KR101677838B1

KR101677838B1 - Air Pouring Apparatus For Bicycle

Info

Publication number: KR101677838B1
Application number: KR1020150039855A
Authority: KR
Inventors: 최정숙; 박찬희
Original assignee: 최정숙
Priority date: 2015-03-23
Filing date: 2015-03-23
Publication date: 2016-11-18
Also published as: KR20160113782A

Abstract

The present invention is characterized in that a plurality of connection sockets suitable for various kinds of air inlets (Dunlop, shredder, presta) are installed in the rotary head and the rotary head is rotated to change the position of the connection socket to smoothly inject high pressure air into the bicycle tire Gt; a < / RTI > bicycle air injection device.
A bicycle air injection apparatus according to the present invention includes a fixed holder having an air flow path formed therein and a plurality of connection sockets corresponding to the types of air injection ports, and a connection socket suitable for the air injection port communicates with the fixed flow path A rotating head provided rotatably, and a fastening member for fastening the rotating head to the stationary holder.

Description

[0001] The present invention relates to an air pouring apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bicycle air infusion device, and more particularly, to a bicycle air infusion device in which a plurality of connecting sockets suitable for various kinds of air inlets (Dunlop, Shredder, The present invention relates to a bicycle air injection device capable of smoothly injecting high-pressure air into a bicycle tire.

The number of people commuting on bicycles or exercising is increasing, and cycling is becoming more popular as a part of life sports, and bicycle rentals are being expanded to use public bicycles.

The method of injecting air into a bicycle tire can be roughly classified into a manual method of injecting high pressure air using a manual air pump connected to a bicycle air injection device and an automatic method of injecting high pressure air using a mechanical air pump.

A matching structure is applied to the joining portion of the bicycle air inflator so that the injection air does not leak out when the air is injected while being coupled to the air inlet of the bicycle tire.

The air inlet of the bicycle tire is divided into the presta type, the shredder type and the Dunlop type. The air intake of the presta type is applied to the high-grade bicycle, while the air intake of the shredder type and the Dunlop type is adopted in the entry-level bicycle. Since the shape and structure of the inlet end of a bicycle tire differs according to each type of air inlets, it is necessary to use a bicycle air injection device suited to the type.

Thus, a technique for solving the restriction by individual use of the apparatus has been proposed. Korean Patent No. 10-1042987 is disclosed as an example of a technique commonly used for air injection holes of a prestart type and a Dunlop type. In this document, there is provided a fixing pipe which is coupled to the front end of a pre-staged air inlet and a coupling pipe which is hermetically sealed to the outside by a Dunlop type air inlet, and the inner surface of the fixing pipe When the fixing pipe and the coupling pipe are coupled with each other, air is injected so as to be sealed from the outside.

However, the air injection apparatus disclosed in the above document has an advantage that a Dunlop type air intake port and a Frattair type air inlet port can be used together. However, since a connecting structure for connecting the tip ends of all types of air inlet ports to a coupling pipe can be applied, Failure may lead to air leakage during the injection process and breakage may occur at the connection part.

Korean Patent No. 10-1042987

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SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and a device for installing a plurality of connecting sockets corresponding to the types of air inlet ports on a rotary head and rotating a rotary head rotatably coupled to a fixed holder, And to provide a bicycle air infusion device capable of infusing the inflator.

The bicycle air injection device according to the embodiment of the present invention includes a fixed holder having an air flow path formed therein; A rotary head provided with a plurality of connection sockets corresponding to the type of the air inlet and provided with one of the connection sockets suitable for the air inlet is rotatably installed in the fixed holder so as to communicate with the air flow path; And a fastening member for fastening the rotary head to the fixed holder.

The fixed holder includes a holder body, a fixed shaft projecting downward from a bottom surface of the holder body, and a recess formed in the fixed shaft, wherein the holder body has an insertion hole for receiving the flow guide portion, The flow guiding unit includes a cylindrical body, an inlet hole having one side exposed to allow air to flow into the cylindrical body, a support jaw formed on the outer side of the cylindrical body, and a sealing member inserted outside the cylindrical body. do.

And a support pillar integrally formed with the holder body for coupling the lock part, wherein the lock part includes a lever and an engagement pin, and the slide part is slid on the upper surface of the lever, And an elliptical lever head is integrally formed on the lever head.

