KR20180070020A - Hands On/Off Detecting System Using Steering Wheel Heating Wire - Google Patents

Abstract

The present invention relates to a hands on/off detecting system using a steering wheel heating wire. In order to increase driver convenience, a heating wire widely applied to a steering wheel of a vehicle is used to detect whether the driver grasps the steering wheel, that is, the hands on/off state by changing only a control logic without adding separate components. The prior art for detecting hands on/off from the steering wheel, for example, the prior art using a steering torque sensor value or an electrostatic touch represents the inaccuracy of the determination results or the increase of manufacturing costs due to the requirement of installing additional components. The present invention solves the above problems by improving the accuracy of determination results and avoiding the increase of manufacturing costs.

Description

[0001] HAND ON / OFF DETECTING SYSTEM USING A STEERING WHEEL HEAT LINE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hands-on / off detection system using a steering wheel heating line of an automobile, and more particularly, to a technique of detecting whether or not a driver grasps a steering wheel by using a hot line pre-

2. Description of the Related Art In general, a steering wheel of an automobile is an apparatus for grasping and operating a steering wheel of a vehicle by grasping and manipulating the steering wheel directly by a driver. Recently, various techniques for assisting a driver's operation feeling and further improving safety Electric power steering technology, etc.) are being applied.

However, in the case of a vehicle in operation, the steering wheel needs to be prevented from malfunctioning because the vehicle movement path changes even if a minute operation is performed. To this end, it is determined whether the driver operates the steering wheel It is possible to judge whether or not the malfunction is caused by judging whether or not the driver grasps the steering wheel (hands-on / off).

Particularly, in the case of an automobile performing an automatic operation such as an unmanned automobile, which has recently been developed, it is important to determine whether the steering wheel is directly operated or not, .

As one of conventional techniques for determining the hands-on / off state of the steering wheel, a technique for performing a hand-on / off determination using a steering torque sensor value is disclosed in Patent Publication No. 10-2011-0101599. Fig. 1 shows a prior art in which such a steering torque sensor value is used for hands-on / off judgment. The conventional technique using the steering torque sensor value proposes a new steering torque model expression and suggests a technique of detecting a state in which the driver does not grasp the steering wheel using the torque sensor value received from the torque sensor.

However, since the above-described technique of determining the hands-on / off state only by the torque sensor value uses only the torque sensor value as the input information, it is difficult to judge precisely the hands-on / off state. .

One of the conventional techniques for determining the hands-on / off state of the steering wheel is a technique of determining the hands-on / off state of the steering wheel by applying a capacitive touch recognition technology capable of sensing the driver's grip on the steering wheel have. 2 shows a steering wheel to which a capacitive touch recognition technology is applied.

However, in order to apply the electrostatic touch method to the steering wheel, as shown in FIG. 2A, it is necessary to use a capacitive touch recognition means for recognizing the grip of the driver, for example, a capacitive touch recognition means There is a problem in that the manufacturing cost is increased because additional components are required to be installed. In addition, in order to avoid a large increase in manufacturing cost, the electrostatic touch recognition means is installed only in a part of the steering wheel, There is a problem that a certain dead zone region that can not be recognized is present.

The present invention has been made to solve the above problems,

The prior art inaccuracies and additional configuration for detecting the hands-on / off of the steering wheel by using the heat line built in the steering wheel of the vehicle for heating to detect whether the driver grasps the steering wheel, i.e., the hands-on / It is an object of the present invention to provide a hands-on / off detection system using a steering wheel heating wire that solves the problem of cost increase due to the installation requirement of elements and enables accurate detection of hands-on / off without increasing cost.

According to an aspect of the present invention,

A hands-on / off detection system using a steering wheel heating line, the system comprising: a capacitive touch detector for detecting whether or not the steering wheel is grasped by using a hot wire of the steering wheel as the electrostatic touch recognition means; And a hands-on / off determination module for determining a hands-on / off state according to whether the steering wheel is grasped in association with the electrostatic touch detector.

Further comprising a heat ray controller for performing heat ray control for controlling the operation of the hot wire applied to the steering wheel, wherein the hands-on / off determination module is operable, in conjunction with the heat ray controller and the electrostatic touch detector, And the hands-on / off state is determined in accordance with whether the steering wheel is grasped or not.

Here, the hands-on / off determination module performs a hand-on / off determination in response to whether or not the steering wheel is grasped only in the non-heating wire control state.

In addition, the heat ray controller may cross control the first period of the heat ray control state and the second period of the non-heat ray control state so as to be repeated according to a predetermined period.

