KR20130123231A - Remote control having a 6-axis gyro sensor and control method therof - Google Patents

Abstract

The present invention relates to a remote controller having a six-axis Gyro sensor and a control method thereof for blocking an operational transmission signal to prevent the unintentional operation of a driving unit which can be generated for the falling by detecting it using the sensor when the controller is fallen by the mistake of an operator while heavy equipment such as excavators and a driving device are operated by using the remote controller. The remote controller having the six-axis Gyro sensor according to the present invention comprises: a signal generating unit generating an operation control signal by the intentional or unintentional operation of the operator; a control device determining the intention of the signal generated in the signal generating unit based on the position and a posture signal of the controller in which the six-axis Gyro sensor senses; a transmission unit converting the operation control signal into a wireless signal and transmitting to the driving device if the signal determined in the control device is an intentional signal; and the driving device operated by the signal transmitted from the transmission unit. [Reference numerals] (10) Signal generation unit;(110) Six-axis Gyro sensor;(111) Control device;(12) Transmission unit;(13) Driving device

Description

REMOTE CONTROL HAVING A 6-AXIS GYRO SENSOR AND CONTROL METHOD THEROF}

The present invention relates to a remote controller and a method of controlling the same, and more particularly, by using a remote controller to detect this when the operator accidentally falls down while manipulating the heavy equipment such as an excavator and its driving device using a sensor. The present invention relates to a remote controller having a six-axis gyro sensor for blocking an operation transmission signal in order to prevent an unintentional operation of a driving device that may occur during a fall, and a control method thereof.

In general, there are at least one button and an analog stick for controlling a remote control device such as an excavator, crawler, forklift, pump car, etc. It is installed in the main body. When the operation means is operated by the operator, operation signals for remotely operating the driving devices are generated in the remote / remote controller, in particular, the remote controller converts these operation signals into predetermined transmission signals to drive devices, in detail. By transmitting to a communication module installed in the driving devices, the driving devices operate to perform a predetermined task. Here, the musculature controller may be a wired controller, a remote controller may be a wireless controller, the driving devices are in direct contact with the heavy equipment such as excavators, crawlers, forklifts, pump cars, and work objects such as booms, arms, buckets installed in the heavy equipment It may be a work device for spreading or moving the workpiece to another place.

In this way, while the driving device performs a predetermined task, the operator operates the controller while walking or running while wearing the controller on a certain part of the body such as the waist while moving in the working direction. Dropping may cause malfunction of the buttons and joysticks, which may lead to unintentional operation.In addition, external objects may come into contact with the joysticks, even when the operator intentionally puts them on the ground without turning off the controller for a short while to rest. Failure to do so may result in an accident.

In a conventional remote controller, when the drive device performs a predetermined operation, there is no signal blocking mechanism for preventing a safety accident, and is transmitted to the drive device except for an emergency stop switch that directly turns the drive device on and off in an emergency. It was not possible to maintain or block the operation signal for operating the drive by judging whether the operation signal was intentional or unintentional. In addition, there was no system to prevent operation error of the driving device by judging whether it was an unintentional operation signal and tried to prevent safety accidents due to operation mistakes only through periodic safety training for the operator.

The present invention has been made to solve the above problems, an object of the present invention, through the detection of the fall state of the controller due to the intentional use of the manipulators, especially the remote control manipulator and the operator's mistake It is equipped with a 6-axis gyro sensor that detects whether the operator has intentionally or unintentionally operated the controller through the sensor and maintains or blocks the operation signal (data transmission) transmitted to the driving device to prevent safety accidents in the workplace. It is to provide a remote controller and a control method thereof.

In order to solve the above problems, a remote controller having a six-axis gyro sensor according to the present invention includes a signal generator for generating a steering control signal by intentional or unintentional manipulation of the operator; A control device for determining whether the signal generated by the signal generator is intentional based on a position and attitude signal of a remote controller sensed by a 6-axis gyro sensor; A transmission unit for converting a steering control signal into a wireless signal and transmitting it to a driving device when the signal determined by the control device is an intentional signal; A driving device operated by a radio signal transmitted from the transmission unit; And a control unit.

Preferably, the control device, if the position and attitude signal of the manipulator sensed by the six-axis gyro sensor is within the predetermined position and attitude signal range of the six-axis gyro sensor (gyro sensor) to determine by intentional operation, the six-axis gyro If it is outside the position and posture signal range of the sensor (gyro sensor), it is determined as an unintentional signal.

In addition, the control method of the remote controller having the six-axis gyro sensor, the control step of generating a control signal by intentional or unintentional operation of the remote controller; Sensing the attitude and position of the manipulator by a six-axis gyro sensor; Determining, by the controller device, whether the operation is intentional based on the sensed signal; Transmitting a steering control signal to a transmitter when the sensed signal is determined to be intentional manipulation; Converting, by the transmission unit, an adjustment control signal into a wireless signal and transmitting the same to a driving device; Operating a driving device by the radio signal; .

