CN215290591U - Ion colliding rotary-closing disinfection and sterilization intelligent channel - Google Patents

Abstract

The utility model discloses an ion clash closes disinfection degerming intelligent channel soon, it has: main part envelope, plasma air disinfection machine and data acquisition device. The utility model can complete disinfection and sterilization work in public places such as airports, high-speed railway stations and the like without influencing the people flow passing efficiency, and personnel can pass through the machine quickly at one time, and can perform disinfection and sterilization work when passing through the machine quickly and perform data acquisition and body temperature monitoring; the modularized design is convenient for assembly, disassembly, transportation and maintenance; the surface sterilization rate reaches more than 50% in 1 minute, and the side direction air intake adopts the filter body to reduce the outside and has the bacterium environment to the inside interference of passageway, and the use of thermal imaging body temperature monitoring devices reduces artifical temperature measurement work and in time discovers unusual crowd, does benefit to behind the collection personnel information and carries out epidemic prevention management and control to unusual personnel. The silver ion coating layer arranged on the inner wall of the channel can prevent cross contact infection. The adoption of the air flow cross rotational flow plasma air flow collision technology has good disinfection and sterilization effects.

Description

Ion colliding rotary-closing disinfection and sterilization intelligent channel

Technical Field

The utility model belongs to the technical field of disinfecting equipment technique and specifically relates to a disinfection degerming intelligence passageway is closed soon in ion clash.

Background

Aiming at the new coronary pneumonia epidemic situation, the high-density people gathering areas around the country become the central epidemic prevention area. Because the latent period of the new coronavirus is long, and meanwhile, some asymptomatic infectors appear in succession in China, the epidemic prevention work is continuously difficult. The disinfection is one of the methods for cutting off the transmission path of the infectious diseases, so that a disinfection and sterilization device is designed aiming at the public high-density stream environment, the disinfection and sterilization can be completed without influencing the stream of people, and the disinfection and sterilization device is very important for preventing epidemic situation and increasing the cost of bricks.

Under the public high density people stream environment, when how can not influence the people stream, add the tile to epidemic situation prevention bricking, discover unusual personnel simultaneously, how to strengthen the management to the epidemic situation control, two aspects above then are the utility model discloses the problem that the people will solve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems and providing an ion clash rotary disinfection and sterilization intelligent channel which can not affect the flow of people and can complete disinfection and sterilization at the same time.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an ion-clash spin-on disinfection and sterilization intelligent channel is provided with:

a main body enclosure for forming a man-passing passageway;

the plasma air sterilizer is used for sterilizing and disinfecting the space in the channel and is arranged in the enclosing structure of the channel;

the data acquisition device is used for acquiring the identity information of the passer and the body temperature data in the channel and is arranged at the channel.

Further: the data acquisition device has:

the identity information collector is used for collecting the identity information of the passer and is arranged at the entrance of the channel;

an entrance sensor for identifying whether a passer-by enters the passageway, which is disposed at the passageway entrance;

the thermal imaging body temperature monitoring device and the face recognition device are used for collecting the body temperature and the face data of a passer and are arranged in the channel and close to the outlet;

a display unit disposed at the passage;

the identity information collector, the entry inductor, the thermal imaging body temperature monitoring device, the face recognition device and the display unit are all connected to the control unit.

Further: the main body envelope includes:

the modularized framework is provided with a first framework positioned on one side and a second framework positioned on the other side, and a third framework is arranged at the top between the first framework and the second framework;

the modularization covering part is provided with a first covering part, a second covering part and a third covering part, the first covering part is arranged outside the first framework, the second covering part is arranged outside the second framework, the third covering part is arranged outside the third framework, and the first covering part, the second covering part and the third covering part are enclosed to form an inner cavity.

Further: including side direction air inlet filtration, it arranges the outside at the passageway, side direction air inlet filtration has the side direction air intake, side direction air intake department sets up the filter body that is used for filtering virus germ and air impurity.

Further: comprising illumination means and/or guiding means for illumination within the channel.

Further: and a walking part convenient to move is arranged at the bottom of the main body enclosure structure.

