Disclosure of Invention
The embodiment of the application provides a remove static disinfection system that disinfects of scanning formula dynamic filtration, implements the optimal purification to the air, provides clean, safe air for crowd's workplace, clean workshop and livestock-raising place. The novel air purifier breaks through the traditional dynamic sterilization concept, separates and treats the filtration, purification and sterilization, organically unifies the filtration, purification and sterilization, effectively prevents and controls cross infection of virus and bacteria through air, has good epidemic prevention effect, and eliminates the panic psychology of the masses. This scheme is disinfected regularly through removing scanning formula disinfection module that disinfects to the bacterium virus on the filter module, furthest reduces installed power and operation energy consumption, and standardized modular device structure improves equipment production and installation and change efficiency moreover.
In a first aspect, an embodiment of the present application provides a mobile scanning type dynamic filtration static sterilization and disinfection system, including:
the system comprises: frame combination formula filter and removal scanning formula disinfection and isolation module that disinfects, frame combination formula filter includes two at least filter module that set up side by side, filter module is arranged in blocking dust, bacterium and/or virus in the filtered air, removal scanning formula disinfection and isolation module that disinfects includes the control unit and disinfects the disinfection unit, the control unit is used for controlling removal scanning formula disinfection and isolation module that disinfects removes predetermined primary importance, after removal scanning formula disinfection and isolation module that disinfects removes the primary importance, at the filter module that first place department corresponds stop the operation, and control disinfection and isolation unit pair filter module at first place department carries out the disinfection and isolation processing, after the disinfection and isolation to filter module at first place department finishes, control removal scanning formula disinfection and isolation module removes predetermined second place, and carrying out sterilization and disinfection treatment on the filter module corresponding to the second position.
Further, the frame modular filter further comprises: the mobile scanning type sterilization and disinfection module comprises a filtering frame, fastening structural parts, chute guide rails and first electric control contacts, wherein the filtering frame consists of a middle filtering module frame and pause frames on one side or two sides, the filtering module is embedded in the corresponding filtering module frame through the fastening structural parts, the chute guide rails are arranged at the upper end and the lower end of the filtering frame, the first electric control contacts are arranged on the inner sides of the chute guide rails at the lower ends of the corresponding filtering module frames, and the mobile scanning type sterilization and disinfection module is embedded in the chute guide rails; when the mobile scanning type sterilization and disinfection module is in a standby state, the mobile scanning type sterilization and disinfection module stops in the pause frame, and when the mobile scanning type sterilization and disinfection module is in a working state, the mobile scanning type sterilization and disinfection module stops in the filtering module frame.
Furthermore, the mobile scanning type sterilization and disinfection module also comprises a frame door, a positioning sealing ring, a power supply or a battery unit, a second electric control contact, a driving wheel and a sliding wheel, the second electric control contact, the driving wheel and the sliding wheel are arranged at the bottom of the frame door, the frame door is embedded in the chute guide rail, the sterilization and disinfection unit is arranged on the frame door through the positioning sealing ring, the control unit and the power supply or battery unit are embedded in the frame door, the second electric control contact is connected with the power supply or the battery unit and the sterilization and disinfection unit, the power supply or the battery unit is connected with the driving wheel, the power supply or the battery unit is used for supplying power to the driving wheel, and the second electric control contact is used for receiving the electric energy transmitted by the first electric control contact, supplying power to the sterilization and disinfection unit and charging the power supply or the battery unit.
Furthermore, the second electric touch point is connected with the control unit, the control unit is connected with the driving wheel, the control unit is further configured to send a start signal to the driving wheel at a preset disinfection time node, so that the driving wheel moves the mobile scanning type sterilization and disinfection module parked in the pause frame into the connected filter module frame, and send a stop signal to the driving wheel when the first electric control contact of the filter module frame is connected with the second electric control contact, so that the mobile scanning type sterilization and disinfection module is parked in the filter module frame, the filter module in the filter module frame is blocked by the mobile scanning type sterilization and disinfection module from an air inlet channel, and the positioning sealing ring and the filter module frame form a closed structure, so that the filter module stops operating; starting the sterilization and disinfection unit to sterilize and disinfect the filter module in the filter module frame at preset time intervals; after the preset disinfection time interval, sending a starting signal to the driving wheel to enable the driving wheel to move the mobile scanning type sterilization and disinfection module parked in the filtering module frame to the next group of filtering module frame, and starting the sterilization and disinfection unit to sterilize and disinfect the filtering module in the filtering module frame at the preset time interval when the first electric control contact of the filtering module frame is connected with the second electric control contact.
