KR20190052774A - Control device for hot wire and control method for hor wire using the same - Google Patents

Abstract

The present invention relates to a control device for a heat wire and, specifically, to a control device for a heat wire which performs heat generation and touch sensing (human body sensing) together with the heat wire. According to the present invention, a use of space is improved due to an omission of the touch sensing sensor as heat sensing and the touch sensing are simultaneously performed by the heating wire without a separate touch sensing sensor. The present invention can maximize a touch sensing range by sensing a touch to an entire heat generating part. In addition, the present invention has an advantage of having a high shape design flexibility by arranging the heating wire and a power supply line in various patterns as there is no touch sensing sensor.

Description

TECHNICAL FIELD [0001] The present invention relates to a hot wire control apparatus and a hot wire control method using the hot wire control apparatus.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a heat ray control apparatus, and more particularly, to a heat ray control apparatus for simultaneously performing heat detection and touch detection (human body detection) by a heat ray.

Generally, the vehicle is provided with a seat for occupants to sit on. In addition, there is an increase in the number of vehicles equipped with hot wires for warming the occupant's seating surface when the temperature of the vehicle is low in winter. The heating line of such a seat will continue to operate even if the occupant does not sit down if the occupant operates the seat heating line. Therefore, in order to prevent this, a technique has been applied in which a seating sensor is provided on a seat, and a seat occupant sits on the seat to operate the seat heating line. To this end, a sensor for detecting seating, for example, a pressure sensor or the like is mounted on the existing hot wire.

However, when a separate sensor such as a pressure sensor is mounted in this manner, there is a problem in designing a pattern of the hot wire flexibly due to the space for mounting the sensor. In addition, since the occupant seats only in a space where the sensor is mounted and a certain vicinity of the space, there is a problem that the occupant can not sense when the occupant is seated only in a part of the seat.

Korean Patent Publication No. 10-2008-0074580 (published on Aug. 13, 2008)

SUMMARY OF THE INVENTION An object of the present invention is to provide a hot wire control apparatus which can flexibly design a hot wire pattern and a hot wire control method using the same.

Another object of the present invention is to provide a heat ray control apparatus capable of increasing a seating detection region and a method of controlling a heat ray using the same.

In order to achieve the above-mentioned object, the present invention provides a control apparatus for controlling a heating wire according to whether a heating unit, which applies a voltage to a heating wire and senses a change in a voltage at a time of approaching a conductor, And a control unit for controlling the heating wire.

The control unit may include a heating unit control module for controlling heating of the heating unit, a temperature control module for controlling a heating temperature of the heating unit, and a temperature control module for determining whether the heating unit is touched based on a change in the voltage applied to the heating unit A touch sensing module, and a switching module for time-division-controlling the heating control module and the touch sensing module.

According to another aspect of the present invention, there is provided a method of controlling a hot wire using the hot wire control apparatus according to the first or second aspect, including the steps of: checking whether a touch- The control module detects a change in the voltage at the time of approaching the conductor to a touch of the heating part, which is determined by the control part, when the controller determines that the touching time has come, And controlling the heating wire according to whether the heating wire is heated or not.

Since the heat sensing and the touch sensing are simultaneously performed by the hot line without a separate touch sensing sensor, the space utilization is improved due to the omission of the touch sensing sensor.

In addition, the present invention can maximize the touch sensing range by sensing touch to the entire heat generating part.

In addition, since the present invention does not have a touch sensing sensor, it is possible to arrange the heat ray and the power supply line in various patterns, which is advantageous in flexibility of shape design.

1 is a conceptual diagram of a heat-ray control apparatus according to the present invention;
2 is a block diagram of a control unit according to the present invention;
3 is a conceptual diagram for explaining heat radiation and touch detection of a heat ray control apparatus according to the present invention;
4 is a flowchart of a method for controlling a heat line according to the present invention.

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

It will be understood by those of ordinary skill in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform. Like reference numerals refer to like elements throughout.

FIG. 1 is a conceptual diagram of a heat ray control apparatus according to the present invention, and FIG. 2 is a block diagram of a control unit according to the present invention.

1 and 2, a heating wire control apparatus according to the present invention includes a heating unit 100 for generating heat, a power source for supplying heat to the heating unit 100 for generating heat of the heating unit 100, And a control unit 200 for controlling the apparatus.

The heat generating unit 100 generates heat by the supplied power source, and the present embodiment exemplifies the vehicle seat provided in the vehicle seat. However, the present invention is not limited thereto, and the heating unit 100 may be provided in a steering wheel of the vehicle, or may be realized in the form of a general chair or a cushion other than a vehicle. The heating unit 100 includes a heating wire 110 and a power supply line 120. And includes a pad 130 for providing a heat line 110 and a power supply line 120.