Further: the plasma air sterilizer is provided with a first sterilizer which is provided with a first shell, a first air inlet and a first air outlet are arranged on the first shell, a plasma rod is arranged in the first shell and connected to a first power supply, the first power supply is arranged in the first shell through a first mounting plate, an air supply device for blowing out plasma generated by the plasma rod from the first air outlet is arranged in the first shell, and the air supply device comprises but is not limited to a cross-flow fan (cross-flow air curtain machine);

and at least one second sterilizing machine, it sets up first air outlet and/or first air inlet department has the second shell, set up plasma release mouth on the second shell, set up second power and plasma module in the second shell, the plasma module connects in the second power.

Further: the solar water heater is characterized in that a second mounting plate is arranged in the second shell, a second power supply and a plasma module are arranged on the second mounting plate, the second power supply is a waterproof switch power supply, an operating switch and a charging interface are arranged outside the second shell, and the operating switch and the charging interface are electrically connected to the second power supply.

Further: a front plasma air disinfection unit for forming a plasma wind curtain wall is arranged at the position, close to the entrance of the channel, of the main body enclosure structure,

and a rear plasma air disinfection unit for forming a plasma wind curtain wall is arranged at the position, close to the outlet of the channel, of the main body enclosure structure.

Further: a concentrated plasma air disinfection unit is arranged on a main body enclosure structure between two plasma wind curtain walls.

Compared with the prior art, the utility model discloses following beneficial effect has: (1) the utility model discloses can accomplish disinfection work when not influencing the stream of people, the personnel can once only pass through fast, carry out disinfection when passing through fast, can carry out data acquisition and body temperature monitoring simultaneously. (2) The utility model discloses modular design makes things convenient for the equipment to dismantle. (3) The utility model discloses 1 minute surface degerming rate reaches more than 50%, and the side direction air intake adopts the filter body to reduce outside has the bacterium environment to the inside interference of passageway, and thermal imaging body temperature monitoring devices's use reduces artifical temperature measurement work and in time discovers unusual crowd, does benefit to behind the collection personal information and carries out epidemic prevention management and control to unusual personnel. The inner wall of the channel (the side of the channel close to the passer) can be provided with a silver ion coating layer to prevent cross contact infection. The adoption of the air flow cross rotational flow plasma air flow collision technology has good disinfection and sterilization effects.

Drawings

FIG. 1 is a front view of an intelligent channel for ion-clash screw disinfection and sterilization.

Fig. 2 is a rear view of an ion-clash screw-closure disinfection and sterilization intelligent channel.

FIG. 3 is a left side view of an intelligent channel for ion-clash screw disinfection and sterilization.

FIG. 4 is a right side view of an ion-collided screw-closure disinfection and sterilization intelligent channel.

FIG. 5 is a top view of an ion-collided screw-closure disinfection and sterilization intelligent channel.

Fig. 6 is a bottom view of an ion-collided screwing disinfection and sterilization intelligent channel.

FIG. 7 is a perspective view of an ion-collided screw-closure disinfection sterilization intelligent channel in a first direction.

FIG. 8 is a perspective view of an ion-collided screw-closure disinfection sterilization intelligent channel in a second direction.

FIG. 9 is a perspective view of an ion-collided screw-coupled disinfection sterilization intelligent channel in a third direction, in which a skeleton is shown.

Fig. 10 is a perspective view of an ion-collided screw-closure disinfection and sterilization intelligent channel in a fourth direction, and the protective shell is shown in the figure.

Fig. 11 is a first directional perspective view of the plasma air sterilizer.

Fig. 12 is a second perspective view of the plasma air sterilizer.

Fig. 13 is a perspective view of the plasma air sterilizer in a third direction.

FIG. 14 is a perspective view of the fourth direction of the plasma air sterilizer, with parts of the structure omitted.

FIG. 15 is a perspective view of the fifth direction of the plasma air sterilizer, in which a part of the structure is omitted.

Fig. 16 is an exploded view of a plasma air sterilizer.

Fig. 17 is a first directional perspective view of the second sterilizer.