Furthermore, the structure of the mobile scanning type dynamic filtration static sterilization and disinfection system comprises a single-sided structure and a double-sided structure, the single-sided mobile scanning type dynamic filtration static sterilization and disinfection system comprises a frame combined filter and a mobile scanning type sterilization and disinfection module, and the mobile scanning type sterilization and disinfection module is arranged on the air inlet side of the frame combined filter; the double-sided mobile scanning type dynamic filtering static sterilization and disinfection system comprises a frame combined type filter and two mobile scanning type sterilization and disinfection modules, wherein the mobile scanning type sterilization and disinfection modules are respectively arranged on the air inlet side and the air outlet side of the frame combined type filter.
Further, the sterilization and disinfection unit comprises any one of an ultraviolet lamp sterilization and disinfection device, an infrared film thermal radiation sterilization and disinfection device or an ultraviolet LED radiation sterilization and disinfection device, and is used for performing sterilization and disinfection treatment on dust, bacteria and/or viruses blocked on the filtering module.
Further, the mobile scanning type dynamic filtration static sterilization and disinfection system further comprises: the air inlet channel, the air outlet channel and the replacement module channel which can be shared with the air inlet channel or the air outlet channel;
the air passes through the air inlet channel, the movable scanning type sterilization and disinfection module, the frame combined filter, the module replacement channel and the air outlet channel in sequence to be discharged.
In a second aspect, the present application provides a mobile scanning type dynamic filtration static sterilization and disinfection method, including:
controlling a mobile scanning type sterilization and disinfection module to move to a preset first position, stopping the operation of a corresponding filtering module at the first position after the mobile scanning type sterilization and disinfection module moves to the first position, and controlling a sterilization and disinfection unit to perform sterilization and disinfection treatment on the filtering module at the first position;
and after the sterilization and disinfection of the filtering module at the first position are finished, controlling the mobile scanning type sterilization and disinfection module to move to a preset second position, and performing sterilization and disinfection treatment on the filtering module corresponding to the second position.
Further, control scanning formula disinfection module that disinfects moves to predetermined primary importance, after moving scanning formula disinfection module that disinfects and move to primary importance, at the filter module that primary importance department corresponds stops the operation to control disinfection unit that disinfects to the filter module of primary importance department carries out disinfection and sterilization and treatment includes:
sending a starting signal to a driving wheel at a preset disinfection time node, so that the driving wheel moves a mobile scanning type sterilization and disinfection module parked in a pause frame into a connected filter module frame;
when the first electric control contact of the filtering module frame is connected with the second electric control contact of the scanning type static sterilization and disinfection module, receiving a high level signal sent by the second electric control contact, and sending a stop signal to the driving wheel, so that the mobile scanning type sterilization and disinfection module stops in the filtering module frame; the air inlet channel of the filter module in the filter module frame is blocked by the movable scanning type sterilization and disinfection module, and the positioning sealing ring and the filter module frame form a closed structure, so that the filter module stops running;
and starting the sterilization and disinfection unit of the mobile scanning sterilization and disinfection module, and starting a timer with a preset time interval, so that the sterilization and disinfection unit performs sterilization and disinfection with the preset time interval on the filter module embedded in the filter module frame.