The rotary head further includes a head body, a plurality of receiving grooves formed in the head body for receiving the plurality of connecting sockets, and an axial insertion hole for axially coupling the stationary holder, Each of the connection sockets is divided into a lower socket and an upper socket, and the plurality of lower sockets are formed with through-holes of different diameters, and the upper socket is connected to the through-hole of the lower socket And a hollow portion is formed.

Wherein a fixing groove is formed on an upper surface of the head body, and a guide protrusion is formed on an outer surface of the head body to correspond to the fixing groove, the fixing groove being engaged with a stopper for restricting movement of the fixing holder, The guide protrusion is characterized by being a mark.

The bicycle air injection apparatus according to the present invention is excellent in ease of use because it changes the connecting socket by turning the rotating head coupled to the fixed holder when changing the position of the connecting socket suitable for the air inlet.

Also, according to the present invention, air can be stably injected by aligning the connection socket with the air inlet, and the lever is operated to the locked position, and the connection socket of the rotary head fastened to the fixed holder can be easily replaced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a use example in which a connection hose is mounted on a bicycle air injection apparatus according to an embodiment of the present invention;
2 is a perspective view showing an appearance of a bicycle air injection apparatus according to an embodiment of the present invention.
3 is an exploded perspective view of a bicycle air injection apparatus according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view of a bicycle inflator according to an embodiment of the present invention in which a lever is lifted up to a locked position in a state where a rotary holder is aligned with a fixed holder.
5 is a cross-sectional view illustrating flow of injection air in a state where a connection hose is coupled to a bicycle air injection apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a bicycle air injection apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the bicycle air injection apparatus 1 according to the present invention can inject high pressure air supplied through the connecting hose 2 into a bicycle tire. Here, one end of the connection hose 2 is fastened by the hose fixing part 50, and the other end of the connection hose 2 can be connected to an air pump (not shown).

The bicycle air injecting apparatus 1 includes a fixed holder 10 having an air passage communicating with the connecting hose 2 and a rotary head 60 rotatably installed in the fixed holder 10. [

2 and 3, the fixed holder 10 includes a holder body 11 having a rounded corner and a triangular cross section, a fixed shaft 12 projecting downward from the bottom surface of the holder body 11, Respectively. The groove is formed in the fixed shaft 12 in the longitudinal direction and one side of the groove is exposed. The groove is for pressing and fixing one side of a fastening member 80 to be described later.

The holder body 11 is formed with an insertion hole 17 communicating in the vertical direction so as to receive the flow path guide portion 20 therein. The insertion hole 17 is eccentrically formed at an edge rounded from the center of the body so as not to be interfered with the fixed shaft 12.

The flow guiding part 20 includes a cylindrical body 21 and an inflow hole 22 whose one side is exposed so as to allow air to flow into the internal flow path of the cylindrical body 21. A support jaw 23 formed on the outer side surface of the cylindrical body 21, . The support jaws 23 are respectively provided on the upper and lower portions of the inflow hole 22 so as to protrude in two stages so as to prevent the sealing member 24 inserted outside the cylindrical body 21 from being detached in order to prevent air leakage.

A pair of support pillars 15 are integrally formed on the upper surface of the holder body 11 and a pair of support pillars 15 are protruded upward at intervals on both sides of the upper end of the insertion hole 17. [ The lock portion 40 is coupled to the upper portion of the support column 15 in order to restrain the movement of the flow guide portion 20 accommodated in the insertion hole 17. [

The locking portion 40 includes a lever 41 and an engaging pin 46. A non-slippery uneven surface 42 is formed on the upper surface of the lever 41 and an elliptical lever head 43 is integrally formed at the head of the lever 41. [ Further, a coupling hole 44 for inserting the engaging pin 46 is formed in the lever head 43. The joining pin 46 is formed as a rod-like body, and the outer peripheral surface is roughly surface-treated except for a part of both ends of the body, and the surface-treated portion is tightly fixed to the inner surface of the coupling hole 44. Both ends of the engaging pin 46 inserted in the engaging hole 44 are fixedly fitted in the pin holes 16 formed on the respective supporting pillars 15.

A tip (13) is formed at the head of the holder body (11). The tip 13 is formed in an inverted triangular shape at the center of the front surface to indicate the correct position. That is, the positioning movement of the rotary head 60 is achieved by matching the guide projections 70 of the rotating rotary head 60 to the direction of the tip 13.

