KR200173258Y1 - Ventilation system - Google Patents

Abstract

The present invention relates to an automatic ventilation system, the AC power from the outside is supplied to the rated DC power supply through the transformer and bridge diode and the constant voltage IC, and the AC through the contact point of the first relay by the drive signal of the microprocessor The lamp is turned on after the power is delayed for a predetermined time, and the fan is rotated to one or three stages after the AC power is delayed for a predetermined time by the contact signal of the second or fourth relay by the drive signal of the microprocessor. In the microprocessor that is supplied with the power of the size to make the power supply, and the light switch and the options of 1 to 3 switches and the manual / auto selection switch are turned on, Lights up and receives the temperature of the room through the temperature sensor as an electrical signal. The microprocessor of the gas sensor and smog sensor recognizes the voltage transmitted through the variable resistor and the amplifier and selects the driving state of the fan according to the internal temperature, gas and smog status in the manual or automatic mode. By selecting and rotating the fan's rotation speed, it enables quick ventilation according to the indoor condition.

Description

Automatic Ventilation System {VENTILATION SYSTEM}

The present invention relates to an automatic ventilation system, and when gas is detected in the room, smog caused by food smell or tobacco smoke, or the temperature of the room rises, it recognizes this and adjusts the rotation speed of the fan to force the exhaust and at the same time, the fan speed or operation The present invention relates to an automatic ventilation system for reporting a status to a light emitting diode.

In general, it is well known that gas is often used as fuel for cooking or heating in homes, offices or restaurants.

In addition, conventionally, a gas supply controller which recognizes whether gas is leaked in a room through a gas detection sensor and proposes a gas supply controller that automatically shuts off the gas supply valve to shut off the supply when there is a gas leak is widely used.

However, in the conventional gas supply controller as described above, when a gas leaks and an accident occurs, the gas can be prevented by blocking the supply of gas by shutting off the valve, while smog caused by food or tobacco smoke in the room is prevented. It could not maintain a comfortable environment because it does not recognize the operation of changing the air in the room comfortably even when the internal temperature is high, there was a drawback that there is a limit to its use.

Accordingly, the present invention recognizes when gas is detected in the room, smog caused by food smell or cigarette smoke, or the temperature of the room rises, thereby forcibly discharging the fan while controlling the rotation speed of the fan. Its purpose is to provide an automatic ventilation system for notification.

The present invention for achieving the above object is that the AC power supplied from the outside through the connector is supplied to the primary side of the transformer via the TNR, DC power supply while passing through the full-wave rectifier of the bridge diode on the secondary side of the transformer Is converted to DC power of a rated voltage by a constant voltage IC, and is supplied to the primary side of the transformer through a relay contact turned on / off by a first relay receiving a driving signal of a microprocessor through a transistor. After the AC power is delayed for a predetermined time by the resistor and the condenser, the lamp is turned on, and the primary of the transformer is connected through a relay contact turned on / off by a second relay receiving a driving signal of the microprocessor through a transistor. After the AC power supplied to the side is delayed for a predetermined time by the resistor and capacitor, turn on the fan. AC power supplied to the primary side of the transformer through a relay contact on / off by a third relay receiving the driving signal of the microprocessor through a transistor to be supplied to a power of a size for rotating in one stage. The relay contact is turned on / off by the fourth relay receiving the drive signal of the microprocessor through the transistor after being delayed for a predetermined time by the resistor and the condenser and being supplied with power of a size to rotate the fan in two stages. Through the AC power supplied to the primary side of the transformer is delayed for a predetermined time by a resistor and a capacitor to be supplied to the power of the size to rotate the fan in three stages, the light switch and the fan of the light to turn on Through 1 ~ 3 step switch and manual / auto selection switch to select rotation speed In the microprocessor receiving the user's option, the corresponding lamp is selectively turned on by the state in which the 1st stage to 3rd stage switches or the manual / automatic selection switch is turned on or the state of operation. In the above microprocessor which receives the indoor temperature value as an electrical signal through the variable resistor in the gas sensor and the smog sensor and recognizes the voltage value amplified and transmitted from the amplifier, it selects the driving state of the fan manually or automatically. In the selected mode, the fan can be driven while selecting the rotational speed according to the internal temperature, gas, and smog status, enabling quick ventilation according to the indoor condition.

1 is a circuit diagram showing a configuration according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

6: microprocessor 8, 12, 16, 19: relay

10: light 14: fan

21: temperature sensor 22: gas sensor

23: smog sensor 25: amplifier

R1, R2: resistors C1, C2: capacitors

SW1, SW2, SW3, SW4, SW5: Switch

L1, L2, L3, L4: Lamp

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

1 shows a configuration according to an embodiment of the present invention, the AC power supplied from the outside through the connector (1) is supplied to the primary side of the transformer (3) via the TNR (2), the transformer On the secondary side of (3), while converting into a direct current power source while passing through the full-wave rectifying part 4 of the bridge diode, the constant voltage IC 5 is converted to a rated DC power source.

