KR20190125652A - Electric current shielding structure and electric current shielding structure for washer and electric current shielding method for washer - Google Patents

Abstract

The present invention relates to a current shielding circuit structure, a current shielding circuit structure for a washer using the same and a current shielding method for a washer using the same. A fuse unit shielding current when overcurrent occurs is located in a sensing line unit electrically connecting a control unit controlling operation of a motor unit rotating a laundry bucket and a sensor unit to more accurately confirm a cause when a short circuit occurs so as to easily cope with the same. Each sensor is protected from overcurrent to stably protect a sensor and the control unit connected to the sensor so as to increase durability with regard to electronic units of entire products and, also, easily perform repairs when AS is required and greatly reduce repair costs.

Description

The current shielding circuit structure and the current shielding circuit structure of the washing machine using the same, the current shielding method of the washing machine using the same TECHNICAL FIELD

The present invention relates to a current shielding circuit structure, a current shielding circuit structure of a washing machine using the same, and a current shielding method of the washing machine using the same, and more particularly, to block an overcurrent flowing into the controller or the sensor in a circuit structure including a controller connected to the sensor. The present invention relates to a current shielding circuit structure capable of protecting the controller and the sensor, a current shielding circuit structure of the washing machine using the same, and a current shielding method of the washing machine using the same.

In general, a washing machine is a device that removes stains on laundry, and soaks the laundry in a detergent solution in which detergent is dissolved so that the stain on the laundry is removed by the chemical action of the detergent, and at the same time rotating the washing tank into which the laundry is put, or It is a home appliance that rotates a pulsator located therein so that time can be easily removed from the laundry by mechanical action such as water current friction or impact of the laundry falling due to rotation in the washing tank.

The washing machine includes a motor that provides rotational force to the washing tank and a control unit that controls the operation of the motor, and the control unit controls the operation of the motor to undergo washing or dehydration.

The washing machine normally controls a motor through inverter control, and FIGS. 1 and 2 schematically show an example of a control unit for controlling a motor of a conventional washing machine, and FIG. 1 illustrates a schematic block diagram of an overall control system. 2 illustrates an example of a circuit diagram of a driving unit (inverter) for driving a motor.

That is, the control unit for controlling the motor of the conventional washing machine receives the AC power source 101 from the outside and converts it into direct current and outputs the rectified part 102 and the AC component mixed with the DC voltage passed through the rectified part 102. A capacitor 103 for removal, a motor driving unit 104 for converting the DC voltage passed through the capacitor 103 back into a three-phase alternating current and supplying it to the motor 105, and a current flowing through the system are shunt resistors. From the current protector 107 for detection by 106), the sensor (hall sensor) 108 for detecting the position of the rotor of the motor 105, and the current protector 107 and sensor 108. The microcomputer 109 which receives all signals and controls all the logics related to the on / off of the switching elements S1 to S6 in the motor driving section for controlling the operation of the motor 105 based on the received signal. It consists of). In Fig. 2, reference numerals Q1 to Q6 denote transistors, and D1 to D6 denote diodes D1 to D6, respectively. The operation of such a washing machine is as follows.

First, when an AC power source (for example, AC 220V, 60 Hz) 101 from the outside is supplied to the washing machine, the rectifier 102 converts the input AC voltage into a DC voltage and outputs it. Then, the motor driving unit 104 converts the DC voltage into three-phase (U, V, W) AC voltage again and supplies it to the motor 105. Here, the operation of the motor driving unit 104 as well as the control command of the microcomputer 109 is made. Accordingly, the switching elements S1 to S6 operate on / off according to the control command to supply the three-phase AC voltage to the motor 105.

When the three-phase AC voltage is supplied from the motor driving unit 104 to the motor 105 in this way, the motor 105 is rotated, thereby performing the process of washing or dehydration.

On the other hand, the washing machine has a configuration in which a fuse is located in a power supply line connecting the control unit and the power supply unit for supplying electric power to the control unit to protect the control unit by shorting the power line when an overcurrent flows on the power line.

The controller is connected to a sensor that provides necessary information for controlling the operation of the washing machine, that is, a temperature sensor, a water level sensor, a hall sensor, etc. through a plurality of sensing line units, and a hot water supply control valve and cold water to control hot water supply and cold water supply. The supply control valve and the valve control line are respectively connected.

