KR102002041B1 - Clearance removing structure of steering column - Google Patents

Abstract

[0001] The present invention relates to a clearance elimination structure for a steering column, and more particularly, to a structure for eliminating clearance between a tube for transmitting a rotational force of a steering wheel and an intake shaft inserted in the tube, And the clearance removal structure. The present invention relates to a steering column, comprising: a tube installed inside a steering column to transmit a rotational force of a steering wheel; An input shaft partly inserted into the tube; And a clearance eliminator for eliminating clearance between the tube and the input shaft.

Description

{CLEARANCE REMOVING STRUCTURE OF STEERING COLUMN}

[0001] The present invention relates to a clearance elimination structure for a steering column, and more particularly, to a structure for eliminating clearance between a tube for transmitting a rotational force of a steering wheel and an intake shaft inserted in the tube, And the clearance removal structure.

Generally, a steering column for a vehicle is installed on the inner front side of a driver's seat so that rotational force generated from the steering wheel can be transmitted to the wheel through a gear box. A tilt device and a telescopic Device.

On the other hand, the telescopic device is constructed by inserting two hollow tubes so as to extend and contract in the axial direction, and a housing of the steering column is provided on the outer side, and a tube is provided on the inner side.

An input shaft is provided between the tube and the gear box. A pin slip bush with a needle pin is installed at the end of the input shaft, and an end of the input shaft with the pin slip bush is inserted into the tube.

In this case, if there is a clearance between the tube and the input shaft provided with the pin slip bush, the driver may feel a sense of heterogeneity at the time of steering, and a response to the steering may be delayed.

In order to solve the above problems, precise tolerance management has been proceeding with respect to the related dimensions of each part such as a tube, a needle pin, a pin slip bush, and an input shaft.

However, there is a problem that the cost is increased due to the precision machining of parts by such tolerance management.

An object of the present invention is to provide a clearance structure for a steering column which is installed inside a steering column and can eliminate a clearance between a tube through which the rotational force of the steering wheel is transmitted and an input shaft inserted into the tube.

In order to accomplish the above object, the present invention provides a steering system comprising: a tube installed inside a steering column to transmit a rotational force of a steering wheel; An input shaft partly inserted into the tube; And a clearance eliminator for eliminating clearance between the tube and the input shaft.

In the present invention, the clearance eliminating portion includes: a shaft assembly formed from an end portion of the tube to be recessed in an inner peripheral surface of the tube along a longitudinal direction of the tube; And an outer diameter adjuster for adjusting an outer diameter of the input shaft.

In the present invention, the clearance removing portion further includes a pin slip bush installed at an end of the input shaft and fitted to the tube along the shaft assembly.

In the present invention, the outer diameter regulating portion may include a slit cut along the longitudinal direction of the input shaft from an end of the input shaft; A taper bolt fitted to an end of the input shaft; And an outer diameter adjusting tab which is opened by the taper bolt and to which the taper bolt is fastened.

In the present invention, the pin slip bush includes a cylindrical portion surrounding the outer diameter adjusting tab; And a clearance removing protrusion protruding from the outer circumferential surface of the cylindrical portion along the longitudinal direction of the cylindrical portion and closely attached to the shaft assembly portion.

In the present invention, it is preferable that the clearance removing protrusion is at least one of a guide protrusion formed with a pin insertion portion in which a needle pin is installed, and an elastic protrusion cut along a longitudinal direction of the cylindrical portion.

In the present invention, the elastic protrusion may include a space portion formed to penetrate along the longitudinal direction of the cylindrical portion; And an opening formed at one side of the space and spaced apart by a predetermined distance.

In the present invention, it is preferable that a hook portion is formed at an end of the outer diameter adjusting tab, and a hook portion is formed to extend from the end of the cylindrical portion to be fastened to the hook portion.

In the clearance eliminating structure of the steering column according to the present invention, since the outer diameter of the input shaft can be adjusted through the clearance eliminating portion after the pin slip bush is installed in the input shaft, the outer diameter of the tube, the needle pin, It is not necessary to precisely process the relevant dimensions of the respective parts including the outer diameter of the insertion portion and the like, thereby achieving the effect of cost reduction.

