RU9738U1 - DISINFECTION DEVICE - Google Patents

Abstract

A disinfection device containing an executive body comprising an ultraviolet radiation source and a control unit as a part of an ultraviolet radiation source switching circuit, characterized in that, in order to increase the efficiency of air disinfection, eliminate the formation of ozone and dioxides, control the disinfection process and exclude accidental exposure of maintenance personnel, an arc mercury lamp with a bulb made as a source of ultraviolet radiation was introduced into the executive body of quartz glass with a coating that excludes the formation of ozone and with a total flux power in the range of 205 - 315 nm of at least 10 W, the reflector screen is made of oxidized aluminum, which is fixed with the possibility of rotation along the length of the source of ultraviolet radiation without ozone installed in the executive body and a control unit has been introduced to turn on the device as part of the driver of the delay signal, the first and second element NOT, the first and second elements AND, the first and second elements OR, the clock generator and pulses, counter-divider, switch, switching circuit, electronic key, sound signal generator, sound signal source, and the executive outputs of the electronic key are connected through the outputs of the switching unit of the device and the switching circuit of the ultraviolet radiation source to the ultraviolet radiation source, and the control input of the electronic key is connected through the key switching circuit with the output of the first OR element and through the second element is NOT connected to the first input of the second OR element and the second input of the first electronic

Description

The utility model is designed for sanitary-hygienic treatment of air and surface, and can be used both independently and as part of technological disinfection systems,

The devices used for sanitary-hygienic processing and disinfection are based on the principles of filtration using special replaceable filters made on the basis of synthetic materials with the subsequent exposure to short-wave ultraviolet radiation or ozonation.

The known bactericidal wall apparatus "OBN 2x15-01, containing a limited space duct, inside which is fixed an ultraviolet radiation source and a fan (1).

A disadvantage of the known solution is its low productivity and the effectiveness of air disinfection, as well as the formation of ozone and dioxides in the process.

The closest in technical essence is the apparatus for air disinfection AOV-01, containing a source of ultraviolet radiation and a control unit as part of the inclusion circuit of a source of ultraviolet creep (2) ..

The disadvantage of this solution is the low efficiency and lack of automatic control of the process of decontamination.

The technical essence of the utility model is the elimination of these shortcomings, increasing the effectiveness of disinfection, as well as ensuring the protection of personnel from ultraviolet exposure at the time of turning the device on and off.

This goal is achieved by the fact that an ultraviolet radiation source and a control unit as part of a circuit for including an ultraviolet radiation source are included in the air disinfection device, which contains an ultraviolet source, and an arc mercury lamp c is introduced as an ultraviolet radiation source; a flask made of quartz glass with a coating that excludes the formation of ozone and a total flux power in the range 205-315 of at least 10 W, a reflector screen made of oxidized aluminum, which is fixed with the possibility of rotation along the length of the ozone-free ultraviolet radiation installed in the executive body and a control unit has been introduced to turn on the device as part of the driver of the delay signal, the first and second elements NOT, the first and second elements AND, the first and second elements OR, the gene a clock pulse generator, a divider counter, a switch, a switching circuit, an electronic key, an audio signal generator, an audio signal source, the executive outputs of the electronic key being connected through the outputs of the device switching unit and the switching circuit of the ultraviolet radiation source to the ultraviolet radiation source, and the electronic control input the key is connected through the key switching circuit to the output of the first OR element and through the second element is NOT connected to the first input of the second OR element and second the input of the first AND element, the first input of the first OR element through the switch is connected to the outputs of the divider counter, and the second input is connected to the output of the first NOT element, the second input of the second OR element and the first control input of the divider counter, the second clock input of which is connected to the output of the first element And, the first input of which is connected to the output of the clock generator and the first input of the second element And, the second input of the second element And is connected to the output of the second element OR, and the output of the second element And through the generator vukovyh signals connected to the source of audio signals. The presented solution allows to increase the power of the bactericidal flow through the use of a source of ultraviolet radiation made of quartz glass. The special coating of the quartz flask of the radiation source eliminates the formation of ozone and dioxides harmful to humans in the air. Design I as other materials is practically non-ultraviolet. The automatic start-up unit as part of the control unit provides a delay in turning on the device for the attendants to leave the room. The operation of the device is accompanied by a sound signal; hum. The device automatically turns off after a predetermined and necessary time for disinfection of the room. Automatic control of the inclusion ensures the safety of the use of the ultraviolet disinfection device and increases its service life. Device FIG. 1, contains an actuator 1 as a part of a source of ultraviolet radiation 2 without a zone, a screen 3 of a reflector, and also a control unit 4 as part of a circuit 5 for turning on a source of ultraviolet radiation and a unit for turning on the device. Unit 6 for turning on the device FIG. 2, contains a delay driver 7, the first 8 and second 9 elements NOT, the first 10 and second 11 elements AND, the first 12 and second 13 elements OR, the clock generator 14, a counter 15 divider, a compensator 16, a key switching circuit 17, a key 18 electronic, a generator of 19 audio signals and a source of 20 audio signals / ju. The executive body 1 of the device is made of a decorative assembly in which its source is UV-free, radiation-free, and the screen 3 is a reflector with the possibility of rotation along the longitudinal axis. The decorative assembly of the mounting structure of the reflector screen 3 with the possibility of rotation and the ultraviolet radiation source 2 is of no fundamental importance, can be performed in any embodiment and is not indicated on the diagram. Radiation source 2 is an arc horn lamp with a quartz glass bulb with a special coating that transmits radiation in the range 205-315 km with a radiation maximum of 254-265 nm, which eliminates the formation of ozone. The total spectral density of the radiation flux of the source of ultraviolet radiation (F lbq) should be at least JO W. For this purpose, for example, a low-pressure quartz lamp DRB-40 can be used with a covering, for example, tetraethoxysilane

