JP2021046192A - Operation control device of handle of automatic operative golf cart - Google Patents

Abstract

To provide an operation control device of a handle of an automatic operative golf cart which performs effective operation control of a handle of an automatic operative golf cart, and prevents the handle from controlling turning of tires when automatic operation of the automatic operative golf cart is operated, and is returned back to a state where the turning of the tires can be controlled by the handle from the state where the turning thereof cannot be controlled by the handle in manual operation.SOLUTION: An operation control device of a handle of an automatic operative golf cart includes a movement shaft sleeve 1, displacement driving means, a manual turning shaft body 3, a fixed columnar body 4 and an automatic turning shaft body 5, connects the movement shaft sleeve and the fixed columnar body or an automatic shaft body connection part by driving of the displacement driving means, and controls operation of the handle of the automatic operative golf cart according to automatic operation or manual operation of the automatic operative golf cart.SELECTED DRAWING: Figure 3

Description

The present invention relates to an autonomous driving vehicle, and more particularly to an operation control device for a handle of an autonomous driving golf cart.

An autonomous vehicle is also called a driverless car or a robot car, and is a vehicle that can be automatically driven unmanned based on the environmental detection result. In recent years, research on vehicle decision-making, command transmission, mechanism operation, etc. has been promoted, and the technology of autonomous vehicles has made dramatic progress.

With the development of self-driving car technology, future golf carts will include a manual driving function and an automatic driving function, and can be arbitrarily switched to manual driving or automatic driving depending on the situation. However, in the conventional technology, the steering wheel of an autonomous vehicle turns left and right depending on the direction of travel of the vehicle even when the autonomous driving is executed, and it is easy for the driver to come into contact with the steering wheel. It may cause a malfunction and lead to an accident such as a runaway or overturning of the vehicle. Therefore, how to control the steering wheel according to the manual driving or automatic driving of such a new type of automatic driving golf cart becomes an issue.

Therefore, the present invention performs effective operation control on the steering wheel of the autonomous driving golf cart, and when the automatic driving of the autonomous driving golf cart is activated, the steering wheel cannot control the turning of the tires, and when the steering wheel is manually operated, Provided is an operation control device for the steering wheel of an autonomous driving golf cart that can return from a state in which the steering wheel cannot be controlled to a state in which the turning of the tire by the steering wheel can be controlled.

The technical means used by the present invention to solve the conventional technical problem is a device that controls the operation of the handle of the automatic driving golf cart in response to the manual operation or the automatic driving of the automatic driving golf cart, and has an inner diameter surface. A moving shaft sleeve having a connecting portion inside the shaft sleeve and having a connecting portion outside the shaft sleeve on the outer diameter surface at one end, and the moving shaft sleeve connected to the moving shaft sleeve and moved so as to move in the axial direction of the moving shaft sleeve. The displacement driving means for driving the shaft sleeve and the manual shaft body connecting portion provided on the outer diameter surface with one end connected to the handle are connected to the moving shaft sleeve by connecting to the connecting portion inside the shaft sleeve, and the moving A manual turning shaft body that moves the moving shaft sleeve in the axial direction of the moving shaft sleeve by driving the driving means to displace the connection portion in the shaft sleeve with respect to the manual shaft body connection portion, and the automatic driving golf It is installed so as to be fixed to a cart, has a hollow space for accommodating the manual swivel shaft body, and a pillar internal connection portion provided on an inner diameter surface at one end, and the moving shaft sleeve is moved by driving the moving driving means. By moving the moving shaft sleeve in the axial direction, the shaft sleeve outer connection portion is connected to the pillar internal connection portion, and one end is connected to the automatic turning means, and the automatic shaft body connection portion is connected to the outer diameter surface. The moving shaft sleeve is moved in the axial direction of the moving shaft sleeve by the driving of the moving driving means, and the connecting portion in the shaft sleeve is connected to the automatic shaft body connecting portion. By driving the displacement driving means, the moving shaft sleeve is displaced toward the manual turning shaft body along the axial direction of the moving shaft sleeve and away from the automatic turning shaft body. By connecting the shaft sleeve outer connection portion to the pillar internal connection portion and disconnecting the shaft sleeve inner connection portion from the automatic shaft body connection portion, the automatic operation golf cart is automatically operated, and the displacement drive means of the displacement drive means. By driving, the moving shaft sleeve is separated from the manual swivel shaft body along the axial direction of the moving shaft sleeve and displaced toward the automatic swivel shaft body, so that the shaft sleeve outer connection portion is inside the pillar. The automatic operation is characterized in that the automatic operation golf cart is manually operated by disconnecting from the connection portion and connecting the connection portion in the shaft sleeve to the automatic shaft body connection portion. Provided is an operation control device for a handle of a golf cart.

