JPH0363435B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method and device for injecting aerosol contents using a pendulum motion, and the injecting operation of an aerosol device has conventionally been performed by pressing a push button or the like. Press the stem connected to the nozzle body with your fingers, or
The aerosol contents are sprayed by fixing an aerosol container to a wall and pulling the spray operating part of the aerosol container downward with a string.
There are devices in which a storage box for an aerosol container is fixed to a wall surface or the like, and the contents of the aerosol are sprayed by pressing the aerosol container. It is tiring to press the nozzle body with your fingers, and with the string-pulling method, if the string is pulled too hard, the aerosol container may separate from the wall and fall, causing unexpected injury, and the box-type is expensive. This has the disadvantage that the design of the aerosol container is covered. Further, in the above-described injection method, operations such as pressing and pulling must be continuously performed during injection of the aerosol contents, and the operator cannot leave the site. Although continuous injection mechanisms exist to eliminate this drawback, injection stopping operations must be performed manually and require a lot of effort.

The present invention eliminates the above-mentioned drawbacks, and provides a stem of an aerosol container that injects the contents by tilting or pressing the pendulum motion force of a pendulum body having a weight portion toward one end in the axial direction. The present invention relates to a method for injecting aerosol contents, which is characterized by transmitting the information to the user and injecting the aerosol contents from a nozzle, and an apparatus for carrying out this method includes: a pendulum body having a weight portion formed in one end direction; It consists of an aerosol container stem that is tilted or pressed in the axial direction and sprays the aerosol content by the transmission of the pendulum motion force of the pendulum body, and a nozzle body that is connected to this stem and sprays the aerosol content. . By pendulating the pendulum body, intermittent injection can be performed multiple times, and safe injection operation can be performed without requiring any trouble.

An embodiment of the present invention will be described below with reference to the drawings. Reference numeral 1 denotes an aerosol container, and an eyelet 4 is fixed to the upper end of a body 2 via a seaming part 3. A stem 6 protrudes from the center of the mounted mounting cup 5. This stem 6 is connected to the valve mechanism of the aerosol container 1, and is configured so that when pressed in a direction inclined with respect to the axial direction, the valve mechanism can be opened and the aerosol contents can be injected. A nozzle body 10 having a material ejection path 7 and having a nozzle 8 at one end is connected and fixed to the outer end, and a pressing roller 12 rotatable around a rotation shaft 11 is attached to the side surface of the nozzle body 10. It stands out. The aerosol container 1 formed in this way is fixed to the target part 14 via the fixing body 13 fixed to the tightening part 3, and this fixing body 13 forms an opening 15 through which the nozzle body 10 is inserted and can be rotated. A fixed shaft 16 is freely inserted through the fixed shaft 16, and the upper end of a pendulum body 18 is fixed to the outer end of the fixed shaft 16, and the lower end thereof is a weight portion 17, and the pendulum body 18 is located in the vertical direction of the side surface of the aerosol container 1. The weight part 17 does not necessarily need to be fixed separately from the pendulum body 18, and the pendulum body 18 itself may have the weight necessary for pendulum movement. Also, the nozzle body 1 of the fixed shaft 16
On the 0 side, a pressing body 20 is fixed in parallel with the pendulum body 18, and a pendulum movement locus of the position where the pressing roller 12 of the nozzle body 10 is pressed and moved is shown on this pressing body 20 as the pendulum body 18 oscillates. On the top, an arc-shaped pressing part 21
With the pendulum movement of the pendulum body 18, the stem 6 is pressed laterally with respect to the axial direction, and the contents can be injected.

Further, in the above embodiment, the aerosol contents are injected by pressing and tilting the stem 6 laterally with respect to the axial direction, but in other different embodiments, the stem 6 A mechanism that opens the valve by pressing in the axial direction may be used. In this case, the nozzle 8 is formed on the side surface of the nozzle body 10, the pressing roller 12 is formed on the upper end of the nozzle body 10, The pressing part 21 that comes into contact with this pressing roller 12 is
It is constructed by forming it on the lower surface of the fixed body 13 located perpendicularly to the nozzle body 10.