tetrabutoxytitanium composition or coated with a mixture of silicon oxide and titanium oxide formed during application of 4 titanium chloride and 4-silicon chloride in an oxygen-hydrogen burner during combustion.

The reflector screen 3 is made of oxidized aluminum, which has a reflectance of ultraviolet radiation with a wavelength of 265 nm, having a maximum disinfecting activity, not worse than 75%. It should be borne in mind that other materials either have a negligible reflection coefficient or practically do not reflect ultraviolet radiation.

The control unit 4 of the device comprises a switching unit 6, which is a controllable timer with the possibility of operating in the delayed switching mode, a specified operating time, and an audio signal accompanying the operation of the device. Modes of operation time of the unit 6 are set depending on the volume of the room to be disinfected. This is done by connecting the KOMN-iyraTopa 16 to the specific outputs of the counter 15 of the divider, the outputs of which are periodically generated signals of logical zero or one, with proportionality to various specified time intervals.

Node 6 using an actuating key as part of its circuit is connected to a circuit 5 for switching on a source of ultraviolet radiation 2 without a zone, to which it delivers a power load to a delayed turn-on time and for a given duration of operation.

The circuit 5 for switching on the source of ultraviolet radiation 2 of the bezozovoy 1 can be performed, for example, according to the scheme of a high-frequency generator and sufficient voltage to power the source 2 or using the known throttle-starter circuit for starting arc discharge lamps, which in this case is not of fundamental importance.

Inclusion unit 6 FIG. 2 contains a delay driver 7 made, for example, according to a capacitive storage circuit, the output of which is connected to the input of a single-shot. The output of the one-shot) component in the shaper 7 of the delay signal through the first element 8 is NOT connected to the control input of the counter 15 of the divider and to the second input of the first element 12 of the RFI. The clock generator M through the first input of the element 10 And is connected to the counting input of the counter 15 of the divider. The outputs of the counter 15 of the divider are connected to the inputs of the switch 16 to select the duration of the period of operation of the device, the start and end signal of which comes from the output of the switch 16 to the first input of the first element 12 OR. The second input of this circuit receives a signal from the output of the first element 8 NOT delay delay, formed at the time of switching on the device. From the output of the first element 12 OR control signals are fed to the input circuit 17 of the inclusion of the electronic key. The electronic key switching circuit 17 is made, for example, by a composite transistor that is connected to a trinistor included in the diatonal of the diode bridge of the electronic key 18. When the output of the first element 12 OR the level of the logical unit, the composite transistor is open, the trisinor at this time is closed and no load current flows through the diagonal of the key bridge 18. When the output of the element 12 OR signal changes to a logical zero, the composite transistor closes, the trinistor opens by current through the noufus resistor according to the well-known composite transistor circuit. The trinistor is included in the diagonal of the rectifier bridge, so an alternating current flows through the load, supplying a source of ultraviolet radiation. Such a switching circuit is optimal in this case, since its main condition is protection against peak current values at the moment the device is turned on, which extends the service life of an ultraviolet radiation source by an average of two to three times. The control of the mode is carried out using the second 13 OR element, which receives a signal to enable the device and sound cviniajia from the output of the first 8 element NOT, the first 12 element OR through the second 9 element NOT, as well as the second 11 element AND, through which the enable is received sound signal and turn it off. 5

The device operates as follows. The device is turned on by means of the switching unit b of the control unit A. At the same time, the voltage is supplied to the capacitive delay accumulator, and from it to the input of the single-vibrator driver as part of the delay driver 7 of the node 6. After the voltage on the capacitive storage reaches a certain level, for example, in 25-30 seconds. at the output of a single-vibrator., executed according to the waiting multivibrator scheme, a logical unit is formed, which through the first 8 element is NOT already fed as a logical zero to the control input of the counter 15 of the divider, zeroing it with the installation signal, and to the second input of the first 12 element l-lJIIi, s the output of which is a logical zero signal using circuit 17, turns on, triggers electronic 18 electronic.

At this time, clock pulses from the generator 14, allowing the logical unit signal at the second input of the first 10 AND element, through: the second 9 element are NOT, are consumed at the counting input of the counter 15 of the divider, gaining a certain number of pulses corresponding to the operating time of the device. After ko; (the number of pulses reaches a certain value proportional to that set with 1 switch 16 of the device operating time, connected to the corresponding outputs of counter 15, the signal of the logical unit is supplied through the first 12 OR element and the switching circuit 17, thereby turning off the key 18 electronic and stopping works) devices.

