JPS6311180A - Method and apparatus for regenerating regulation ball of tennis - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application 1 The present invention relates to a method and apparatus for pressurizing the inside of a hard tennis ball to regenerate the ball.

[Prior Art] Hard tennis balls are required by regulations to have a predetermined bounce height, so the air pressure inside them is usually increased.

However, as time passes, the air inside the ball gradually escapes, causing the internal pressure of the ball to drop.

Soft tennis balls have a so-called ``belly button'' on the inside of their outer shell, through which air can be injected. However, since a hard tennis ball does not have a navel, a syringe needle must be inserted into the inner skin of the ball to inject air, but the ball's internal pressure is so high that air leaks from the injection hole. As a result, balls with reduced internal pressure could not be reused and had to be discarded.

Therefore, in order to inject air through the syringe needle of an air pump and then close the injection hole that is created when the syringe needle is handled, an adhesive for hard tennis balls as shown in Japanese Utility Model Publication No. 60-66362 was used. A syringe has been proposed. This injector is a device that inserts a needle-like pipe into the injection hole, injects adhesive, and blocks the injection hole with the adhesive, thereby preventing air leakage.

[Problems to be Solved by the Invention] Since this conventional device only has the ability to inject adhesive, a separate air pump must be used to inject air. Therefore, in order to increase the internal pressure of a hard tennis ball and regenerate it, two types of devices are required, and it is inconvenient that the work of injecting air and the work of injecting adhesive must be performed separately. .

Further, the operation is difficult because the injection needle-like pipe of the adhesive injector must be inserted into the injection hole created when air is injected.

In view of the above, the present invention provides a method and apparatus for regenerating a hard tennis ball, in which the work of increasing the internal pressure of the ball and the work of closing the injection hole can be easily performed using the same device and by the same operation. This is what we are trying to provide.

Means for Solving Problems] The first invention, a method for reproducing a hard tennis ball, involves inserting a spout of a needle-like pipe into the inner skin of a hard tennis ball, and then inserting a spout into the inner skin of the hard tennis ball. , a resin capable of blocking the injection hole formed by the injection needle-shaped pipe, which absorbs or is mixed with a gas pressurized to a higher pressure than the internal pressure of the hard tennis ball, is inserted into the spout port. The invention is characterized in that the injection needle is ejected inside the tennis ball through the injection needle, and then the needle-like pipe is removed from the tennis ball.

In addition, the second invention, a hard tennis ball reproducing device, includes:
A resin capable of plugging the injection hole formed by the injection needle-shaped pipe in the inner skin of a hard tennis ball is placed in a container that is connected to the other end of a needle-shaped pipe having a spout at one end via a valve. The ball contains a resin that has absorbed or mixed with gas pressurized to a higher pressure than the internal pressure of a hard tennis ball.

[Function] J3 is inside the hard tennis ball and plugs the injection hole of the needle-like pipe in the inner skin of the hard tennis ball. When the resin that absorbs or mixes the gas is ejected, the pressure of this resin decreases, and the pressurized gas absorbed inside is released to increase the internal pressure of the ball.

Next, note: When handling a needle-shaped pipe, an injection hole is formed, and the resin is pumped into the hole together with pressurized gas and closes the hole, so the inside of the hard tennis ball is under high pressure. is kept and regenerated.

[Example] Hereinafter, an apparatus and method according to a first example of the present invention will be described based on FIGS. 1 to 4.

(1) shows the entire hard tennis ball reproducing device; (1)
0) is a cylindrical container of this device (1). Inside the container (10), there is a resin capable of closing an injection hole formed by a bailer (60), which will be described later, in the inner skin (3) of a tennis ball (2), and a resin inside the ball (2). A pressurized gas whose pressure is higher than the pressure is stored. These resins and pressurized gases are
The one shown in the above publication is suitable, and is housed in the manner shown in the same publication. That is, a resin for latex vinyl chloride paste is made into a paste by adding water and a solvent or separating agent such as tetrachloromonofluoroethane (Freon 121). Then, add 10 kg/c of air, carbon dioxide, Freon 12 or Freon 114, etc.
The pressurized gas applied to the ni culm is absorbed into the solvent or the like. Hereinafter, the resin in such a state will be abbreviated as pressurized resin.

Note that the type of resin is not limited to resin for latex vinyl chloride paste, and may also be used for injection needle-shaped pipes (60) described below.
Any resin may be used as long as it can close the injection hole formed by the resin. Further, the pressure of the pressurized gas may be 10 to 9/ci or less, but it needs to be higher than the internal pressure of the ball (2).