According to the above configuration, the hands-on / off detection system using the steering wheel heating wire of the present invention provides the following characteristic advantages.

1) According to the present invention, unlike the prior art in which the electrostatic touch recognition means is attached to the steering wheel to detect hands-on / off through the electrostatic touch, for convenience of the driver through heat, Since the electrostatic touch recognition is performed, the advantage of the electrostatic touch recognition is obtained and the additional cost is not generated.

2) In the prior art, the electrostatic touch recognition means is provided only in a part of the steering wheel due to the cost and the like. On the other hand, according to the present invention, the hands-on / Hence, there is an effect that the hands-on / off detection can be performed over the entire range of the steering wheel without a dead zone region where hands-on / off can not be recognized.

3) When the repetition period of the hot wire activation state and the hot wire deactivation state is controlled to be shorter than a predetermined interval from the hot wire controller, the hot wire control using the hot wire is performed and the hands-on / There is an effect that can be done.

1 shows a prior art in which a steering torque sensor value is used for a hands-on / off judgment
2 shows a steering wheel to which a capacitive touch recognition technology is applied.
3 is a circuit diagram showing a circuit of a hands-on / off detection system using a steering wheel heating line according to a preferred embodiment of the present invention.
4 is a graph schematically showing the relative control steps of the hot wire controller and the hands-on / off determination module.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The word is described based on the principle that the inventor can properly define the concept of a term in order to explain his or her invention in the best way. The word is interpreted as a meaning and concept consistent with the technical idea of the present invention. . Therefore, the embodiments described in this specification and the technical structures shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It should be understood that various equivalents and modifications are possible. In addition, the terms used herein are used for the purpose of easy understanding of specific embodiments, and are not intended to limit the present invention. It is to be understood that the elements described in the singular form in this specification include plural forms unless otherwise specified.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hands-on / off detection system using a steering wheel heating line of an automobile, and more particularly, In other words, it is possible to use the conventional technique for detecting the hands-on / off of the steering wheel, for example, by using the steering torque It is possible to solve all the problems of using the sensor value, inaccuracies of the determination result of the conventional technology to which the electrostatic touch method is applied or an increase in the manufacturing cost in accordance with the installation requirement of additional components, improve the accuracy of the determination result, Thereby enabling the hands-on / off detection of the steering wheel that avoids the additional cost.

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

3 is a circuit diagram showing a circuit of a hands-on / off detection system using a steering wheel heating line according to a preferred embodiment of the present invention.

As shown in the figure, the hands-on / off detection system using the steering wheel heating wire of the present invention includes a heating wire controller 10 for controlling the heating wire 100 applied to the steering wheel, And performs the final determination of the state detected in conjunction with the electrostatic touch detector 20 using the heat ray 100, the heat ray controller 10 and the electrostatic touch detector 20 as the electrostatic touch recognition means A hand side on / off determination module 30, a high side driver for switching according to the control of the heat ray controller 10, and a low side driver.

Unlike the prior art in which the electrostatic touch recognition means is attached to the steering wheel to detect the hands-on / off through the electrostatic touch, the present invention provides a hot wire 100 installed on the steering wheel for the driver's convenience through heat generation The present invention has an advantage that the advantage of the electrostatic touch recognition is obtained and the additional cost is not generated. Further, in the conventional technology, the electrostatic touch recognition means is provided only in a part of the steering wheel due to the cost and the like. On the other hand, according to the present invention, the hands-on / There is no dead zone region in which no hands-on / off can be recognized.

The detailed configuration of the heat ray controller 10, the electrostatic touch detector 20, and the high-side driver / low-side driver is not limited to any of known components widely used in the prior art, It should be understood that it corresponds to one.

The hands-on / off determination module 30 transmits and receives signals in cooperation with the hot-wire controller 10 and the electrostatic touch detector 20 to thereby determine a hands-on / off based on the received information For example, an electronic control unit (ECU) or a microcomputer (MICOM), and the like.

In the present specification, with respect to the detailed configuration of the hot wire controller 10, the electrostatic touch detector 20, the hands-on / off determining module 30 and the high-side driver / low-side driver, The description will be omitted as long as the characteristic elements to be achieved are not additionally configured.

The heating wire controller 10, which controls the heating wire 100 applied to the steering wheel, controls the 'heating wire control state' and the hands-on / heating state in which a normal heating wire control step is performed to generate heat from the heating wire 100 applied to the steering wheel. Off control is performed so as to repeat the " non-hot wire control state " for stopping the operation of the hot wire in accordance with a predetermined period.

