JP4125497B2 - Aerosol container - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an aerosol container, and more particularly to a shoulder cover in an aerosol container including a mechanism for extracting residual gas from a used aerosol can, and a mechanism for separating plastic from a metal can such as a discharge nozzle and a shoulder cover.
[0002]
[Problems to be solved by the invention]
In an aerosol container in which the discharge nozzle is attached to the stem of the aerosol valve, a container having a shoulder cover provided with a support guide member for guiding the vertical movement of the discharge nozzle attached to the mounting ring of the mounting cup of the aerosol container has been conventionally used. More known.
[0003]
In recent years, when disposing of used aerosol containers for waste disposal and resource recycling, it has been required to separate residual gas from metal aerosol cans and plastic parts as well as to remove residual gas. Aerosol containers having a separation mechanism for separating a cover from a metal can are also well known.
[0004]
However, the conventional sorting mechanism has a problem that the structure is complicated and the operability during sorting is not good.
[0005]
One object of the present invention is to solve the above problems, and when the contents are not discharged during use of the aerosol container, the discharge nozzle is maintained in the locked position, and all the contents of the aerosol container are stored. Another challenge is to extract residual gas when the product is discharged, and to provide an aerosol container that can easily extract residual gas and separate metal cans and plastic parts. Objective.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention comprises an aerosol can comprising an aerosol can, a discharge nozzle attached to the aerosol can, and a shoulder cover that is held on the shoulder of the aerosol can and guides the discharge nozzle. An aerosol container, wherein a shoulder cover is provided with an outer cylinder for guiding the vertical movement of the discharge nozzle, a support wall provided with a positioning guide cylinder provided with a notch for defining the rotational position of the discharge nozzle, and a support wall; A connecting plate for connecting the lower end of the outer cylinder and mounting and holding the shoulder cover on the shoulder of the aerosol can, the discharge nozzle includes a positioning plate, and the positioning plate includes a positioning guide cylinder and A configuration is employed in which the nozzles are relatively vertically movable and engaged so that the discharge nozzle is positioned at a position where a specific operation can be performed by the engagement position of both .
[0007]
As a specific embodiment of the positioning guide cylinder, the notch portion of the positioning guide cylinder defines a position that makes it impossible to press down at the highest rise position of the discharge nozzle, and the discharge nozzle can be pressed down and operated up and down. A notch groove for defining the discharge position to be discharged, and the notch portion of the positioning guide cylinder has a guide groove and a locking groove for guiding the discharge nozzle to a position for extracting the residual gas. The structure characterized by the above is added.
[0008]
As a specific embodiment of the separation mechanism, the connecting plate is deformed with the connecting portion with the support wall as an axis by pressing the outer cylinder, and is biased outward, so that the shoulder cover is removed from the aerosol can. In addition, as a specific embodiment for facilitating the separation of the discharge nozzles, a notch is provided on the side peripheral wall of the discharge nozzles, and pressing is performed to reduce the notch interval. Thus, a configuration is adopted in which the outer diameter of the side peripheral wall is reduced.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Next, the aerosol container of the present invention will be described with reference to the drawings.
In FIG. 1, A is a metal aerosol can, B is a shoulder cover attached to the shoulder of the aerosol can, C is a discharge nozzle, and both the shoulder cover B and the discharge nozzle C are formed of synthetic resin. Yes.
[0010]
The aerosol can A includes a can body 1 and a mounting cup 2 wound around an opening at the upper end of a shoulder portion 1 a of the can body 1.
The winding portion of the mounting cup 2 forms a mounting portion 3 of the shoulder cover B, and an aerosol valve housing is attached to the central portion of the mounting cup 2, and the stem 4 is attached to the housing. Is erected and protrudes from the center of the mounting cup 2.
[0011]
As shown in FIG. 2, the shoulder cover B includes an outer cylinder 10 that guides the discharge nozzle C, an annular support wall 11 that is placed on the mounting portion 3 of the mounting cup 2, a lower end of the outer cylinder 10, and a support wall 11. It has a pair of connecting plates 12 that connect the periphery.
[0012]
A protrusion 13 is provided at the upper end of the outer cylinder 10 so as to protrude inward from the inner peripheral edge, and the lower end of the outer cylinder 10 is joined to the lower end of the shoulder portion 1a of the aerosol can A.
The connecting plate 12 is formed from an inclined surface of the shoulder portion 1 a of the aerosol can A and an inclined portion 12 a and a vertical portion 12 b joined to the outer peripheral surface of the mounting portion 3, and the upper end of the vertical portion 12 b is connected to the support wall 11. A locking protrusion 14 that engages with the lower end of the outer periphery of the mounting portion 3 is provided below the vertical portion 12b.
A positioning guide cylinder 15 is provided on the upper surface of the support wall 11 to define the rotational position and vertical position of the discharge nozzle C, and a notch 16 is formed at a predetermined position.