1 is a perspective view of a clearance elimination structure of a steering column according to an embodiment of the present invention.
2 is a sectional view taken along the line AA 'shown in FIG.
3 is a cross-sectional view of the input shaft shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to facilitate the understanding of the technical idea of the present invention, a most preferred embodiment of the present invention will be described with reference to the accompanying drawings.

In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, a clearance eliminating structure of a steering column according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG.

Fig. 1 is a perspective view of a clearance eliminating structure of a steering column according to an embodiment of the present invention, Fig. 2 is a sectional view taken along line A-A shown in Fig. 1, and Fig. 3 is a sectional view of an input shaft shown in Fig.

Referring to FIG. 1, the clearance elimination structure of the steering column includes a tube 1100, an input shaft 1200, and a clearance removing unit 1300.

The tube 1100 is installed inside the steering column to transmit the rotational force of the steering wheel.

The input shaft 1200 has a hollow 1210 formed therein and a part of the one-foot shaft 1200 is inserted into the tube 1100.

The clearance removing unit 1300 includes a shaft assembly 1310, an outer diameter adjusting unit 1320 and a pin slip bushing 1330 to remove clearance between the tube 1100 and the input shaft 1200 do.

The shaft assembly 1310 is formed on the inner peripheral surface of the tube 1100 along the longitudinal direction of the tube 1100 from the end of the tube 1100.

The shaft assembly 1310 includes a plurality of shaft assemblies 1310 and is formed on the inner circumferential surface of the tube 1100 along the circumferential direction of the tube 1100.

The shaft assembly 1310 is inserted into the shaft assembly 1310 by sliding the shaft assembly 1310 in a state in which the clearance removing protrusion 1332 of the pin slip bush 1330 described below is in contact with the shaft assembly 1310.

The outer diameter adjuster 1320 includes a slit 1321, a taper bolt 1322 and an outer diameter adjusting tab 1323 to adjust the outer diameter of the input shaft 1200.

The slit 1321 is cut along the longitudinal direction of the input shaft 1200 from the end of the input shaft 1200. The outer diameter adjustment tab 1323 is formed at the end of the input shaft 1200, (1321).

That is, the slits 1321 are formed in a plurality of slits and spaced apart from each other along the circumferential direction of the input shaft 1200.

The outer diameter adjusting tabs 1323 are spaced apart from each other along the circumferential direction of the input shaft 1200 while being in contact with the slits 1321.

The taper bolt 1322 is configured to open the outer diameter adjusting tab 1323 to the outside of the input shaft 1200 and is fitted to the end of the input shaft 1200.

The taper bolt 1322 includes a head portion 1322a formed with a fastening hole 1322b for insertion of a tool and a tapered portion 1322c whose diameter is reduced and extended from the head portion 1322a.

That is, as the tapered portion 1322c is inserted into the end portion of the input shaft 1200, the end of the outer diameter adjusting tab 1323 flares to the outside of the input shaft 1200 along the tapered portion 1322c .

The pin slip bushing 1330 is installed at the end of the input shaft 1200 and is fitted into the tube 1100 along the shaft assembly 1310 and has a cylindrical portion 1331 and a clearance removing protrusion 1332 .

The cylindrical portion 1331 is installed at an end of the input shaft 1200 so as to surround the outer diameter adjusting tab 1323 and the clearance removing protrusion 1332 extends in the longitudinal direction of the cylindrical portion 1331, And protrudes on the outer peripheral surface of the portion 1331. [

As described above, when the pin slip bush 1330 installed in the input shaft 1200 is inserted into the tube 1100, the clearance removing protrusion 1332 is in close contact with the shaft assembly 1310 As shown in FIG.

The clearance removing protrusion 1332 is formed to correspond to the shaft assembly 1310 so that the clearance removing protrusion 1332 is coupled to the shaft assembly 1310.