A stopper (14) is formed to protrude from the bottom surface of the holder body (11). The stopper 14 can be formed of a small semicircular protrusion and is engaged with the fixing groove 69 of the head body 61 described later. The shapes of the stopper 14 and the fixing grooves 69 correspond to each other, and a plurality of them can be formed.

A hose fixing part (50) is provided at the rear of the holder body (11).

The hose fixing part 50 is provided with a fixture 51 protruding rearward and formed with a through hole therein, a screw part 52 formed on the outer circumferential surface of the fixing part 51 and a screw part 52 screwed to the screw part 52, And a rotary knob 53 for press-fitting the outer side.

The rotary head (60) is rotatably coupled to one side of the fixed holder (10) by a fastening member (80). At this time, the rotating head 60 is rotated clockwise or counterclockwise manually by the user's manipulation, and the rotating head 60 can be moved to the correct position by using the tip 13. [

The rotary head 60 includes a head body 61, first to third receiving grooves 62, 63 and 64 formed in the head body 61, and an axial insertion hole 68. The shaft body insertion hole 68 is located at the center of the head body 61 and the first to third receiving grooves 62, 63 and 64 are located around the shaft insertion hole 68.

The head body 61 is formed in a shape corresponding to the holder body 11 of the fixed holder 10, that is, it has rounded corners and a triangular cross-section.

The fixing shaft 12 of the holder body 11 is inserted into the shaft insertion hole 68 and the first to third receiving grooves 62, 63 and 64 are provided with a plurality of connection sockets Respectively. That is, the plurality of connection sockets 66 correspond one-to-one to different types of air inlets (Dunlop, Shredder, and Presta), and any kind of air inlets can be coupled to and matched with any one connection socket 66. The plurality of connection sockets 66 are made of a rubber material and each of the connection sockets is composed of the lower sockets 65a, 66a, 67a and the upper sockets 65b, 66b, 67b.

Through holes having different diameters are formed in the lower sockets 65a, 66a, and 67a, and the shapes of the through holes are formed corresponding to different types of air inlets (Dunlop, Shredder, and Presta). The hollow portions 30 are vertically formed in the upper sockets 65b, 66b and 67b, respectively, and the lower sockets 65a, 66a and 67a Through-holes of the main body.

Three fixing grooves 69 corresponding to the first to third receiving grooves 62, 63 and 64 are formed on the upper surface of the head body 61 and three fixing grooves 69 are formed on the outer surface of the head body 61 The guide protrusions 70 are formed corresponding to the two fixing grooves 69.

The guide protrusion (70) is a mark indicating the correct position of the rotary head (60). When the guide protrusion 70 is aligned with the end of the tip 13 by rotating the rotary head 60 coupled to the stationary holder 10, the holder body 11 and the head body 61 are coupled to each other in a fixed position it means. Positive engagement is achieved by connecting any one of the plurality of connection sockets 66 received in the first to third receiving grooves 62, 63 and 64 and the flow guide portion 20 inserted in the insertion hole 17 ). When the rotary head 60 makes one revolution, the flow path guide portion 20 is individually aligned with respect to the three connection sockets 66 one at a time.

The fixed shaft 12 of the fixed holder 10 is inserted into the shaft insertion hole 68 of the rotary holder 60 as shown in Fig. At this time, the inner diameter of the shaft insertion hole 68 is formed to be slightly larger than the outer diameter of the fixed shaft 12, so that the head body 61 coupled to the fixed shaft 12 can be rotated. The fastening member 80 can be formed in a bolt shape. The end of the bolt is inserted and fixed in the groove of the fastening shaft 12 and the head of the bolt is supported under the shaft insertion hole 68 of the head body 61.

When the stopper 14 of the holder body 11 is fitted and mated with the fixing groove 69 of the head body 61, any one of the first to third receiving grooves 62, 63, One of the connection sockets 66 inserted into the insertion hole 17 can communicate with the flow guide portion 20 accommodated in the insertion hole 17. [ For example, as shown in Fig. 4, the cylindrical body 21, the upper socket 66b, and the lower socket 66a are vertically aligned.