In one embodiment of the present invention, there is provided the above-mentioned operation control device for the handle of an automatic driving golf cart, characterized in that the displacement driving means is a solenoid valve.

In one embodiment of the present invention, the connection portion in the shaft sleeve is composed of a plurality of shaft sleeve axial convex bodies and a plurality of shaft sleeve axial concave bodies, and each shaft sleeve axial convex body and each shaft sleeve shaft. Provided is the above-described automatic driving golf cart handle operation control device, wherein the directional concave body extends from one end to the other end of the shaft sleeve inner connection portion in the shaft sleeve axial direction.

In one embodiment of the present invention, the manual shaft body connecting portion is a plurality of manual shaft body axial convex bodies or a plurality of manual shafts extending from one end to the other end in the axial direction of the manual shaft body connecting portion. Provided is an operation control device for a handle of the above-mentioned self-driving golf cart, which comprises a body axis concave body.

In one embodiment of the present invention, the automatic shaft body connecting portion is a plurality of automatic shaft body axial convex bodies or a plurality of automatic shafts extending from one end to the other end in the axial direction of the manual shaft body connecting portion. Provided is an operation control device for a handle of the above-mentioned self-driving golf cart, which comprises a body axis concave body.

In one embodiment of the present invention, the shaft sleeve outer connection portion is a plurality of shaft sleeve annular installation convex bodies or shaft sleeve annular installation concave bodies that are radially installed on the outer surface of the moving shaft sleeve in an annular shape. The above-mentioned automatic driving golf cart handle operation control device is provided.

In one embodiment of the present invention, the in-column connection portion is a plurality of fixed column annular installation convex bodies or fixed column annular installation concave bodies that are radially installed on the inner surface of the fixed column in an annular shape. Provided is an operation control device for a handle of the above-mentioned self-driving golf cart, which is characterized by being present.

According to the technical means adopted in the present invention, in the operation control device for the handle of the self-driving golf cart of the present invention, the handle of the self-driving golf cart operates in response to the manual operation or the automatic driving of the self-driving golf cart. Controls whether or not the steering wheel is operated, effectively controls the operation of the steering wheel of the autonomous driving golf cart, and when the automatic driving of the autonomous driving golf cart is activated, the steering wheel cannot control the turning of the tires, resulting in manual driving. At that time, it is possible to return from the state in which the turning of the tire by the steering wheel cannot be controlled to the state in which the turning of the tire by the steering wheel can be controlled.

In the operation control device for the handle of the automatic driving golf cart of the present invention, when the automatic driving of the automatic driving golf cart is performed, the moving shaft sleeve faces the manual turning shaft body along the axial direction of the moving shaft sleeve. By displacement so as to be separated from the automatic shaft body, the shaft sleeve outer connection portion is connected to the pillar internal connection portion, and the shaft sleeve inner connection portion is separated from the automatic shaft body connection portion. At the time of automatic driving, the handle of the automatic driving golf cart cannot be operated, the handle is locked, the malfunction of the handle can be effectively avoided, and the safety of driving can be maintained.

The operation control device for the handle of the automatic driving golf cart of the present invention separates the moving shaft sleeve from the manual turning shaft body along the axial direction of the moving shaft sleeve when the automatic driving golf cart is manually operated. The shaft sleeve outer connection portion is separated from the pillar internal connection portion, and the shaft sleeve inner connection portion is connected to the automatic shaft body connection portion. At the time of manual driving, the handle of the automatic driving golf cart returns to the normal turning operation state, the driver can be manually operated, and the automatic driving golf cart can be manually operated.