In the above embodiment, the stem 6 is pressed by pressing the pressing roller 12 of the nozzle body 10 with the arc-shaped pressing part 21, so that the content can be jetted. Figures 4 and 5
As shown in the figure, a fixed body 13 fixed to a fixed shaft 16
The pressing protrusion 2 is inserted through the insertion interval of the nozzle body 10.
2 and 23 protrude opposite each other, and as the pendulum body 18 moves, the nozzle body 10 is pressed from the side surface in the axial direction, and the aerosol contents are injected. In this embodiment, the aerosol container 1 is placed above the pendulum body 18 in an inverted state, but the aerosol container 1 may be placed below.

Further, in the embodiment described above, the pendulum body 18 makes pendulum motion using the fixed shaft 16 as a fulcrum, but in other different embodiments, the pendulum body 18 is formed using a plate spring, a coil spring, etc. Heavy object 1 with characters etc. displayed on the upper end as shown in Fig. 7
7 is fixed to the upper end of a pendulum body 18 made of a spring, and the lower end of the pendulum body 18 is formed with a push button.
0, and if the pendulum body 18 is made to swing from side to side in the drawing, the pendulum movement will continue for a certain period of time due to the action of this spring, and the pendulum motion force will be transmitted to the stem 6 via the nozzle body 10. The stem 6 is tilted to inject the aerosol contents from the nozzle 8. In addition, in order to prevent the pendulum body 18 made of a spring from making an inadvertent pendulum movement, a holder 25 that inserts and holds the outer periphery of the pendulum body 18 into a holding recess 24 is attached to a fixed frame 26 fixed to the aerosol container 1 with a support shaft. 27,
The pendulum body 18 is rotatably fixed at 28, and the holding of the pendulum body 18 by the holding body 25 is released during pendulum movement.

Further, in another different embodiment, the pendulum body 18 made of a spring is not fixed to a push button, but its lower end is fixed to a fixed frame 26 as shown in FIGS. 8 and 9, and the nozzle body is formed by a push button. By locating the receiving protrusions 30 and 31 fixedly protruding from the back surface of the pendulum body 18 on both sides of the pendulum body 18, the pendulum motion force of the pendulum body 18 is transferred to the stem via the receiving protrusions 30 and 31 and the nozzle body 10. 6, and the aerosol contents are injected from the nozzle 8.

Since the present invention is constructed as described above,
By pressing the pendulum body laterally and releasing this pressure, the pendulum body makes multiple pendulum movements, and along with this pendulum movement, the aerosol contents are sprayed multiple times, causing the nozzle body to spray. There is no need for continuous pressure with the metacarpal finger, so there is no fatigue involved, and there is no risk of the aerosol container falling off the wall like with the string-pulling method, and it is expensive like the book type. The design of the aerosol container will not be covered. Furthermore, in order to spray the aerosol contents, if the pendulum is pushed to the side once as described above, the pendulum motion will cause multiple sprays and then stop the spray, so the operator can leave the spraying site. This means that the injection operation does not require any effort. In addition, the generation of pendulum motion does not necessarily have to be done directly by hand; instead, a pendulum body is connected to a sliding door, etc., and the pendulum body generates pendulum motion due to the inertia that accompanies opening and closing, and the injection work is automatically performed. This is advantageous, for example, when the aerosol content is used as a deodorizer and is installed in the sliding door of a toilet. In addition, since the aerosol contents are injected with a pendulum movement,
This enables a wider range of injection compared to those that inject in a stationary state.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, and FIG. 1 is a front view, FIG. 2 is a sectional view taken along line A-A in FIG. 1, and FIG.
The figure is an enlarged sectional view taken along the line B-B of Fig. 2, Fig. 4 is a sectional view showing a different embodiment, Fig. 5 is a right side view of Fig. 4, and Fig. 6 is a sectional view showing another different embodiment. 7 is a sectional view taken along the line CC in FIG. 6, FIG. 8 is a sectional view showing a further different embodiment, and FIG. 9 is a sectional view taken along the line D--
It is a sectional view taken along the D line. 1...Aerosol container, 6...Stem, 8...
Nozzle, 10... Nozzle body, 13... Fixed body, 2
DESCRIPTION OF SYMBOLS 1... Pressing part, 17... Weight part, 18... Pendulum body, 22, 23... Pressing protrusion, 30, 31... Receiving protrusion part.