That is, in the conventional washing machine, when current flows only in the power supply line of the control unit and the operation is stopped due to a short circuit due to a fuse, a short circuit may be caused by an abnormality in the power line unit or by an abnormality in any one of the plurality of sensing line units. There was a problem that it was difficult to confirm whether or not a short circuit was caused by an abnormality in the valve control line part.

The present invention is located in the sensing line that connects the sensor unit for providing information for controlling the operation of the washing machine and the control unit for controlling the operation of the washing machine, the fuse unit to cut off the current when the over current occurs, the operation of the washing machine due to short circuit The present invention provides a current shielding circuit structure, a current shielding circuit structure of a washing machine using the same, and a current shielding method of the washing machine using the same, so as to easily identify whether a short circuit occurs due to a problem at a location.

In order to achieve the above object, the current shielding circuit structure according to the present invention includes a control unit for controlling an operation, a sensor unit providing information for controlling the operation to the control unit, and electrically connecting the sensor unit and the control unit. It includes a sensing line portion, characterized in that it comprises a fuse located in the sensing line portion to shield the current when the overcurrent occurs.

In addition, to achieve the above object, the current shielding circuit structure of the washing machine according to the present invention is a control unit for controlling the operation of the motor unit for rotating the washing tub of the washing machine body, electrically connected to the control unit and controls the washing process to the control unit And a sensor unit for sensing and transmitting information for transmitting the sensor unit, a sensing line unit electrically connecting the sensor unit and the control unit, and a fuse unit positioned at the sensing line unit to shield a current when an overcurrent occurs. .

In the present invention, the sensor unit includes a plurality of sensors, and the sensing line unit includes a plurality of sensing lines respectively connecting the plurality of sensors to the control unit, wherein each of the sensing lines is a fuse unit for shorting a line when an overcurrent occurs The controller may further include a notification unit which notifies to the outside that a short circuit occurs in any one of the plurality of sensing lines.

In order to achieve the above object, the current shielding circuit structure of the washing machine according to the present invention is located in a power supply line part for supplying electric power to the control unit and the power supply line part to shield a current when an overcurrent occurs when an overcurrent occurs. It may further include a fuse for shielding power.

In the present invention, the sensor unit is located in the cold water supply line for supplying cold water into the washing tank is located in the first temperature sensor for detecting the cold water temperature of the cold water and the hot water supply line for supplying hot water into the washing tank to determine the temperature of the hot water. And a second temperature sensor for sensing, wherein the sensing line part includes a first temperature sensing line connecting the first temperature sensor and the controller, and a second temperature sensing line connecting the second temperature sensor and the controller, The fuse unit may be respectively disposed in the first temperature sensing line, the second temperature sensing line, the door sensing line, the water level sensing line, the weight sensing line, and the speed sensing line to separately short-circuit each case when an overcurrent flows through each sensing line. Can be.

In the present invention, the sensor unit includes a door opening and closing detection sensor for detecting the opening and closing of the door, a water level detection sensor for detecting the water level of the washing tank, a laundry weight detection sensor for detecting the weight of the laundry and a hall sensor for detecting the speed of the motor, The sensing line unit may include a door sensing line connecting the control unit and the door open / close detection sensor, a water level sensing line connecting the control unit and the water level detection sensor, a weight sensing line connecting the control unit and the laundry weight detection sensor, and the control unit. And a speed sensing line connecting the hall sensor, wherein the fuse unit is positioned in the door sensing line, the water level sensing line, the weight sensing line, and the speed sensing line, respectively, when an overcurrent flows in each sensing line, respectively. Can be shorted.

In the present invention, the control unit is connected to the first flow path opening and closing valve for opening and closing the flow path of the cold water supply line portion for supplying cold water into the washing tank and the first valve control line portion, opening and closing the flow path of the hot water supply line portion for supplying hot water into the washing tank. The second flow path opening and closing valve and the second valve control line unit may be connected, and the first valve control line unit and the second valve control line unit may be located in each of the fuse section for shorting the line when an overcurrent flows.

