RU2568868C2 - Bactericide irradiator supply and control system - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to disinfection and can be used for in-room air and fouled surface decontamination in the absence of people. Exposed bactericide irradiator supply and control system comprises circuit connection unit and supply and control unit incorporating the starting controller. Note here that supply and control unit is equipped with gas-discharge lamp operation control pickup and gas discharge lamp operating hours counter with LED-based digital indicator. Switch-on delay unit and gas discharge lamp operating hours master unit are connected in between the circuit connection unit and starting controller of supply and control unit.

EFFECT: higher reliability and safety.

7 cl, 1 dwg

Description

The invention relates to disinfectants using ultraviolet radiation, and in particular to bactericidal irradiators of the open type, and is aimed at improving the reliability and safety of disinfecting air and contaminated surfaces, mainly in medical facilities in the absence of people.

It is known from the prior art that a device for a power supply and control system for a bactericidal irradiator is provided, comprising a power supply unit and a power and control unit with a ballast, to which gas discharge lamps of a bactericidal irradiator are connected (RU 2092191 C1, A61L 9/20, 1997; RU 11068 U1, A61L 9 / 20, 1999; RU 99710 U1, A61L 9/20, 2010; RU 104068 U1, A61L 9/20, 2011). The main disadvantage of such a device is the lack of means to automatically turn on, control the operating time of gas discharge mercury lamps and disconnect the bactericidal irradiator from the power source - the electric network, which reduces the reliability and safety of the device and the efficiency of the bactericidal disinfection process using ultraviolet radiation, especially in rooms lack of people.

Also known is a device for the power supply and control system of a bactericidal irradiator, comprising a power supply unit and a power supply and control unit with a ballast, to which gas discharge lamps of a bactericidal irradiator are connected, while the power supply and control unit is equipped with a sensor for monitoring the operation of the gas discharge lamp and a running meter for the gas discharge lamp with color indicator (RU 91857 U1, A61L 9/20, 2010). The disadvantage of this device is the lack of means to automatically turn on and off the bactericidal irradiator from the power source - the electrical network, which reduces the reliability and safety of the device and the effectiveness of the bactericidal disinfection process using ultraviolet radiation, especially in rooms in the absence of people. In addition, the color indicator of the operating hours of the discharge lamp does not allow to record the current value of the operating time of the discharge lamp.

The technical result to which the invention is directed is to increase the reliability and safety of the bactericidal irradiator and, accordingly, to increase the efficiency of the bactericidal disinfection process using ultraviolet radiation, mainly in rooms in the absence of people.

The solution of this problem and the achievement of the claimed technical result is ensured by the fact that in the device of the power supply and control system of the bactericidal irradiator of the open type for disinfection of air and contaminated surfaces in the rooms in the absence of people, it contains a power supply unit and a power and control unit with a ballast, while power supply and control is equipped with a sensor for monitoring the operation of the discharge lamp and a counter operating hours of the discharge lamp, according to the invention between the unit evogo inclusion and ballast power supply unit and the control unit includes the delay and switching-time master unit operating a discharge lamp, a discharge lamp operating hours counter is provided with the LED number.

In this case, the on-delay unit is made in the form of a time relay with an on-delay, the normally open contacts of which are included in the electrical circuit of the network enable unit.

In this case, the unit-setter of the operating time of the discharge lamp is made in the form of a time relay with a delayed shutdown, normally closed contacts of which are included in the electrical circuit of the network enable unit.

In this case, the sensor for monitoring the operation of the discharge lamp is made in the form of a current relay.

In addition, the device of the power supply and control system of the bactericidal irradiator is equipped with an audible warning unit (audible warning device) connected to the on-delay unit and an information unit containing a light indicator connected to the on-delay unit and light indicators connected to the operating time setting unit gas discharge lamp and a sensor for monitoring the operation of a gas discharge lamp.

In addition, the information unit further comprises a light indicator connected to the network enable unit.

In addition, the device of the power supply and control system of the bactericidal irradiator further comprises a motion sensor with normally closed contacts included in the electric circuit of the power supply unit, which blocks the power supply.