Claims (1)

[Claims] 1. A pendulum motion force of a pendulum body having a weight portion formed in one end direction is transmitted to the stem of an aerosol container that injects the contents by tilting or pressing it in the axial direction, and the aerosol contents are A method for spraying aerosol contents, the method comprising spraying the contents from a nozzle. 2 The pendulum motion force of the pendulum body is transmitted to the stem by forming an arc-shaped pressing portion on the pendulum motion locus at the position where the nozzle body fixed to the stem is pressed and moved as the pendulum body oscillates. 2. The method of injecting aerosol contents according to claim 1, characterized in that the method is carried out by pressing the pressing part against the nozzle body in accordance with the pendulum movement of the pendulum body, and transmitting the pressing force to the stem. 3 The pendulum motion force of the pendulum body is transmitted to the stem by pressing the nozzle body fixed to the stem from the axial side by a pressing protrusion protruding from the fixed body that moves pendulumly in conjunction with the pendulum motion of the pendulum body. The method of injecting aerosol contents according to claim 1, characterized in that the pressing force is transmitted to the stem via the nozzle body. 4 To transmit the pendulum motion force of the pendulum body to the stem, the pendulum body is formed of a spring material and fixed to a push button fixed to the stem, and the pendulum motion force of the pendulum body made of spring material is transmitted to the stem via the nozzle body. 2. The method of injecting aerosol contents according to claim 1, characterized in that the method is carried out by transmitting an aerosol to an aerosol. 5 The pendulum motion force of the pendulum body is transmitted to the stem by forming the pendulum body from a spring material, and by using a receiving protrusion protruding from a nozzle body fixed to the stem, in accordance with the pendulum motion of the pendulum body made of a spring material. 2. The method of injecting aerosol contents according to claim 1, wherein the pressing force is transmitted to the stem via the nozzle body by pressing. 6 A pendulum body with a weight portion formed in one end direction, a stem of an aerosol container that is tilted or pressed in the axial direction and injects the aerosol contents by transmission of the pendulum motion force of this pendulum body, and a stem connected to this stem. 1. An aerosol content injection device comprising: a nozzle body for spraying an aerosol content. 7 The pendulum motion force of the pendulum body is transmitted to the stem by forming an arc-shaped pressing portion on the pendulum motion locus at a position where the nozzle body fixed to the stem is pressed and moved in accordance with the pendulum motion of the pendulum body. 7. The aerosol content injection device according to claim 6, wherein the pressing part is pressed against the nozzle body in accordance with the pendulum movement of the pendulum body, and the pressing force is transmitted to the stem. 8 The pendulum motion force of the pendulum body is transmitted to the stem by pressing the nozzle body fixed to the stem from the side surface in the axial direction by a pressing protrusion protruding from the fixed body that moves pendulumly in conjunction with the pendulum motion of the pendulum body. 7. The aerosol content injection device according to claim 6, wherein the pressing force is transmitted to the stem via the nozzle body. 9 The pendulum motion force of the pendulum body is transmitted to the stem by forming the pendulum body from a spring material and fixing it to a nozzle body fixed to the stem, and transmitting the pendulum motion force of the pendulum body made of the spring material to the stem via the nozzle body. 7. The aerosol content injection device according to claim 6, wherein the aerosol contents are injected by transmitting the information to the aerosol. 10 The transmission of the pendulum motion force of the pendulum body to the stem is
The pendulum body is made of a spring material, and a receiving protrusion protruding from a nozzle body fixed to the stem is pressed with the pendulum movement of the pendulum body made of a spring material, thereby applying a pressing force to the stem via the nozzle body. 7. The aerosol content injection device according to claim 6, characterized in that the aerosol content injection device transmits the following information.