KR101465610B1 - Air pump Valve - Google Patents

Abstract

The present invention relates to an air pump valve. The present invention relates to a valve body having a valve body formed with an air inlet at a lower portion thereof, a first tube cap screwed to one end of the valve body, a second tube cap screwed to the other end of the valve body, And a piston guide coupled to the second tube cap and having a through hole for inserting the piston, and an elastic member formed to surround the piston and supported by the piston guide .
The air pump valve of the present invention is not limited by the shape of the air inlet in the tire of a bicycle or the like and has an excellent effect that it can be used with simple operation without being dependent on the shape of the injection port.

Description

Air pump valve < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air pump valve used in a tire air injector such as a bicycle or a motorcycle, and more particularly, to a valve having a structure capable of air injection regardless of the shape of an air inlet.

In general, bicycle is a simple means of transportation as well as being used by many modern people for hobbies and leisure activities. Bicycle tires maintain a constant air pressure inside, so that they can move smoothly and collide with the ground. Air inflated tires are generally used.

When the air pressure of the tire is too high, the impact of the inflated tire is transmitted as it is when the tire is brought into contact with the ground. As a result, ride comfort is reduced and uneven wear occurs at the center of the tire. Conversely, if the tire air pressure is too low, It is very important to keep the air pressure at a constant pressure for various bicycle tires because the puncture easily occurs.

Various types of air inlets such as a schrader, a dunlop, and a presta type are used as the air inlets for injecting air into the bicycle air-assisted tires for bicycle or for controlling the air pressure by extracting the air inside the bicycles , And the air inlets as described above are all mounted on the upper end thereof with screws in a screwed manner to prevent the air injected into the tire from escaping to the outside.

However, in the case of injecting the air through the air injector, the structure of the injector differs in various forms (shredder, Dunlop, and presta) of the air inlet, There is a problem in that air can not be injected when it does not fit.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an air pump valve, which is designed to solve such a problem, and which can inject air in any shape of the air inlet.

In order to achieve the above object, the present invention provides an air pump valve comprising: a valve body having an air inlet formed at a lower portion thereof; a first tube cap coupled to one end of the valve body; A second tube cap; a second tube cap; a piston accommodated in the first tube cap; a piston guide coupled to the second tube cap and having a through hole for inserting the piston therein; And an elastic member and a supporting member formed on the lower portion of the valve body.

In addition, ball injection holes are formed on both sides of the valve body to receive the balls.

The piston may include a polygonal member having a hole for discharging air, a connecting member formed at one side of the polygonal member, a penetrating member formed at one side of the connecting member, a supporting member formed at one side of the penetrating member, And an opening and closing member formed on one side of the passage for opening and closing the passage, wherein the diameter of the through member is larger than the opening.

A groove is formed in the first tube cap and the second tube cap, and a sealing member is formed in the groove at a predetermined distance from the end.

The first tube cap is formed with a member for blocking the air discharge passage by blocking the supporting member.

The air pump valve having the above-described configuration is not affected by the shape of the air inlet in the tire of a bicycle or the like, and has an excellent effect that it can be used with simple operation with any structure.

1 is a perspective view of the present invention.
2 is an exploded perspective view of the present invention.
3 is a front view of the present invention.
4 is a sectional view of the present invention.
5 shows the air being exhausted through another tube cap;
6 is a side sectional view showing that the ball is shown;

The present invention is characterized in that it comprises a valve body having an air inlet formed at a lower portion thereof, a first tube cap coupled to one end of the valve body, a second tube cap coupled to the other end of the valve body, A piston guide which is coupled to the second tube cap and has a through hole for receiving the piston therein, an elastic member which is formed to surround the piston outer peripheral surface and is supported by the piston guide, And a supporting member formed on the lower portion thereof.

In addition, a ball inlet for injecting a ball is formed on both sides of the valve body. Of course, the grooves receiving the balls injected through the ball inlet are formed at the positions of the first and second tube caps at the corresponding positions with the valve body, as can be seen from FIGS.

The piston may include a polygonal member having a hole for discharging air, a connecting member formed at one side of the polygonal member, a penetrating member formed at one side of the connecting member, a supporting member formed at one side of the penetrating member, And an opening and closing member formed on one side of the passage for opening and closing the passage, wherein the diameter of the through member is larger than the opening.

Each of the first tube cap and the second tube cap is formed with a groove for receiving a ball and a sealing member seating groove spaced apart from the end by a predetermined distance.

The first tube cap is formed with a member for blocking the air discharge passage by blocking the supporting member.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 3 is a front view of the present invention, FIG. 4 is a sectional view of the present invention, and FIG. 5 is a cross-sectional view Fig. 6 is a side sectional view showing the ball formed in the present invention. Fig.

1 to 3, a piston guide 500 having a valve body 80, a first tube cap 100, a second tube cap 200, a piston 400 and a through hole 300, And an elastic member 600 surrounding the outer circumferential surface of the piston 400 and supported by the piston guide 500 and a support member 700 formed at a lower portion of the valve body 80.

