KR20210056519A - A Multi-Structure Electric Column Using a Ball Retainers - Google Patents

Abstract

The present invention relates to an electric column with a multi-stage structure using a ball retainer, including a column housing in order to form the electric column and controlling the operation of the column housing through a telemotor to control tele-in/tele-out. The electric column comprises: an inner jacket formed to be inserted into the column housing, having a plurality of ball slot units formed in a longitudinal shape with respect to an axial direction on a hollow shape and provided such that balls exposed through the ball slot units support the inner side surface of the column housing by fit-coupling the ball retainer, in which a plurality of balls are formed, to correspond to the ball slot units; the ball retainer provided to be inserted inside the inner jacket, having a cylindrical body with a predetermined length and provided with the plurality of balls such that the balls protrude out of the inner jacket corresponding to the ball slot units; and an outer jacket installed to be inserted inside the ball retainer provided inside the inner jacket and having a guide slot unit to be supported in contact with the balls on the inner surface. The present invention can ensure ease of assembly and fixing firmness of the inner jacket and the outer jacket through application of the ball retainer.

Description

{A Multi-Structure Electric Column Using a Ball Retainers}

The present invention relates to a multi-stage motorized column using a ball retainer, and more particularly, to a multi-stage motorized column using a ball retainer that can secure tele-in/tele-out functions and assemble ease and rigidity. It's about the column.

In general, the steering system of a vehicle is a device that allows the driving direction of the vehicle to be changed at the will of the driver, and is a device that assists the driver to advance the vehicle in the desired direction by arbitrarily changing the rotation center of the vehicle's front wheel. .

In such a steering system, the steering force generated by the driver manipulating the steering wheel is transmitted to the rack-pinion mechanism at the bottom through the steering shaft, and finally, the direction of both wheels is changed.

On the other hand, the steering system includes telescope and tilt functions, and through these functions, the driver can adjust the protrusion and tilt angle of the steering wheel according to his or her height or body shape, thereby enabling smooth steering operation. can do.

In addition, these telescope and tilt functions were initially a manual operation method in which the driver had to manually operate the control lever to move the steering wheel in the axial direction or rotate the steering wheel around the hinge axis, but later, the automatic operation method using a motor. Was developed.

1 is a perspective view showing an electric steering column of a vehicle according to the prior art. As shown in FIG. 1, the electric steering column of a vehicle according to the prior art includes a steering shaft 101 connected to a steering wheel (not shown) of a vehicle, a column housing 103 surrounding the steering shaft 101, and a column. A sliding housing 105 that is slidably inserted in the axial direction into the housing 103, a nut fixing portion 107 formed at the rear end of the sliding housing 105, and coupled to the outer circumferential side of the nut fixing portion 107, but on the inner circumferential surface. A telescope nut 117 with a female thread, a telescope motor 111 formed on one side of the column housing 103, a worm shaft 113 driven by the telescope motor 111, and a worm wheel 115 at the front end. It is formed and meshes with the worm shaft 113 and includes a telescope screw 109 inserted into the telescope nut 117 by forming a male screw at the rear end.

The steering shaft 101 has an upper end connected to a steering wheel (not shown) and rotates according to a driver's operation of the steering wheel (not shown), thereby steering force to both wheels (not shown) through the rack-pinion mechanism unit (not shown) at the bottom. To deliver.

In addition, the steering shaft 101 is composed of an upper steering shaft 101a and a lower steering shaft 101b formed to be slidable to each other, so that a telescope operation is possible.

The column housing 103 is formed to surround the steering shaft 101, and supports the steering shaft 101 by being fixed to the vehicle body through the upper bracket 121 formed on the upper side and the lower bracket 123 formed on the lower side. . The sliding housing 105 is inserted so as to be slidable at the upper end of the column housing 103 while surrounding the steering shaft 101. The sliding housing 105 has a cylindrical shape, and a nut fixing part 107 is coupled to the rear end thereof.

The telescope nut 117 is a device that enables a telescope operation by moving forward or backward in the axial direction according to the rotation of the telescope screw 109, and is press-fit into the outer circumferential side of the nut fixing part 107. It is formed extending in the axial direction.

As described above, the schematic structure of a general electric column has been described. In recent years, with the rapid development of vehicles for autonomous driving, securing space for drivers in autonomous driving mode is emerging as a hot topic.

The biggest problem of the existing electric column was that it was able to realize a tele amount within 100 mm maximum in tele-in/tele-out drive. Therefore, it is necessary to increase the amount of tele and improve the structure of the column accordingly.