Further, control the mobile scanning type sterilization and disinfection module to move to a preset second position, and after the second position is subjected to sterilization and disinfection treatment corresponding to the filtering module, the method further comprises the following steps:
when the resistance of the filter module is increased to a preset resistance threshold value, sending a starting signal to the driving wheel, so that the driving wheel moves the mobile scanning type sterilization and disinfection module into the filter module frame corresponding to the filter module; wherein, the filter module to be replaced is replaced through the replacement module channel;
after a new filter module is replaced, a starting signal is sent to the driving wheel, so that the driving wheel moves the movable scanning type sterilization and disinfection module into a filter module frame corresponding to the next replaced filter module.
This scheme, the static disinfection system that disinfects of mobile scanning formula dynamic filtration includes that frame combination formula filter and mobile scanning formula disinfect the disinfection module, and frame combination formula filter includes two at least filter module that set up side by side, and filter module can effectively the dust in the separation air, bacterium and/or virus, realizes dynamic filtration's mode of operation based on filter module. When the mobile scanning type sterilization and disinfection module moves to the position corresponding to the filtering module, the filtering module stops running, the mobile scanning type sterilization and disinfection module kills bacteria and viruses on the adsorption and separation filtering module, after the sterilization and disinfection of the filtering module is finished, the filtering module moves to the position corresponding to the next group of filtering module again, the sterilization and disinfection treatment is carried out on the filtering module, and the static sterilization and disinfection working mode is realized based on the mobile scanning type sterilization and disinfection module. The air purifier can separate and treat filtration, purification, sterilization and disinfection, is organic and unified, can effectively prevent and control cross infection of viruses and bacteria through air, and has good epidemic prevention effect. The filter modules at the opposite positions are subjected to movable scanning type sterilization and disinfection through the movable scanning type dynamic filtering static sterilization and disinfection modules, so that the installed power and the operation energy consumption are reduced to the maximum extent. In addition, standardized and modularized device structure improves equipment production, installation and replacement efficiency.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, specific embodiments of the present application will be described in detail with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present application are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.
An exemplary applicable scenario of the embodiment of the present application is described as follows:
in the process of breeding in modern livestock breeding industry, odor pollution is easily generated in a breeding farm. The malodors in the farm are mainly derived from excrement produced by the livestock, anaerobic decomposition of feed residues, and gas produced by the respiration and body surface emission of the livestock, wherein the excrement is a main pollution source. The livestock and poultry manure and the sewage for washing the breeding house contain various components such as abundant carbohydrates, fat, protein, mineral substances, vitamins and the like. These substances are the nutrient sources for the growth and reproduction of microorganisms, and are decomposed under anaerobic conditions to generate methane, organic acids, alcohols, ammonia gas, vinyl alcohol, dimethyl sulfide, hydrogen sulfide, methylamine, trimethylamine and other substances with unpleasant odor. And secondly, the gas discharged from the digestive tract of the livestock and poultry, the secretions of sebaceous glands and sweat glands, the pheromone of the livestock body and the dirt adhered to the body surface can also emit the peculiar smell of different livestock and poultry. The waste gas of sewage treatment stations, composting plants and harmless treatment plants is mainly sulfur compounds, nitrogen compounds and the like, and the waste gas of the composting plants also contains a large amount of dust.
The density of the livestock in the farm is extremely high, the activity is frequent, and the putrefaction of the excrement and the feed residue of the livestock is easy to breed viruses and bacteria. Bacteria can enter the bodies of the livestock through water, air, editors and the like to influence the growth performance of the animals; viruses in the air can enter the bodies of the livestock through respiratory tracts, so that the resistance of the livestock is reduced; the virus and bacteria can induce diseases, such as African swine fever virus, pseudorabies virus, foot and mouth disease virus, circovirus, diarrhea virus, blue ear virus and the like, the viruses have extremely high infectivity and pathogenicity, once one livestock is infected, large-area livestock cross infection is easily caused, and huge economic loss is caused in a farm.
Therefore, the air of people's places of mobility, clean production workshops and livestock farms in the modern livestock breeding industry must be filtered and purified, and effectively sterilized and disinfected.
The present solution will now be described in detail with reference to the system.