Fig. 18 is a second directional perspective view of the second sterilizer.

Fig. 19 is a perspective view of the second sterilizer in a third direction, with a part of the structure omitted.

Fig. 20 is a perspective view of the second sterilizer in a fourth direction, with a part of the structure omitted.

FIG. 21 is a first-direction perspective view of another ion-collided screw disinfection sterilization intelligent channel.

FIG. 22 is a second perspective view of another ion-collided screw disinfection sterilization intelligent channel.

Fig. 23 is a schematic view of a second sterilizer.

Fig. 24 is a circuit diagram of a high voltage PCB board in a plasma module.

Description of reference numerals: 100 main body enclosure, 101a first frame, 101b third frame, 102 first cover, 102a left front cover, 102b left rear cover, 102c left inner cover, 102d left outer cover, 102e left lower cover, 103 third cover, 103a middle front cover, 103b middle rear cover, 103c middle upper cover, 103d middle lower cover, 104 side air intake, 105 light, 106 road wheel, 107 corbel slope.

200 plasma air sterilizing machines, 201 first sterilizing machines, 201a first shell, 201b first air inlet, 201c first air outlet, 201d plasma bar, 201e first power supply, 201f air supply device, 201g first mounting plate, 202 second sterilizing machines, 202a second shell, 202b plasma release interface, 202c second power supply, 202d plasma module, 202e second mounting plate, 202f operating switch and 202g charging interface.

301 credential reader, 302 display unit, 303 protective case, 304 control box.

DJ-1 first plasma electrode, DJ-2 second plasma electrode.

Detailed Description

Example 1

Unless otherwise specified, the orientations in the text such as front, back, left and right are referenced to the front view perspective of the ion-collided spin-on sterile intelligent channel.

Referring to fig. 1 to 22, an intelligent channel for ion-clash spin sterilization and disinfection has a main enclosure 100 for forming a passerby channel and a plasma air sterilizer 200 for sterilizing and disinfecting the space in the channel, wherein the plasma air sterilizer 200 is arranged in the enclosure of the channel and can release plasma into the space in the channel; the data acquisition device is used for acquiring the identity information of the passer and the body temperature data in the channel and is arranged at the channel.

The plasma air sterilizer is arranged in a plurality of ways, including but not limited to the following ways:

the first scheme is as follows: the main enclosure 100 is provided with a front plasma air sterilization unit near the entrance of the passageway for forming a plasma wind curtain wall. The number of plasma air disinfectors 200 in the front-facing plasma air disinfection unit may be one (left, right, or top disposed within the body enclosure), two (left and right disposed within the body enclosure, left and top disposed within the body enclosure, or right and top disposed within the body enclosure), or three (left, right, and top disposed within the body enclosure, such as shown in fig. 7 and 8).

The main enclosure structure 100 is provided with a post plasma air sterilization unit near the exit of the passage for forming a plasma wind curtain wall. The number of plasma air disinfectors 200 in the post-plasma air disinfection unit may be one (left, right or top disposed within the body enclosure), two (left and right disposed within the body enclosure, left and top disposed within the body enclosure or right and top disposed within the body enclosure) or three (left, right and top disposed within the body enclosure, such as shown in fig. 7 and 8).

The second scheme is as follows: the main enclosure 100 is provided with a front plasma air sterilization unit near the entrance of the passageway for forming a plasma wind curtain wall. The main enclosure structure 100 is provided with a post plasma air sterilization unit near the exit of the passage for forming a plasma wind curtain wall. A concentrated plasma air disinfection unit is arranged on the main body enclosure structure 100 between the two plasma wind curtain walls. In the scheme, the number and the layout of the plasma air disinfectors 200 in the front plasma air disinfection unit and the rear plasma air disinfection unit can refer to a first scheme, and the number of the plasma air disinfectors 200 in the concentrated plasma air disinfection unit can be one (arranged on the left side, the right side or the top of the main enclosure structure), two (arranged on the left side and the right side of the main enclosure structure, arranged on the left side and the top of the main enclosure structure or arranged on the right side and the top of the main enclosure structure) or three (arranged on the left side, the right side and the top of the main enclosure structure). Referring to fig. 21 and 22, the number of plasma air sanitizers 200 in the front plasma air sanitizer unit is two, the number of plasma air sanitizers 200 in the rear plasma air sanitizer unit is two (disposed on the left and right sides within the main enclosure), and the number of plasma air sanitizers 200 in the centralized plasma air sanitizer unit is one (disposed on the top within the main enclosure).

