Fixing plate for aerosol container

Abstract

To provide a fixing plate for an aerosol container that allows positioning thereof, fittable to a mounting cup, applicable to aerosol containers without changes in shape, and fittable to the mounting cup without displacing out of position relative to the mounting cup. The fixing plate (100) for an aerosol container is mounted to a mounting cup (310) having two stems (320) protruding therefrom and is used for positioning of an exterior component. The fixing plate is formed in a cylindrical shape fittable to the mounting cup (310), includes, on an inner circumferential side thereof, container positioning unit and container lock unit for positioning and retaining and fitting of the fixing plate (100) and the mounting cup (310), and includes, on an outer circumferential side thereof, exterior component positioning unit and exterior component lock unit for positioning and retaining and fitting of the fixing plate (100) and the exterior component (200).

Claims

1. A fixing plate for an aerosol container that is mounted to a mounting cup having an irregular-shaped upper step with two stems protruding therefrom and a cylindrical middle step, and is used for positioning of an exterior component, wherein the fixing plate is formed in a cylindrical shape fittable to the mounting cup, the fixing plate includes, on an inner circumferential side thereof, container positioning unit for engaging with a side surface of the upper step and determining a fitting position, and container lock unit for engaging with a portion below the cylindrical middle step to retain the fixing plate to the mounting cup, and the fixing plate includes, on an outer circumferential side thereof, exterior component positioning unit for engaging with an exterior component and determining a fitting position, and exterior component lock unit formed by a constricted portion for locking the exterior component.

2. The fixing plate for an aerosol container according to claim 1, wherein the fixing plate include, in an upper part on the inner circumferential side, a positioning wall in a shape conforming to a side surface of the upper step.

3. The fixing plate for an aerosol container according to claim 1, wherein the container lock unit includes a middle concave portion below the cylindrical middle step, and a retaining convex portion that is provided in a lower part on the inner circumferential side of the fixing plate and engages with the middle concave portion.

4. The fixing plate for an aerosol container according to claim 1, wherein the exterior component positioning unit is formed by a convex rib provided on the outer circumferential side of the fixing plate and extending vertically.

5. The fixing plate for an aerosol container according to claim 1, wherein the exterior component lock unit includes a plurality of fitting constricted portions for retaining and holding the exterior component at a fitting position.

6. The fixing plate for an aerosol container according to claim 1, wherein the fixing plate has an outermost diameter smaller than a maximum diameter of the mounting cup.

7. An aerosol product in which the fixing plate for an aerosol container according to claim 1 is mounted to a mounting cup, wherein an exterior component engages with the fixing plate and fits with a portion below the mounting cup.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a perspective view of a fixing plate 100, an actuator 200, and an aerosol container 300, showing them separately and altogether when fitted to each other.

(2) FIG. 2 shows a top view, a bottom view, and an A-A cross-sectional view of the fixing plate 100.

(3) FIG. 3 shows a top view, a bottom view, and a B-B cross-sectional view of the actuator 200.

(4) FIG. 4 shows a top view, a C-C cross-sectional view, and a D-D cross-sectional view of the aerosol container 300.

(5) FIG. 5 shows a perspective view and a top view of the aerosol container 300 with the fixing plate 100 and actuator 200 fitted thereto, and a top view without an actuator operation part 210.

(6) FIG. 6 shows an E-E cross-sectional view of a fitting step (step 1) of the fixing plate 100, and a temporary fitting step (step 2) of the actuator 200.

(7) FIG. 7 shows an E-E cross-sectional view and an F-F cross-sectional view of a final fitting step (step 3) of the actuator 200.

(8) FIG. 8 shows an E-E cross-sectional view and an F-F cross-sectional view when fitting is complete.

REFERENCE SIGNS LIST

(9) 100 Fixing plate

(10) 110 Cylindrical main body

(11) 111 Positioning wall

(12) 112 Retaining convex portion

(13) 113 Anti-rotation rib

(14) 114 First constricted portion

(15) 115 Second constricted portion

(16) 200 Actuator

(17) 210 Actuator operation part

(18) 211 Stem fitting part

(19) 212 Ejection passage

(20) 213 Center post

(21) 214 Ejection port

(22) 215 Pressing part

(23) 220 Actuator fitting part

(24) 221 Cover

(25) 222 Hinge part

(26) 223 Fitting convex portion for connection with container

(27) 224 Engaging wall

(28) 225 Slit

(29) 226 Fitting convex portion for connection with fixing plate

(30) 300 Aerosol container

(31) 310 Mounting cup

(32) 311 Upper step top surface

(33) 312 Upper step side surface

(34) 313 Middle step top surface

(35) 314 Middle step side surface

(36) 315 Middle step constricted portion

(37) 316 Lower step top surface

(38) 317 Lower step side surface

(39) 318 Lower step constricted portion

(40) 320 Stem

(41) 330 Aerosol can

(42) 331 Shoulder part

(43) 332 Body part

DESCRIPTION OF EMBODIMENT

(44) Hereinafter, a fixing plate 100 according to one embodiment of the present invention will be described with reference to the drawings.