KR 10-2018-0112231 KR 10-0992713 KR 10-1208890 KR 10-1305837

The present invention for solving the above problems, when designing the electric column structure of a vehicle, it is possible to secure the movement of the tele-in / tele-out of the column, and the structure of the electric column that can satisfy the assembly rigidity. I want to provide, but I have a purpose.

The present invention for achieving the above object is an electric column comprising a column housing to configure an electric column and controlling the telein/teleout by controlling the driving of the column housing through a telemotor, the column housing The ball slot is configured to be inserted into the inside of the hollow shape and formed in a length shape with respect to the axial direction in a hollow shape, and a ball retainer having a plurality of balls formed to correspond to the ball slot is fitted and coupled to the ball slot. An inner jacket provided so that the ball exposed through the part supports the inner surface of the column housing, is inserted into the inner jacket, has a cylindrical body having a predetermined length, and corresponds to the ball slot, the ball is an inner jacket It comprises a ball retainer provided with a plurality of balls to protrude outward, and an outer jacket having a guide slot portion inserted into the ball retainer provided inside the inner jacket and supported in contact with the inner ball.

In addition, the ball retainer has a cylindrical shape, and has a structure in which one side is cut along the longitudinal direction so that the diameter is contracted by external pressure.

In addition, the column housing includes a through hole to expose the inner jacket, and a first fixing portion configured to pressurize the inner jacket through the through hole from the outside to provide a fixing force.

In addition, the inner jacket has a through hole so that the outer jacket is exposed, and a second fixing part for providing a fixing force by pressing the outer jacket by communicating the through hole with the through hole formed in the column housing from the outside is provided.

Further, the first fixing portion and the second fixing portion include a nut providing a tightening force and a fixing member receiving the tightening force of the nut and contacting the inner jacket or the outer jacket to provide a fixing pressure.

In addition, the ball retainer is configured such that balls are formed in four directions based on a cross-sectional view, so that the outer side of the ball retainer supports the inner jacket to the column housing, and the inner side of the ball retainer supports the outer jacket.

In addition, the guide slot portion is provided to have a shape that is bent to be guided to a ball protruding toward the inner side of the ball retainer.

The present invention constructed and operated as described above has the advantage of being easy to drive the telein/teleout of the motorized column by assembling the rigidity of the multistage jacket as a ball retainer in constructing the motorized column.

In addition, the present invention has the effect of securing ease of assembly and fixing rigidity of the inner jacket and the outer jacket through the application of the ball retainer.

1 is a schematic perspective view of an electric column according to the prior art,
2 is an overall configuration diagram of a multi-stage electric column using a ball retainer according to the present invention,
3 is a perspective view of an electric column of a multistage structure utilizing a ball retainer according to the present invention,
4 is a detailed view showing an inner jacket and a ball retainer of a multi-stage electric column using a ball retainer according to the present invention;
5 is a detailed cross-sectional view of the assembly of FIG. 4;
6 is an exploded perspective view of an inner jacket and an outer jacket according to the present invention,
7 is a detailed cross-sectional view of the assembly of FIG. 6;
8 is a perspective view showing the reinforcing nuts of the inner jacket and the outer jacket in the electric column housing according to the present invention,
9 is a detailed view of the fixing unit according to the present invention.

Hereinafter, a multi-stage electric column using a ball retainer according to the present invention will be described in detail with reference to the accompanying drawings.

In the electric column of a multi-stage structure using a ball retainer according to the present invention, in an electric column that includes a column housing to configure the electric column and controls the telein/teleout by controlling the driving of the column housing through a telemotor. , It is configured to be inserted into the inner side of the column housing, and a plurality of ball slots are formed in a length shape with respect to the axial direction in a hollow shape, and a ball retainer having a plurality of balls formed to correspond to the ball slots is fitted and coupled. The inner jacket is provided to support the inner surface of the column housing and the ball exposed through the ball slot portion is inserted into the inner jacket, has a cylindrical body having a predetermined length, and corresponds to the ball slot portion. It comprises a ball retainer provided with a plurality of balls so that the ball protrudes outward from the inner jacket, and an outer jacket having a guide slot portion inserted and installed into the ball retainer provided inside the inner jacket and supported in contact with the inner ball. .