The heating wire 110 is configured to generate substantially heat by the supply of power, and a plurality of heating wires 110 are arranged on the above-described pad 130 so as to be spaced apart from each other. In addition, the hot wire 110 can be made of carbon yarn.

The power supply line 120 is for supplying power to the hot line 110 and is arranged in a direction crossing the longitudinal direction of the plurality of hot lines 110. Here, the power supply line 120 is illustrated as having a shape that connects one end and the other end of the plurality of hot wires 110. [ In addition, the power supply line 120 may be made of silver wire, galvanized wire, copper wire, or the like.

The controller 200 senses the touch through the heat generator 100 and controls the power supply of the heater 100 according to the sensed touch to control the heat generated by the heater 100. The control unit 200 includes a heating unit control module 210 for controlling the operation of the heating unit 100, a temperature control module 220 for controlling the temperature of the heating unit 100, and a heating unit 100 And a switching module 240 for switching between the touch sensing module 230 and the heating time control module 250. The touch sensing module 230 may be a touch sensing module,

The heating unit control module 210 controls the operation of the heating unit 100. This can be accomplished by directly controlling the power supplied to the power supply line 120 of the heat generating unit 100 by the heat generating unit control module 210.

The temperature control module 220 controls the heating unit control module 210 so that the temperature of the heat generating unit 100 is a predetermined temperature. Here, the set temperature is received from the user or controlled by the heat generation time control module 250. When the heating time control module 250 stops the operation of the heating unit 100 according to the set heating time, the temperature control module 220 determines that the set temperature is 0 ° C and the power applied to the heating unit 100 . That is, the temperature control module 220 controls the magnitude of the power applied to the heat generating unit 100 to a value of zero or more.

The touch sensing module 230 senses whether or not the heat generating unit 100 is touched through the heat line 110 of the heat generating unit 100. This can, for example, detect that the human body touches the heating unit 100 due to seating of the vehicle occupant on the seat. In addition, the touch sensing module 230 senses the touch in a capacitive manner. For this purpose, the touch sensing module 230 applies a voltage to the hot line 110 during touch sensing. Here, the touch sensing module 230 senses a touch through a voltage difference of a voltage applied to the hot wire 110 when a human body or the like approaches the hot line 110. That is, the touch sensing module 230 senses a touch through a difference between a voltage applied to the hot line 110 and a voltage detected when a conductor such as a human body approaches the hot line 110. In order to realize this, the touch sensing module 230 compares the voltage sensed by the voltage sensing module 231 with the voltage applied to the hot line 110, And a voltage comparison module 232 for determining a touch based on a difference in voltages compared in the voltage comparison module 232.

The voltage sensing module 231 senses the voltage applied to the heating unit 100 in real time. Accordingly, the voltage sensing module 231 can sense both the initial voltage applied to the heating unit 100 and the voltage that is changed when the human body or the like approaches. Here, the initial voltage applied to the heating unit 100 is defined as an initial applied voltage, and the voltage that is changed when a human body or the like approaches is defined as a changing voltage.

The voltage comparing module 232 compares the first applied voltage detected by the voltage detecting module 231 with the changing voltage. Also, the voltage comparison module 232 determines that the heating unit 100 is touched when the change voltage is different from the first applied voltage. Here, the voltage comparison module 232 must store the magnitude of the initial applied voltage in order to compare the initial applied voltage with the changed voltage, and compare the initial applied voltage and the changed voltage in real time while the touch sensing module 230 is operating .

FIG. 3 is a conceptual view for explaining heat radiation and touch detection of the heat ray control apparatus according to the present invention.

The switching module 240 controls the heating unit control module 210 and the touch sensing module 230. Touch detection can not be performed when the hot wire 110 generates heat. 3, the heating unit control module 210 and the touch sensing module 230 are switched according to the operation time of the predetermined heating unit 100 and the operation time of the touch sensing module 230 Touch sensing is in the middle of the hot line 110 operation. That is, the operation of the hot line 110 and the touch detection are operated by using a timer. In the present invention, the heating operation time of the hot line 110 is longer than the touch detection time.

Meanwhile, the present invention may further include a heating time control module 250 for sensing the temperature of the heating wire 110 and controlling the switching module 240 according to the detected temperature.