Fig. 1 is a schematic structural diagram of a mobile scanning type dynamic filtration static sterilization and disinfection system according to an embodiment of the present application. As shown in fig. 1, the mobile scanning type dynamic filtration static sterilization and disinfection system comprises a frame combined type filter 10 and a mobile scanning type sterilization and disinfection module 20, the frame combined type filter 10 comprises at least two filter modules arranged side by side, the filter modules 101 block dust, bacteria and/or viruses in filtered air, the mobile scanning type sterilization and disinfection module 20 comprises a control unit and a sterilization and disinfection unit 203, the control unit is used for controlling the mobile scanning type sterilization and disinfection module 20 to move to a preset first position, when the mobile scanning type sterilization and disinfection module 20 moves to the first position, the corresponding filter module 101 at the first position stops operating, and the sterilization and disinfection unit 203 is controlled to perform sterilization and disinfection treatment on the filter module 101 at the first position, when the sterilization and disinfection of the filter module 101 at the first position are completed, the mobile scanning type sterilization and disinfection module 20 is controlled to move to a preset second position, and (4) sterilizing and disinfecting the corresponding filter module 101 at the second position. The movable scanning type sterilization and disinfection module 20 only carries out regular sterilization and disinfection treatment on the filter module 101 at the opposite position, so that the power consumption of sterilization and disinfection operation can be effectively reduced.
Specifically, referring to FIG. 1, the mobile scanning sterilization and disinfection module 20 rests within a resting frame 103 on one side of the frame filter assembly 10 in the ready state. When the mobile scanning germicidal module 20 is in the working position, it rests in any of the filter module frames 102 of the frame-work filter 10, and referring to fig. 2, fig. 2 shows the mobile scanning germicidal module resting in the rightmost row of filter module frames 102. The mobile scanning sterilization and disinfection module 20 in the standby state moves into the filtering module frame 102 leftwards or rightwards at a preset sterilization time node, and when reaching a preset first position, performs sterilization and disinfection treatment on the filtering module 101 at the first position through the sterilization and disinfection unit 203.
In one embodiment, the frame combined filter 10 is provided with two rows of five rows of filter modules 101, and the mobile scanning type sterilization and disinfection module 20 can sterilize and disinfect two parallel filter modules 101 at the same time, it can be understood that the area of the mobile scanning type sterilization and disinfection module 20 can be arbitrarily set to sterilize and disinfect a plurality of filter modules 101, but is not limited to two. Specifically, referring to fig. 3, fig. 3 is a schematic structural diagram of a frame combined filter provided in an embodiment of the present application. As shown in fig. 3, the framed modular filter 10 includes a filter frame consisting of a middle filter module frame 102 and stop frames 103 on both sides. The frame combined filter 10 further includes fastening members, a chute guide 104 and a first electrically controlled contact, the filter module 101 is embedded in the corresponding filter module frame 102 through the fastening members, and the fastening members are disposed in the filter module frame 102. The chute guide 104 is disposed at the upper and lower ends of the filter frame, and the first electrically controlled contact is disposed inside the corresponding lower chute guide 104 of the filter module frame 102.