AC power supplied to the primary side of the transformer 3 via a relay contact 9 on / off by the first relay 8 receiving the drive signal of the microprocessor 6 through the transistor 7 The second relay 12 receiving the driving signal of the microprocessor 6 through the transistor 11 and turning on the lamp 10 after being delayed by the resistor R1 and the capacitor C1 for a predetermined time. AC power supplied to the primary side of the transformer 3 through the relay contact 13 turned on / off by the < RTI ID = 0.0 > 1 < / RTI > Make sure to supply power of size to rotate to 1 stage.

AC supplied to the primary side of the transformer 3 through a relay contact 17 which is turned on / off by the third relay 16 receiving the driving signal of the microprocessor 6 through the transistor 15. After the power is delayed by the resistor R2 and the condenser C2 for a predetermined time, the power is supplied to the power supply for rotating the fan 14 in two stages, and the driving signal of the microprocessor 6 is transmitted to the transistor 18. AC power supplied to the primary side of the transformer (3) via the relay contact (20) is turned on / off by the fourth relay 19 received through the) by the resistor (R2) and the capacitor (C2) After the delay for a predetermined time to supply the power of the size to rotate the fan 14 in three stages, and to select the rotation speed of the light switch (SW1) and the fan 14 for turning on the lamp (10) 1 to 3 step switch (SW2) (SW3) (SW4) and manual / automatic selection In the microprocessor 6 receiving the user's option through the switch SW5, the first to third stage switches SW2, SW3, SW4, and the manual / automatic selection switch SW5 are turned on. The above-mentioned micros which selectively light the corresponding lamps L1, L2, L3, L4 according to the state or the operation state and receive the temperature value of the room through the temperature sensor 21 as an electric signal. The processor 6 selects the rotational speed of the fan 14 by recognizing the voltage value that is amplified and transmitted from the amplifier 24 through the variable resistor VR in the gas sensor 22 and the smog sensor 23.

The automatic ventilation system of the present invention configured as described above allows the AC power supplied from the outside through the connector 1 to be supplied to the primary side of the transformer 3 while preventing the inflow of overcurrent while passing through the TNR 2.

The AC power is converted into DC power while passing through the full-wave rectifier 4 of the bridge diode on the secondary side of the transformer 2, and then converted into a DC power supply (Vcc) rated by the constant voltage IC 5, and then a microprocessor ( 6) to be supplied with operating power inside.

Therefore, if the user selects to turn on the light switch 10 by turning on the light switch SW1 while the automatic ventilation system of the present invention is installed and used, the driving signal is set to 'H' in the microprocessor 6 which recognizes this. The first relay 8, which outputs to turn on the transistor 7 and receives power through the collector-emitter of the transistor 7, is driven to turn on the relay contact 9.

As the relay contact 9 turns on, AC power supplied to the primary side of the transformer 3 is delayed for a predetermined time by the resistor R1 and the capacitor C1, and then is supplied to the lamp 10 to be turned on. Let's do it.

When the manual / automatic selection switch (SW5) is selected as the manual mode to manually operate the fan 14 of the present invention, the lamp L4 is turned on in the microprocessor 6 which recognizes the manual mode to the manual mode. Notifies the outside that it is selected.

The microprocessor 6 recognizes a state in which the first to third stage switches SW2, SW3, and SW4 are turned on in accordance with the state of smog such as indoor gas or smell or cigarette smoke recognized by the user.

In the microprocessor 6 receiving the user's option, the lamps L1 to L3 are selectively turned on by the state in which the first to third switch SW2 to SW4 are turned on. So that the rotational speed of the fan 14 is now known.

If the first stage switch SW2 is turned on, the second relay 12 is driven as the transistor 11 receiving the driving signal of the microprocessor 6 to 'H' is turned on to relay contact. AC power supplied to the primary side of the transformer 3 through 13 is delayed for a predetermined time by the resistor R2 and the condenser C2, and then the power supply having the size for rotating the fan 14 to the first stage. To be supplied.

When the second stage switch SW3 is turned on, the third relay 16 is driven as the transistor 15 receiving the driving signal of the microprocessor 6 to 'H' is turned on to relay contact ( 17) the AC power supplied to the primary side of the transformer 3 is delayed for a predetermined time by the resistor R2 and the condenser C2, and then is a power source for rotating the fan 14 in two stages. To be supplied.