The heating time control module 250 controls the time for the switching module 240 to operate the heating unit 100 according to the sensed temperature of the heating wire 110, that is, the cycle in which the heating unit 100 is operated. Accordingly, the pattern of controlling the heating module 210 and the touch sensing module 230 may be different from that of the switching module 240. For example, when the sensed temperature of the hot wire 110 is lower than the predetermined temperature, the heat generation time control module 250 determines the time for the switching module 240 to generate the heat ray 110 through the heat generation unit control module 210 It can be long. At this time, the operation time of the touch sensing module 230 does not decrease, only the touch sensing cycle interval increases.

As described above, according to the present invention, heat generation and touch sensing are simultaneously performed by a hot line without a separate touch sensing sensor, so space utilization is improved due to omission of the touch sensing sensor. In addition, the present invention can maximize the touch sensing range by sensing touch to the entire heat generating part. In addition, since the present invention does not have a touch sensing sensor, it is possible to arrange the heat ray and the power supply line in various patterns, which is advantageous in flexibility of shape design.

Next, a method of controlling a hot wire according to the present invention will be described with reference to the drawings. The contents of the following description which are the same as those of the heat ray control device according to the present invention will be omitted or briefly explained.

4 is a flowchart of a method for controlling a heat line according to the present invention.

As shown in FIG. 4, the method for controlling a hot wire according to the present invention includes a step S1 for checking a switching time, a step S2 for generating a heat ray, or a step S3 for sensing a touch.

The step S1 of checking the switching time checks whether the touching time of the switching module activates the hot wire. This includes a step S1-1 of operating the hot wire, a step S1-2 of activating the timer, and a step S1-3 of judging whether it is the touch check time.

The step S1-1 of operating the hot wire receives the input from the occupant and activates the hot wire of the seat by the heater control module. Thereby, the hot wire of the heat generating portion is heated to reach the set temperature.

The step S1-2 of activating the timer activates the timer after the step S1-1 of activating the hot wire. Accordingly, the switching module can know how much time has passed since the hot wire was operated.

In step S1-3, it is determined whether the switching module is the touch-check time based on the timer operated in step S1-2 for activating the timer. Here, if the switching module determines that the touch check time has come, the touch sensing step S2 is performed. If it is determined that the touch checking time has not come, the heating module generates a hot wire, which will be described later.

If it is determined in step S1-3 that the touch sensing time is reached, the switching module stops the heating of the hot line and operates the touch sensing module to sense the touch . Accordingly, step S2 of sensing the touch comprises activating the touch sensing module and turning off the hot wire (step S2-1), sensing the touch (step S2-2), determining whether the touch is detected (step S2 -3), and controlling the temperature change (step S2-4).

If it is determined in step S1-3 that the touch sensing time is on, the step S2-1 of activating the touch sensing module and turning off the hot line stops heating the hot line, To start touch detection.

The touch sensing step S2-2 compares the voltage initially applied to the hot wire and the changed voltage to detect whether the touch sensing module is touching.

In step S2-3, the touch sensing module compares the initial applied voltage and the changed voltage in step S2-2, and if there is a difference, determines that the touch is detected.

Step S2-4 of controlling the temperature change is a step of determining whether or not a touch is detected in step S2-3. If a touch is detected, it is determined that the passenger is seated on the seat, Heat it.

If it is determined in step S1-3 that the touching time is not the time for the touching check module, the heating module generates a heat line through the heating module control module, . In the step S3 of heating the hot wire, the hot wire is operated and the hot wire is operated only to the set temperature. The step S3 of heating the hot wire may include a step S3-1 of turning off the touch sensing module and activating the hot wire, a step S3-2 of operating the hot wire, and a step of controlling the temperature S3-3).

Although the present invention has been fully described by way of example with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: heating part 110: heating wire
120: power supply line 130: pad
200: control unit 210: heating unit control module
220: Temperature control module 230: Touch sensing module
231: voltage detection module 232: voltage comparison module
240: switching module 250: heating time control module

Claims (3)

A heating portion including a hot wire,
And a controller for applying a voltage to the hot line and detecting a change in voltage when the conductor approaches the hot line, and controlling the hot line according to whether the heating unit is touching or not. The method according to claim 1,
Wherein,
A heating unit control module for controlling heating of the heating unit;
A temperature control module for controlling a heating temperature of the heating unit,
A touch sensing module for determining whether a touch is applied to the heating unit based on a change in the voltage applied to the hot line,
And a switching module for time-division-controlling the heating unit control module and the touch sensing module. A method of controlling a hot-wire using a hot-wire control apparatus according to claim 1 or 2,
Checking whether a touch-check time has elapsed while the switching module is operating a hot wire,
Heating the hot wire if the switching module determines that the touch check time has not yet arrived, and
And controlling the heating wire according to whether the heating unit touches the heating unit by applying a voltage to the heating wire when the switching module determines that the touch check time has come, Way.

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