[0013]
As shown in FIG. 3, the cutout portion 16 includes a cutout groove 17 that defines the discharge position of the discharge nozzle C having one vertical side 16 a as an edge, a step portion 18 that defines a lock position, and a step portion 18. And an inclined portion 19 that connects one lower portion of the notch groove 17, and bulging portions 20 a and 20 b are provided at both end edges of the step portion 18.
On the opposite side of the inclined portion 19, there are formed an inclined side 21 extending from the upper end of the step portion 18 and a guide groove 22 for guiding the discharge nozzle C having one vertical side 16 b of the cutout portion 16 as an edge to the degassing position. In the lower end of the vertical side 16b, a locking groove 24 having a bulging portion 23 provided on the upper edge is formed.
[0014]
As shown in FIG. 4, a slip stopper 25 is provided on the surface of the outer cylinder 10 by a plurality of strips extending in the lateral direction at a position corresponding to the connecting plate 12, and a notch groove 17, a step portion 18, and a guide groove 22. "Open", "Closed", and "Degas" indications 26a, 26b, and 26c are printed at the positions corresponding to.
[0015]
As shown in FIG. 5, the discharge nozzle C includes a top wall 31 having an engaging cylinder 30 suspended from the center, a side peripheral wall 32, a nozzle 33 that is connected to the engaging cylinder 30 and protrudes from the upper end of the side peripheral wall 32. It has.
A fitting hole 34 to be inserted into the stem 4 of the aerosol can A is provided at the lower end of the engaging cylinder 30, and a communication hole 35 continuous to the fitting hole 34 is drilled at the center of the engaging cylinder 30. Yes.
[0016]
A nozzle hole 36 communicating with the communication hole 35 is formed in the nozzle 33, and a positioning plate 37 is installed between the nozzle 33 and the engagement cylinder 30.
A locking protrusion 38 that engages with the locking groove 24 of the positioning guide cylinder 15 is provided at the lower end of the positioning plate 37, and the plate thickness including the locking protrusion 38 is loosely inserted into the notch groove 17. It is made thinner than the groove width.
[0017]
The outer peripheral surface of the side peripheral wall 32 is joined to the protrusion 13 at the upper end of the outer cylinder 10 of the shoulder cover B, and a bulging ring 39 that engages the lower side of the protrusion 13 is provided at the lower end of the side peripheral wall 32. It has been.
A notch 40 having a constant interval is engraved below the nozzle 33 on the side wall, and a notch may be engraved on the opposite side of the nozzle 33.
[0018]
Next, usage modes and effects of the aerosol container of the present invention will be described.
The aerosol container is filled with chemicals and cosmetics as a content liquid together with a propellant, the discharge nozzle C is pressed down, the stem 4 is pressed to open the aerosol valve, and the cream or foam liquid is discharged from the discharge nozzle. C is discharged.
[0019]
If the direction of the nozzle 33 of the discharge nozzle C is aligned with the “closed” display 26 b, the positioning plate 37 is positioned on the stepped portion 18, and the discharge nozzle C is prevented from being pushed down. It cannot be pushed down.
When discharging the contents, if the direction of the nozzle 33 is aligned with the “open” display 26 a, the positioning plate 37 matches the notch groove 17, and the discharge nozzle C can be pushed down. By lowering, the contents can be discharged from the nozzle hole 36.
[0020]
When the aerosol container is stored after the required amount of content has been discharged, if the nozzle 33 is set to the “closed” position, the discharge nozzle C is prevented from being pushed down and is locked.
[0021]
Thus, when the discharge of all the contents is completed and the aerosol container is discarded, the residual gas is first extracted.
The gas is extracted by aligning the nozzle 33 with the “degas” 26c and pressing down the discharge nozzle C. The alignment plate 37 is guided by the inclined side 21 and descends while rotating. When the nozzle 33 is rotated when reaching the position, the locking protrusion 38 engages with the locking groove 24 at the lower end of the guide groove 22, and even if the hand is released, the bulging portion 23 is held down and the engaged state is maintained. The
Therefore, the discharge nozzle C is maintained at the pressed position, and the residual gas is extracted.
[0022]
Next, when the direction of the nozzle 33 is restored, the locking protrusion 38 is separated from the locking groove 24, the discharge nozzle C is raised, and the bulging ring 39 at the lower end of the side peripheral wall 32 is the protrusion 13 of the outer cylinder 10. And is maintained in the raised position.
[0023]
Next, when the side peripheral wall 32 of the discharge nozzle C is pressed from both sides so that the interval between the cutouts 40 is narrowed, the outer diameter of the side peripheral wall 32 is reduced, and the bulging ring 39 of the side peripheral wall 32 is protruded from the outer cylinder 10. If the discharge nozzle C is pulled up more easily than the strip 13 and then the discharge nozzle C is pulled up, the discharge nozzle C can be easily removed.