The clearance removing protrusions 1332 are formed in a plurality of spaced apart from one another along the circumferential direction of the cylindrical portion 1331.

The clearance removing protrusion 1332 is composed of a needle pin protrusion 1333 and an elastic protrusion 1334.

The needle pin protrusion 1333 has a pin insertion portion 1333a in which the needle pin 1400 is installed is recessed along the longitudinal direction of the cylindrical portion 1331.

The needle pin 1400 is configured to transmit a rotational force between the tube 1100 and the input shaft 1200. When there is a clearance between the needle pin 1400 and the shaft assembly 1310, The driver may feel a sense of heterogeneity and a delay in response to the steering may occur.

It is therefore necessary to precisely control the tolerance of the outer diameter of the needle pin 1400 corresponding to the shaft assembly 1310 in order to eliminate clearance between the needle pin 1400 and the shaft assembly 1310.

That is, in the structure of removing the clearance of the steering column according to an embodiment of the present invention, the pin slip bush 1330 is installed at the end of the input shaft 1200 so that the pin slip bush 1330 contacts the outer diameter adjustment tab 1323 The taper bolt 1322 is inserted into the end of the input shaft 1200 and the outer diameter adjusting tab 1323 is extended to the outside of the input shaft 1200 so that the needle pin protrusion 1333 is inserted, The outer diameter of the input shaft 1200 is enlarged by an outer diameter of the input shaft 1200 from which clearance between the shaft assembly 1310 and the shaft assembly 1310 can be removed.

As the outer diameter of the input shaft 1200 is expanded, the outer diameter of the pin slip bush 1330 is expanded. When the input shaft 1200 having an expanded outer diameter is inserted into the tube 1100, The clearance between the tube 1100 and the input shaft 1200 is removed by sliding the shaft assembly 1310 along the shaft assembly 1310 in a state where the shaft assembly 1333 is in close contact with the shaft assembly 1310.

Since the outer diameter of the input shaft 1200 can be adjusted after the pin slip bush 1330 is installed on the input shaft 1200 to remove clearance between the tube 1100 and the input shaft 1200, It is not necessary to precisely process the relevant dimensions of the respective components including the outer diameter of the needle pin 1400, the dimension of the injection slit of the pin slip bush 1330, the outer diameter of the pin insertion portion 1333a, and the like, Can be obtained.

The elastic protrusions 1334 are configured to remove clearance between the tube 1100 and the input shaft 1200 using an elastic restoring force and include a space portion 1334a and an opening portion 1334b.

The space portion 1334a is formed through the elastic protrusion 1334 along the longitudinal direction of the cylindrical portion 1331. The opening portion 1334b is formed by cutting one side of the space portion 1334a, .

That is, when the elastic protrusions 1334 and the shaft assembly 1310 are shifted by the clearance due to the rotational force of the tube 1100 and the input shaft 1200, the volume of the space 1334a is reduced The spacing of the openings 1334b becomes narrower and the space of the openings 1334b and the volume of the spaces 1334a are restored to original state owing to the elastic restoring force of the elastic protrusions 1334, The clearance between the shaft assembly 1334 and the shaft assembly 1310 is removed.

The clearance removing protrusion 1332 may be formed only of the needle pin protrusion 1333. However, by arranging the elastic protrusion 1334 between the needle pin protrusions 1333, the clearance between the tube 1100 and the input shaft 1200 It is desirable to increase the clearance effect.

When the input shaft 1200 is inserted into the tube 1100, the pin slip bush 1330 is inserted into the input shaft 1200 to maintain the outer diameter adjusting tab 1323 wrapped around the input shaft 1200 Lt; / RTI >

The outer diameter adjusting tab 1323 has a hook portion 1323a formed at an end of the outer diameter adjusting tab 1323 and the pin slip bush 1330 extends from the end of the cylindrical portion 1331 And an engaging portion 1331a which is bent and extended toward the hollow 1210 is formed.