The structure for coupling the air inlet of the bicycle tire through the air exhaust passages 550 and 555 formed in the first tube cap 100 and the second tube cap 200 may be a conventional shredder, Dunlop, and presta type, which are different from each other.

2, the piston 400 includes a polygonal member 410, a connecting member 420 formed on one side of the polygonal member 410, a through member 430 formed on one side of the connecting member 420, A supporting member 440 formed at one side of the through member 430 and an opening and closing member 450 formed at one side of the supporting member 440 for opening and closing the passage 550.

The polygonal member 410 is formed with a hole H having a predetermined size to receive air and discharge the air to the air discharge passage 555.

The diameter of the through-hole member 430 is larger than the diameter of the through hole 300 because only the polygonal member 410 and the connecting member 420 formed on the piston 400 are inserted into the through hole 300, And the penetrating member 430 is fitted to the entrance of the piston guide 500 with the elastic member 600.

The elastic member 600 is attached to the outer periphery of the piston 400. This is because when the air inlet (not shown) of a tire such as a bicycle is inserted into the air discharge passages 550 and 555 And is returned by the elastic force when it is taken out from the air inlet.

 The first tube cap 100 and the second tube cap 200 are respectively formed with grooves spaced apart from the grooves and the ends receiving the balls and in which the sealing members 160 and 260 are respectively seated.

The sealing members 160 and 260 are formed in the shape of a ring of rubber to prevent air from leaking out.

The air injection operation of the air pump valve 800 according to the present invention will be described below.

4, air is injected through the air discharge passage 555 to open the air inlet (not shown) of the bicycle, and the air is injected through the air inlet 750, Since the piston 400 is supported by the member 170 through the hole H formed in the piston 400 of the first tube cap 100, 550) so as to prevent the air from progressing.

Air is introduced through the air inlet port 750 and the air is exhausted through the air exhaust passage 555 formed in the second tube cap 200 through the hole H formed in the piston 400 and the like, Of the tire.

5, in the case where the air injector has a structure different from that of the air injector (the injection structure of the first tube cap 100 and the second tube cap 200 is different from that described above) (Not shown) is opened to the side of the one-tube cap 100 and the cap is opened to push the opening and closing member 450 of the piston 400 to close the discharge passage 555 on the opposite side, A predetermined gap S is formed between the member 170 and the opening and closing member 450 of the piston 400 so that the air injected from the air inlet 750 flows into the air discharge passage 550, and is also injected into a tire such as a bicycle.

Here, contrary to the above description, it is a matter of course that the air can be injected into the second tube cap 200 located on the opposite side when air can not be injected through the air exhaust passage 550 on the first tube cap 100 side will be.

6 is a side sectional view showing the ball B of the air pump valve 800 of the present invention. Ball injection ports 150 and 250 are formed on both sides of the inner diameter of the valve body 80 to receive the balls B and the ball B is inserted into the valve body 150, (100, 200) corresponding to the valve body (80), which is relatively fixed, arranged in a groove formed in a circular shape around the first tube cap (80) This is to ensure the stability of the product.

Therefore, when the air pump valve 800 according to the present invention is intended to inject air into a tire of a bicycle or the like, air can be injected by a simple operation regardless of the structure of the air inlet, And flexibility.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that the present invention belongs to the appended claims.

80: Body 100: First tube cap
160: sealing member 170: member
200: second tube cap 260: sealing member
300: through hole
400: piston 410: polygonal member
420: connecting member 430: penetrating member
440: support member 450: opening / closing member
500: piston guide 550, 555: air discharge passage
600: elastic member 700: support member
750: air inlet 800: air pump valve
B: Ball S: Clearance
H: hole

Claims (5)

On both sides of the inner diameter, a groove for receiving the ball B, a valve body 80 having the ball injection ports 150 and 250 formed therein,
First and second tube caps (100, 200) each having a groove at a position corresponding to a groove for receiving the ball and a sealing groove for receiving the sealing member (160, 260)
A piston 400 accommodated in the first tube cap 100;
A piston guide 500 coupled to the second tube cap 200 and having a through hole 300 for insertion of the piston 400;
An elastic member 600 formed to surround the outer circumferential surface of the piston 400 and supported by the piston guide 500;
And a support member (700) formed on the lower portion of the valve body (80) so as to be screwed and formed with an air inlet (750).
delete The piston (400) according to claim 1, wherein the piston (400) comprises a polygonal member (410) having a hole (H) for discharging air, a connecting member (420) formed at one side of the polygonal member A support member 440 formed at one side of the through member 430 and a support member 440 formed at one side of the support member 440 to open and close the passage 550, Member (450), and the diameter of the penetrating member (430) is larger than the through-hole (300).
delete The air cleaner according to claim 1, wherein the first tube cap (100) is formed with a member (170) for blocking the air discharge passage (550) by closing the support member (440) of the piston Features an air pump valve.

Images