It should be noted that the above distribution scheme is only exemplary, and the number of the plasma air disinfectors can be adjusted according to the specific application scenario.

In an embodiment, the data acquisition device has an identity information collector (which may be a credential reader 301 and/or a dynamic code reader (two-dimensional dynamic code scanner)) for collecting the identity information of the passer, which is arranged at the entrance of the channel; an entrance sensor (not shown) for identifying whether a passer enters the passageway, which is disposed at the entrance of the passageway (the top inside the passageway); the thermal imaging body temperature monitoring device and the face recognition device are used for collecting the body temperature and the face data of a passer and are arranged in the channel and close to the outlet; a display unit 302 disposed at the passage; the identity information collector, the entry sensor, the thermal imaging body temperature monitoring device, the face recognition device and the display unit 302 (in the embodiment, an 11-inch liquid crystal display) are all connected to the control unit. (when the pedestrian appears in the passageway entrance, this moment get into the inductor and induce the pedestrian, get into the inductor and give the control unit with this signal, the control unit control face recognition device discerns face information and lets thermal imaging body temperature monitoring devices measure human body temperature, then report or save face information and the body temperature data that this person corresponds one-to-one, because the identity information data that the pedestrian can be discerned to the identity information collector, at this moment, the data field of storage still can include the identity information data of certificate except that face information, body temperature data)

Specifically, the thermal imaging body temperature monitoring device and the face recognition device are of built-in hidden structures, the thermal imaging body temperature monitoring device and the face recognition device are arranged in a protective shell 303 made of transparent materials, the transparent materials include but are not limited to one-way perspective glass, the protective shell 303 is provided with a side wall, and the side wall deviates from the outlet side of the channel and is of an inclined surface structure. Through the design, the use of the thermal imaging body temperature monitoring device and the face recognition device is facilitated, and the inclined plane structure is favorable for outward dispersion of air in the channel.

Additionally, the control unit may be disposed within a control box 304, the control box 304 being disposed outside of the aisle exit, partially embedding the control box inside the body enclosure 100. Not only is beneficial to overhaul and maintenance, but also can reduce the possibility of being polluted by germs and viruses.

An identity information collector (such as a certificate reader 301 including but not limited to reading an identity card) in the data acquisition device is used for acquiring identity information of a passer, enters a sensor and is used for identifying whether a person enters a channel, and a thermal imaging body temperature monitoring device and a face recognition device are used for acquiring face information and body temperature information of the passer. The face information and the body temperature information of the passing person are displayed on the display unit.

In an embodiment, the main body enclosure 100 comprises a modular framework having a first framework 101a on one side and a second framework on the other side, and a third framework 101b is disposed on the top between the first framework 101a and the second framework; the modularized covering piece is provided with a first covering piece 102, a second covering piece and a third covering piece 103, the first covering piece 102 is arranged outside the first framework 101a, the second covering piece is arranged outside the second framework, the third covering piece 103 is arranged outside the third framework 101b, and an inner cavity is formed by enclosing the first covering piece 102, the second covering piece and the third covering piece 103.

The first cover 102 (and similarly the second cover) may be of modular design, in particular: the first cover 102 has a left front cover 102a, a left rear cover 102b, a left inner cover 102c, a left outer cover 102d (the left outer cover may be made in two pieces due to its long length and then spliced), and a left lower cover 102 e. The second cover has a right front cover, a right rear cover, a right inner cover, a right outer cover (the right outer cover can be made in two pieces due to its long length and then spliced), and a right lower cover. The third cover 103 has a middle front cover 103a, a middle rear cover 103b, a middle upper cover 103c, and a middle lower cover 103 d.

