JPH031035Y2 - - Google Patents

Description

[Detailed description of the invention] <Industrial field of application> The present invention is a balloon vent tube that is inserted into the blow-in port of a rubber balloon for play, etc., and which makes it easy to blow air into the balloon. Regarding improvements.

<Prior Art> A hollow cylindrical member has generally been widely used as a conventional ventilator of this type. One end of this cylindrical member is inserted into the balloon's blow-in port, and the other end is contained in the user's mouth, and the user can easily blow air into the balloon through this ventilation tube. done. However, when the balloon is inflated by the user's exhalation, the user has to take out the end of the cylindrical member from the mouth and cover it with a finger or the like when inhaling. Therefore, there is a problem in that the air accumulated inside the balloon escapes until the end of the cylindrical member is closed by the user's fingers or the like.

Furthermore, when enough air has accumulated inside the balloon,
The balloon's inlet was tied to prevent the air inside the balloon from escaping. However, there is a risk of the air inside the balloon escaping when the nozzle is closed, or once the nozzle is closed, the air inside the balloon cannot be easily removed. It was difficult to adjust.

<Problems to be Solved by the Invention> Therefore, an object of the present invention is to provide a ventilation tube that does not cause the risk of the air inside the balloon escaping between the user's exhalation and inhalation.

Furthermore, the present invention aims to provide a ventilation tube that can freely release an appropriate amount of air accumulated inside the balloon.

<Means for Solving the Problems> Accordingly, the present invention provides a balloon ventilation pipe in which a rubber balloon inlet is attached to one end and gas to inflate the rubber balloon is supplied from the other end. The cylinder consists of an outer cylindrical body 1 and a valve rod 2 arranged inside the outer cylindrical body 1. The outer cylindrical body 1 has a valve lever support part 3 on the rubber balloon mounting side and a valve seat part 5 on the gas supply port side. However, a telescopic cylinder portion 4 is further formed between the valve rod support portion 3 and the valve seat portion 5, and one end side of the valve rod 2 having an internal ventilation passage is fixed to the valve rod support portion 3. , the other end side is arranged to maintain a distance from the inner wall of the telescoping cylinder part 4 which is in an expanded state, and the air passage in the valve seat part 5 is opened by the valve rod 2 in response to the expansion and contraction of the telescoping cylinder part 4. This invention provides a ventilator for balloons which is characterized in that it is closed.

<Operation> Accordingly, in the present invention, by contracting and expanding the telescoping cylinder portion, the valve rod can be slid relative to each other, and the valve rod and the valve seat portion can be fitted into and separated from each other. As a result, the ventilation path of the ventilation cylinder is closed and opened.

<Example> Hereinafter, an example of the present invention will be described based on the drawings. As shown in FIG. 1, and a valve rod 2 made of non-flexible plastic that is inserted into the outer cylinder 1 and slides relatively within the outer cylinder 1.

This outer cylindrical body is made up of a cylindrical valve seat portion 5 with an open center, an extendable cylindrical portion 4, and a valve lever support portion 3 which are arranged in series from the bottom to the top. A flange 6 is annularly protruded from the upper outer periphery of the valve rod support part 3, and the flange 6 is useful for inserting and locking the inlet B of the balloon A.

As shown in FIG. 2, the valve rod 2 has a bottomed cylindrical shape and has a hollow portion 7 with an open upper end. A locking flange 8 is projected from the upper part of the valve rod 2, and the locking flange 8 is engaged and fixed within the flange 6 of the outer cylinder body 1. The lower part of the valve body 2 has a horizontal hole 9 that reaches the bottom of the hollow part 7 from the outer surface.
is open. The shape, size, number, etc. of the horizontal holes 9 can be determined freely. However, excuse 2
The upper end and the side surface are communicated with each other through a guide hole consisting of a hollow part 7 and a horizontal hole 9, and a ventilation path is formed from the upper end of the ventilation cylinder and the telescopic cylindrical part 4 to the valve seat part 5.

The telescopic tube portion 4 is made of a bellows having elasticity, and the inner diameter of the bellows is larger than the outer diameter of the lower portion of the valve body 2. When the bellows, which is the telescopic cylinder part 4, is extended, the lower part of the valve body 2 is connected to the telescopic cylinder part 4.
It is placed within the telescopic tube portion 4 without contacting the inner wall of the tube.

The valve seat portion 5 includes a main body portion 10 and a main body portion 10.
It consists of a leg portion 11 extending downwardly. The outer diameter of the main body part 10 gradually decreases as it goes downward, and the inner diameter of the upper part of the main body part 10 is approximately equal to the outer diameter of the lower part of the valve rod 2. It is slightly smaller than the outer diameter of the lower part of body 2. Therefore, as shown in FIG.
When the barrel bellows is retracted, the lower part of the valve stem 2, especially the bottom side, fits tightly into the body part 10. Incidentally, the larger the difference between the length l1 when the bellows is expanded and contracted and the length l2 when it is contracted, the larger the fitting area between the lower part of the valve rod 2 and the main body part 10 of the valve seat part 5 should be. I can do it. Therefore, the length of the bellows, the number of ridges, etc. can be changed as necessary. Furthermore, if the outer cylinder body 1 is made of flexible plastic, the fitting between the valve rod 2 and the main body portion 10 of the valve seat portion 5 will be more complete.