In the present invention, the sensor unit is located in the cold water supply line unit for supplying cold water into the washing tank, the first temperature sensor for detecting the cold water temperature of the cold water, the hot water supply line unit for supplying hot water into the washing tank temperature of the hot water It includes a second temperature sensor for detecting, the door opening and closing detection sensor for detecting the opening and closing of the door, the water level detection sensor for detecting the water level of the washing tank, the laundry weight detection sensor for detecting the weight of the laundry and the Hall sensor for detecting the speed of the motor; The sensing line unit may include a first temperature sensing line connecting the first temperature sensor and the control unit, a second temperature sensing line connecting the second temperature sensor and the control unit, and a door connecting the control unit and the door open / close detection sensor. Level sensing line connecting the sensing line, the control unit and the water level sensor, the control unit and the laundry weight sensor A weight sensing line for connecting and a speed sensing line for connecting the control unit and the hall sensor, wherein the fuse unit includes the first temperature sensing line, the second temperature sensing line, the door sensing line, a water level sensing line, and a weight sensing line. Each of the lines and the speed sensing lines can be individually shorted when overcurrent flows through the sensing lines.

In the present invention, the control unit may include a main test mode for testing a washing process of a washing machine with a predetermined program, and the main test mode may include a line test mode for testing a sensing line unit when a power line and a harness are connected.

In addition, in order to achieve the above object, the current shielding method of the washing machine according to the present invention transmits the information detected by the sensor unit to the control unit, washing the laundry by rotating the washing tank to the motor unit while supplying water into the washing tank. And an overcurrent blocking process of shorting the sensing line unit when an overcurrent occurs in the sensing line unit electrically connecting the sensor unit and the control unit during the washing process and the washing process.

In the present invention, the overcurrent blocking process includes a first temperature sensing line connected to a first temperature sensor sensing a temperature of cold water, a second temperature sensing line connected to a second temperature sensor sensing a temperature of hot water, and a water level in a washing tank. When an overcurrent occurs in the water level sensing line connected to the sensing water level sensing sensor and the speed sensing line connected to the hall sensor sensing the line speed of the washing tub, the fuse unit located in each sensing line may short-circuit the current.

In the present invention, the overcurrent blocking process opens and closes a flow path of a first valve control line part connected to a first flow path opening / closing valve for opening and closing a flow path of a cold water supply line for supplying cold water to a washing tank and a hot water supply line part for supplying hot water to a washing tank. When an overcurrent occurs in the second valve control line part connected to the second flow path opening / closing valve, the fuse part positioned in the first valve control line part and the second valve control line part may be shorted to cut off the current.

In order to achieve the above object, the current shielding method of the washing machine according to the present invention includes a plurality of sensors, and the sensing line unit includes a plurality of sensing lines respectively connecting the plurality of sensors to the control unit, and each sensing line includes an overcurrent. A fuse unit is provided to short-circuit a line when it is generated, and the overcurrent blocking process cuts off the current by shorting the fuse unit when an overcurrent occurs in any one of a plurality of sensing lines, and in order to achieve the above object. The current shielding method of the washing machine may further include a notification process of notifying the sensing line shorted due to an overcurrent generated from the plurality of sensing lines.

The present invention is located in the sensing line portion connecting the sensor and the control unit to block the over-current is located in the short circuit can be more accurately determine the cause, there is an effect that it is easy to cope with this.

The present invention is to protect each sensor from overcurrent individually to reliably protect the sensor and the control unit connected to it, and to improve the durability of the electrical equipment of the whole product and to facilitate the repair in the event of the occurrence of AS, repair cost This can greatly reduce the effect.

1 is a diagram illustrating a schematic block diagram of a control unit for controlling a motor of a conventional washing machine.
2 is a diagram illustrating an example of a circuit configuration diagram of a control unit for controlling a motor of a conventional washing machine.
Figure 3 is a circuit diagram showing an embodiment of the current shielding circuit structure and the current shielding circuit structure of the washing machine using the same according to the present invention.

Hereinafter, the present invention will be described in more detail.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention. Prior to the detailed description of the invention, the terms or words used in the specification and claims described below should not be construed as limiting in their usual or dictionary meanings. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

3 is a circuit diagram illustrating an embodiment of a current shielding circuit structure and a current shielding circuit structure of a washing machine using the same, and with reference to FIG. 3 of the current shielding circuit structure and the washing machine using the same. The current shielding circuit structure and the current shielding method of the washing machine using the same will be described in detail below.