In order to facilitate assembly and disassembly, the first framework and the third framework can be detachably connected, and the second framework and the third framework can be detachably connected. The modular first covering part and the first framework can be detachably connected, the modular second covering part and the second framework can be detachably connected, and the modular third covering part and the third framework can be detachably connected. Reference herein to a detachable connection includes, but is not limited to, a bolted connection.

The main enclosure structure 100 adopts a modular structure, namely, the modular framework and the modular covering piece are provided, so that the main enclosure structure is easy to assemble and maintain, more importantly, the transportation is convenient, transportation pieces with small volume are convenient to transport, and the space of an elevator and the like can be accessed, the framework not only plays a role in supporting the covering piece, but also has the function of fixing other related equipment, the covering piece covers the framework to form the inner space (inner cavity) of the main enclosure structure, the inner space of the main enclosure structure can play a role in an air duct, and the air flow in the space of the main enclosure structure can be utilized to drive the electronic equipment in the space of the main enclosure structure to cool down and the like. In an embodiment, the side air intake filter structure is arranged outside the channel, for example, the side air intake filter structure is installed in the main enclosure 100, the side air intake filter structure has a side air intake opening 104, that is, the side air intake opening 104 is distributed on the back area of the corbel of the main enclosure 100, and a filter (not shown) for filtering virus and germs and impurities in the air is arranged at the side air intake opening 104. In an embodiment, the lateral air inlet 104 is a grille, and accordingly, the filter body is disposed at the grille. Particularly, the filter body is a silver ion coated filter screen (a silver ion coated metal screen with the mesh number of 800-1000 meshes), or a sponge or a flexible filter screen. In addition, the lateral air inlet can be made into a shutter mode, and when the intelligent channel is used in a semi-outdoor scene, rainwater and the like can be prevented from entering the inner cavity (in the main body enclosure structure) to a certain extent.

The left side of the drawing in fig. 1 is defined as the left side of the main enclosure structure 100, the left enclosure part (first framework + first covering part) and the right enclosure part (second framework + second covering part) formed by the main enclosure structure and the top enclosure part (third framework + third covering part) jointly form a channel for human body to pass through, the bottom can use the ground of the installation site as the bottom of the channel, the bottoms of the left enclosure part and the right enclosure part form a corbel structure (taking the left enclosure part as an example, the inner wall of the left enclosure part close to the bottom is provided with an inward convex structure, and the inward convex structure is provided with a corbel slope 107 capable of installing a guide part), the corbel structure not only can enhance the installation stability of the main enclosure structure (the contact area of the bottom surface and the ground is increased), and the field instability is avoided, more importantly, can let the bracket structure to the extension of passageway inner space direction can arrange structures such as step-by-step lamp area on the inclined plane of bracket and regard as guide part and realize the guide effect of stream of people. Due to the adoption of the bracket structure, the passing crowd can automatically keep a safe distance from the opening for plasma release.

In addition, the ion-clash spin-on disinfection and sterilization intelligent channel comprises an illumination component for illumination in the channel. The lighting component can be in various forms, including but not limited to the following list: the first mode is as follows: the lamp strips (for example, the step lamp strips) are arranged on two sides of the top in the channel, so that the lighting effect can be realized, and the step lamp strips can be used for giving the pedestrian an effect of indicating the traveling direction. The second mode is as follows: a plurality of light 105 (for example, the quantity of light is 2) are arranged along length direction at the top in the passageway, and light 105 is 2, and illuminating effect is better, and a plurality of light improve the illumination reliability. The third mode is as follows: i.e. a combination of the first and second ways. It is worth mentioning that when the third covering part 103 of the top enclosure is a transparent member capable of natural lighting, only the light guiding member located in the corbel structure may be retained without separately arranging the lighting lamps, and the third covering part 103 may be only provided with a non-transparent covering plate at the plasma air sterilizer distributed in the top enclosure. In an embodiment, the bottom of the main enclosure 100 is provided with a walking component for moving. The walking parts are in many forms, such as: the walking part is provided with a connecting body, one end of the connecting body is connected with the framework, and the other end of the connecting body is provided with a walking wheel 106. Through the walking part, the channel is convenient to move.

