KR20190073095A - Lever Structure of Clutch actuator - Google Patents

Abstract

The present invention relates to a lever structure of a clutch actuator, comprising: a housing having an accommodating unit therein; an electric means coupled to the housing and generating rotational force; a driving force conversion unit accommodated in the accommodating unit to be coupled to one side of the electric means, and converting the rotational force of the electric means to deliver the driving force of a reciprocating linear movement; a lever unit having one side end coupled to the driving force conversion unit, and delivering the linear movement of the driving force conversion unit by means of the other side end; a hinge unit fixating the inside of the lever unit and the housing, and functioning as a central shaft for the lever unit to rotate; a driving force delivering member having one side coming in contact with the other side end of the lever unit, and the other side delivering the driving force corresponding to the rotation of the lever unit; a sliding member having one side coupled to the other side end of the driving force delivering member, and receiving the driving force to make the reciprocating linear movement; and a driving rod unit coupled to the other side of the sliding member to receive the reciprocating linear movement.

Description

Lever Structure of Clutch Actuator [

The present invention relates to a lever structure of a clutch actuator, and more particularly to a lever structure of a clutch actuator for operating a clutch of a vehicle.

Generally, a manual transmission uses a clutch release cylinder or a concentric sleeve cylinder type clutch control system. When the driver presses the clutch pedal, the hydraulic pressure generated in the clutch master cylinder transfers the force through the tappet of the clutch release cylinder, and the force transmitted through the tappet pushes the clutch release fork to move the release bearing in the axial direction, .

In the case of such a clutch pedal and a hydraulic cylinder, there is a problem that the driver must operate the clutch pedal directly, and the driving feeling and the driving stability are greatly influenced by the skill of the driver. to be. At this time, the clutch interrupting action in the automatic manual transmission is performed by the clutch actuator.

Recently, DCT (Dual Clutch Transmission) has been actively developed. In order to secure a large driving force for controlling a clutch, a clutch actuator used in a conventional AMT (Automated Manual Transmission) Costs and maintenance costs were required. In the structure using the worm and the worm gear developed afterward, the actuator must be driven when the double clutch is released. As a result, problems such as malfunction are caused when the power is shut off.

 Therefore, it is necessary to increase the capacity of the motor or increase the size of the internal parts in order to obtain a large output with small power. Accordingly, there is a great need for a lever structure of a clutch actuator that can obtain a large driving force even with a small motor capacity, and can reduce the size of a component to obtain a compact design.

In order to overcome the above-described problems, the present invention will be described in detail below.

Korean Registered Patent KR 1601482 (2016.03.02)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the lever structure of the conventional clutch actuator as described above, and the inclination part is formed on one side of the power transmitting member to increase the length of the total stroke of the operating rod, And to provide a lever structure of a clutch actuator capable of realizing a compact design that can be reduced in size.

In order to achieve the above object, a lever structure of a clutch actuator according to the present invention includes: a housing having a housing portion therein; a transmission means coupled to the housing and generating a rotational force; A power conversion unit coupled to one side of the power conversion unit to convert a rotational force of the power transmission unit to transmit a driving force of reciprocating linear motion, a lever unit coupled to one end of the power conversion unit and configured to transmit linear motion of the power conversion unit to the other end, A hinge portion that fixes the lever portion and the inside of the housing and serves as a center shaft so that the lever portion is rotatable, and a hinge portion that contacts one side of the other end of the lever portion and transmits the driving force by the other side in accordance with rotation of the lever portion A power transmitting member, which is coupled to one end of the other end of the power transmitting member, A sliding member that is linearly reciprocated, and an actuating rod portion coupled to the other side of the sliding member to receive a linear reciprocating motion.

The lever structure of a clutch actuator according to an embodiment of the present invention may further include an air discharge passage through which the residual air is discharged to the armature side across the piston when the oil flows into the piston have.

In the lever structure of the clutch actuator according to the embodiment of the present invention, the lever portion is formed in a long plate-like shape, and a long hole-shaped guide portion is formed on one side of the lever portion to be engaged with a fastening protrusion formed on the ball screw nut, According to the linear reciprocating motion, the fastening protrusion is slidably moved on the guide portion, and the lever portion is rotated around the hinge portion and rotated.