(12) is a dish-shaped cap having a central hole,
After enclosing the pressurized resin, it is fitted onto the neck of the container (10) via the backing (14).

(20) is a substantially cylindrical holding member fixed to the inner shoulder of the container (10), and the upper chamber (20) is a cylindrical hollow part.
2), and the royal chamber (22), which is a hollow part with a larger diameter than the upper chamber (22).
24) and a small cylindrical connecting tube (26) hanging downward from the bottom of the royal chamber (24). (28) is a suction pipe fixed to the connecting tube (26), which sucks up the pressurized resin and sends it into the holding member (20). (3
0) is a sliding valve that regulates the ejection of the pressurized resin sent to the holding member (20), and includes a head (32) having an L-shaped ejection hole and a cylindrical body ( 34) and a cylindrical foot portion (36) having a smaller diameter than this. Torso (34)
Notches (35) having an arcuate cross section and extending in the vertical direction are provided at two locations in the diametrical direction on the circumferential surface excluding the lower end. A coiled spring (38) is disposed between the lower part of the sliding valve (30) and the bottom of the holding member (20), and the spring (
The foot (38) of the slide valve (30) is inserted into the upper part of the valve (38). By doing this, the sliding valve (3
When you press and release the head (32) of 0), the spring (
Due to the elastic force of the sliding valve (30), the holding member (38)
20) by sliding it up and down inside. When the slide valve (30) is in the lower position, the notch (35) of the slide valve (30) faces the royal chamber (24), and the upper chamber (22) and the royal chamber (24) are connected. The pressurized resin is applied to the notch (35) and the head (3
2) is ejected to the outside of the container (10) via the nozzle hole.

On the other hand, when the sliding valve (30) is located above, the upper chamber (22
) and the lower chamber (24) are cut off, and the ejection of the pressurized resin is stopped. (40) is a pressing part for sliding the first sliding valve (30) downward, and the head part (40) of the sliding valve (30) is
32). The suppressor (40) has an L-shaped nozzle hole inside, the lower part of this nozzle hole is connected to the nozzle hole of the slide valve (30), and the upper part is connected to one end of the tube (62). There is a connected desk. (60) is a needle-shaped pipe, one end of which is connected to the inner skin (3) of the ball (2).
The pipe (60) is cut diagonally to form a spout to facilitate its penetration, and the other end of the pipe (60) is connected to the other end of the tube (62). As shown in FIG. 2, one end of the pipe (60) has a small hole (61
) and may have a closed tip.

Next, a method for reproducing the ball (2) using this device will be explained. First, the spout of the pipe (60) is inserted inside the inner skin (3) of the ball (2). At this time, since the internal pressure of the ball (2) is large, some of the air inside the ball (2) escapes and moves toward the tube (62), but the other end of the tube (62) is connected to the slide valve (30). upper chamber (22)
Because it is connected to the air, it cannot handle air above a certain level. Then, when the pressing part (40) is pushed downward, the sliding valve (30)
is also pushed and moves downward, and a part of the notch (35) is connected to the crown (24) of the holding member (20). Notch (3
5) straddles the upper chamber (22) and the royal chamber (24), so the pressurized resin stored inside the container (10) is continuously transferred from the lower chamber (22) to the upper chamber (24). sent to. Since the internal pressure of the container (10) is greater than the internal pressure of the ball (2), the pressurized resin sent to the upper chamber (22) further flows into the ball (2) through the injection port of the pipe (60). be pumped. Since the pressure of the pressurized resin decreases when it reaches the inside of the ball (2), the pressurized gas absorbed inside is released to increase the internal pressure of the ball (2). When it is determined that the desired internal pressure has been obtained, the pressing of the suppressor (40) is stopped.

Then, due to the repulsive force of the spring (38), the slide valve (30
) moves upward, and the ejection of pressurized resin is stopped. Then, the pipe (60) is separated from the ball (2). At this time, the injection hole of the pipe (60) remains in the inner skin (3), and the resin reaches the inside of this hole together with the pressurized gas. When the resin reaches this hole, it gets stuck inside the hole and closes it, so that a high pressure state is maintained inside the ball (2).