In addition to the prior art, the plasma air sterilizer may also be configured as follows: the plasma air sterilizer comprises a first sterilizer 201 which is provided with a first casing 201a, a first air inlet 201b and a first air outlet 201c are arranged on the first casing 201a, a plasma rod 201d is arranged in the first casing 201a, the plasma rod 201d is connected with a first power supply 201e, the first power supply 201e is arranged in the first casing 201a through a first mounting plate 201g, and an air supply device 201f for blowing out plasma generated by the plasma rod from the first air outlet is arranged in the first casing 201a, wherein the air supply device 201f comprises but is not limited to a cross-flow fan.

At least one second sterilizer 202 (two in the embodiment) is disposed at the first air outlet 201c and/or the first air inlet 201b, the second sterilizer 202 has a second housing 202a, a plasma discharge port 202b is disposed on the second housing 202a, a second power source 202c and a plasma module 202d are disposed in the second housing 202a, and the plasma module 202d is connected to the second power source 202 c.

In the first sterilizer 201, the plasma rod 201d is used for generating plasma, the cross flow fan is used for blowing the plasma generated by the plasma rod out of the first air outlet, the first power supply 201e is used for supplying power to the plasma rod, and the first power supply 201e is a 220V power supply. In the second sterilizer 202, the plasma module 202d generates plasma, the second power supply 202c is used for supplying power to the plasma module, and the air supply device 201f in the first sterilizer 201 blows off the plasma generated by the plasma module 202d in the working process.

Specifically, a second mounting plate 202e is arranged in the second housing 202a, a second power supply 202c and a plasma module 202d are arranged on the second mounting plate 202e, the second power supply 202c is a waterproof switch power supply, an operation switch 202f (for switching) and a charging interface 202g (for charging) are arranged outside the second housing 202a, and the operation switch 202f and the charging interface 202g are electrically connected to the second power supply 202 c.

On one hand, the cross flow fan in the plasma air sterilizing machine blows the plasma generated by the plasma bar and the plasma module to the space in the channel for sterilizing; on the other hand, positive pressure is formed in the channel by airflow generated by the cross-flow fan, and along with continuous work of the cross-flow fan, air in the channel is dispersed to the outside of the channel, so that viruses are reduced or prevented from staying in the channel.

The working principle of the intelligent channel for ion-collision spin-closure sterilization and degerming is that the identity information collector is used for obtaining the identity information of a passer and enters the sensor to identify whether a person enters the channel, and the thermal imaging body temperature detection device and the face recognition device are used for obtaining the face information and the body temperature information of the passer. The face information and the body temperature information of the passing person are displayed on the display unit. The data collected by the data collection device can report the identity information, body temperature information and other data of the passer to the epidemic situation control center through the control unit (which can be connected with the server of the epidemic situation control center through the network), so as to provide support for epidemic prevention and control.

When a person passes through the channel, the plasma air sterilizer sterilizes the space in the channel, specifically, external air can enter the inner cavity from the lateral air inlet filtering structure, due to the arrangement of the filtering body, virus, germs and the like in the air can be filtered, the cross flow fan in the plasma air sterilizer blows out plasma generated by the plasma rod from the first air outlet, the plasma generated by the second sterilizer can be blown away in the process (the plasma module generates the plasma), flowing gas with the plasma is comprehensively formed, and the flowing gas sterilizes the space in the channel.

The utility model discloses can accomplish disinfection work when not influencing the stream of people, the personnel can once only pass through fast, carry out human surface disinfection when passing through fast and disinfect, can carry out data acquisition and body temperature monitoring simultaneously. The utility model discloses modular design makes things convenient for the equipment to dismantle. The utility model discloses 1 minute surface degerming rate reaches more than 50%, and the side direction air intake adopts the filter body to reduce outside has the bacterium environment to the inside interference of passageway, and thermal imaging body temperature monitoring devices's use reduces artifical temperature measurement work and in time discovers unusual crowd, does benefit to behind the collection personal information and carries out epidemic prevention management and control to unusual personnel.