The current shielding circuit structure according to the present invention includes a sensor unit 200 for providing information for controlling the operation, a control unit 100 for controlling the operation, and a sensing line for electrically connecting the sensor unit 200 and the control unit 100. And a fuse unit 400 disposed in the sensing line unit 300 to shield the current when an overcurrent occurs.

In addition, the current shielding circuit structure of the washing machine according to the present invention is electrically connected to the control unit 100, the control unit 100 for controlling the operation of the motor unit for rotating the washing tub of the washing machine body to control the washing process to the control unit 100 It includes a sensor unit 200 for sensing and transmitting information for sensing, the sensing line unit 300 for electrically connecting the sensor unit 200 and the control unit 100, and is located in the sensing line unit 300 when an overcurrent occurs It characterized in that it comprises a fuse 400 for shielding the current.

Although not shown, the current shielding circuit structure of the washing machine according to the present invention further includes a power supply line part for supplying electric power to the control unit 100, and is located in the power supply line part and is a power source for shielding current when an overcurrent occurs when an overcurrent occurs A shielding fuse unit may be further included, and the power shielding fuse unit is a known configuration, and thus a detailed description thereof will be omitted.

The fuse unit 400 may short-circuit the sensing line unit 300 when an overcurrent occurs to protect the sensor unit 200 and the controller 100 from hardware damage.

Although not shown, the control unit 100 includes a power supply unit for supplying power to each component of the washing machine, and a microcomputer for controlling the washing process of the washing machine. The relay RY, the bridge diode which converts the input AC power into direct current when the commercial power of AC is input from the outside, and smoothes the DC power by removing the pulses mixed in the DC power through the bridge diode. Capacitor, transformer for converting smooth DC power output from capacitor using electromagnetic induction phenomenon, diode for rectifying converted current or converted voltage output from transformer, and removing noise component of rectified voltage connected to each diode And a DC voltage connected to the capacitor to the set DC voltage. PCB (Printed Circuit Board) including a voltage regulator for converting and outputting, a power supply IC for converting and outputting a DC voltage input connected to the capacitor into a set DC voltage, and a resistor and capacitor connected to the voltage regulator. As an example, which is configured as a control unit 100 consisting of a PCB for controlling the operation of a known washing machine, a more detailed description will be omitted.

The microcomputer of the control unit 100 compares various types of data input from the sensor unit 200 with the preset reference data, and when the sensing data of each sensor unit 200 is out of a predetermined range of the reference data, the display unit (not shown). Control to display the error of the sensor through the display.

Sensor unit 200, 100 is located in the cold water supply line for supplying cold water into the washing tank is the first temperature sensor 210 for detecting the cold water temperature of the cold water, and the hot water supply line for supplying hot water into the washing tank It may include a second temperature sensor 220 for detecting the temperature of the hot water.

In addition, the sensor unit 200 and 100 may further include a door open / close detection sensor 230 for detecting the open / close of the door.

In addition, the sensor unit 200 may further include a water level sensor 240 for detecting the level of the washing tank.

In addition, the sensor unit 200 may further include a laundry weight detection sensor 250 for detecting the weight of the laundry.

In addition, the sensor unit 200 may further include a hall sensor 260 for detecting the speed of the motor.

The sensing line unit 300 includes a first temperature sensing line 310 connecting the first temperature sensor 210 and the control unit 100, a second temperature sensing connecting the second temperature sensor 220 and the control unit 100. May include line 320.

In addition, the sensing line unit 300 may further include a door sensing line 330 connecting the control unit 100 and the door open / close detection sensor 230.

In addition, the sensing line unit 300 may further include a water level sensing line 340 connecting the controller 100 and the water level sensor 240.

In addition, the sensing line unit 300 may further include a weight sensing line 350 connecting the control unit 100 and the laundry weight detection sensor 250.

In addition, the sensing line unit 300 may further include a speed sensing line 360 connecting the controller 100 and the hall sensor 260.