The presence of a delay unit for turning on the bactericidal discharge lamp, which after the operator connects the power supply system and controls the bactericidal irradiator to the power source (to the mains) automatically delays the voltage supply to the ballast, to which the germicidal discharge lamps are connected, for a certain time required for leaving the operator of the treated - disinfected room, and the unit-setter of the bactericidal gas-discharge working time lamps, which after working out a given time delay ensures that the voltage is switched off to the ballast, to which bactericidal gas-discharge lamps are connected, it allows to carry out an effective automated process of bactericidal disinfection - disinfection of the room without the presence of people - the operator. In addition, the presence of a sensor for monitoring the operation of a gas discharge lamp, made in the form of a current relay, which is connected with a light indicator, allows you to control the operation of the power supply and control system of the bactericidal irradiator and to turn it off in the event of a malfunction of the gas discharge lamp. At the same time, the presence of a counter with an LED digital indicator (scoreboard) provides constant monitoring and the ability to record and take readings of the current value of the operating time of a gas discharge lamp, which is necessary for recording in a work journal in a medical institution, and, accordingly, timely replacement of a used life (efficient operation) of a discharge lamp.

At the same time, the presence of a motion sensor included in the electrical circuit of the power supply unit, which blocks the power supply of the claimed device of the power supply system and control the bactericidal irradiator when opening the door and / or moving people in the disinfected room, eliminates accidental exposure of people - maintenance personnel to ultraviolet radiation and further increases reliability and safety of the bactericidal disinfection process and, accordingly, the safety of bactericidal irradiation I open in the absence of people.

The drawing shows a block diagram of the device power supply and control of a bactericidal irradiator.

The device of the power supply and control system of the bactericidal irradiator includes a power supply unit 1 and a power and control unit 2 made in the form of a programmable power-on delay unit 3, a programmable control unit 4 of the operating time of the discharge lamp and ballast 5 (mainly electronic ballast ECG ) to which one or more bactericidal low-pressure mercury discharge lamps 6 are connected. In addition, the device of the power supply and control system of the bactericidal irradiator further comprises a motion sensor 7 with normally closed contacts included in the electric circuit of the power supply unit, which blocks the power supply.

To monitor the operation of the bactericidal irradiator, a sensor 8 for monitoring the operation of the discharge lamp and a counter 9 for the operating time of the discharge lamp are connected to the power and control unit.

In addition, the device of the power supply and control system of the bactericidal irradiator is equipped with a sound notification unit 10 (sound signaling device) connected to the power-on delay unit 3, and an information unit 11 containing a light indicator 12 connected to the power-on delay unit 3, and light indicators 13, 14 and 15, connected, respectively, to the setpoint unit 4 of the operation time of the discharge lamp, the sensor 8 for monitoring the operation of the discharge lamp, and to the power supply unit 1.

At the same time, the on-delay unit 3 can be made in the form of a time relay with an on-delay, for example, 30–60 seconds, normally open contacts of which are included in the electric circuit of the network enable unit 1, and the setpoint unit 4 of the gas discharge lamp operation time can be made in in the form of a time relay with a delayed shutdown, for example, 3 ÷ 5 minutes, normally closed contacts of which are included in the electrical circuit of block 1 of the network connection. The power-on block 1 can be made on the basis of a plug-socket, a rotary or push-button switch, a circuit breaker, a remote control switch, or in the form of other types of switches. The motion sensor 7 (movement) can be made in the form of an electronic infrared sensor, or for example, a capacitive sensor, a Doppler ultrasonic sensor or a microwave sensor,

In this case, the sensor 8 for monitoring the operation of the discharge lamp can be made in the form of a current relay included in the power circuit of the discharge lamps 6, and the counter 9 operating hours of the discharge lamp, summing up the operating time of discharge lamps 6, is made with an LED digital indicator (display), which increases reliability control and efficiency of the disinfection process and the work of the bactericidal irradiator as a whole.

The device power and control bactericidal irradiator works as follows.

