JPH0248053Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to an aerosol injection device, which allows for easy adjustment of the amount of aerosol content to be ejected per unit time while visually confirming the amount of the aerosol content. This makes it possible to eject objects while satisfying the visual sense of taste.

BACKGROUND TECHNOLOGY Conventionally, injectors for injecting the aerosol contents in an aerosol container have been used, such as by pressing a push button fixed to the stem in the axial direction, or manually pushing the tilt-actuating stem that constitutes the tilt-actuating valve in the tilting direction. There are various methods such as direct pressing, covering the aerosol container with a casing and pressing the casing in the direction of opening the valve, and various other methods. It is difficult to confirm visually, and it is also difficult to spray the aerosol contents while satisfying the visual hobby.

Problems to be Solved by the Invention The present invention eliminates the above-mentioned drawbacks, makes it possible to easily adjust the injection amount of the aerosol contents per unit time while visually confirming the injection amount, and allows the injection of the aerosol contents to be controlled visually. The aim is to make it possible to do this while satisfying one's hobby.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention connects a nozzle body with a pressing collar protruding to a tilting stem constituting a tilting valve of an aerosol container. A pressing cam is formed at one end of the rotating shaft, and is positioned facing the pressing collar and presses the pressing collar during rotation to cause the tilting operation stem to tilt, thereby injecting the aerosol contents;
This rotating shaft is rotatably fixed to the cap of the aerosol container, and an actuating body for rotating the rotating shaft is formed in the axial direction of the side surface of the aerosol container.

Operation In the structure as described above, when the actuating body is moved to the side with the aerosol container fixed by hand or other means, it is rotatably fixed to the cap of the aerosol container. Since the press cam is rotated via the rotation shaft, the press cam positioned facing the press flange presses the press flange during rotation and tilts the tilting operation stem to inject the aerosol contents. It is something that can be activated.

Embodiment An embodiment of the present invention will be described below with reference to the drawings. Reference numeral 1 denotes an aerosol container, and a eyelet 4 is fixed to the upper end of a body 2 via a seaming part 3. From the center of the mounting cup 5 fixed on the
By protruding the tilting stem 6 constituting the tilting valve and pressing the tilting stem 6 in a direction inclined with respect to the axial direction, the aerosol contents can be injected. This tilt operating stem 6
A nozzle body 10 is connected to the nozzle body 10 having a pressure flange 7 projected in an annular shape on the outer periphery and having a nozzle hole 8, and a pressure cam 11 is positioned facing the pressure flange 7 of the nozzle body 10. This pressing cam 11 is fixed to one end of a rotating shaft 13 which is rotatably fixed to the cap 12 of the aerosol container 1, and is not in contact with the pressing collar 7 at all times.
The contact is such that no pressing force is applied, and when the rotating shaft 13 is rotated, the pressing collar 7 is pressed and the tilting operation stem 6 is operated to tilt, thereby injecting the aerosol contents. Further, the rotation of the rotation shaft 13 for this injection operation is achieved by bending one end of the rotation shaft 13 into an L-shape, and moving the actuating body 14 located in the axial direction of the side surface of the aerosol container 1 as shown in FIG. This is done by rotating left and right as shown. If this actuating body 14 is formed as long as possible without reaching the lower end of the aerosol container 1, the pressing cam 11 can easily press the pressing collar 7 with less force due to the lever principle, and the actuating body Since the moving distance of the tip 14 is large, the amount of pressure the pressing flange 7 is pressed by the pressing cam 11, that is, the size of the inclination angle of the tilting operation stem 6, can be easily confirmed visually from the outside. The larger the inclination angle of the operating stem 6, the more the valve is opened and the amount of aerosol content injected per unit time becomes larger, so the approximate amount of injection per unit time can be confirmed visually. Also, this operating body 14
A display plate 15 of an appropriate shape is fixed to the tip, and an appropriate character, design, etc. are applied thereto.
Also, on the back side of the cap 12, there is a pressure sensitive adhesive layer 1.
A fastening body 18, which is covered with release paper and provided on the outer surface and has a stopper hole 17, is fixed via the one-touch fixing part 20, and the aerosol container 1 can be easily fixed to the wall surface, etc. It is formed so that

Effects of the invention Since the invention is constructed as described above,
The amount of aerosol content to be injected per unit time can be easily adjusted while visually checking the amount of movement of the actuating body, and the pressing cam can easily press the pressing collar with less force using the lever principle. can. In addition, the aerosol contents are sprayed using an unprecedented method in which the actuating body formed in the axial direction of the side surface of the aerosol container is moved in the left-right direction. This can be done while doing so.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention,
FIG. 1 is a sectional view, FIG. 2 is a sectional view taken along the line A--A in FIG. 1, and FIG. 3 is a left side view of FIG. 1... Aerosol container, 7... Pressing collar, 6...
Inclination operation stem, 10... Nozzle body, 11... Pressing cam, 12... Cap, 13... Rotating shaft, 1
4... Working body.

Claims (1)

[Scope of utility model registration request] A nozzle body with a protruding pressing collar is connected to the tilting stem of the tilting valve of the aerosol container, and the nozzle body is positioned facing the pressing collar of the nozzle body, and when rotated, the pressing collar is pressed to form the tilting stem. A pressing cam is formed at one end of the rotating shaft, and the rotating shaft is rotatably fixed to the cap of the aerosol container, and the rotating shaft is rotated. An aerosol injection device characterized in that its body is positioned in the axial direction of the side surface of an aerosol container.