It is the schematic which shows that the operation control device of the handle of the automatic driving golf cart which concerns on one Example of this invention is applied to the automatic driving golf cart. It is an exploded schematic diagram which shows the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention. It is the schematic which saw from the side the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention. It is the schematic when the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention is an automatic driving golf cart automatic driving mode. It is the schematic when the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention is an automatic driving golf cart manual driving mode. It is sectional drawing which shows the moving shaft sleeve, the manual turning shaft body and the fixed pillar body shown in FIG. 4 of the operation control device of the handle of the automatic driving golf cart which concerns on one Example of this invention. FIG. 5 is a cross-sectional view showing a moving shaft sleeve, a manual turning shaft body, and a fixed pillar body shown in FIG. 4 of an operation control device for a handle of an automatic driving golf cart according to another embodiment of the present invention. FIG. 5 is a cross-sectional view showing a moving shaft sleeve, a manual turning shaft body, and a fixed pillar body shown in FIG. 4 of an operation control device for a handle of an automatic driving golf cart according to another embodiment of the present invention. FIG. 5 is a cross-sectional view showing a moving shaft sleeve, a manual turning shaft body, and a fixed pillar body shown in FIG. 4 of an operation control device for a handle of an automatic driving golf cart according to another embodiment of the present invention. It is sectional drawing which shows the moving shaft sleeve and the automatic turning shaft body shown in FIG. 5 of the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention. It is sectional drawing which shows the moving shaft sleeve and the automatic turning shaft body shown in FIG. 5 of the operation control device of the handle of the automatic driving golf cart which concerns on embodiment of this invention.

An embodiment of the present invention will be described with reference to FIGS. 1 to 7b below. The description does not limit the present invention, but is an embodiment of the present invention.

As shown in FIGS. 1 to 3, the operation control device 100 for the handle of the automatic driving golf cart according to one embodiment of the present invention is the automatic driving according to the manual driving or the automatic driving of the automatic driving golf cart C. A device that controls the operation of the handle S of the golf cart C, and includes a moving shaft sleeve 1, a displacement driving means 2, a manual swivel shaft body 3, a fixed pillar body 4, and an automatic swivel shaft body 5. ..

As shown in FIGS. 1 to 3, in the operation control device 100 for the handle of the automatic driving golf cart according to one embodiment of the present invention, the shaft sleeve inner connecting portion 11 is provided on the inner diameter surface 101 of the moving shaft sleeve 1. The shaft sleeve outer connecting portion 12 is provided on the outer diameter surface 102 at one end of the moving shaft sleeve 1.

As shown in FIGS. 1 to 3, the displacement driving means 2 connects to the moving shaft sleeve 1 and drives the moving shaft sleeve 1 so as to move in the axial direction A1 of the moving shaft sleeve 1.

As shown in FIGS. 1 to 3, the outer diameter surface 301 of the manual swivel shaft body 3 has a manual shaft body connecting portion 31, and the manual shaft body connecting portion 31 is connected to the shaft sleeve inner connecting portion 11. By doing so, the manual swivel shaft body 3 is connected to the moving shaft sleeve 1, and the moving shaft sleeve 1 is moved in the axial direction A1 of the moving shaft sleeve 1 by the driving of the moving driving means 2, and the shaft is moved. The in-sleeve connection portion 11 is displaced with respect to the manual shaft body connection portion 31. One end of the manual turning shaft body 3 is connected to the handle S.

As shown in FIGS. 1 to 3, the fixed pillar body 4 is installed so as to be fixed to the automatic driving golf cart C, and the hollow space 40 for accommodating the manual turning shaft body 3 and the fixed pillar body 4 It has an in-column connection portion 41 provided on an inner diameter surface 401 at one end, and the moving shaft sleeve 1 is moved in the axial direction A1 of the moving shaft sleeve 1 by driving the moving driving means 2, and is outside the shaft sleeve. The connecting portion 12 is connected to the in-column connecting portion 41.

As shown in FIGS. 1 to 3, one end of the automatic turning shaft body 5 is connected to the automatic turning shaft body E, and the automatic shaft body connecting portion 51 is provided on the outer diameter surface 501 of the automatic turning shaft body 5. The moving shaft sleeve 1 is moved in the axial direction A1 of the moving shaft sleeve 1 by the driving of the moving driving means 2, and the connecting portion 11 in the shaft sleeve is connected to the automatic shaft body connecting portion 51.

