KR102267718B1 - Latch structure of Steering column - Google Patents

Abstract

The present invention relates to a steering column latch structure, and is installed at one end of an adjust bolt penetrating a tilt bracket fixed to a mounting bracket mounted on a vehicle body, and the position is fixed and released according to the tightening operation of the adjust bolt. In the latch structure of the column, the fixed gear is fixedly mounted on the outer surface of the tilt bracket, the outer surface is formed with threads in the vertical direction on both sides, and the bolt coupling section through which the adjust bolt passes in the center is formed in the vertical direction; an inner inclined guide disposed in the center of the fixed gear, a bolt coupling hole and a spring support groove formed in the center, and an inner inclined surface formed on an outer surface; an outer inclined guide disposed on the outside of the inner inclined guide, a bolt coupling hole and a spring support groove formed in the center, and an outer inclined surface corresponding to the inner inclined surface is formed on the inner surface; a movable gear in which the outer inclined guide is accommodated therein, a screw thread meshing with the screw thread of the fixed gear is formed on both sides of the inner surface, and a bolt coupling hole is formed in the center; and a spring for coupling and releasing the fixed gear and the movable gear while the ends are respectively supported in the spring support groove of the inner inclined guide and the spring support groove of the outer inclined guide.
According to an embodiment of the present invention, it is possible to improve the convenience of use while solving the instability caused by the two-stage jamming of the fixed gear and the movable gear moving in a straight line through the inner and outer inclined guides, the movable gear and the spring when the operation lever is operated. Not only that, there is an effect of improving the meshing ratio of the fixed gear and the movable gear during tilting.

Description

Steering column latch structure

The present invention relates to a steering column latch structure, and more particularly, to a steering column latch structure capable of resolving instability due to the two-stage engagement of a fixed gear and a movable gear when an operation lever is operated.

In general, a steering system transfers a rotational force generated by a driver to the wheels of a vehicle to change the traveling direction of the vehicle.

And the steering system includes a steering wheel installed in the driver's seat, a steering shaft connected to the steering wheel, and a steering column.

Here, the steering column is a type of variable steering wheel, and has a tilt function that varies the steering wheel angle to fit the driver's physique and driver's posture. The dual steering shaft enables a telescopic function to pull or push the steering wheel toward the driver.

Referring to FIGS. 1 and 2 showing a steering column performing such a function, the steering column includes a tube 10; a distance bracket 20 installed at the lower end of the tube 10 and connected to the tube 10; a tilt bracket 30 installed on both sides of the distance bracket 20; a mounting bracket 40 installed on the vehicle body and to which the tilt bracket 30 is fixed; an adjust bolt 50 passing through the tilt bracket 30; a lever 60 and a cam 70 installed at an end of the adjust bolt 50; a fixed gear (80) installed on the tilt bracket (30); and a movable gear 90 installed at the end of the adjust bolt 50 and selectively meshed with the fixed gear 80 .

However, in the conventional steering column, when the movable gear 90 is meshed with the fixed gear 80 by the operation of the lever 60, as shown in FIG. 2, the movable gear 90 is fixed as the mountain (Tooth) and the mountain meet. There was a problem in that the gear 80 was not completely meshed.

In addition, in the above state, when a force is applied to the adjust bolt 50 and the facing mountain is displaced, an instantaneous shock may occur to the driver, and there is a secondary problem in that the above process is repeated and wear occurs in the mountain.

Republic of Korea Patent Publication No. 10-1027034

The present invention has been devised to solve the above problems, and while solving the instability caused by the two-stage jamming of the fixed gear and the movable gear that moves in a straight line when the operation lever is operated, through the inner and outer inclined guides, the movable gear and the spring. The purpose is to improve the convenience of use.

In addition, the purpose is to enable accurate operation in a designated section through the position guide projections formed on the upper and lower portions of the fixed gear, the wing portions formed on both sides of the movable gear, and the side guides formed on both sides of the inner inclined guide.

In order to achieve the above object, the steering column latch structure of the present invention is installed at one end of an adjust bolt passing through a tilt bracket fixed to a mounting bracket mounted on a vehicle body, and the position is fixed and fixed according to the tightening operation of the adjust bolt. In the latch structure of a steering column for a vehicle to be released, it is fixedly mounted on the outer surface of the tilt bracket, and threads are formed in a vertical direction on both sides of the outer surface, and a bolt coupling section through which an adjust bolt passes is formed in the vertical direction in the center. Gear; an inner inclined guide disposed in the center of the fixed gear, a bolt coupling hole and a spring support groove formed in the center, and an inner inclined surface formed on an outer surface; an outer inclined guide disposed on the outside of the inner inclined guide, a bolt coupling hole and a spring support groove formed in the center, and an outer inclined surface corresponding to the inner inclined surface is formed on the inner surface; a movable gear in which the outer inclined guide is accommodated therein, a screw thread meshing with the screw thread of the fixed gear is formed on both sides of the inner surface, and a bolt coupling hole is formed in the center; and a spring for coupling and releasing the fixed gear and the movable gear while the ends are respectively supported in the spring support groove of the inner inclined guide and the spring support groove of the outer inclined guide.