The signal of logical zero from the output of the first 12 OR element, which determines the period of operation of the device, through the second 9 element is NOT and in the form of a logical unit is supplied to the first input of the second 13 OR element and to the second input of the first 10 element AND at the same time signals from the output of the generator pulses are fed to the counting input of the counter 15 of the divider and set the operating time of the device. At this time, the signal of the logical unit from the second 13 SH elements, formed sequentially during the turn-on delay period from the output of the first 8 HE elements, and then during the work period from the output of the second 9 HE elements, buys AND to the second input of the second 11 : There is a signal flow from the clock generator triggering the sound generator 19

signals. As a result of this, the source 20 of sound signals connected to the generator 19 of sound signals is launched, which warn of the operation of the device in open radiation mode, which is dangerous for people and animals in the room.

At the end of the device operating time specified by the switch 16, a logical unit signal is generated at the output of the first 12 OR element, which turns off the device using circuit 17 and key 18, and a logical zero signal is NOT generated at the output of the second 9 element. A logical zero signal is fed to the second input of the first 10 element AND prohibits the passage of clock pulses to the counting input of the counter 15, thereby stopping the operation of the device, and with the help of the second element 13 OR prevents the passage of the start signal of the generator 19 of the audio signals at the second input of the second element 11 . Thus, the operation of the device stops and stops the signal to the source 20 of the audio signal. Turning on the device is possible only after it is reconnected to the power supply or the shaper 7 is started. At the same time, each switching on of the device is accompanied by a sound signal, a switching delay of 25-30 seconds, sufficient to leave the processed room. After completing the work cycle necessary to disinfect a certain room, the device turns off.

Disinfection occurs as follows. Under the action of ultraviolet radiation, chemical reactions occur, leading to the death and decay of microorganisms and viruses, as well as 4 organic gaseous compounds.;,

The bactericidal effectiveness of the device is associated with the specificity of the action of ultraviolet radiation in the range 205-315 nm and is determined by the absorption of its quanta by nucleic acid molecules, proteins, lipids and a number of other biochemical components of microorganism cells, as well as photochemical damage to virus molecules, which leads to their destruction.

For example, some hydrocarbon compounds, with a certain power of ultraviolet radiation and the formation of electronically excited oxygen in the air stream, enter into photochemical processes leading to the formation of hydrocarbon oligomers.

The latter, together with dust particles of air, form suspended particles that precipitate from the air.

Thus, the room air is purified from pathogens, gaseous organic compounds and dust particles. At the same time, not only is the ionic balance normalized, but also the content of nitrogen oxides in the air is reduced, which makes it fresh and pleasant.

This design of the device allows you to use it as a highly efficient apparatus for disinfecting high-performance air and at the same time disinfecting the surface of the premises, which is carried out only in the absence of people. Moreover, the operation of the device is not accompanied by the formation of ozone and harmful dioxides for humans, which increases its consumer properties and safety.

The tests performed on the device showed its extremely high efficiency and the product was recommended by the committee on medical equipment of the Ministry of Health of Russia for industrial development.

Sources of information taken into account:

1. Technical conditions RAZHS. 941542.003 TU entered in the Register for

No. 200 012163 registered by the State Standard of Russia on April 29, 1996

2. Technical conditions RAZHS. 941712.003 TU entered in the Register for No. 200/005711, registered by the State Standard of Russia 06/17/93

Claims (1)

A disinfection device containing an executive body comprising an ultraviolet radiation source and a control unit as part of an ultraviolet radiation source switching circuit, characterized in that, in order to increase the efficiency of air disinfection, to eliminate the formation of ozone and dioxides, to control the disinfection process and to exclude accidental exposure of maintenance personnel, an arc mercury lamp with a bulb made as a source of ultraviolet radiation was introduced into the executive body of quartz glass with a coating that excludes the formation of ozone and with a total flux power in the range of 205 - 315 nm of at least 10 W, the reflector screen is made of oxidized aluminum, which is fixed with the possibility of rotation along the length of the ozone-free ultraviolet radiation installed in the executive body and a control unit has been introduced to turn on the device as a part of the driver of the delay signal, the first and second element NOT, the first and second elements AND, the first and second elements OR, the clock generator and pulses, counter-divider, switch, switching circuit, electronic key, sound generator, sound source, and the executive outputs of the electronic key are connected through the outputs of the switching unit of the device and the switching circuit of the ultraviolet radiation source to the ultraviolet radiation source, and the control input of the electronic key is connected through the key switching circuit with the output of the first OR element and through the second element is NOT connected to the first input of the second OR element and the second input of the first electronic AND, the first input of the first OR element through the switch is connected to the outputs of the counter-divider, and the second input is connected to the output of the first element NOT, the second input of the second OR and the first control input of the counter-divider, the second clock input of which is connected to the output of the first AND the first input of which is connected to the output of the clock generator and the first input of the second AND element, the second input of the second AND element is connected to the output of the second OR element, and the output of the second AND element through the sound generator connected to a sound source.