The comparison between the disinfection and sterilization technology and other disinfection and sterilization technologies is listed in table one, and specifically the comparison is shown in table one:

table one:

example 2

The plasma module in embodiment 1 can adopt the following scheme except that the prior art can be referred to: fig. 23 shows a schematic diagram of the second sterilizer, a waterproof switch power supply is electrically connected to the plasma module (having a control PCB and a high voltage PCB connected to the control PCB), the waterproof switch power supply converts 220V to 12V and outputs the 12V to the plasma module, the waterproof switch power supply supplies power to the second sterilizer, a dc high voltage end of the high voltage PCB is connected to the first plasma electrode DJ-1 and the second plasma electrode DJ-2, and two electrodes connected to the dc high voltage end, namely the first plasma electrode and the second plasma electrode, are oppositely arranged for plasma discharge.

Referring to fig. 24, the high voltage PCB is provided with a piezoelectric type high voltage generating circuit including: first comparator IC1A, second comparator IC1B, third comparator IC1C, fourth comparator IC1D, pin 1 of first comparator IC1A is grounded, pin 2 of first comparator IC1A is connected with resistor R4, resistor R10, resistor R2, resistor R12, pin 3 of first comparator IC1A is connected with inductor L1, pin 4 of first comparator IC1A is connected with resistor R10, capacitor C5 and fourth comparator IC1D, pin 5 of first comparator IC1A is connected with resistor R7, resistor R4 and piezoelectric ceramic transformer PZT1, pin 1 of second comparator IC1B is connected with fourth comparator IC1D and triode Q1, pin 6 of second comparator IC1B is connected with resistor R B, capacitor C B, pin 7 of second comparator IC1B is connected with resistor R B, capacitor C B, pin 72 of second comparator IC B is connected with resistor R B, resistor R B and resistor R B of third comparator IC1B are connected in series, and resistor R B are connected with resistor R B, resistor R B, and resistor R B of third comparator IC B, and resistor R B are connected in series, A resistor R22 and a resistor R19 are connected with a capacitor C8, a pin 9 of a third comparator IC1C is connected with a resistor R21, a capacitor C9 and a resistor R14, a pin 13 of a fourth comparator IC1D is connected with a triode Q1, a resistor R3 and a second comparator IC1B, a pin 10 of a fourth comparator IC1D is connected with a pin 4 of a first comparator IC1A, a pin 11 of a fourth comparator IC1D is connected with a piezoelectric ceramic transformer PZT1, a resistor R18 and a resistor R17 are connected between a resistor R6 and a diode D6 which are connected in series, the capacitor C6 and the resistor R6 are grounded, the capacitor C6 and the capacitor C6 are grounded, the resistor R6 are connected with the resistor R6 and the resistor R6, the other end of the resistor R6 is grounded, the resistor R6, the other end of the resistor R6, the resistor R6 and the other end of the resistor R6, the other end of the resistor R6, the resistor R6 is connected with the diode L6, the diode D6, the other end of the diode D6 and the other end of the diode D6 are connected in series, the diode D5 is connected in parallel with a capacitor C5, a resistor R8 and a resistor R13 are connected in series, the other end of the resistor R8 is connected with an inductor L1, and the other end of the resistor R13 is grounded. A capacitor C2 is connected between the D pole and the S pole of the triode Q1, the D pole of the triode Q1 is connected to the inductor L1 and the piezoelectric ceramic transformer PZT1, the S pole of the triode Q1 is grounded, the 3 pin of the piezoelectric ceramic transformer PZT1 is grounded, the 4 pin of the piezoelectric ceramic transformer PZT1 is connected to the ac high-voltage output terminal, the 4 pin of the piezoelectric ceramic transformer PZT1 is connected to the capacitor C1, the capacitor C1 is connected to the dc high-voltage output part, which includes four parallel diodes D3, D4, D1 and D2, one end of the diode D3 is grounded, a capacitor C11 is connected between the diode D3 and the diode D4, a capacitor C10 is connected between the diode D4 and the diode D1, a capacitor C12 is connected between the diode D1 and the diode D2, the resistor R14 is connected between the diode D4 and the diode D1, and the dc high-voltage output port is located at the positive end of the diode D2.