(45) The fixing plate 100 is mounted to a mounting cup 310 fitted on an aerosol can 330, and engaged with an exterior component such as an actuator 200. As shown in FIG. 1 and FIG. 2, the fixing plate includes a cylindrical main body 110. A positioning wall 111 is provided in an upper part on an inner circumferential surface of the cylindrical main body 110 such as to protrude inward of the cylindrical main body 110 and extending upwards. Retaining convex portions 112 protruding in a circular arc shape are provided in a lower part on the inner circumferential surface of the cylindrical main body 110.

(46) A pair of anti-rotation ribs 113 extend vertically in a convex form on an outer circumferential surface of the cylindrical main body 110. A first constricted portion 114 and a second constricted portion 115 are formed on the outer circumferential surface of the cylindrical main body 110 such as to extend circumferentially except for the parts where the anti-rotation ribs 113 are provided.

(47) The actuator 200 coupled to the fixing plate 100 is formed by an actuator operation part 210 and an actuator fitting part 220 as shown in FIG. 1 and FIG. 3. The actuator operation part 210 includes a stem fitting part 211, an ejection passage 212, a center post 213, an ejection port 214, and a pressing part 215.

(48) The actuator fitting part 220 has a cover 221 that forms an outer side surface of the actuator 200, and an engaging wall 224 formed inside of the cover 221. A hinge part 222 that connects the actuator operation part 210 and the actuator fitting part 220 is provided in an upper part of the cover 221. An arcuately protruding fitting convex portion 223 for connection with the container is formed in a lower part on an inner circumferential surface of the cover 221.

(49) Vertically long, downwardly open slits 225 are provided in the engaging wall 224. A fitting convex portion 226 for connection with the fixing plate is formed to protrude in a circular arc shape from an inner circumferential surface of the engaging wall 224 except for the parts where the slits 225 are formed.

(50) The aerosol container 300 is arranged such that the mounting cup 310 is fitted on an upper part of the aerosol can 330, with two stems 320 protruding from the upper part of the mounting cup 310, as shown in FIG. 1 and FIG. 4.

(51) The mounting cup 310 has an upper step top surface 311 formed in an oval shape. An upper step side surface 312 extends down from the periphery of the upper step top surface 311 and connects to a middle step top surface 313.

(52) The middle step top surface 313 has a disc shape with a larger outer diameter than that of the upper step top surface 311. A middle step side surface 314 extends down from the periphery of the middle step top surface 313 and connects to a lower step top surface 316. A middle step constricted portion 315 is formed below the middle step side surface 314.

(53) The lower step top surface 316 has a disc shape with a larger outer diameter than that of the middle step top surface 313. A lower step side surface 317 extends down from the periphery of the lower step top surface 316 in conformity to and in tight contact with a shoulder part 331 of the aerosol can 330. A lower step constricted portion 318 is formed below the lower step side surface 317.

(54) The shoulder part 331 is formed in a truncated conical shape so that its diameter increases downwards, and its lower end connects to a body part 332. The body part 332 is formed cylindrical and connected to a can bottom (not shown).

(55) Next, the process steps of positioning and fitting the fixing plate 100 of this embodiment to the mounting cup 310 and of positioning and fitting the actuator 200 to the aerosol container 300 will be described with reference to FIG. 5 to FIG. 8. Note, only parts above the upper part of the body part 332 of the aerosol container 300 are shown.

(56) First, the process of fitting the fixing plate 100 to the mounting cup 310 will be described. As shown in step 1, the fixing plate 100 is set above the aerosol container 300. The positioning wall 111 of the fixing plate 100 is oriented the same as the upper step side surface 312 of the mounting cup 310, and the fixing plate 100 is pressed onto the mounting cup 310. Since the positioning wall 111 is formed in conformity to the upper step side surface 312, the orientation of the fixing plate 100 is adjusted as it is fitted to the mounting cup 310 so that slight mismatches, if any, in the positions of the fixing plate 100 and mounting cup 310 are corrected. As the fixing plate 100 is pushed further, the retaining convex portions 112 fit into the middle step constricted portion 315, so that the fixing plate 100 can be maintained in the fitting state where it is retained to the mounting cup 310.