When the lever 41 is lifted at this time, the cylindrical body 21 is pressed and fixed by the lever head 43, and the high-pressure air supplied through the air flow path 18 formed in the holder body 11 passes through the cylindrical body 21, And flows out through the through hole of the lower socket 66a via the hollow portion 30 of the upper socket 66b through the internal flow path of the cylindrical body 21. [

By connecting the air inlet to this lower socket 66a, high pressure air can be smoothly injected into the bicycle tire. 5, when the connecting hose 2 is connected to the bicycle air injecting apparatus 1, the high-pressure air supplied by the air pump is supplied to the air in the holder body 11 communicating with the connecting hose 2 Flows into the flow path 18 and is stably supplied to the air inlet port connected to the connection socket 66 of the rotary head 60. [

On the other hand, when another type of air inlet is used, the lever 41 is pulled down to unlock it, and the user manually rotates the rotary head 60 so that the connection socket 66 suitable for the air inlet is aligned. At this time, it is possible to check the state that the tip (13) indicates the guide projection (70) and to rotate the tip (13) in the correct position. The cylindrical body 21 of the flow guide portion 20 is brought into contact with the connection socket 66 and the lever 41 is lifted up to restrain the cylindrical body 21. In this state, another type of air inlet is connected to the lower socket of the rotary head 60, so that the high-pressure air can be stably supplied.

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, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: air injector 2: connecting hose
10: fixed holder 11: holder body
12: Fixed shaft 13: Tip
14: Stopper 15: Support column
16: pin hole 17: insertion hole
18: air passage 20:
21: Cylindrical body 22: Inflow hole
23: support jaw 24: sealing member
30: hollow part 40: locking part
41: lever 42: uneven surface
43: lever head 44: engaging hole
46: coupling pin 50: hose fixing part
51: fixture 52: threaded portion
53: rotation knob 60: rotating head
61: head body 62 to 64: first to third receiving grooves
66: connection socket 65a, 66a, 67a: lower socket
65b, 66b, 67b: upper socket 68: shaft insertion hole
69: fixing groove 70: guide projection
80: fastening member

Claims

A fixed holder forming an air flow path;
A rotary head provided with a plurality of connection sockets corresponding to the type of the air inlet and provided with one of the connection sockets suitable for the air inlet is rotatably installed in the fixed holder so as to communicate with the air flow path; And
And a fastening member for fastening the rotary head to the fixed holder,
The fixed holder includes an insertion hole for receiving the guide portion in the holder body. The guide portion includes a cylindrical body, an inlet hole having one side exposed to allow air to flow into the cylindrical body, And a sealing member inserted outside the cylindrical body.

The method according to claim 1,
Wherein the fixed holder includes a fixed shaft projected downward from a bottom surface of the holder body, and a groove formed in the fixed shaft.

The method according to claim 1,
And a support pillar integrally formed with the holder body for coupling the lock part,
Wherein the locking portion includes a lever and an engaging pin,
Wherein a non-slippery surface is formed on the upper surface of the lever, and an elliptical lever head is integrally formed on the lever head.

The method according to claim 1,
The rotary head includes a head body, a plurality of receiving grooves formed in the head body for receiving a plurality of connecting sockets, and an axial insertion hole for axially coupling the stationary holder,
Wherein the plurality of connection sockets correspond one-to-one to different types of air inlets, each connection socket being divided into a lower socket and an upper socket,
A plurality of through holes having different diameters are formed in the plurality of lower sockets,
And a hollow portion communicating with the through hole of the lower socket is formed in the upper socket.

5. The method of claim 4,
A fixing groove is formed on an upper surface of the head body,
A guide protrusion is formed on an outer surface of the head body to correspond to the fixing groove,
Wherein the fixing groove is engaged with a stopper for restricting movement of the fixing holder,
Wherein the guide protrusion is a marking.

A fixed holder forming an air flow path;
A rotary head provided with a plurality of connection sockets corresponding to the type of the air inlet and provided with one of the connection sockets suitable for the air inlet is rotatably installed in the fixed holder so as to communicate with the air flow path; And
And a fastening member for fastening the rotary head to the fixed holder,
Wherein the plurality of connection sockets correspond one-to-one to different types of air inlets, each connection socket being divided into a lower socket and an upper socket,
A plurality of through holes having different diameters are formed in the plurality of lower sockets,
And a hollow portion communicating with the through hole of the lower socket is formed in the upper socket.