When the three-stage switch SW4 is turned on, the fourth relay 19 is driven to turn on the relay contact as the transistor 18 receiving the driving signal of the microprocessor 6 is turned on. AC power supplied to the primary side of the transformer 3 through 20 is delayed for a predetermined time by the resistor R2 and the condenser C2, and is a power source having a size for rotating the fan 14 in three stages. To be supplied.

On the other hand, if the automatic mode is selected through the manual / automatic selection switch (SW5), the microprocessor 6 recognizes the temperature of the room through the temperature sensor 21 as an electrical signal while receiving the electric signal It recognizes whether it is 40 ℃ or above, 60 ℃ or above 70 ℃ and at the same time passes through the variable resistor VR at the gas sensor 22 and the smog sensor 23, and the voltage value amplified by the amplifier 24 is 2.93V. The rotational speeds of the first and third stages of the fan 14 are selected by recognizing -3.52V, 3.52V-4.10V, or 4.10V-4.50V.

Therefore, it is determined to rotate the fan in one or three stages according to the temperature detection result through the temperature sensor 21 or the state of contamination inside the gas sensor 22 or the smog sensor 23.

The drive according to the rotational speed of the fan 14 operates in the same manner as in the case of the manual selection.

Therefore, according to the automatic ventilation system of the present invention, the AC power from the outside is supplied through the transformer, the bridge diode and the constant voltage IC to supply the rated DC power, and through the contact point of the first relay by the drive signal of the microprocessor. The lamp is turned on after the AC power is delayed for a predetermined time, and the fan is switched to one or three stages after the AC power is delayed for a predetermined time by the contact signal of the second or fourth relay by the drive signal of the microprocessor. In microprocessors that are supplied with power of a size to rotate and receive options through a light switch and a 1 to 3 switch and a manual / automatic selection switch, the switch is turned on or by a state of operation. It turns on the lamp and transmits the temperature value of the room through the temperature sensor as an electric signal. In the above microprocessor, the gas sensor and the smog sensor recognize the voltage value transmitted through the variable resistor and the amplifier and select the driving state of the fan so that the state of the internal temperature, gas, and smog is selected in the manual or automatic mode. By driving while selecting the rotational speed of the fan according to the state of the room to enable fast ventilation.

Claims (1)

The AC power supplied from the outside through the connector 1 is supplied to the primary side of the transformer 3 via the TNR 2, and the full wave rectifying part 4 of the bridge diode at the secondary side of the transformer 3 is provided. In the automatic ventilation system which is converted to a DC power source and then converted to a DC power supply of the rated voltage by the constant voltage IC (5) during the first pass, the first signal receiving the drive signal of the microprocessor (6) through the transistor (7) After the AC power supplied to the primary side of the transformer 3 through the relay contact 9 turned on / off by the relay 8 is delayed for a predetermined time by the resistor R1 and the capacitor C1, 10), and the driving signal of the microprocessor (6) of the transformer (3) through a relay contact 13 is turned on / off by the second relay 12 receives the transistor 11 through the transistor (11) AC power supplied to the primary side is supplied to the resistor (R2) and capacitor (C2). After the delay for a predetermined time by the power supply to supply the size of the fan 14 to rotate in one stage, the micro relay 6 drive signal to the third relay 16 that is transmitted through the transistor 15 The AC power supplied to the primary side of the transformer 3 through the relay contact 17 turned on / off by the resistor R2 and the capacitor C2 is delayed for a predetermined time, and then the fan 14 is turned on in two stages. It is supplied to the power of the size to rotate the microprocessor 6 through the relay contact 20 is turned on / off by the fourth relay 19 receives the drive signal of the microprocessor 6 through the transistor 18 AC power supplied to the primary side of the transformer 3 is delayed for a predetermined time by the resistor R2 and the condenser C2, and then supplied to the power having a size for rotating the fan 14 in three stages. To light the lamp (10) Receives the user's choice through the 1st to 3rd stage switch (SW2) (SW3) (SW4) and manual / automatic selection switch (SW5) for selecting the rotation speed of the back switch (SW1) and the fan (14). The microprocessor 6 has a corresponding lamp L1 according to a state in which the 1st stage to 3rd stage switches SW2, SW3, SW4 or the manual / automatic selection switch SW5 is turned on or the state of operation. (L2) (L3) and (L4) to turn on, and the microprocessor (6) in which the temperature value of the room through the temperature sensor 21 is transmitted as an electrical signal, the gas sensor 22 and the smog sensor ( 23) in the automatic ventilation system characterized in that it is configured to adjust the rotational speed of the fan 14 by recognizing the voltage value transmitted through the variable resistor (VR) and the amplifier (24).