(57) Next, as shown in step 2 in FIG. 6, the actuator 200 is set above the aerosol container 300 with the fixing plate 100 fitted thereon, and the slits 225 of the actuator 200 are aligned with the anti-rotation ribs 113 of the fixing plate 100. After that, the actuator 200 is placed on the fixing plate, and pressed, while being adjusted to a position where the anti-rotation ribs 113 fit into the slits 225. The actuator 200 is pressed as far as to the position where the fitting convex portion 226 for connection with the fixing plate fits in the first constricted portion 114. This fitting state between the fixing plate 100 and the actuator 200 at this position shall be referred to as temporary fitting state.

(58) In the temporary fitting state, as shown in FIG. 7, the fitting convex portion 226 for connection with the fixing plate fits in the first constricted portion 114, while the fitting convex portion 223 for connection with the container abuts on an upper part of the lower step side surface 317, so that the actuator 200 is prevented from coming off of the aerosol container 300 or displaced out of position during the assembly or transfer operation on a conveyor.

(59) The positional relationship between the stem fitting part 211 and the stems 320 is adjusted in the temporary fitting state, so that the stem fitting part 211 and the stems 320 can be reliably fitted to each other without the risk of an edge of the stem fitting part 211 pushing the stems 320 further when the actuator 200 is pressed further.

(60) After the positional relationship between various parts has been checked in the temporary fitting state, the actuator 200 is pushed down, which causes the fitting convex portion 226 for connection with the fixing plate to go over the first constricted portion 114 and to fit into the second constricted portion 115, and causes the fitting convex portion 223 for connection with the container to go over the lower step side surface 317 and to fit into the lower step constricted portion 318 as shown in FIG. 8, whereupon the fitting operation is complete.

(61) At this time, the fixing plate 100 and actuator 200 are not in contact with the shoulder part 331 and body part 332 of the aerosol can 330. Thus the same fixing plate 100 or actuator 200 can be used irrespective of the shoulder shape or can body diameter of the aerosol can 330.

(62) The fixing plate is also applicable to actuators 200 having a shape that fits only with the fixing plate 100, and thus actuators 200 smaller than the maximum diameter of the mounting cup 310 can also be used.

(63) While one embodiment of the present invention has been described in detail, the present invention is not limited to the above-described embodiment and may be carried out with various design changes without departing from the scope of the present invention set forth in the claims.

(64) While the actuator is fitted to the fixing plate in the embodiment described above, the component fitted to the fixing plate is not limited to this. For example, the cover that covers the periphery of the mounting cup, or a cap that covers the shoulder part and above of the aerosol container, may be fitted to the fixing plate.

(65) While the cylindrical main body is provided with a first constricted portion and a second constricted portion on the outer circumferential surface in the embodiment described above, the number of constricted portions is not limited to two. For example, the entire outer circumferential surface below the upper part of the cylindrical main body may be radially set back, or three constricted portions may be provided.

(66) While positioning is achieved by two slits of the actuator and two anti-rotation ribs of the fixing plate fitting to each other in the embodiment described above, the number and the shape of the slits and anti-rotation ribs are not limited to these. For example, three or more slits and anti-rotation ribs may be provided, or, the actuator may be provided with anti-rotation ribs, and the fixing plate may be provided with concave portions, and they may be fitted to each other.

(67) While the retaining convex portion of the fixing plate fits in the middle step constricted portion to lock the fixing plate to the mounting cup in the embodiment described above, the method of locking the fixing plate is not limited to this. For example, the cylindrical main body may be press-fit to the middle step side surface of the mounting cup.

(68) While the cylindrical main body is formed cylindrical in the embodiment described above, the shape of the cylindrical main body is not limited to this. For example, the cylindrical main body may be provided with downwardly open slits, or may be formed in a square tubular shape.

(69) While the positioning wall is formed as high as the upper end of the cylindrical main body in the embodiment described above, the shape of the positioning wall is not limited to this. For example, the positioning wall may be formed higher than the upper end of the cylindrical main body, or may be formed to cover the mounting cup from the side surface to the upper top surface.