The electric column of a multistage structure using a ball retainer according to the present invention is inserted into the column housing 10 to have a multistage structure by being inserted into the hollow inner jacket 20 for driving the telescopic mechanism and the inner jacket again. An assembly structure through a ball retainer in order to have a mechanical structure that can better control the amount of tele in order to combine the inner jacket and the outer jacket with a hollow outer jacket 30 to be configured. By adopting, it has the technical gist of the electric column structure that can improve the ease of assembly as well as increase the amount of tele.

2 is an overall configuration diagram of a multi-stage electric column using a ball retainer according to the present invention. As a whole, the electric column includes the column housing 10 and the tele motor 11 to control the tele amount of the steering according to the user's operation. At this time, in the present invention, the axis of the column is configured to have a multi-stage structure of an inner jacket (1-stage housing; 20) and an out jacket (2-stage housing; 30) to overcome the limit of the existing column tele amount within 100 mm It is characterized in that it is configured in a multi-stage structure for increase.

The detailed configuration will be described in detail with reference to FIGS. 3 to 8 below.

3 is a perspective view of a multi-stage electric column using a ball retainer according to the present invention. As shown, it is a perspective view of the overall configuration of the electric column, and the inner jacket 20 and the outer jacket 30 are multi-stage coupled to the column housing 10 corresponding to the main housing, and a driving shaft (unsigned) is inside the outer jacket. ) Is installed. In addition, a telemotor is installed on the outer side of the column housing to transmit the driving force generated by the motor to the outer jacket 30.

Here, the present invention is configured to have a multistage structure of the inner jacket 20 and the outer jacket 30, and the ball retainer has an integrated coupling structure in order to secure the amount of telescopic and structural stability through the coupling thereof.

4 is a detailed view showing an inner jacket and a ball retainer of a multi-stage electric column using a ball retainer according to the present invention. As shown, the inner jacket 20 approximately maintains a cylindrical shape having a hollow, and has a structure in which the ball slot portion 24 is cut along the longitudinal direction toward the center. Preferably, according to the ball arrangement structure of the ball retainer 21, the ball slot 24 is preferably configured in four directions.

On the other hand, as shown in the figure, the ball retainer 21 has a cylindrical body 23 made of metal, and the body has a structure in which one side in the length direction is completely cut. This is for fitting assembly through tension when inserted into the inner jacket and installed.

The ball retainer is configured to provide frictional rotation through ball rotation when a metal ball is internally coupled to a body and a friction force is transmitted to the ball. Since a plurality of balls are formed on the same line with respect to the axial direction, the ball retainer provides support in the axial direction and at the same time implements a guide role during friction. In addition, about 3 to 6 balls are located on the same line, and of course, the number of balls can be changed as much as possible to provide support and guides in the axial direction.

In addition, a plurality of balls are formed in each of the four side directions of the body, which are arranged in the same shape as the direction of the ball slot. Accordingly, when the ball retainer 21 is inserted into the inner jacket and inserted into the ball slot, the balls in four directions are exposed to the outside of the ball slot for a certain range.

Here, the ball protruding outward from the ball slot part contacts the inner side of the column housing, and the ball on the inner side of the ball retainer contacts the outer side of the outer jacket 30.

5 is a detailed cross-sectional view of the assembly of FIG. 4. 5 is a cross-sectional view of the inner jacket 20 in which the ball retainer 21 is coupled. As shown, the ball penetrating outside the ball slot portion of the inner jacket 20 is positioned to protrude outward, and will be described in detail in FIG. 7 below, but the outer jacket installed inside the ball retainer 21 It characterized in that it is configured to be supported in contact.

6 is an exploded perspective view of an inner jacket and an outer jacket according to the present invention.

The coupling structure of the inner jacket and the ball retainer has been described in detail in FIGS. 4 and 5, and in FIGS. 6 and 7, the structure of the outer jacket 30 that is inserted and coupled into the inner jacket will be described. As shown in Fig. 6, the outer jacket has a hollow cylindrical shape as well, and a guide slot 31 is provided on the outer surface of the outer jacket 30 to provide support by contacting the ball of the ball retainer. have.

As the guide slot 31 is guided by contacting the ball protruding into the ball retainer as described with reference to FIG. 5, it is possible to provide a flexible contact force in the telein/teleout of the column.

The guide slot portion 31 has a structure that is internally bent, and the size of the bent surface is processed to correspond to the curved surface of the ball of the ball retainer, so that when the outer jacket is coupled, it is possible to maintain close tightness.