As shown in FIGS. 1 to 4, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the moving shaft sleeve 1 is changed to the shaft of the moving shaft sleeve 1 by driving the displacement driving means 2. The shaft sleeve outer connection portion 12 is connected to the pillar internal connection portion 41 by being displaced toward the manual swivel shaft body 3 along the direction A1 and away from the automatic swivel shaft body 5. By separating the in-sleeve connecting portion 11 from the automatic shaft body connecting portion 51, the automatic driving golf cart C is automatically operated. In this state, the moving shaft sleeve 1 is separated from the automatic turning means E. On the other hand, by connecting the moving shaft sleeve 1 to the manual swivel shaft body 3 and the fixed pillar body 4, the manual swivel shaft body 3 is prevented from rotating in the hollow space 40 of the fixed pillar body 4. By doing so, the handle S is locked. Therefore, in the state of automatic driving, the handle S of the automatic driving golf cart C is disconnected from the physical connection between the automatic turning means E and the tire W to steer the turning of the automatic driving golf cart C. Since the handle S of the self-driving golf cart C is locked and cannot be rotated and cannot be rotated, it is possible to effectively avoid the occurrence of an accident due to a malfunction caused by the handle S.

As shown in FIGS. 1, 2, 3 and 5, in the operation control device 100 for the handle of the automatic driving golf cart according to one embodiment of the present invention, the moving shaft sleeve is driven by the displacement driving means 2. 1 is separated from the manual swivel shaft body 3 along the axial direction A1 of the moving shaft sleeve 1 and displaced toward the automatic swivel shaft body 5, so that the shaft sleeve outer connection portion 12 is inside the pillar. The automatic driving golf cart C is manually operated by disconnecting from the connecting portion 41 and connecting the connecting portion 11 in the shaft sleeve to the automatic shaft body connecting portion 51. In this state, the manual swivel shaft body 3 is connected to the automatic swivel means E by the moving shaft sleeve 1, while the lock between the manual swivel shaft body 3 and the fixed pillar body 4 is released, and the handle S The action of manipulating the turning of the self-driving golf cart C can be restored, and the driver can manually operate the steering wheel S to drive the self-driving golf cart C.

As shown in FIGS. 1 to 3, in the operation control device 100 for the handle of the automatic driving golf cart according to one embodiment of the present invention, the handle S of the automatic driving golf cart C is the handle of the automatic driving golf cart. It is connected to the tire W of the automatic turning means E and the automatic driving golf cart C by the operation control device 100 of the above. The automatic turning means E can control the turning of the automatic driving golf cart C by controlling the turning of the tire W, and in this embodiment, it is an electric power steering (EPS) system. The use of the electric power steering system is, for example, to perform auxiliary turning control using an electric motor, which is more economical and smaller in size than the hydraulic power steering system, so it is adopted for autonomous vehicles. ing.

As shown in FIGS. 1 to 3, in the operation control device 100 for the handle of the automatic driving golf cart according to one embodiment of the present invention, the displacement driving means 2 is a solenoid valve. Specifically, the solenoid valve is mainly composed of an electromechanical solenoid, and the electromechanical solenoid is mainly wound outside an armature that can be moved by an induction coil. Will be done. When the displacement driving means 2 is driven, that is, when power is applied to the solenoid valve, the induction coil receives an electric current to generate a magnetic field, and the magnetic field generated by the induction coil attracts or repels the armature. This moves the armature. The movement of the armature displaces the moving shaft sleeve 1 along the axial direction A1 of the moving shaft sleeve 1, and the movement of the armature can be controlled by different current directions and the presence or absence of energization. The shaft sleeve 1 is oriented toward the manual swivel shaft body 3 and displaced so as to be separated from the automatic swivel shaft body 5, or the moving shaft sleeve 1 is separated from the manual swivel shaft body 3. , And it is determined to be displaced toward the automatic turning shaft body 5.

As shown in FIGS. 2, 3, 4 and 6a to 6d, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the shaft sleeve inner connecting portion 11 has a plurality of shafts. It consists of a sleeve axial convex body 11a (as shown in FIGS. 6a and 6b) and a plurality of shaft sleeve axial concave bodies 11b (as shown in FIGS. 6c and 6d), and each shaft sleeve axial convex body 11a And each shaft sleeve axial concave body 11b is extended from one end to the other end of the shaft sleeve inner connection portion 11 in the shaft sleeve axial direction.

As shown in FIGS. 2, 3, 4 and 6a to 6d, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the manual shaft body connecting portion 31 is a plurality. Manual shaft body Axial convex body 31a (as shown in FIGS. 6c and 6d) or a plurality of manual shaft body axial concave bodies 31b (as shown in FIGS. 6a and 6b), each of which is a manual shaft body. The axial convex body 31a and the respective manual shaft body axial concave body 31b are extended from one end in the axial direction of the manual shaft body connecting portion 31 to the other end in the axial direction of the manual shaft body connecting portion 31.