[0024]
Next, when the portion of the non-slip 25 of the outer cylinder 10 is pressed inward, the lower end of the outer cylinder 10 and the connecting plate 12 are biased outward with the connecting portion between the connecting plate 12 and the support wall 11 as an axis. Then, the locking protrusion 14 is separated from the mounting portion 3 of the mounting cup 2 and the shoulder cover B can be removed from the aerosol can A.
Thus, after the residual gas is extracted from the used aerosol container, the metal can, the discharge nozzle C made of synthetic resin, and the shoulder cover B can be separated and discarded.
[0025]
In the said embodiment, although the aerosol container which attached the discharge nozzle was demonstrated, it changed to a discharge nozzle and you may make it spray a content liquid by attaching a spray nozzle.
[0026]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists the following effect.
Since the shoulder cover has a positioning guide cylinder that defines the rotational position of the discharge nozzle, the discharge nozzle can be rotated to a locked position and a discharge position where it can be pushed down. In addition, the discharge nozzle can be rotated to a position where gas can be removed, and residual gas can be extracted at the time of disposal.
[0027]
Since the cutout is provided in the side peripheral wall of the discharge nozzle to reduce the outer diameter, the discharge nozzle can be easily removed.
[0028]
Since the shoulder cover is provided with a pair of connecting plates connecting the support wall and the lower end of the outer cylinder to be attached to the aerosol can, it is connected by pressing the upper end of the outer cylinder corresponding to the connecting plate inward. Since the plate is biased outward and the locking protrusion of the connecting plate is separated from the mounting portion of the mounting cup, the shoulder cover can be easily removed.
[0029]
Therefore, when discarding, it has become possible to easily extract residual gas and separate and dispose of metal cans and plastic parts.
[Brief description of the drawings]
FIG. 1 is a cross-sectional front view of an aerosol container of the present invention.
2A and 2B are explanatory views of a shoulder cover, in which FIG. 2A is a top view, FIG. 2B is a sectional front view, and FIG. 2C is a bottom view.
FIG. 3 is a development view of a positioning guide tube.
FIG. 4 is a perspective view of an outer cylinder for explaining display.
5A and 5B are explanatory views of a discharge nozzle, in which FIG. 5A is a partially sectional front view, FIG. 5B is a bottom view, and FIG. 5C is a side view.
[Explanation of symbols]
A Aerosol B Shoulder cover C Discharge nozzle 1 Can body 1a Shoulder 2 Mounting cup 3 Mounting part 4 Stem 10 Outer cylinder 11 Support wall 12 Connecting plate 12a Inclined part 12b Vertical part 13 Projection 14 Locking protrusion 15 Positioning guide cylinder 16 Notched portion 16a, b Vertical side 17 Notched groove 18 Stepped portion 19 Inclined portion 20a, b Swelled portion 21 Sloped side 22 Guide groove 23 Swelled portion 24 Locking groove 25 Anti-slip 26a, b, c Display 30 Engagement cylinder 31 Top wall 32 Side peripheral wall 33 Nozzle 34 Fitting hole 35 Communication hole 36 Nozzle hole 37 Positioning plate 38 Locking protrusion 39 Swelling ring 40 Notch

Claims (5)

An aerosol container comprising an aerosol can, a discharge nozzle attached to the aerosol can, and a shoulder cover that is held on a shoulder portion of the aerosol can and guides the discharge nozzle,
A shoulder cover is provided with an outer cylinder for guiding the vertical movement of the discharge nozzle, and a support wall provided with a positioning guide cylinder provided with a notch for defining the rotational position of the discharge nozzle;
The support wall and the lower end of the outer cylinder are connected, and the shoulder cover is mounted and held on the shoulder of the aerosol can.
The discharge nozzle has a positioning plate;
The positioning plate is engaged with the positioning guide cylinder so as to be able to move up and down and rotate, and the discharge nozzle is positioned at a position where a specific operation can be performed by the engagement position of both. Aerosol container. The notch portion of the positioning guide cylinder includes a step portion that defines a position where the discharge nozzle cannot be pushed down at the highest position of the discharge nozzle, and a cutout groove that defines a discharge position that allows the discharge nozzle to be pushed down and operated up and down. The aerosol container according to claim 1. The aerosol container according to claim 1 or 2 , wherein the cutout portion of the positioning guide tube has a guide groove and a locking groove for guiding the discharge nozzle to a position for extracting residual gas. Connecting plate, by the pressing of the outer cylinder is biasing outwardly the connection of the support wall is deformed in the axial claim 1-3 in which the shoulder cover is characterized in that it has to be removed from the aerosol canister An aerosol container according to any one of the above. A switching chipping provided on the side wall of the discharge nozzle, is pressed so as to reduce the spacing of the notched, according to any one of claims 1 to 4, characterized in that so as to reduce the outer diameter of the side wall Aerosol container.

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