In the present invention, the heat ray (100) provided on the steering wheel in the state where the heat ray (100) is not operated from the heat ray controller (10) / Off < / RTI >

More specifically, when the heat ray controller 10 does not control the heat ray 100, the high-side driver / low-side driver is inactivated and therefore the heat ray 100 of the steering wheel 100 is inactivated, This state becomes a floating state. In this state, the electrostatic touch detector 20 can detect the hands-on / off of the steering wheel according to the grip of the driver by utilizing the hot wire 100 of the steering wheel in the floating state as the electrostatic touch recognition means.

Therefore, unlike the prior art in which the electrostatic touch recognition means is attached to the steering wheel to detect the hands-on / off through the electrostatic touch, the present invention is applicable to a heat ray 100 ), The advantage of the electrostatic touch recognition is obtained and the additional cost is not generated.

In addition, the present invention provides a configuration for increasing the reliability of the detected hands-on / off state, wherein the hot-wire controller 10 and the capacitive touch detector 20 are connected via the hands-on / And performs the final determination of the detected state in association with each other.

In other words, the hands-on / off determination module 30 receives the detected hands-on / off state from the electrostatic touch detector 20 in conjunction with the electrostatic touch detector 20, In accordance with whether or not the steering wheel is grasped, only when the heat ray controller 10 is in the non-heating wire control state, in order to perform the hands-on /

Fig. 4 is a graph schematically showing the relative control steps of the hot wire controller 10 and the hands-on / off judging module 30. Fig.

As shown in the figure, in the step of controlling the heating wire from the heating wire controller 10, that is, the heating is controlled to be performed from the heating wire 100 of the steering wheel, the hands-on / On / off judgment is not made.

On the other hand, in the step where the heat ray is not controlled from the heat ray controller 10, that is, when the control is performed so as to stop the heat from the heat ray 100 of the steering wheel, the hands- / Off judgment is made.

In the preferred embodiment of the present invention, unlike the conventional vehicle in which the hot wire control is performed (hot wire control state) from the hot wire controller 10, the hot wire controller 10 controls the hot wire 100 ) During the first predetermined period (section A). In this state, the hands-on / off determination module 30 does not determine whether or not the hands-on / off determination is performed even if it is detected that the electrostatic touch input has been performed from the electrostatic touch detector 20. [

Thereafter, the hot-wire controller 10 stops the control (hot line deactivation state) for a predetermined second period, for example, a short time of about 500 ms (section B). During this time, the high side driver and the low side driver are kept open, and a filter for removing PWM (Pulse Width Modulation) noise is also opened, so that the capacitive touch detector 20 is connected to the heating wire 100 of the steering wheel. Off determination module 30 is connected to the electrostatic touch detector 20 so as to detect the presence or absence of a steering wheel, And performs a hands-on / off judgment.

The heat ray controller 10 controls the circuit during the third period (same as the first period) (C section) to the heat ray control state for performing the heat ray control again after the predetermined second period, Repeat (that is, repeat A period (same as C period) and B period).

If the repetition period of the hot wire control state and the hot wire deactivation state is controlled to be shorter than a predetermined period by the hot wire controller 10, the hot wire control using the hot wire 100 is performed and the hands-on / Hand-on / off judgment can be performed. In other words, if the period of the section B of FIG. 5, that is, the period of the hot wire deactivation state is shortened to a period shorter than a predetermined period that the driver can not feel, the hands-on / off determination is performed while maintaining the condition similar to that of the hot wire control state. can do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments. I do not want to. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: heat line controller
20: Electrostatic touch detector
30: Hands on / off judgment module
100: heat line

Claims (4)

A hands-on / off detection system using a steering wheel heating line,
An electrostatic touch detector for detecting whether or not the steering wheel is grasped by using the hot line of the steering wheel as the electrostatic touch recognition means; And
And a hands-on / off determination module for determining a hands-on / off determination based on whether the steering wheel is grasped in association with the electrostatic touch detector.
The method according to claim 1,
Further comprising a heating wire controller for performing heating wire control for controlling the operation of the heating wire applied to the steering wheel,
The hands-on /
Wherein the hands-on / off detection system determines the hands-on / off state in accordance with the hot-wire control state and whether or not the steering wheel is grasped, in association with the hot-wire controller and the electrostatic touch detector.
3. The method of claim 2,
The hands-on /
And the hands-on / off determination is performed in response to whether or not the steering wheel is grasped only in the non-heating wire control state.
3. The method of claim 2,
The heat ray controller includes:
Wherein the first period of the heat ray control state and the second period of the non-heat ray control state are alternately controlled so as to be repeated according to a predetermined period.

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