KR0129628Y1 - Relay control apparatus of household electric appliances - Google Patents

Abstract

The present invention relates to a relay control device of a home appliance to prevent deterioration of the switch contact of the relay, the present invention is to provide a sinusoidal wave voltage of the AC power source 20 to the load (R) through the relay (10) (10) In the relay control apparatus for controlling the on / off operation of the switch SW1, the pulse generating means 30 for receiving a sine wave voltage of the AC power supply 20 and outputting a pulse at the zero cross point of the sine wave voltage. ) And; When the output signal of the pulse generating means 30 is applied to generate a driving signal for instructing the on / off of the switch 10 of the relay 10 at the time of the output pulse generation, at the current generation time of the drive signal Control means 40 for storing the phase of the sinusoidal voltage of the current signal and generating the next drive signal at a zero cross point opposite to the phase of the sinusoidal voltage of the current drive signal. In this case, it is possible to prevent deterioration of the switch by preventing continuous carbon movement between the movable contact and the fixed contact by switching at an AC voltage having a phase opposite to that of the previous switching. You can.

Description

Relay control device of home appliances

1 is a circuit diagram of a relay control device of a home appliance according to the present invention.

FIG. 2 is a waveform diagram of each part of the relay control apparatus of the home appliance shown in FIG.

* Brief description of the main parts of the drawing

10: relay 20: AC power

30: pulse generating means 40: control means

R: Load SW1: Switch

SW1a: fixed contact SW1b: movable contact

The present invention relates to a relay control device of a home appliance, and more particularly, to a relay control device of a home appliance to prevent degradation of the switch contact of the relay.

Conventional relay control apparatus of home appliances comprises a relay for switching the voltage applied to the load, and a control means for outputting a switch drive signal to the relay. The relay control apparatus of the conventional household appliance configured as described above is configured to switch on the relay when a switch driving signal is output from the control means to the relay.

However, in the relay control apparatus of the conventional home appliance as described above, since the voltage of the same phase is always applied to the relay switch to drive the same, carbon is continuously released from one of the movable contact point and the fixed contact point of the relay switch, The released carbon is continuously accumulated at the other contact point, so that the contact point of the relay switch is easily degraded, and eventually, the switch is always on.

In other words, in order to drive a load in an electronic device provided with a relay, the load is not driven in any phase of the AC power, but the load is operated at the point where the AC power becomes 0V, that is, the zero cross point. For reference, a technique for matching the on / off timing of the relay with the zero cross point of the AC waveform is disclosed in the relay drive device of Japanese Patent Publication No. 3-216921 published on September 24, 1991. It is possible to prevent surge by on / off of the switch by applying / blocking the AC power to the load by controlling ON / OFF of the relay switch at the zero cross point of the square waveform of the applied AC power.

Therefore, in a system with a large number of on / off relays, when the relay switch is turned on when the AC power becomes zero cross, the same polarity is always formed at each contact point of the relay switch, so that a carbon film is accumulated at the positive polarity (+). In addition, the negative electrode (-) has a problem in that the contact debris is moved to the positive electrode (+), so that a defect that is energized after a long time passes.

Accordingly, the present invention is to solve the above problems, an object of the present invention is to provide a relay control device of a home appliance that can improve the reliability of the relay by preventing degradation of the switch contact of the relay.

In order to achieve the above object, the relay control device of a home appliance according to the present invention may provide the sinusoidal wave voltage of the AC power supply 20 to the load R through the relay 10. In the relay control device for controlling the on / off operation of the pulse generator means for receiving the sinusoidal wave voltage of the AC power source 20 and outputs a pulse at the zero cross point of the sinusoidal wave voltage, and the pulse generating means When the output pulse of (30) is applied to generate a drive signal instructing on / off of the switch 10 of the relay 10 at the time of generating the output pulse, the sine wave voltage at the current generation time of the drive signal is generated. And a control means 40 for storing the phase and generating the next drive signal at a zero cross point opposite to the phase of the sinusoidal voltage of the current drive signal.

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

1 is a circuit diagram of a relay control device of a home appliance according to the present invention, Figure 2 is a waveform diagram of each part of the relay control device of the home appliance shown in FIG.