The direct-current high-voltage end of the high-voltage PCB is connected to the first plasma electrode and the second plasma electrode, the two electrodes connected with the direct-current high-voltage end of the plasma module are the first plasma electrode and the second plasma electrode respectively, and the two electrodes are arranged oppositely to release plasma.

Above only be the preferred embodiment of the utility model, the utility model discloses a protection scope is not limited to above-mentioned embodiment only, all belong to the utility model discloses a technical scheme of principle all belongs to the utility model discloses a protection scope. For those skilled in the art, several modifications can be made without departing from the principle of the present invention, and such modifications should also be considered as the protection scope of the present invention.

Claims (10)

1. An ion-clash rotary-closure disinfection and sterilization intelligent channel is characterized by comprising:

a main body enclosure for forming a man-passing passageway;

the plasma air sterilizer is used for sterilizing and disinfecting the space in the channel and is arranged in the enclosing structure of the channel;

the data acquisition device is used for acquiring the identity information of the passer and the body temperature data in the channel and is arranged at the channel.

2. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 1, wherein: the data acquisition device has:

the identity information collector is used for collecting the identity information of the passer and is arranged at the entrance of the channel;

an entrance sensor for identifying whether a passer-by enters the passageway, which is disposed at the passageway entrance;

the thermal imaging body temperature monitoring device and the face recognition device are used for collecting the body temperature and the face data of a passer and are arranged in the channel and close to the outlet;

a display unit disposed at the passage;

the identity information collector, the entry inductor, the thermal imaging body temperature monitoring device, the face recognition device and the display unit are all connected to the control unit.

3. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 1, wherein: the main body envelope includes:

the modularized framework is provided with a first framework positioned on one side and a second framework positioned on the other side, and a third framework is arranged at the top between the first framework and the second framework;

the modularization covering part is provided with a first covering part, a second covering part and a third covering part, the first covering part is arranged outside the first framework, the second covering part is arranged outside the second framework, the third covering part is arranged outside the third framework, and the first covering part, the second covering part and the third covering part are enclosed to form an inner cavity.

4. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 3, wherein: including side direction air inlet filtration, it arranges the outside at the passageway, side direction air inlet filtration has the side direction air intake, side direction air intake department sets up the filter body that is used for filtering virus germ and air impurity.

5. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 1, wherein: comprising illumination means and/or guiding means for illumination within the channel.

6. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 3, wherein: and a walking part convenient to move is arranged at the bottom of the main body enclosure structure.

7. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 1, wherein: the plasma air sterilizer is provided with a first sterilizer which is provided with a first shell, a first air inlet and a first air outlet are arranged on the first shell, a plasma rod is arranged in the first shell and connected to a first power supply, the first power supply is arranged in the first shell through a first mounting plate, and an air supply device used for blowing out plasma generated by the plasma rod from the first air outlet is arranged in the first shell;

and at least one second sterilizing machine, it sets up first air outlet and/or first air inlet department has the second shell, set up plasma release mouth on the second shell, set up second power and plasma module in the second shell, the plasma module connects in the second power.

8. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 7, wherein: the solar water heater is characterized in that a second mounting plate is arranged in the second shell, a second power supply and a plasma module are arranged on the second mounting plate, the second power supply is a waterproof switch power supply, an operating switch and a charging interface are arranged outside the second shell, and the operating switch and the charging interface are electrically connected to the second power supply.

9. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 1, wherein:

a front plasma air disinfection unit for forming a plasma wind curtain wall is arranged at the position, close to the entrance of the channel, of the main body enclosure structure,

and a rear plasma air disinfection unit for forming a plasma wind curtain wall is arranged at the position, close to the outlet of the channel, of the main body enclosure structure.

10. The intelligent ion-collided screwing disinfection and sterilization channel as claimed in claim 9, wherein: a concentrated plasma air disinfection unit is arranged on a main body enclosure structure between two plasma wind curtain walls.

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