As shown in FIGS. 2, 3, 4, 7a and 7b, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the automatic shaft body connecting portion 51 is a plurality. It consists of an automatic axial convex body 51a (as shown in FIG. 7b) or a plurality of automatic axial convex bodies 51b (as shown in FIG. 7a), and each of the automatic axial convex bodies 51a Each of the automatic shaft body axial concave bodies 51b is extended from one end in the axial direction of the automatic shaft body connecting portion 51 to the other end of the automatic shaft body connecting portion 51.

As shown in FIGS. 2, 3, 4 and 6a to 6d, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the shaft sleeve outer connection portion 12 moves. A plurality of shaft sleeve annular installation convex bodies 12a (as shown in FIGS. 6a and 6c) or shaft sleeve annular installation concave bodies 12b (in FIGS. 6b and 6b) installed in an annular shape on the outer surface of the shaft sleeve 1 in the radial direction. As shown).

As shown in FIGS. 2, 3, 4 and 6a to 6d, in the operation control device 100 for the handle of the automatic driving golf cart according to the embodiment of the present invention, the in-column connection portion 41 is the fixed column. A plurality of fixed pillar annular installation convex bodies 41a (as shown in FIGS. 6b and 6d) or fixed column annular installation concave bodies 41b (FIGS. 6a and 6c) installed radially on the inner surface of the body 4. As shown in).

According to the above-mentioned structure, in the operation control device 100 of the handle of the automatic driving golf cart of the present invention, whether the handle S of the automatic driving golf cart C is operated according to the manual operation or the automatic driving of the automatic driving golf cart C. Control whether or not, effective operation control is performed on the handle S of the automatic driving golf cart C, and when the automatic driving of the automatic driving golf cart C is activated, the handle S cannot control the turning of the tire W and is manually operated. When driving, it is possible to return from a state in which the turning of the tire W by the steering wheel S cannot be controlled to a state in which the turning of the tire W by the steering wheel S can be controlled.

In the operation control device 100 for the handle of the automatic driving golf cart of the present invention, when the automatic driving of the automatic driving golf cart C is performed, the moving shaft sleeve 1 is manually operated along the axial direction A1 of the moving shaft sleeve 1. The shaft sleeve outer connection portion 12 is connected to the pillar internal connection portion 41 by being displaced toward the swivel shaft body 3 and away from the automatic swivel shaft body 5, and the shaft sleeve inner connection portion 11 is connected. By disconnecting from the automatic shaft body connecting portion 51, the handle S of the automatic driving golf cart C cannot be operated during automatic driving, the handle is locked, and the malfunction of the handle can be effectively avoided and driving is performed. Can be kept safe.

Further, in the operation control device 100 for the handle of the automatic driving golf cart of the present invention, when the automatic driving golf cart C is manually operated, the moving shaft sleeve 1 is moved along the axial direction A1 of the moving shaft sleeve 1. The shaft sleeve outer connection portion 12 is separated from the column inner connection portion 41 by being separated from the manual swivel shaft body 3 and displaced toward the automatic swivel shaft body 5, and the shaft sleeve inner connection portion is separated. By connecting 11 to the automatic shaft body connecting portion 51, the handle S of the automatic driving golf cart C returns to the normal turning operation state during manual driving, the driver is manually operated, and the automatic operation is performed manually. Driving You can drive the golf cart C.

The present invention is not limited to the above embodiment. The above embodiment is an example, and any one having substantially the same configuration as the technical idea described in the claims of the present invention and exhibiting the same effect and effect is the present invention. It is included in the technical scope of the invention.

100 Automatic operation Golf cart handle operation control device 1 Moving shaft sleeve 101 Inner diameter surface 102 Outer diameter surface 11 Shaft sleeve inner connection 11a Shaft sleeve Axial convex 11b Shaft sleeve Axial concave 12 Shaft sleeve outer connection 12a Shaft Sleeve Ring Convex 12b Shaft Sleeve Ring Concave 2 Displacement Drive Means 3 Manual Swivel Shaft 301 Outer Diameter Surface 31 Manual Shaft Connection 31a Manual Shaft Axial Convex 31b Manual Shaft Axial Concave 4 Fixed Pillar Body 40 Hollow space 401 Inner diameter surface 41 Pillar body connection part 41a Fixed pillar body ring-mounted convex body 41b Fixed pillar body ring-mounted concave body 5 Automatic swivel shaft body 501 Outer diameter surface 51 Automatic shaft body connection part 51a Automatic shaft body axially convex Body 51b Automatic Axle Axle Concave A1 Axle C Automatic Driving Golf Cart E Automatic Turning Means S Handle W Tire