In the lever structure of the clutch actuator according to the embodiment of the present invention, a rolling bearing is disposed at the other end of the lever portion so as to be rotatable, and the rolling bearing is mounted on the inclined surface to move the power transmitting member to one side, It is possible to form a slant portion at the end of the slider.

In the lever structure of the clutch actuator according to the embodiment of the present invention, the distance from the hinge portion to one side of the lever portion is set longer than the distance from the hinge portion to the other side of the lever portion so as to increase the rotational force of the transmission means Of course it is possible.

In the lever structure of the clutch actuator according to the embodiment of the present invention, both ends of the ball screw shaft are provided with bearings to support the ball screw shaft, and between the ball screw nut and the ball screw nut, So as to assist the movement of the ball screw nut.

In the lever structure of the clutch actuator according to the embodiment of the present invention, one side of the inclined portion may be provided with a guide roller to contact the bottom surface of the housing and prevent friction.

More details on this will be described later in the drawings and the like.

As described above, according to the lever structure of the clutch actuator according to the present invention, since the inclined portion is formed on one side of the power transmitting member to increase the length of the total stroke of the operating rod portion, the length of the lever portion can be reduced, There is an effect that can be implemented.

1 is a front sectional view of a lever structure of a clutch actuator according to one embodiment of the present invention.
2 is a partially enlarged view of a lever structure according to one embodiment of the present invention.
3 is a front sectional view of a lever structure of a clutch actuator according to another embodiment of the present invention.

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

1 to 3, a lever structure 100 of a clutch actuator according to the present invention includes a housing 110 having a housing part 111 therein, a motor 110 coupled to the housing 110, A power conversion unit 120 housed in the storage unit 111 and coupled to one side of the transmission unit 112 and transmitting the driving force of the reciprocating linear motion by changing the rotational force of the transmission unit 112, A lever 130 coupled to one end of the power conversion unit 120 and transmitting linear motion of the power conversion unit 120 to the other end of the power conversion unit 120, A hinge part 132 which fixes the inside of the lever part 130 and serves as a central axis to allow the lever part 130 to rotate, a hinge part 132 which is in contact with one side of the other end of the lever part 130, A power transmitting member (140) provided to transmit the driving force to the other side, A sliding member 150 coupled to the other end of the sliding member 140 and reciprocated linearly by receiving a driving force, an operating rod 160 coupled to the other side of the sliding member 150 to receive a linear reciprocating motion, .

At one side of the housing 110 having the receiving part 111 therein, there is provided a driving means 112 for receiving driving force from the outside to generate a driving force.

More specifically, the transmission means 112 is preferably composed of an electric motor and receives electric power from the outside to generate a driving force. At this time, one side of the electric motor is coupled with the housing 110, and the driving shaft of the electric motor is inserted into the housing 110 to transmit the driving force.

One side of the transmission means 112 is coupled with the power conversion unit 120 to transmit power.

More specifically, the driving shaft of the transmission unit 112 is coupled with one end of the power conversion unit 120 to transmit the driving force, and the power conversion unit 120 receives the driving force of the transmission unit 112 The driving force is transmitted to the other end. Here, the power conversion unit 120 may include a ball screw shaft 122 and a ball screw nut 121. The driving shaft of the transmission unit 112 is engaged with one end of the ball screw shaft 122 and rotates together with the ball screw shaft 122. The ball screw nut 121 is engaged with the ball screw shaft 122, And can be moved in the axial direction by a screw thread formed on the side surface of the ball screw shaft 122 in accordance with the rotation. That is, the rotational movement of the transmission means 112 is transmitted to the ball screw shaft 122, and the rotational motion of the ball screw shaft 122 is converted into linear motion in the ball screw nut 121.

At this time, shaft bearings 162 and 163 are provided at both ends to support the ball screw shaft 122 and the ball screw shaft 122 is supported only by the shaft bearings 162 and 163. This structure can stably support the shaft bearings 162 and 163 even when the ball screw shaft 122 rotates, thereby doubling the driving force as desired. One of the two shaft bearings 162 and 163 is fitted in the ball screw shaft 122 so as to support the ball screw nut 121 from the shaft bearings 162 and 163, And an assist spring 161 disposed between the ball screw nut 121 and the ball screw nut 121. The assist spring 161 assists the ball screw nut 121 to move to one side so that the ball screw nut 121 can be easily moved with a small force and a small capacity motor can be used Do. In addition, even when the ball screw nut 121 is maintained at a position where the ball screw nut 121 is moved to one side for a predetermined time, the assist spring 161 can stably support the ball screw nut 121.