In FIG. 1, the relay control apparatus of the present invention includes an AC power supply 20 and a load R to which a user operation switch SW2 is connected in series and to which a square wave voltage of the AC power supply 20 is applied. Relays 10 for applying the voltage of the AC power source 20 to the load R are connected in parallel. In addition, the pulse generating means 30 for generating a pulse by determining the zero cross point of the square wave voltage of the AC power by receiving the voltage across the AC power supply 20, and the output of the pulse generating means 30 is applied And control means 40 for generating a drive signal for controlling the switching operation of the relay 10.

The relay 10 is composed of a relay coil RYL and a switch SW1 turned on and off by a magnetic force generated from the relay coil RYL. The switch SW1 includes a fixed contact SW1b connected to the load R and a movable contact SW1a connected to an external AC power source 20.

The load R is, for example, a heater used to dry clothes or dishes in a washing machine, dishwasher or drum washing machine.

The control means 40 receives the output pulse of the pulse generating means 30 to generate a drive signal for instructing the on / off of the switch (SW1) of the relay 10 at the time of the output pulse generation, The microcomputer stores the phase of the sine wave voltage at the current generation point of the drive signal and generates the next drive signal at the zero cross point opposite to the phase of the sine wave voltage of the current drive signal.

Hereinafter, the operation and effect of the relay control device of the home appliance according to the embodiment of the present invention configured as described above will be described with reference to FIG.

It is assumed that the switch SW1 is turned off as an initial condition for the operation.

When the user turns on the operation switch SW2 at the time T11 while power is supplied to the control means 40, the sinusoidal wave voltage of AC 220V as shown in FIG. 2A is generated from the AC power source 20. It is input to the pulse generating means 30. Next, when the sine wave voltage passes the zero cross point, the pulse is output from the pulse generating means 30 to the input terminal 11 of the control means 40. Then, a high level signal as shown in FIG. 2B is output from the output terminal 01 of the control means 40 to the relay coil RYL. Then, it is connected to the fixed contact SW1b of the switch SW1.

Next, an AC voltage from the AC power supply 20 is applied to the load R as shown in FIG. 2C via the movable contact SW1a and the fixed contact SW1b of the switch SW1. Next, at time T32, the high level signal output from the control means 40 to the relay coil RYL is stopped. Then, the movable contact SW1a of the switch SW1 is separated from the fixed contact SW1b so that no current flows in the load R.

Next, at time T33, a high level signal as shown in Fig. 2b is output from the output terminal 01 of the control means 40 to the relay coil RYL. Then, the movable contact SW1a of the switch SW1 is connected to the fixed contact SW1b. Next, an AC voltage from the AC power supply 20 is applied to the load R as shown in FIG. 2C by the movable contact SW1a of the switch SW1 via the fixed contact SW1b. In this case, as shown in FIG. 3C, the switch SW1 is switched at an AC voltage in a phase opposite to that at time T11. Next, at time T42, a low level signal is output from the control means 40 to the relay coil RYL. Then, the movable contact SW1a of the switch SW1 is separated from the fixed contact SW1b so that no current flows in the load R.

In other words, when the control unit 40 examines the time point at which the high level switch-on driving signal is output, the first driving signal is generated at time T11 and the phase of the AC power square wave voltage is + at the pole. The zero crossing point is converted to the pole, and the second driving signal is generated at time T33, and the phase of the AC power square wave voltage at this time is the zero cross point that is switched from the + pole to the-pole. Therefore, when the first driving signal is generated, the polarities of the two contacts of the switch 10 switch SW1 have the opposite polarity when the second driving signal is generated. Thereafter, the above process is repeated to supply power to the load.

As described above, according to the relay control apparatus of a home appliance according to an embodiment of the present invention, when the relay is turned on, the voltage applied to the switch may be changed in phase every turn on, thereby preventing deterioration of the contact point of the switch. have.

Next, a configuration of an embodiment of the present invention will be described with reference to FIG. 1.

In the relay control device of a home appliance according to another embodiment of the present invention, the control means 40 is the switch SW1 to prevent deterioration of the contacts SW1a and SW1b of the switch SW1 of the relay 10. Is connected to the relay 10 and the pulse generating means 30 so as to change the phase of the voltage applied to the switch SW1 of the relay 10 at the time of turning on and off. In the relay control apparatus of the home appliance according to another embodiment of the present invention, the other configuration is the same as the relay control device of the home appliance according to an embodiment of the present invention described above, and will not be described.