In addition, the upper and lower portions of the fixed gear may have position guide projections protruding outward to prevent the inner and outer inclined guides from being discharged to the upper and lower portions.

In addition, side guides may be formed to protrude from both sides of the inner inclined guide to surround the outer inclined guide.

In addition, movable gear wing portions may be formed on both sides of the movable gear to vertically move along both sides of the fixed gear.

According to an embodiment of the present invention, it is possible to improve the convenience of use while solving the instability caused by the two-stage jamming of the fixed gear and the movable gear moving in a straight line through the inner and outer inclined guides, the movable gear and the spring when the operation lever is operated. Not only that, there is an effect of improving the meshing ratio of the fixed gear and the movable gear during tilting.

In addition, there is an effect that accurate operation can be achieved in a designated section through the position guide projections formed on the upper and lower portions of the fixed gear, the wing portions formed on both sides of the movable gear, and the side guides formed on both sides of the inner inclined guide.

1 is an exploded perspective view showing a conventional steering column.
2 is a side view showing a fixed gear and a movable gear constituting a conventional steering column;
3 is an exploded perspective view illustrating a steering column latch structure according to the present invention;
4 is an exploded rear perspective view illustrating a steering column latch structure according to the present invention;
5 is a side view showing an operating state of the steering column latch structure according to the present invention;
6 and 7 are views showing an assembled state of the steering column latch structure according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art to which the present invention pertains can easily carry out the present invention. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. Throughout the specification, like reference numerals are assigned to similar parts.

Hereinafter, the configuration of the present invention will be described with reference to the accompanying drawings, in which FIG. 3 is an exploded perspective view showing the steering column latch structure according to the present invention, and FIG. 4 is an exploded rear perspective view showing the steering column latch structure according to the present invention, 5 is a side view showing an operating state of the steering column latch structure according to the present invention.

The steering column latch structure 100 according to the present invention is installed at one end of the adjust bolt 400 penetrating the tilt bracket 300 fixed to the mounting bracket 200 mounted on the vehicle body, and the adjust bolt 400 is tightened. The position is fixed and released according to the motion.

In addition, the steering column latch structure 100 includes a fixed gear 110 , an inner inclined guide 120 , an outer inclined guide 130 , a movable gear 140 , and a spring 150 .

The fixed gear 110 is fixedly mounted on the outer surface of the tilt bracket 300, and the screw threads 111 are formed to protrude in the vertical direction on both sides of the outer surface, and the bolt coupling section 112 through which the adjust bolt 400 passes in the center. ) is formed in the vertical direction.

That is, the fixed gear 110 has an inner surface fixedly mounted on the tilt bracket 300 , and a screw thread 111 is formed on both sides of the outer surface to be engaged with the screw thread of the movable gear 140 , and an adjust bolt 400 is formed in the center. ) to form a bolt coupling section 112 to adjust the height.

At this time, the screw thread 111 is formed to protrude in a predetermined section outward in order to support the inner inclined guide 120 .

And, on the upper and lower portions of the fixed gear 110 , the position guide protrusions 113 are formed to protrude outward to prevent the inner and outer inclined guides 120 and 130 from being discharged to the upper and lower portions.

That is, the position guide protrusion 113 is such that the inner and outer inclination guides 120 and 130 can be operated in the vertical direction only in a designated section.

The inner inclined guide 120 has a predetermined thickness and size and is disposed in the center of the fixed gear 110 , a bolt coupling hole 121 and a spring support groove 122 are formed in the center, and an inner inclined surface is formed on the outer surface. (123) is formed. Here, the spring support groove 122 formed in the inner inclined guide 120 may be formed to extend radially outward from the bolt coupling hole 121 formed in the inner inclined guide 120 among the outer surfaces of the inner inclined guide 120 . have.

That is, the inner inclined guide 120 has a rectangular shape having a predetermined thickness and size, and moves in the vertical direction along between the threads 111 on both sides of the fixed gear 110, and an adjust bolt 400 passes through the center. A bolt coupling hole 121 and a spring support groove 122 for supporting the spring 150 are formed.

And on both sides of the inner inclined guide 120, the side guide 124 is formed to protrude in the outer surface direction so as to surround the outer inclined guide (130).