The lever part 130 is engaged with the ball screw nut 121 and the lever part 130 is rotated according to the movement of the ball screw nut 121.

More specifically, the ball screw nut 121 is provided with a fastening protrusion 123, and at one side of the lever part 130 formed in a long plate-like shape, And the other side thereof is disposed so as to be in contact with one side of the power transmitting member 140 to be described later. Accordingly, the lever portion 130 is moved to one side or the other side by the shape of the guide portion 131 according to the movement of the fastening protrusion 123. A hinge part 132 is provided between one side and the other side of the lever part 130 so that the lever part 130 is fixed and rotated. Therefore, the ball screw nut 121 reciprocatingly linearly moved by receiving the driving force from the transmission means 112 transmits the driving force to the lever portion 130 through the guide portion 131 and is fixed to the housing 110 The lever 130 is reciprocally rotated by the hinge 132 in a circular arc. That is, when the ball screw nut 121 is moved to one side and the coupling protrusion 123 applies driving force to the lever portion 130 along the guide portion 131, the other end of the lever portion 130 When the ball screw nut 121 is moved to the other side and the guide part 131 is moved to the other side, the lever part 132 is rotated about the hinge part 132 130 are rotated to one side to transmit the driving force to the power transmitting member 140. [

A rolling bearing 133 is provided at the other end of the lever portion 130 and the inclined portion 141 formed on one side of the power transmitting member 140 by the rolling bearing 133 according to the rotation of the lever portion 130 And transmits the driving force to move the power transmitting member 140 to one side.

More specifically, the other end of the lever portion 130 is provided with a rolling bearing 133 so as to be rotatable. The power transmitting member 140 is constituted by an output lever 142 which is coupled with an operation rod 160 to be described later from a slope part 141 which is in contact with the rolling bearing 133 through a lower end of the lever part 130 do. The inclined portion 141 is formed by protruding from the end of the power transmitting member 140 and has a ramp structure having a thicker thickness toward the upper side. When the lever 130 rotates to one side about the hinge 132, the rolling bearing 133 rotates in contact with the slope 141 and pushes the slope 141 to one side, And the power transmitting member 140 is moved to one side in accordance with the movement of the inclined portion 141. [ This structure can increase the total stroke distance as compared with the structure in which the lever portion 130 and the power transmitting member 140 are coupled by the pin. This structure adds the distance by which the power transmitting member 140 is moved by the thickness DELTA S` due to the movement distance DELTA S of the power transmitting portion and the inclination angle of the inclined portion 141 in accordance with the rotation of the lever portion 130 As a result, the distance of the total stroke (? S +? S`) can be made longer by moving the smaller lever, thereby reducing the length of the lever part (130). That is, the distance (? S +? S) of the total stroke is increased by the thickness (? S) due to the inclination angle of the inclined portion 141 to reduce the capacity of the small motor and the length of the lever portion 130, .

The distance L ₁ from the hinge portion 132 to one side of the lever portion 130 is greater than the distance L ₁ from the hinge portion 132 to the lever portion 130 to increase the driving force of the transmission means 112. [ May be longer than the distance L ₂ to the other side of the light guide plate. This structure is such that as the distance L ₁ from the hinge portion 132 to one side of the lever portion 130 is longer than the distance L ₂ from the hinge portion 132 to the other side of the lever portion 130 The driving force transmitted from the transmission means 112 to the operation rod portion 160 is increased. Accordingly, the size of the driving force required can be adjusted by adjusting the position of the hinge portion 132 during manufacture.

On the other hand, the other end of the output lever 142 is coupled with the actuating rod 160 to receive the driving force.

More specifically, the output lever 142 is formed in a plate shape of a long bar and is coupled to one side of the sliding member 150 from the inclined portion 141 through the lower end of the lever portion 130. When the output lever 142 receives the power from the lever unit 130, the sliding member 150 receives the power and can perform a linear reciprocating motion together with the operation rod 160. As a result, the operating rod 160 performs a reciprocating linear motion according to the operation of the power transmitting member 140, and the end of the operating rod 160 is engaged or disengaged by operating the lever of the clutch. At this time, when the current supplied from the transmission means 112 is cut off, the power of the operating rod portion 160 that manipulated the lever of the clutch is reduced and the force is applied to the operating rod portion 160 by the reaction force from the clutch interior The ball screw nut 121 is rotated to rotate the ball screw shaft 122 to automatically release the clutch while blocking power transmission, thereby securing the safety of the vehicle.