The fuse unit 400 includes a first temperature sensing line 310, a second temperature sensing line 320, a door sensing line 330, a water level sensing line 340, a weight sensing line 350, and a speed sensing line 360. ) Are each positioned to individually short-circuit each case when an overcurrent flows through each sensing line.

The control unit 100 is connected to the first flow path opening and closing valve 500 and the first valve control line unit 510 for opening and closing the flow path of the cold water supply line for supplying cold water into the washing tank, and supplying hot water to the washing tank. A second flow path opening / closing valve 600 and a second valve control line part 610 for opening and closing a negative flow path are connected to each other, and the first valve control line part 510 and the second valve control line part 610 each have a fuse part. 400 may be located.

The fuse unit 400 may be positioned in each of the first valve control line unit 510 and the second valve control line unit 610 to block the overcurrent when an overcurrent flows.

The control unit 100 includes a main test mode for testing a washing process of a washing machine with a predetermined program, and the main test mode includes a sensing line unit 300, a first valve control line unit 510, when a power line and a harness are connected to each other. It may include a line test mode for testing the second valve control line unit 610.

The control unit 100 performs the line test mode together in the main test mode so that the first temperature sensing line 310, the second temperature sensing line 320, the water level sensing line 340, the speed sensing line 360, and the first The valve control line part 510 and the second valve control line part 610 are included.

In addition, the controller 100 may include the first temperature sensing line 310, the second temperature sensing line 320, the water level sensing line 340, the speed sensing line 360, and the first valve control line unit 510. When a short circuit occurs in any one of the two-valve control line unit 610 may include a notification unit 700 for notifying to the outside through the control display of the washing machine.

That is, the sensor unit 200 includes a plurality of sensors, and the sensing line unit 300 includes a plurality of sensing lines respectively connecting the plurality of sensors to the controller 100, and each sensing line includes a line when an overcurrent occurs. The fuse unit 400 for shorting the position is located, and the control unit 100 may further include a notification unit 700 for notifying to the outside that a short circuit occurs in any one of the plurality of sensing lines.

The notification unit 700 may include a first temperature sensing line 310, a second temperature sensing line 320, a water level sensing line 340, a speed sensing line 360, a first valve control line unit 510, and a second valve. By displaying a line in which a short circuit occurs in any one of the valve control line unit 610, and notifying to the outside, a user or an AS engineer can immediately identify a line in which a short circuit has occurred.

The notification unit 700 may output a corresponding sensing line in which a short circuit occurs to the screen of the display unit of the control panel for operating the operation of the washing machine, and may also output a warning sound through the speaker unit.

On the other hand, the current shielding method of the washing machine according to the present invention transmits the information detected by the sensor unit 200 to the control unit 100, the control unit 100 by rotating the washing tank to the motor unit while supplying water into the washing tank to wash the laundry And an overcurrent blocking process of shorting the sensing line unit 300 when an overcurrent occurs in the sensing line unit 300 that electrically connects the sensor unit 200 and the control unit 100 during the washing process. It features.

The overcurrent blocking process includes a first temperature sensing line 310 connected to a first temperature sensor sensing a temperature of cold water, a second temperature sensing line 320 connected to a second temperature sensor sensing a temperature of hot water, and a washing tank. Each sensing line when an overcurrent occurs in the water level sensing line 340 connected to the water level detection sensor 240 for detecting the water level, and the speed sensing line 360 connected to the hall sensor 260 for detecting the line speed of the washing tank. As an example, the fuse unit 400 positioned at the short circuit cuts off the current.

In addition, the over-current blocking process is a first flow path opening and closing valve for opening and closing the flow path of the first valve control line 510 and the hot water supply line connected to the first flow path opening and closing valve 500 for opening and closing the flow path of the cold water supply line to the washing tank. When overcurrent occurs in the second valve control line unit 610 connected to the 600, the fuse unit 400 located in the first valve control line unit 510 and the second valve control line unit 610 is short-circuited. To cut off the current.

In summary, the current shielding method of the washing machine according to the present invention includes a plurality of sensors, the sensing line unit 300 includes a plurality of sensing lines respectively connecting the plurality of sensors to the control unit 100, each sensing line The fuse unit 400 short-circuits the line when an overcurrent occurs, and the overcurrent blocking process cuts off the current by shorting the fuse unit 400 when an overcurrent occurs in any one of the plurality of sensing lines.