Next, an operation effect of the relay control apparatus of the home appliance according to another embodiment of the present invention will be described with reference to FIGS. 2a, 2d, and 2e.

It is assumed that the switch SW1 is turned off as an initial condition for the operation.

When the user turns on the operation switch SW1 at the time T11 while power is supplied to the control means 40, a sinusoidal wave voltage of AC 220V as shown in FIG. 2A is generated from the AC power source 20. It is input to the pulse generating means 30. Next, when the sine wave voltage passes the zero cross point, the pulse is output from the pulse generating means 30 to the input terminal 12 of the control means 40. Next, a high level signal as shown in Fig. 2d is output from the output terminal 01 of the control means 40 to the relay coil RYL. Then, the movable contact SW1a of the switch SW1 is connected to the fixed contact SW1b. Next, an AC voltage from the AC power supply 20 is applied to the load R as shown in FIG. 2E via the movable contact SW1a and the fixed contact SW1b of the switch SW1.

At time T13, a low level signal is output from the output terminal 01 of the control means 40 to the relay coil RYL. Then, the movable contact SW1a of the switch SW1 is separated from the fixed contact SW1b so that no current flows in the load R. In this case, as shown in FIG. 2D, the phase opposite to that at time T11 is switched to the switch SW1 at an AC voltage so that the continuous carbon between the movable contact SW1a and the fixed contact SW1b is continuous. Movement of the switch SW1 is prevented.

Next, at time T34, a high level signal is output from the output terminal 01 of the control means 40 to the relay coil RYL as shown in FIG. 2d, so that the movable contact of the switch SW1. SW1a is connected to the fixed contact SW1b. Next, an AC voltage from the AC power supply 20 is applied to the load R as shown in FIG. 2E via the movable contact SW1a and the fixed contact SW1b of the switch SW1. In this case, as shown in FIG. 2E, the switch SW1 is switched at an AC voltage of a phase opposite to that at time T13, so that the continuous carbon between the movable contact SW1a and the fixed contact SW1b is continuous. Movement of the switch SW1 is prevented.

At time T42, a low level signal is output from the output terminal 01 of the control means 40 to the relay coil RYL. Then, the movable contact SW1a of the switch SW1 is separated from the fixed contact SW1b so that no current flows in the load R. In this case, as shown in FIG. 2E, the switch SW1 is switched at an AC voltage of a phase opposite to that at time T34, so that the continuous carbon between the movable contact SW1a and the fixed contact SW1b is continuous. Movement of the switch SW1 is prevented. Thereafter, the above process is repeated to supply power to the load.

As described above, according to the relay control apparatus of a home appliance according to another embodiment of the present invention, when the switch of the relay is turned on and off, the phase of the voltage applied to the switch is changed every turn on and every turn off. Deterioration of the contact can be prevented.

As described above, the relay control device of a home appliance according to the present invention switches the switch at an AC voltage having a phase opposite to that of the previous switching when the switch is turned on or off, so that the movable contact and the fixed contact are mutually separated. There is an excellent effect to prevent the deterioration of the switch by preventing the continuous movement of carbon. In addition, by preventing the deterioration of the switch as described above, the reliability of the relay can be improved, and there is an excellent effect of improving the safety of the product.

Claims (1)

In the relay control device for controlling the on / off operation of the switch (SW1) of the relay 10 to provide the sinusoidal wave voltage of the AC power source 20 to the load (R) through the relay 10, the AC power source 20 A pulse generating means (30) for receiving a sinusoidal wave voltage of?) And outputting a pulse at a zero cross point of the sinusoidal wave voltage; When the output signal of the pulse generating means 30 is applied to generate a driving signal for instructing the on / off of the switch 10 of the relay 10 at the time of the output pulse generation, at the current generation time of the drive signal And control means (40) for storing the phase of the sinusoidal wave voltage and generating the next drive signal at a zero cross point opposite to the phase of the sinusoidal voltage of the current drive signal. Device.