In addition, a wear compensation unit 170 may be provided on one side of the operation rod 160 to prevent malfunction due to wear of the clutch. Therefore, when the wear of the clutch disc is generated, it is possible to compensate the wear of the clutch disc to smoothly perform the operation of the clutch.

The operation rod 160 performs reciprocating linear motion according to the operation of the power transmitting member 140 and the end of the operation rod 160 is engaged or disengaged by operating the lever of the clutch. At this time, when the current supplied from the transmission means 112 is cut off, the power of the operating rod portion 160 that manipulated the lever of the clutch is reduced and the force is applied to the operating rod portion 160 by the reaction force from the clutch interior The ball screw nut 121 is rotated to rotate the ball screw shaft 122 to automatically release the clutch while blocking power transmission, thereby securing the safety of the vehicle.

In another embodiment, the rolling bearing 133 and the inclined portion 141 may have a structure that is exposed to the outside, but may be covered with the housing 110 to protect the parts. In this case, the power transmitting member 140 may have a structure in which a guide roller 143 is provided at an end of the inclined portion 141 in order to reduce frictional force when the power transmitting member 140 moves. The guide roller 143 contacts the bottom surface of the housing 110 and the power transmitting member 140 is moved to the one side according to the movement of the lever portion 130 or is moved to the other side due to the restoring force of the clutch, So that friction can be reduced.

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

100: Lever structure of clutch actuator
110: Housing
111:
112: power transmission means
120: Power conversion section
121: Ball Screw Nut
122: Ball screw shaft
123: fastening projection
130: lever portion
131: guide portion
132: Hinge section
133: Rolling bearings
140: Power transmission member
141:
142: Output lever
143: guide roller
150: Sliding member
160:
161: assist spring
162, 163: Shaft bearing
170: wear compensation section

Claims (7)

A housing having a housing part therein;
A transmission means coupled to the housing and generating a rotational force;
A power conversion unit housed in the storage unit and coupled to one side of the transmission unit, for converting a rotational force of the transmission unit and transmitting a driving force of reciprocating linear motion;
A lever portion coupled to the power converting portion and one end of the power converting portion and configured to transmit linear motion of the power converting portion to the other end;
A hinge portion that fixes the lever portion and the inside of the housing and performs a central axis to rotate the lever portion;
A power transmission member having one end abutting one end of the lever portion and the other end transmitting a driving force in accordance with the rotation of the lever portion;
A sliding member coupled to one end of the power transmission member at one end thereof and reciprocated linearly by receiving a driving force;
An actuating rod coupled to the other side of the sliding member to receive a linear reciprocating motion;
The lever structure of the clutch actuator. 2. The ball screw nut according to claim 1, wherein the power converting unit comprises a ball screw nut and a ball screw shaft, and the ball screw shaft rotates in accordance with rotation of the transmission unit, and the ball screw nut is linearly reciprocated Wherein the clutch actuator has a lever structure. 3. The ball screw nut according to claim 2, wherein the lever portion is formed in a long plate-like shape, and a long hole-shaped guide portion is formed at one side thereof and is engaged with a fastening protrusion formed on the ball screw nut, Wherein the guide portion is slidably moved so that the lever portion rotates with an arc about the hinge portion. The power transmitting member according to claim 3, wherein a rolling bearing is disposed on the other end of the lever portion so as to be rotatable, and an inclined portion is further formed at an end of the power transmitting member so that the rolling bearing rides on an inclined surface to move the power transmitting member to one side The lever structure of the clutch actuator is characterized. 5. The lever structure of a clutch actuator according to claim 4, wherein a distance from the hinge portion to one side of the lever portion is set to be longer than a distance from the hinge portion to the other side of the lever portion so as to increase the rotational force of the transmission means. 3. The ball screw nut according to claim 2, wherein both ends of the ball screw shaft are provided with bearings to support the ball screw shaft, and an assisting spring is provided between the ball screw nut and the bearing provided on the one side, Wherein the clutch actuator has a lever structure. 5. The lever structure of claim 4, wherein one side of the inclined portion contacts a bottom surface of the housing and is provided with a guide roller to prevent friction.

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