Claims (7)

A device that controls the operation of the handle of the self-driving golf cart in response to the manual driving or the self-driving of the self-driving golf cart.
A moving shaft sleeve having a shaft sleeve inner connection on the inner diameter surface and a shaft sleeve outer connection on the outer diameter surface at one end.
Displacement driving means connected to the moving shaft sleeve and driving the moving shaft sleeve so as to move in the axial direction of the moving shaft sleeve.
One end is connected to the handle, the manual shaft body connecting portion provided on the outer diameter surface is connected to the moving shaft sleeve by connecting to the connecting portion in the shaft sleeve, and the moving shaft sleeve is driven by the driving of the moving driving means. A manual swivel shaft body that is moved in the axial direction of the moving shaft sleeve to displace the connection portion in the shaft sleeve with respect to the manual shaft body connection portion.
It is installed so as to be fixed to the self-driving golf cart, has a hollow space for accommodating the manual swivel shaft body, and has a pillar internal connection portion provided on an inner diameter surface at one end, and the movement is driven by the movement drive means. A fixed column body in which the shaft sleeve is moved in the axial direction of the moving shaft sleeve and the outer connection portion of the shaft sleeve is connected to the connection portion inside the column.
One end is connected to the automatic turning means, the outer diameter surface has an automatic shaft body connecting portion, and the moving shaft sleeve is moved in the axial direction of the moving shaft sleeve by the drive of the moving driving means, and the inside of the shaft sleeve. The connecting portion has an automatic turning shaft body that connects to the automatic shaft body connecting portion.
By driving the displacement driving means, the moving shaft sleeve is displaced toward the manual turning shaft body along the axial direction of the moving shaft sleeve and away from the automatic turning shaft body, and is connected to the outside of the shaft sleeve. By connecting the portion to the connecting portion inside the pillar and separating the connecting portion inside the shaft sleeve from the automatic shaft body connecting portion, the automatic driving golf cart is automatically operated.
By driving the displacement driving means, the moving shaft sleeve is separated from the manual turning shaft body along the axial direction of the moving shaft sleeve and displaced toward the automatic turning shaft body, and is connected to the outside of the shaft sleeve. The automatic driving golf is characterized in that the automatic driving golf cart is manually operated by separating the portion from the connecting portion inside the pillar and connecting the connecting portion inside the shaft sleeve to the automatic shaft body connecting portion. Operation control device for the handle of the cart. The operation control device for a handle of an automatic driving golf cart according to claim 1, wherein the displacement driving means is a solenoid valve. The shaft sleeve inner connection portion is composed of a plurality of shaft sleeve axial convex bodies and a plurality of shaft sleeve axial concave bodies, and each shaft sleeve axial convex body and each shaft sleeve axial concave body are connected in the shaft sleeve. The operation control device for the handle of an automatic driving golf cart according to claim 1, wherein the shaft sleeve extends from one end to the other end in the axial direction. The manual shaft body connecting portion is composed of a plurality of manual shaft body axial convex bodies or a plurality of manual shaft body axial concave bodies extending from one end to the other end in the axial direction of the manual shaft body connecting portion. The operation control device for the handle of the automatic driving golf cart according to claim 1, which is characterized. The automatic shaft body connecting portion is composed of a plurality of automatic shaft body axially convex bodies or a plurality of automatic shaft body axial direction concave bodies extending from one end to the other end in the axial direction of the automatic shaft body connecting portion. The operation control device for the handle of the automatic driving golf cart according to claim 1, which is characterized. The first aspect of the present invention is that the shaft sleeve outer connection portion is a plurality of shaft sleeve annular installation convex bodies or shaft sleeve annular installation concave bodies that are radially installed on the outer surface of the moving shaft sleeve in an annular shape. Automatic driving golf cart handle operation control device. The claim is characterized in that the connection portion inside the pillar is a plurality of fixed pillar annular installation convex bodies or fixed pillar annular installation concave bodies which are radially installed on the inner surface of the fixed pillar in an annular shape. 1 Automatic driving golf cart handle operation control device

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