That is, when the locking portion 1331a is fastened to the hook portion 1323a, the pin slip bush 1330 keeps the outer diameter adjusting tab 1323 in a wrapped state, and the pin slip bush 1330 holds the input And is fixed to the shaft 1200.

The taper bolt 1322 is inserted into the end portion of the input shaft 1200 and the outer diameter adjusting tab 1323 is opened to the outside of the input shaft 1200 to separate the clearance removing protrusion 1332 and the shaft assembly 1310 The outer diameter of the input shaft 1200 is enlarged by an outer diameter of the input shaft 1200 to which the clearance between the input shaft 1200 and the input shaft 1200 can be removed and then the outer diameter of the input shaft 1200 is adjusted to fix the taper bolt 1322 to the input shaft 1200 And a fastening portion 1323b is formed on the inner surface of the tab 1323. [

The tapered portion 1322c and the coupling portion 1323b are formed with threads and the tapered portion 1322c is coupled to the coupling portion 1323b so that the tapered bolt 1322 is inserted into the input shaft 1200 .

As described above, the clearance structure of the steering column according to an embodiment of the present invention is configured such that the pin slip bush 1330 is inserted into the input shaft (not shown) to remove the clearance between the tube 1100 and the input shaft 1200 The outer diameter of the tube 1100, the outer diameter of the needle pin 1400, and the outer diameter of the pin slip bush 1330 can be adjusted by allowing the outer diameter of the input shaft 1200 to be adjusted through the gap removing unit 1300. [ ), The outer diameter of the pin inserting portion 1333a, and the like, and it is possible to obtain a cost saving effect.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1100: tube 1200: input shaft
1210: hollow 1300:
1310: shaft assembly part 1320: outer diameter adjusting part
1321: Slit 1322: Tapered bolt
1322a: head portion 1322b: fastening hole
1322c: tapered portion 1323: outer diameter adjusting tab
1323a: hook portion 1323b:
1330: pin slip bush 1331: cylindrical portion
1332: clearance removing projection 1333: needle pin projection
1333a: Pin insertion part 1400: Needle pin
1334: elastic projection 1334a:
1334b: opening portion 1335:

Claims (8)

A tube installed inside the steering column to transmit rotational force of the steering wheel;
An input shaft partly inserted into the tube; And
A clearance eliminator for eliminating clearance between the tube and the input shaft;
Lt; / RTI >
Wherein the clearance eliminating portion includes an outer diameter adjusting portion for adjusting an outer diameter of the input shaft.
The method according to claim 1,
Wherein the clearance elimination portion further comprises a shaft assembly formed from an end portion of the tube to be recessed in an inner peripheral surface of the tube along a longitudinal direction of the tube.
3. The method of claim 2,
The clearance eliminating portion
And a pin slip bush installed at an end of the input shaft and fitted in the tube along the shaft assembly.
The method of claim 3,
The outer diameter adjuster
A slit cut along the longitudinal direction of the input shaft from an end of the input shaft;
A taper bolt fitted to an end of the input shaft; And
An outer diameter adjusting tab that is opened by the taper bolt and is engaged with the taper bolt;
Wherein the clearance of the clearance of the steering column.
5. The method of claim 4,
The pin slip bush
A cylindrical portion surrounding the outer diameter adjusting tab; And
A clearance protrusion protruding from an outer circumferential surface of the cylindrical portion along a longitudinal direction of the cylindrical portion and closely contacting the shaft assembly;
Wherein the clearance of the clearance of the steering column.
6. The method of claim 5,
The clearance-
A pin insertion portion in which a needle pin is installed,
And an elastic protrusion cut along the longitudinal direction of the cylindrical portion.
The method according to claim 6,
The elastic projection
A space formed to penetrate along the longitudinal direction of the cylindrical portion; And
An open portion having one side of the space portion cut away and spaced apart by a predetermined interval;
Wherein the clearance of the clearance of the steering column.
6. The method of claim 5,
A hook portion is formed at an end of the outer diameter adjusting tab,
And an engaging portion extending from an end of the cylindrical portion to be fastened to the hook portion is formed.

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