The leg portion 11 provides the balloon vent with a suitable length to be placed in the user's mouth, and has a whistle portion 12 at the lower end of the leg portion 11. The flute part 1
2 is a cylinder of the leg portion 11 with a reduced inner diameter, and the reed 13 is inserted into the cylinder by fixing the lower end, and generates sound when air passes from above to below.

FIGS. 4 and 5 illustrate another embodiment, in which parts similar to those in the first embodiment are given the same reference numerals, and detailed explanation thereof will be omitted. In this embodiment, a valve body loose portion 14 is formed between the telescopic cylinder portion 4 and the valve seat portion 5. The telescopic cylinder part 4 is
When expanded, the cross section is curved and bulged into a substantially doglegged shape, and when contracted, it is double-folded. Then, the valve body free passage portion 14
A horizontal hole 9 of the valve rod 2 is located inside.

As shown in FIGS. 3 and 5, in the balloon ventilation tube of each of the above embodiments, when the telescopic tube section 4 is contracted, the valve rod 2 fits into the valve seat section 5. By doing so, the ventilation path connecting the upper and lower ends of the ventilation cylinder is blocked. As shown in FIGS. 1 and 4, as the telescopic tube portion 4 expands, the valve rod 2 slides relatively within the telescopic tube portion 4, and the valve rod 2 and the valve seat portion 5 is released. As a result, the ventilation path of the ventilation cylinder is opened and air can be conducted.

<Effects> As mentioned above, in the balloon ventilation tube of the present invention, the ventilation path can be freely opened and closed by expanding and contracting the telescopic tube portion.

Therefore, when the user inflates the balloon, by contracting the telescopic tube between exhalation and inhalation,
The air passage can be closed to prevent the air inside the balloon from escaping. Also, after the balloon has enough air, if you deflate the telescopic tube,
Although there is no risk of air escaping, it is possible to easily evacuate an appropriate amount of the air accumulated inside the balloon by expanding the telescoping tube.

Therefore, the present invention aims to improve the efficiency of blowing air into rubber balloons, which is particularly difficult for young children.
To provide a ventilation cylinder for a balloon which allows the amount of air inside the balloon to be easily adjusted.

[Brief explanation of the drawing]

The figures show an embodiment of the present invention. Figure 1 is a partially cutaway front view of the vent pipe, Figure 2 is a perspective view of the valve rod 2, and Figure 3 is the telescopic cylinder of the vent pipe in Figure 1. FIG. 4 is a partially cutaway front view of the ventilation cylinder of another embodiment, and FIG. 5 is a state in which the telescopic cylinder of the ventilation cylinder shown in FIG. 4 is contracted. It is a partially cutaway front view showing. Explanation of main symbols, 1... Outer cylinder body, 2... Valve lever, 3... Valve lever support part, 4... Telescopic cylinder part, 5...
Valve seat.

Claims (1)

[Claims for Utility Model Registration] 1. In a balloon ventilation cylinder, a rubber balloon inlet is attached to one end and gas to inflate the rubber balloon is supplied from the other end, the ventilation cylinder is connected to an outer cylinder body 1.
The outer cylinder 1 has a valve rod support part 3 on the side where the rubber balloon is attached.
However, a valve seat part 5 is formed on the gas supply port side, and a telescopic cylinder part 4 is formed between the valve rod support part 3 and the valve seat part 5, and the valve rod 2 has a ventilation passage inside.
One end side is fixed to the valve rod support part 3, and the other end side is arranged so as to maintain a distance from the inner wall of the telescopic cylinder part 4 which is in an expanded state, and the valve lever is fixed to the valve rod support part 3 in accordance with the expansion and contraction of the telescopic cylinder part 4. A ventilation pipe for balloons characterized in that a ventilation passage in a seat part 5 is opened and closed by a valve rod 2. 2 The valve seat portion 5 and the telescopic tube portion 4 in the expanded state communicate with each other, and the side surface of the valve rod 2 located inside the telescopic tube portion 4 in the expanded state and the end of the valve rod 2 on the fixed portion side form the valve. Utility model registration claim 1, characterized in that the valve seat portion 5 and the rubber balloon attachment end of the ventilation tube are connected by communicating through a guide hole formed in the rod 2. Ventilation tube for balloons as described in section. 3. The ventilation cylinder for a balloon according to claim 1 or 2 of the utility model registration claim, characterized in that the telescoping cylinder part 4 is a bellows.