In the remote controller equipped with a six-axis gyro sensor according to the present invention having the features as described above, and a control method thereof, the controller is equipped with a sensor capable of detecting the presence or absence of intentional use of the regulator to determine whether there is intentional operation. There is no need to make and install a separate detection device, and the sensor degree of freedom can be selectively used according to the control method and system configuration of the remote controller, and the six-axis gyro sensor judges the operation status of the remote controller. When falling, the safety mechanism signal of the remote controller may be generated.

1 is a block diagram of a remote controller having a six-axis gyro sensor according to the present invention.
2 is a flowchart of a control method of a remote controller having a six-axis gyro sensor according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention. And the present invention is only defined by the scope of the claims. Accordingly, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

Like reference numerals refer to like elements throughout the specification. Moreover, terms used herein (to be referred to) are intended to illustrate embodiments and are not intended to limit the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

The present invention is to adjust the position and attitude of the controller using a sensor installed in the controller when the operator accidentally falls, preferably a six-axis gyro sensor, while adjusting the heavy equipment using a remote controller for manipulating heavy equipment such as an excavator. To detect and prevent unintentional operation of the drive that may occur during a fall. The present invention relates to a remote controller equipped with a six-axis gyro sensor for blocking a transmitted operation radio signal, and a control method thereof.

1 and 2, the following describes a preferred embodiment of a remote controller having a six-axis gyro sensor according to the present invention.

A remote controller having a six-axis gyro sensor 110 for manipulating a driving device according to the present invention includes: a signal generator 10 for generating a steering control signal by intentional or unintentional manipulation; A control device (111) for determining whether the signal generated by the signal generator (10) is intentional based on the position and attitude signal of the remote controller sensed by the 6-axis gyro sensor (110); A transmission unit 12 for converting a steering control signal into a wireless signal and transmitting the signal to the driving device 13 when the signal determined by the control device 111 is an intentional signal; And a driving device 13 operated by the radio signal transmitted from the transmission unit 12.

Preferably, the control device 111, if the position and attitude signal of the manipulator sensed by the six-axis gyro sensor 110 is within the position and attitude signal range of the predetermined six-axis gyro sensor (110). It is determined by intentional operation, and is judged as an unintentional signal if it is outside the position and posture signal range of the 6-axis gyro sensor. The signal generator 10 may be a joystick or an operation button for directly manipulating the driving device 13. In addition, although not described herein, the 6-axis gyro sensor 110 and the control device 111 may be included in the general control unit 11.

A remote / driven remote control device, such as an excavator, crawler, forklift, pump car, etc., is generally used by the operator to operate and operate the drive device 13 side to side or up and down. While moving to work, the operator checks the position and direction of the drive device so that the work is smooth, at this time walking or jumping in the same direction as the drive device. In this case, the six-axis gyro sensor 110 installed in the remote controller The control unit 111 determines the position and posture deviation signal generated from the control unit 111 as an unintentional operation signal, and stops the operation of the driving device 13 by blocking the control control signal from being transmitted to the transmission unit 12. Even when the controller is not unintentional operation, the control unit 111 determines that the controller falls down by shaking it vertically downward or from side to side, such as falling, and thus makes an error judgment. will be.

6-axis gyro sensor 110 to prevent such an error determination as described above By limiting the range of the position and posture signal sensed from, the horizontal movement, vertical movement and shaft rotation within the predetermined range is set to determine by the control device as a signal due to the intentional operation of the remote controller operator, and other than the predetermined range The position and posture signal sensed by the signal is set as a signal due to unintentional manipulation.

That is, since the remote controller, particularly the remote controller, is detachably worn on the operator's body, an unintentional fall is likely to occur when the remote controller is inadvertently detached from the body during operation. In addition, since the manipulator is always placed on the remote controller and the controller is pressed down to control the drive, the load acts in the direction of gravity, which is the lower side, causing the controller to accidentally fall.

In this case, the manipulator worn on the body may loosen and move unintentionally, or may be released from the body and fall to the ground. In this case, the buttons or joysticks installed in the remote controller may be operated undesirably, which may cause a malfunction of the drives. In particular, the joystick is protruded outward from the remote controller, and the protruding installation is often malfunctioned due to the ground and external objects being pressed by the remote controller when the remote controller is dropped or unintentionally moved. To prevent this, a mechanical device such as an emergency switch can be applied to stop the driving vehicle quickly in case of malfunction, but it is not a fundamental solution. In the present invention, in case of unintentional fall, the six-axis gyro sensor 110 detects this in a few tens of ms (milliseconds) at a short time so that the controller 111 does not transmit the control signal to the transmitter 12. It is possible to prevent the unintentional operation state of the source, thereby preventing the malfunction of the drive device 13,

Abnormal operation of the drive caused by such malfunctions may cause damage to the entire system and safety accidents in the workplace. Therefore, the controller may sense the position and direction (falling posture) such as falling from the body. When the signal is found to be unintentional by the operator, the control unit 111 transmits a steering control signal transmitted to the transmission unit 12 so that the transmission unit 12 cannot transmit an operation (wireless) signal to the drive unit 13. By blocking, the drive device 13 is not operated.

