40, which is a separate member, is interposed as an elastically deformable element. Has been done. Similar to the annular protrusion 38 in FIG. 6, when this internal pressure rises abnormally, the cushioning material 40 elastically bends to a flat shape, the mounting cap 25 is raised to some extent, and the sealing pressure of the gasket 8 can be reduced. . In the embodiment of FIGS. 6 and 7, vertical grooves 41 extending in the vertical direction as shown in FIG. 8 are formed on the container mouth portion 3, particularly on the outer peripheral surface of the engaging portion 6. When such a vertical groove 41 is provided, there is an advantage that the gas that escapes from between the gasket 8 and the container opening portion 3 easily escapes to the outside through the vertical groove 41. In particular, as in the embodiment of FIG. 7, an O-ring shaped cushioning material 4
When 0 is provided, it is preferable that the vertical groove 41 extends below the cushion material 40. Such flutes 41 may also be employed in other aerosol devices, such as the aerosol device 1 of FIG.

As the material of the separately formed annular projection 38, the cushion member 40 formed as a separate member, the gasket 8 or the stem rubber 22, the elastic force is reduced when a predetermined temperature, for example, 60 ° C. is exceeded. Things can be adopted. In that case, when the ambient temperature of the aerosol devices 1 and 35 rises, the sealing pressure of the gasket 8 and the like becomes insufficient accordingly, and the gas inside can be safely leaked. It should be noted that this configuration can be adopted together with the configuration in which any one of the above-mentioned deforming portions is provided, and in that case, the safety can be further improved. Examples of the material whose elastic force decreases with increasing temperature include a heat-shrinkable resin that causes heat shrinkage at high temperature, a thermoplastic resin that softens at high temperature, a shape memory resin, and a shape memory alloy.

[0026]

In the aerosol device of the present invention, when the environmental temperature becomes abnormally high, the deforming element deforms and the sealing pressure of the gasket or the like decreases, so that the internal gas leaks before the mounting cap comes off. To do. Therefore, it is possible to safely reduce the internal pressure and prevent the mounting cap and the housing from popping out.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part showing an embodiment of an aerosol device of the present invention.

FIG. 2 is a sectional view showing a modified state of the aerosol device of FIG.

3 is a partially cutaway perspective view of a mounting cap in the aerosol device of FIG. 1. FIG.

FIG. 4 is a bottom view showing another embodiment of the mounting cap according to the present invention.

FIG. 5 is a sectional view showing a modified state of still another embodiment of the aerosol device of the present invention.

FIG. 6 is a partially cutaway side view showing still another embodiment of the aerosol device of the present invention.

FIG. 7 is a sectional view showing still another embodiment of the aerosol device of the present invention.

FIG. 8 is a perspective view showing another embodiment of the container mouth portion according to the present invention.

FIG. 9 is a cross-sectional view showing an example of a conventional aerosol device.

[Explanation of symbols]

 1 Easel Device 2 Container Main Body 3 Portion 5 Abutment Surface 6 Engagement Part 7 Engagement Surface 8 Gasket 9 Housing 11 Flange Part 15 Stem 21 Side Hole 22 Stem Rubber 25 Mounting Cap 28 Bending Part 35 Eazor Device 38 Annular Protrusion 40 Cushion Material 41 vertical groove

Claims (12)

[Claims] 1. A container body having an abutting surface at the upper end of the mouth portion and an engaging portion on the outer periphery of the mouth portion, a gasket abutting on the abutting surface, and a gasket mounted on the upper surface of the gasket. A tubular housing having a flange portion to be placed, a stem movably arranged in the housing, a stem rubber fitted around the lateral hole of the stem and opening and closing the lateral hole by movement of the stem, An upper surface portion that abuts an upper surface of the flange portion and a lower end edge that is locked to an engaging portion of the container body,
A mounting cap for attaching the flange portion and the gasket in a state of being pressed in the vertical direction to the mouth portion of the container, and at least one of the mouth portion, the gasket, the housing, the stem rubber or the mounting cap of the container body is attached to the container. An aerosol device with a safety mechanism, which is provided with a deformation element that deforms so as to weaken the pressing force in the vertical direction when the internal pressure or temperature exceeds a predetermined level. 2. The aerosol device according to claim 1, wherein the deformable element is a deformable portion provided on an upper surface portion or a lower end edge of the mounting cap. 3. When the engaging portion faces downward and has an engaging surface that is at a right angle or an acute angle with respect to the axis and is engaged with the engaging surface at the lower end edge of the mounting cap, and the internal pressure rises. The aerosol device according to claim 2, further comprising a reverse taper-shaped bent portion extending to allow the mounting cap to rise, and the bent portion constitutes the deformable portion. 4. The aerosol device according to claim 3, wherein the bent portions are provided at a plurality of positions on the lower end edge of the mounting cap. 5. The aerosol device according to claim 2, wherein the inside of the upper surface of the mounting cap presses the stem rubber against the housing, and the inside of the upper surface of the mounting cap constitutes the deformable portion. 6. The aerosol device according to claim 1, wherein the engaging portion is provided with an elastically deformable deforming element that elastically deforms at a predetermined internal pressure to allow the mounting cap to rise. 7. The aerosol device according to claim 6, wherein the engagement portion is a thin projection integrally formed with the mouth portion of the container. 8. The aerosol device according to claim 6, wherein an elastically deformable cushion material is interposed as a deformation element between the engaging portion and the lower end edge of the mounting cap. 9. The aerosol device according to claim 6, wherein the elastically deformable element is made of a material whose elastic force is reduced when the elastically deformable element reaches a predetermined temperature or higher. 10. The gasket is formed of a material that is softened or contracted to reduce its elastic force when the temperature exceeds a predetermined temperature, and the gasket constitutes a deformable element. 3, 4, 5, 6, 7, 8 or 9
The described aerosol device. 11. A deformation formed of a material, wherein an inner side of an upper surface portion of the mounting cap presses a stem rubber against a housing, and the stem rubber reduces a resilient force when a temperature exceeds a predetermined temperature. Claims 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 which are elements
The described aerosol device. 12. A vertical groove extending vertically is formed on the outer periphery of the mouth of the container.
An aerosol device with a safety mechanism according to 7, 8, 9, 10 or 11.