The bactericidal irradiator is installed in a disinfected room and the device of the power supply and control system is connected to a power source (electric network). Then, the operator, by means of the power-on unit 1, transfers - turns on the bactericidal irradiator in operating mode, the indicator light 15 (“network”) lights up, voltage is supplied to the motion sensor 7, which generates a detection signal (motion-movement detection), and to the power-on delay unit 3 gas discharge lamp, the sound notification unit 10 (sound alarm) (“ultraviolet radiation”) is turned on and the indicator light 12 lights up. At the same time, after a predetermined time interval, for example, 30–60 seconds, during which the operator leaves the room, the unit 3 for delaying the start of the discharge lamp automatically supplies voltage (with normally closed contacts of the master unit 4 of the operating time of the discharge lamp) to the ballast 5 (mainly electronic ballast - EPRA), which starts and maintains the operating mode of bactericidal gas-discharge mercury lamps 6 low pressure, providing the process of bactericidal disinfection - disinfection of the room, the indicator light 12 goes off ("ultraviolet LETOV radiation ") and turns off the notification unit 10 of the audio (sound signal). After practicing the set time delay, the setpoint unit 4 of the gas discharge lamp operation time opens the electric circuit connecting the power supply unit 1 and the power and control unit 2, the indicator light 13 turns on (“disinfection completed”). If during operation one of the discharge lamps 6 exits the operating mode, the electric current supplied to the lamps from the ballast 5 (ECG) will be lower than the operating one, the current relay of the sensor 8 for monitoring the operation of the discharge lamp will trip and the indicator light 14 will light up (" malfunction ").

If the door is accidentally opened and / or unauthorized personnel enter the disinfected room, the electronic infrared motion sensor 7 responds to the heat radiation of a moving person and generates a control signal to open normally closed contacts included in the electrical circuit of the power-on unit 1 and automatically disconnects the bactericidal irradiator from the source power supply (electric network).

In the process of operation of the device of the power supply system and control of the bactericidal irradiator, the current operating time of the discharge lamps 6 is added to the memory of the operating hours of the discharge lamp 6 and is added to the previously stored time, which is displayed on the LED digital display and provides constant reliable monitoring and the ability to record and take readings the current value of the operating time of gas discharge lamps, which is necessary for entering in the work journal in a medical institution, and, accordingly -retarded, the timely replacement of the spent its specified service life (work effectively) discharge lamp.

Thus, the claimed device power supply and control of the bactericidal irradiator automatically ensures the efficiency, reliability and safety of the process of bactericidal disinfection - disinfection of the room without the presence of an operator in it.

Claims (7)

1. The device power supply and control bactericidal irradiator of the open type for disinfection of air and contaminated surfaces in rooms in the absence of people, containing a power supply unit and a power supply and control unit with a ballast, while the power supply and control unit is equipped with a sensor for monitoring the discharge lamp and a counter operating hours of a discharge lamp, characterized in that between the mains switching unit and the ballast of the power supply and control unit, a delay unit is turned on eniya and block time master operating a discharge lamp, a discharge lamp operating hours counter is provided with the LED number. 2. The device of the power supply and control system of the bactericidal irradiator according to claim 1, characterized in that the on-delay unit is made in the form of a time relay with an on-delay, the normally open contacts of which are included in the electrical circuit of the network enable unit. 3. The device of the power supply and control system of the bactericidal irradiator according to claim 1, characterized in that the time-delay unit of the gas-discharge lamp is made in the form of a time relay with a delayed shutdown, normally closed contacts of which are included in the electrical circuit of the power supply unit. 4. The device of the power supply and control system of the bactericidal irradiator according to claim 1, characterized in that it is equipped with an audible warning unit connected to the on-delay unit and an information unit containing a light indicator connected to the on-delay unit and the light indicators connected, respectively, to the set unit of the operating time of the discharge lamp and the sensor for monitoring the operation of the discharge lamp. 5. The device of the power supply and control system of the bactericidal irradiator according to claim 4, characterized in that the information unit further comprises a light indicator connected to the power supply unit. 6. The device of the power supply and control system of the bactericidal irradiator according to claim 1, characterized in that it further comprises a motion sensor with normally closed contacts included in the electrical circuit of the power supply unit, which blocks the power supply. 7. The device power supply and control of the bactericidal irradiator according to claim 1 or claim 4, characterized in that the sensor for monitoring the operation of the discharge lamp is made in the form of a current relay.

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