Hereinafter, an apparatus and method according to a second embodiment of the present invention will be explained based on FIGS. 5 to 9, which differ from the first embodiment in the following points. In other words, (50) is a support member of the pressing part (40), which is connected to the inner cylinder (52) and the outer cylinder (52).
6) are connected at the upper part, forming one cylinder as a whole. The support member (50) has a stopper (53) projecting inward on the inner peripheral surface of the inner cylinder (52), and is fitted onto the cap (12) below the stopper (53). There is. Support member (5
The lower end of the outer cylinder (56) of the container (10) is placed on the shoulder of the container (10) and has an annular spring receiver (
57) has been extended. (40) is a cup-shaped pressing part with an open bottom, and its inner diameter is slightly larger than the outer diameter of the container (10). The pressing part (40) has an inner circumferential surface that contacts the outer edge of the spring receiver (57), and a guide piece (42) protruding from the inside of the bottom part of the pressing part (40). The support member (50
) is fitted. By doing this, the suppression department (
40) is rotatable and pivotable relative to the support member (50). Moreover, by rotating the pressing part (40), as shown in FIGS. 8 and 9, the guide piece (
42) and the stopper (53) repeatedly come into contact with each other and separate from each other. A spherical concave part (44) corresponding to the outer shape of the ball (2) is formed at the bottom of the pressing part (40), and a hole is provided in the center of this concave part (44). A cylinder (46) is attached to. A pipe (60) passes through the inside of this cylinder (46), and the pipe (
60) is a sliding valve (30) at the end opposite to the injection port.
) is fixed in the nozzle hole of the head (32). Moreover, the cylinder (60) is approximately midway in the length direction.
A small disc-shaped abutment member (62) having a slightly larger diameter than the contact member (62) is fixed thereto. (48) is a coil-shaped spring, and is arranged between the bottom of the pressing part (40) and the spring receiver (57) of the support member (50).

Next, a method for reproducing a hard tennis ball (2) using this device will be explained. First, the pressing part (40) is rotated to separate the guide piece (42) and the stopper (53) as shown in FIG. Next, as shown in FIG. 6, while the ball (2) is placed in the recess (44) of the pressing part (40), the ball (2) is pressed downward. Then, the suppression department (
As the tube (40) moves downward, the pipe (60) is exposed from the cylinder (46) and penetrates the inner skin (3) of (2). In this state, the pressurized resin has not yet been ejected.

When the ball (2) is pressed further downward, the cylinder (46)
The lower end of the pipe (62) pushes the abutment member (62) downward.
0) also moves downward (Figure 7). Then, since this pipe (60) is fixed to the head (32) of the slide valve (30), the slide valve (30) also moves downward at the same time, and the pressurized resin starts to eject, causing the ball ( 2) The internal pressure increases.

Thereafter, when the ball (2) is removed from the recess (44), the ball (2) can be regenerated in the same manner as described above. Note that after using this device, if you rotate the pressing part (40) so that the guide piece (42) comes into contact with the stopper (53) as shown in Figure 8, the pipe (60) is unnecessary. It is safe with no exposure to

[Effects of the Invention] According to the hard tennis ball reproducing method and device of the present invention, the work of increasing the internal pressure of the ball and the work of closing the injection hole formed for increasing the internal pressure can be performed by the same device, and also by the same device. It can be done by the process of
Moreover, these operations are extremely easy.

[Brief explanation of drawings]

FIG. 1 is a sectional view of the hard tennis ball reproducing device according to the first embodiment, FIG. 2 is a sectional view showing a modified example of the pipe, and FIG. 3 is a sectional view of ■ to ■ in FIG. Fig. 4 is a side view of the sliding valve, Figs. 5 to 7 are sectional views of the hard tennis ball reproducing device of the second embodiment, and Figs. 8 and 9 are views of the guide piece and stopper. FIG. 3 is a cross-sectional view of main parts showing the relationship. [Explanation of symbols]

Claims (1)

[Claims] 1. A spout of a needle-like pipe is inserted into the inner skin of a hard tennis ball, and then the injection hole formed by the needle-like pipe in the inner skin of a hard tennis ball can be closed. A resin that has absorbed or mixed with gas pressurized to a higher pressure than the internal pressure of the hard tennis ball is ejected inside the hard tennis ball through the spout, and then the A method for regenerating a hard tennis ball, the method comprising: removing a needle-like pipe from the hard tennis ball. 2. A resin capable of plugging the injection hole formed by the injection needle pipe in the inner skin of a hard tennis ball, in a container that is connected to the other end of the injection needle pipe having a spout at one end via a valve. What is claimed is: 1. A hard tennis ball regeneration device, characterized in that a resin is housed therein, which is made by absorbing or mixing a gas pressurized to a higher pressure than the internal pressure of the hard tennis ball.