Hereinafter, a method of controlling a remote controller having a six-axis gyro sensor according to the present invention will be described. The control method of the remote controller of the present invention includes the steps of generating a steering control signal by intentional or unintentional manipulation of the remote controller; Sensing the posture and the position of the remote controller by the 6-axis gyro sensor 110; Determining whether the control device 111 intentionally operates based on the sensed signal; Transmitting a control signal to the transmitter 12 when the sensed signal is determined to be intentional manipulation; Converting an adjustment control signal into a radio signal by the transmitting unit 12 and transmitting the converted control signal to the driving device; Operating a driving device (13) by the radio signal; .

Preferably, when the signal sensed by the six-axis gyro sensor 110 is determined to be unintentional operation in the control device 111, the control device 111 is a control signal transmitted to the transmission unit 12 Blocking and returning to the start step, and due to the blockage of the steering control signal transmitted to the transmission unit 12, the transmission unit 12 does not transmit a radio signal to the drive device 13 driving device Does not work.

In detail, the control unit 111 receives the displacement speed of the x-, y-, and z-axes and the angular speeds of the x-, y-, and z-axes of the six axes from the six-axis gyro sensor 110 installed in the remote controller. The control algorithm determines whether the remote controller is operated and in what type of operation. In addition, the control unit 111 determines whether the controller falls, and intentionally (normal state) or unintentional (dangerous state), and in case of unintentional blocking the wired / wireless signal and storing various data at the same time. After that, the whole power of the remote controller is turned off. That is, the six-axis gyro sensor 110 detects that the state of the remote controller, for example, the position and posture, is an unintentional state such as a fall, and the remote controller detects that the remote controller operates unintentionally. When the safety mechanism to prevent the malfunction of the driving device is activated, the control device 111 stops the driving device by cutting off the radio signal transmitted from the transmission unit 12 to the driving device 13. That is, it has a continuous flow of control that turns off the transmitter, corrects an error while storing operation data of the existing controller, and then turns off the power of the controller. Which sensor to use for the remote control in the present invention, and to what extent the range of unintentional fall of the remote controller, that is, the range of change of position and attitude of the remote controller to the range of heavy equipment and driving device when working with the remote controller It is desirable to consider work behavior and the range of actions of the operator.

The intentional state of the remote controller operator in the present invention means a normal operation state for operating the drive device, the unintentional state means an abnormal operation state, that is, a dangerous state in which the drive device is operated regardless of the operator's control. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10.Signal Generator 11.Control Unit
110.6 axis gyro sensor 111.control device
12. Transmission unit 13. Driving device

Claims (6)

In a remote controller with a six-axis gyro sensor for controlling the drive unit,
Generating control signals by intentional or unintentional manipulation of the operator. A signal generator;
A control device for determining whether the signal generated by the signal generator is intentional based on a position and attitude signal of a manipulator sensed by a six-axis gyro sensor;
A transmission unit for converting a steering control signal into a wireless signal and transmitting it to a driving device when the signal determined by the control device is an intentional signal;
A driving device operated by a signal transmitted from the transmission unit; Remote controller with a six-axis gyro sensor, characterized in that it comprises a.
The method of claim 1,
The control device determines that the position and posture signal of the controller sensed by the 6-axis gyro sensor is intentional operation if it is within a predetermined position and posture signal range of the 6-axis gyro sensor, and the 6-axis gyro sensor Remote control device with a six-axis gyro sensor characterized in that it is determined by the unintentional signal if the position and posture signal range is outside.
The method of claim 1,
The signal generator is a remote controller having a six-axis gyro sensor, characterized in that the button or joystick.
Steering drive, In the control method of a remote controller having a six-axis gyro sensor,
In the control method,
Generating a control signal by intentional or unintentional manipulation of the remote controller;
Sensing the attitude and position of the manipulator by a six-axis gyro sensor;
Determining, by the controller device, whether the operation is intentional based on the sensed signal;
Transmitting a steering control signal to a transmitter when the sensed signal is determined to be intentional manipulation;
Converting, by the transmission unit, an adjustment control signal into a wireless signal and transmitting the same to a driving device;
Operating a driving device by the radio signal;
Control method comprising a.
5. The method of claim 4,
If the signal sensed by the six-axis gyro sensor is determined to be unintentional operation in the control device, the control device further comprises the step of blocking the control control signal transmitted to the transmitter and returning to the start step Way.
6. The method of claim 5,
Due to the blockage of the steering control signal transmitted to the transmitter, the transmitter does not transmit a radio signal to the driver, and thus the driver is not operated.

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