The current shielding method of the washing machine according to the present invention may further include a notification process for notifying the sensing line shorted due to the overcurrent of the plurality of sensing lines.

The notification process may be notified to the outside through the control panel of the washing machine, and outputting a corresponding sensing line in which a short circuit occurs to the screen of the display of the control panel, and may also be notified by outputting a warning sound through the speaker unit.

According to the present invention, the fuse unit 400 for blocking the overcurrent is positioned in the sensing line unit 300 connecting the sensor and the control unit 100 to more accurately identify the cause when a short circuit occurs, and to facilitate the response.

The present invention has the effect of protecting each sensor individually from overcurrent to stably protect the sensor and the control unit 100 connected thereto, and to improve the durability of the entire electrical equipment of the whole product and to facilitate repair in the event of an AS. This can greatly reduce the cost of repairs.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

100: control unit 200: sensor unit
210: first temperature sensor 220: second temperature sensor
230: door opening and closing detection sensor 240: water level detection sensor
250: laundry weight detection sensor 260: hall sensor
300: sensing line unit 310: first temperature sensing line
320: second temperature sensing line 330: door sensing line
340: water level sensing line 350: weight sensing line
360: speed sensing line 400: fuse
500: first flow path opening and closing valve 510: first valve control line
600: second flow path opening and closing valve 610: second valve control line portion
700: notification unit

Claims (15)