Here, the side guides 124 formed on both sides of the inner inclined guide 120 allow the outer inclined guide 130 to operate accurately when an external force is applied while surrounding the outer inclined guide 130 .

The outer inclined guide 130 is disposed on the outside of the inner inclined guide 120, a bolt coupling hole 131 and a spring support groove 132 are formed in the center, and an outer inclined surface 133 corresponding to the inner inclined surface is formed on the inner surface. ) is formed. Here, the spring support groove 132 formed in the outer inclined guide 130 may be formed to extend radially outward from the bolt coupling hole 131 formed in the outer inclined guide 130 among the inner surfaces of the outer inclined guide 130 . have.

That is, the outer inclined guide 130 has a rectangular shape having a predetermined thickness and size and is disposed on the outside of the inner inclined guide 120, and in the center is a bolt coupling hole 131 through which the adjust bolt 400 passes and A spring support groove 132 for supporting the spring 150 is formed.

To explain this further, the outer inclination guide 130 moves in the horizontal direction together with the movable gear 140 when the adjust bolt 400 is operated according to the operation of the operation lever while moving in the horizontal direction with the fixed gear 110 and the movable gear. When the two-stage jamming of the teeth of 140 occurs, it slides upward or downward with the movable gear 140 along the inclined surfaces 133 and 123 to precisely mesh or prevent the teeth from interfering.

The movable gear 140 is in close contact with the outer surface of the outer inclined guide 130, and a screw thread 141 meshing with the screw thread 111 of the fixed gear 110 is protruded from both sides of the inner surface, and an adjust bolt ( A bolt coupling hole 142 through which 400 passes is formed.

That is, the movable gear 140 linearly moves in the horizontal direction according to the operation of the adjust bolt 400 so that the screw thread 141 of the movable gear 140 is meshed with the screw thread 111 of the fixed gear 110 . will be.

At this time, it is effective to form the inclined guide support groove 143 between the both side threads 141 of the movable gear 140 to support the outer inclined guide 130 .

Also, on both sides of the movable gear 140 , movable gear wing portions 144 are formed to protrude inwardly so as to move in the vertical direction along both sides of the fixed gear 110 .

That is, when the movable gear 140 is operated in the vertical direction, it is possible to prevent the position from being changed along with the correct operation along the side surface of the fixed gear 110 .

The spring 150 is mounted between the inner inclined guide 120 and the outer inclined guide 130 and engages and releases the fixed gear 110 and the movable gear 140 according to the operation of the operation lever.

That is, both ends of the spring 150 are supported by the spring support groove 122 of the inner inclined guide 120 and the spring support groove 132 of the outer inclined guide 130, and the adjust bolt 400 operates. When the movable gear 140 according to the above moves to the fixed gear 150, the inner and outer inclined guides 120 and 130 can be maintained at regular intervals.

An embodiment of the steering column latch structure configured as described above will be described with reference to the following.

First, on both sides of the outer surface of the tilt bracket 300, threads 111 are formed to protrude in the vertical direction, and in the center, a bolt coupling section 112 through which the adjust bolt 400 passes is formed in the vertical direction, and in the upper and lower In order to prevent the inner and outer inclined guides 120 and 130 from being discharged to the upper and lower parts, the fixed gear 110 in which the position guide protrusion 113 is formed to protrude outward is mounted.

And it is disposed in the center of the fixed gear 110 while having a predetermined thickness and size between the both sides of the threads 111 constituting the fixed gear 110, and in the center is a bolt coupling hole through which the adjust bolt 400 passes. A spring support groove 122 for supporting the 121 and the spring 150 is formed, an inner inclined surface 123 is formed on the outer surface, and the side guide 124 protrudes to surround the outer inclined guide 130 on both sides. The formed inner inclined guide 120 is mounted.

Next, a bolt coupling hole 131 and a spring support groove 132 are formed in the center to the outside of the inner inclined guide 120, and an outer inclined guide having an outer inclined surface 133 corresponding to the inner inclined surface is formed on the inner surface ( 130) is installed.

And a screw thread 141 meshing with the screw thread 111 of the fixed gear 110 is formed on both sides of the outer surface to the outside of the outer inclined guide 130, and the bolt coupling hole through which the adjust bolt 400 penetrates in the center 142 is formed, a support groove 143 is formed between the both sides of the screw threads 141, and a movable gear 140 having a wing portion 144 protruding in the inward direction is mounted on both sides of the steering column latch structure. The assembly of (100) is to be completed.

At this time, a spring 150 having elasticity is inserted and mounted in the spring support groove 122 of the inner inclined guide 120 and the spring support groove 132 of the outer inclined guide 130, and the bolt coupling section 112 and The adjust bolt 400 protrudes in the horizontal direction in the portion corresponding to the bolt coupling hole (121, 131).