7 is a detailed cross-sectional view of the assembly of FIG. 6. As shown, the column housing 10, the inner jacket 20, the ball retainer 21, and the outer jacket 30 are sequentially combined in a cross-sectional view. The inner jacket is guided from the column housing, the outer jacket is guided from the inner jacket, and a slide guide is implemented through the ball retainer 21 having a predetermined length positioned therebetween.

Accordingly, the present invention proposes a column structure of a multi-stage structure to which a ball retainer is applied, so that the tele amount of the steering wheel can be increased, as well as ease of assembly, robustness, and rigidity can be maintained.

Meanwhile, in the present invention, in order to secure the assembly stability of the inner jacket and the outer jacket, a method of fixing through a separate fixing part is applied.

8 is a perspective view showing the reinforcing nuts of the inner jacket and the outer jacket in the electric column housing according to the present invention. A hole communicating with the inner jacket is provided as the column housing, and the first fixing part 40 and the second fixing part 41 are applied thereto to provide a tightening force. The first fixing part 40 and the second fixing part 41 are one nut member and provide a tightening pressure through a hole communicating from the column housing to the inner jacket. In addition, the second fixing unit may provide a tightening force through a hole communicating with the inner jacket and the outer jacket.

As shown in FIG. 9, a separate fixing member 42 is additionally provided below the first fixing part 40, and the fixing member transmits the tightening force of the fixing part to the inner jacket (or the outer jacket). The fixing member is made of a synthetic resin (plastic) material to pressurize the inner jacket by the tightening force of the fixing part. Likewise, the second fixing part 41 secures rigidity by providing a tightening force to the outer jacket through a communication space formed as an inner jacket.

The present invention constituted as described above has the advantage of being easy to drive the telein/teleout of the motorized column by assembling the stiffness of the multistage jacket as a ball retainer in configuring the motorized column.

In the above, although it has been described and illustrated in connection with a preferred embodiment for illustrating the principle of the present invention, the present invention is not limited to the configuration and operation as illustrated and described as such. Rather, it will be well understood by those skilled in the art that many changes and modifications can be made to the present invention without departing from the spirit and scope of the appended claims. Accordingly, all such appropriate changes and modifications and equivalents should be considered to be within the scope of the present invention.

10: column housing
11: Tele motor
20: inner jacket
21: ball retainer
22: ball slot
30: Out jacket
31: guide slot
40: the first fixed government
41: The second fixed government
42: fixing member

Claims (7)

In an electric column that includes a column housing to configure an electric column and controls telein/teleout by controlling the drive of the column housing through a telemotor,
Consisting of being inserted into the inside of the column housing, a plurality of ball slots are formed in a length shape with respect to the axial direction in a hollow shape, and a ball retainer having a plurality of balls corresponding to the ball slots is fitted and coupled. An inner jacket provided so that the ball exposed through the ball slot part supports the inner surface of the column housing;
A ball retainer inserted into the inner jacket, having a cylindrical body having a predetermined length, and having a plurality of balls so that the ball protrudes outward from the inner jacket corresponding to the ball slot; And
An electric column having a multi-stage structure using a ball retainer comprising a; an outer jacket having a guide slot portion inserted into the ball retainer provided inside the inner jacket and supported in contact with the inner ball. The method of claim 1, wherein the ball retainer,
A multi-stage motorized column using a ball retainer that is cylindrical in shape and has a structure in which one side is cut along the length direction and the diameter is contracted by external pressure. The method of claim 1, wherein the column housing,
An electric column having a multistage structure using a ball retainer having a through hole to expose the inner jacket, and having a first fixing portion that presses the inner jacket through the through hole from the outside to provide a fixing force. The method of claim 3, wherein the inner jacket,
A multi-stage structure utilizing a ball retainer provided with a through hole to expose the out jacket and provided with a second fixing portion that presses the out jacket by communicating the through hole formed in the column housing with the through hole from the outside to provide a fixing force. Motorized column. The method of claim 3 or 4, wherein the first fixed portion and the second fixed portion,
A multi-stage electric column using a ball retainer comprising a nut providing a tightening force and a fixing member receiving the tightening force of the nut and contacting the inner jacket or the outer jacket to provide a fixed pressure. The method of claim 1, wherein the ball retainer,
A multi-stage motorized column utilizing a ball retainer in which balls are formed in four directions based on cross-sectional view, so that the outer side of the ball retainer supports the inner jacket to the column housing, and the inner side of the ball retainer supports the outer jacket. The method of claim 1, wherein the guide slot,
An electric column having a multi-stage structure using a ball retainer provided to have a shape that is bent to be guided to a ball protruding toward the inner side of the ball retainer.

Images