A control unit for controlling the operation;
A sensor unit providing information to the control unit to control the operation; And
And a sensing line unit electrically connecting the sensor unit and the control unit, and comprising a fuse unit positioned at the sensing line unit to shield a current when an overcurrent occurs.
The method according to claim 1,
The sensor unit includes a plurality of sensors, and the sensing line unit includes a plurality of sensing lines respectively connecting a plurality of sensors to the control unit, wherein each of the sensing lines includes the fuse unit for shorting a line when an overcurrent occurs,
The control unit further includes a notification unit for notifying outside that a short circuit occurs in any one of the plurality of sensing lines.
The method according to claim 1,
A current shielding circuit structure further comprises a power supply line unit for supplying electrical power to the control unit, and a power shielding fuse unit located in the power supply line unit to shield the current when the overcurrent occurs. .
A control unit controlling an operation of the motor unit to rotate the washing tub of the washing machine body;
A sensor unit electrically connected to the control unit and configured to sense and transmit information for controlling a washing process to the control unit; And
And a sensing line unit electrically connecting the sensor unit and the control unit, and a fuse unit positioned in the sensing line unit to shield a current when an overcurrent occurs.
The method according to claim 4,
The sensor unit includes a plurality of sensors,
The sensing line unit includes a plurality of sensing lines respectively connecting a plurality of sensors to the control unit,
Each of the sensing lines is located in the fuse section for shorting the line when an overcurrent occurs,
The control unit further comprises a notification unit for notifying the outside of the occurrence of a short circuit in any one of the sensing line of the sensing line circuit structure of the washing machine.
The method according to claim 4,
Further comprising a power supply line for supplying electrical power to the control unit,
And a power shielding fuse unit positioned in the power supply line part to shield a current when an overcurrent occurs.
The method according to claim 4,
The sensor unit,
A first temperature sensor positioned at a cold water supply line supplying cold water into the washing tank to sense a cold water temperature of cold water; And
A second temperature sensor positioned at a hot water supply line supplying hot water into the washing tank and detecting a temperature of hot water;
The sensing line unit includes a first temperature sensing line connecting the first temperature sensor and the control unit; And
A second temperature sensing line connecting the second temperature sensor and a control unit;
The fuse unit may be respectively disposed on the first temperature sensing line, the second temperature sensing line, the door sensing line, the water level sensing line, the weight sensing line, and the speed sensing line to individually short-circuit each case when an overcurrent flows through each sensing line. The current shielding circuit structure of the washing machine, characterized in that.
The method according to claim 4,
The sensor unit,
A door opening and closing sensor for detecting opening and closing of the door;
A water level sensor for sensing the level of the washing tank;
A laundry weight sensor for sensing a weight of laundry; And
It includes a Hall sensor for detecting the speed of the motor,
The sensing line unit,
A door sensing line connecting the control unit and the door open / close detection sensor;
A water level sensing line connecting the controller to the water level sensor;
A weight sensing line connecting the control unit and the laundry weight sensor; And
A speed sensing line connecting the control unit and the hall sensor,
The fuse unit may be located in the door sensing line, the water level sensing line, the weight sensing line, and the speed sensing line, respectively, and separately short-circuit each case when an overcurrent flows through each sensing line.
The method according to claim 4,
The control unit is connected to the first flow path opening and closing valve for opening and closing the flow path of the cold water supply line portion for supplying cold water into the washing tank and the first valve control line portion, the second opening and closing the flow path of the hot water supply line portion for supplying hot water into the washing tank A current blocking portion of the washing machine, which is connected to the flow path opening / closing valve and the second valve control line part, and a fuse part is disposed in each of the first valve control line part and the second valve control line part to short-circuit the line when an overcurrent flows. Circuit structure.
The method according to claim 4,
The sensor unit,
A first temperature sensor positioned at a cold water supply line supplying cold water into the washing tank to sense a cold water temperature of cold water;
A second temperature sensor positioned at a hot water supply line supplying hot water into the washing tank to sense a temperature of hot water;
A door opening and closing sensor for detecting opening and closing of the door;
A water level sensor for sensing the level of the washing tank;
A laundry weight sensor for sensing a weight of laundry; And
It includes a Hall sensor for detecting the speed of the motor,
The sensing line unit,
A first temperature sensing line connecting the first temperature sensor and the controller;
A second temperature sensing line connecting the second temperature sensor and the controller;
A door sensing line connecting the control unit and the door open / close detection sensor;
A water level sensing line connecting the controller to the water level sensor;
A weight sensing line connecting the control unit and the laundry weight sensor; And
A speed sensing line connecting the control unit and the hall sensor,
The fuse unit may be respectively disposed in the first temperature sensing line, the second temperature sensing line, the door sensing line, the water level sensing line, the weight sensing line, and the speed sensing line to individually short-circuit each case when an overcurrent flows through each sensing line. The current shielding circuit structure of the washing machine, characterized in that.
The method according to claim 4,
The control unit includes a main test mode for testing a washing process of a washing machine with a predetermined program, and the main test mode includes a line test mode for testing a sensing line unit when a power line and a harness are connected. Circuit structure.
A washing process of transmitting the information sensed by the sensor unit to the control unit and washing the laundry by rotating the washing tank to the motor unit while supplying water into the washing tank; And
And an overcurrent blocking process of shorting the sensing line unit when an overcurrent occurs in a sensing line unit electrically connecting the sensor unit and the control unit during the washing process.
The method according to claim 12,
The overcurrent blocking process may include a first temperature sensing line connected to a first temperature sensor sensing a temperature of cold water, a second temperature sensing line connected to a second temperature sensor sensing a temperature of hot water, and a water level sensing a water level in a washing tank. When the overcurrent occurs in the water level sensing line connected to the detection sensor, the speed sensing line connected to the hall sensor for detecting the line speed of the washing tub, the fuse unit located in each sensing line is short-circuited to cut off the current. Current shielding method
The method according to claim 12,
The overcurrent blocking process may include opening and closing a first valve control line part connected to a first flow path opening / closing valve for opening / closing a flow path of a cold water supply line for supplying cold water to a washing tank and a second opening / closing flow path for a hot water supply line for supplying hot water to a washing tank. When an overcurrent occurs in the second valve control line portion connected to the flow path opening and closing valve of the washing machine, characterized in that the fuse is located in the first valve control line portion and the second valve control line portion is short-circuited to cut off the current. Current shielding method
In claim 12,
A plurality of sensors, the sensing line unit includes a plurality of sensing lines for connecting each of the plurality of sensors to the control unit, each sensing line is located in the fuse unit for shorting the line when an overcurrent occurs, the overcurrent blocking process is a plurality of If over current occurs in any one of the sensing lines, short the fuse to cut off the current,
The current shielding method of the washing machine, characterized in that it further comprises a notification process for notifying the sensing line is short-circuited due to the over-current generated among the plurality of sensing lines.

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