Here, it is revealed that the assembly sequence of the steering column may be configured differently from the above.

Next, the usage state of the steering column configured as described above is as follows.

First, when the user operates the operation lever to tilt up or tilt down, the adjust bolt 400 connected to the operation lever also moves in the left direction, and the steering column latch structure 100 moves and is fixed while moving in a straight line. The gear 110 and the movable gear 140 are separated.

And when the user operates the operation lever after tilting up or tilting down to the desired position, the adjust bolt 400 connected to the operation lever moves to the right, and the steering column latch structure 100 moves in a straight line. While moving, the fixed gear 110 and the movable gear 140 mesh with each other to fix the tilting up or tilting down state.

At this time, when two-stage jamming occurs between the screw thread 111 of the fixed gear 110 and the screw thread 141 of the movable gear 140, the inner and outer inclined guides 120 located inside the gears 110 and 140, 130), the outer inclined guide 130 moves upward or downward along the inclined surface 123 while a staggered load is generated, so that the threads 111 and 141 of the gears 110 and 140 are precisely meshed or the gear While the (110, 140) screw threads (111, 141) are maintained in the elasticity of the spring 150, it is possible to prevent the chiseling phenomenon. To enable this, the bolt coupling hole 131 formed in the outer inclined guide 130 and the bolt coupling hole 142 formed in the movable gear 140 have the same diameter as the outer diameter of the screw portion of the adjust bolt 400 . It is formed in a circular shape, and the bolt coupling hole 121 formed in the inner inclined guide 120 is preferably formed in a circular shape having a diameter slightly larger than the outer diameter of the screw portion of the adjust bolt 400 .

As described above, the steering column latch structure according to the present invention can not only solve the instability caused by the two-stage jamming of the fixed gear and the movable gear when the operation lever is operated, but also obtain the advantage of preventing secondary accidents.

In the above description of the steering column of the present invention with reference to the accompanying drawings, a specific shape and direction have been mainly described, but the present invention can be variously modified and changed by those skilled in the art, and these modifications and changes are within the scope of the present invention. should be construed as included.

100: steering column latch structure, 110: fixed gear,
120: inner inclined guide, 130: outer inclined guide,
140: movable gear, 150: spring,
200: mounting bracket, 300: tilt bracket,
400: adjust bolt.

Claims (4)

In the latch structure of a steering column for a vehicle installed at one end of an adjust bolt passing through a tilt bracket fixed to a mounting bracket mounted on a vehicle body, the position is fixed and released according to the tightening operation of the adjust bolt,
a fixed gear fixedly mounted on the outer surface of the tilt bracket, the outer surfaces of which are formed with threads in a vertical direction, and a bolt coupling section through which the adjust bolt passes in the center is formed in the vertical direction;
an inner inclined guide disposed in the center of the fixed gear, a bolt coupling hole and a spring support groove formed in the center, and an inner inclined surface formed on an outer surface thereof;
an outer inclined guide disposed on the outside of the inner inclined guide, a bolt coupling hole and a spring support groove formed in the center, and an outer inclined surface corresponding to the inner inclined surface is formed on the inner surface;
a movable gear in which the outer inclined guide is accommodated therein, a screw thread meshing with the screw thread of the fixed gear is formed on both sides of the inner surface, and a bolt coupling hole is formed in the center; and
and a spring for coupling and releasing the fixed gear and the movable gear while the ends are respectively supported in the spring support groove of the inner inclined guide and the spring support groove of the outer inclined guide.
The bolt coupling hole formed in the outer inclined guide and the bolt coupling hole formed in the movable gear are formed in a circular shape having the same diameter as the outer diameter of the screw portion of the adjust bolt,
The bolt coupling hole formed in the inner inclined guide is formed in a circle having a larger diameter than the outer diameter of the screw portion of the adjust bolt,
The spring support groove formed in the inner inclined guide is formed to extend radially outward from the bolt coupling hole formed in the inner inclined guide among the outer surfaces of the inner inclined guide,
The spring support groove formed in the outer inclined guide is a steering column latch structure extending radially outward from the bolt coupling hole formed in the outer inclined guide among the inner surfaces of the outer inclined guide.
The method of claim 1,
The steering column latch structure, characterized in that the upper and lower portions of the fixed gear have position guide projections protruding outward to prevent the inner and outer inclined guides from being discharged to the upper and lower portions.
The method of claim 1,
The steering column latch structure, characterized in that side guides are formed protrudingly on both sides of the inner inclined guide to surround the outer inclined guide.
The method of claim 1,
A steering column latch structure, characterized in that movable gear wing portions are formed on both sides of the movable gear to move vertically along both sides of the fixed gear.

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