Referring to fig. 4, fig. 4 is a schematic structural diagram of a mobile scanning type sterilization and disinfection module provided in an embodiment of the present application. As shown in fig. 4, the mobile scanning sterilization and disinfection module 20 includes a frame door 201, a positioning sealing ring 202, a second electric control contact 206, a driving wheel 205 and a sliding wheel, the second electric control contact 206, the driving wheel 205 and the sliding wheel are arranged at the bottom of the frame door 201, the frame door 201 is embedded in the chute guide 104, and the sterilization and disinfection unit 203 is installed on the frame door 201 through the positioning sealing ring 202. Further, the mobile scanning type sterilization and disinfection module 20 further comprises a power supply or battery unit 204, the control unit and the power supply or battery unit 204 are embedded in the frame door 201, the second electric control contact 206 is connected with the control unit and the power supply or battery unit 204 and the sterilization and disinfection unit 203, the control unit and the power supply or battery unit 204 are connected with the driving wheel 205, the power supply or battery unit 204 is used for supplying power to the driving wheel 205, and the control unit sends a control signal to the driving wheel 205. The second electric control contact 206 is used for receiving the electric energy transmitted by the first electric control contact, supplying power to the sterilization and disinfection unit 203, and charging the power supply or the battery unit 204. Specifically, when the mobile scanning type sterilization and disinfection module 20 is in a working state, the first electrical control contact at the opposite position is connected to the second electrical control contact 206, and the second electrical control contact 206 receives the electrical energy transmitted by the first electrical control contact and supplies power to the sterilization and disinfection unit 203, and charges the power supply or battery unit 204, so that the power supply or battery unit 204 supplies power to the driving wheel 205 when the mobile scanning type sterilization and disinfection module 20 is moving. Specifically, the sterilization and disinfection unit 203 includes any one of an ultraviolet lamp sterilization and disinfection device, an infrared film heat radiation sterilization and disinfection device, or an ultraviolet LED radiation sterilization and disinfection device, and the sterilization and disinfection function device can be selected according to the use environment. The ultraviolet lamp sterilization device, the infrared film heat radiation sterilization device or the ultraviolet LED radiation sterilization device are only exemplary, and other sterilization devices may be used.
In one embodiment, the second electrical control contact 206 is not connected to the power source or battery unit 204, a third electrical control contact is added to the bottom of the frame door 201, the third electrical control contact is connected to the power source or battery unit 204, and a fourth electrical control contact is added to the inside of the chute rail 104 of the parking frame 103. When the mobile scanning type sterilization and disinfection module 20 is in a standby state, the third electric control contact receives the electric energy transmitted by the fourth electric control contact to charge the power supply or the battery unit 204.
In one embodiment, the control unit controls the operation and pause of the mobile scanning type sterilization and disinfection module 20, and transmits the operation data and the field state to the cloud platform, the mobile phone app and/or the system control terminal at a proper time. Furthermore, the control unit can acquire the operation data of the filter module 101, and send the operation data of the filter module 101 to the system control terminal, and the worker can judge whether the resistance added value of the filter module 101 reaches the replacement threshold value according to the operation data of the filter module 101, and when the filter module 101 reaches the replacement threshold value, the system control terminal can send a replacement instruction to the control unit, so that the control unit starts a replacement operation mode, and the worker on site can replace the filter module 101 in time.
In one embodiment, the frame modular filter 10 is not provided with the first electrical control contact, the mobile scanning sterilization and disinfection module 20 is not provided with the second electrical control contact 206, and the sterilization and disinfection unit 203 and the driving wheel 205 are powered by the automatic winder power source 105 through the automatic winder power source 105 provided on the frame modular filter 10, the power socket 207 provided on the mobile scanning sterilization and disinfection module 20 and configured with the automatic winder power source, and the power socket 207 connected to the power source or battery unit 204. Specifically, referring to fig. 5, fig. 5 is a schematic structural diagram of a mobile scanning type dynamic filtration static sterilization and disinfection system provided in this embodiment. As shown in fig. 5, the automatic reel power source 105 is provided at the edge of the parking frame 103, and the specific position is not limited. When the mobile scanning type sterilization and disinfection module moves 20, the automatic winder power supply 105 automatically winds and unwinds the wire according to the distance of the mobile scanning type sterilization and disinfection module 20.
Further, referring to fig. 6, fig. 6 is a schematic structural diagram of the mobile scanning type sterilization and disinfection module provided in this embodiment. As shown in FIG. 6, the power socket 207 is disposed at the edge of the frame door 201, and the power socket 207 and the automatic winder power supply 105 are disposed at the same level to facilitate the winding and unwinding of the automatic winder power supply 105 and the normal movement of the mobile scanning type sterilization and disinfection module 20.
In one embodiment, the frame modular filter 10 is not provided with the first electrical control contacts, the mobile scanning sterilization and disinfection module 20 is not provided with the second electrical control contacts 206, and the sterilization and disinfection unit 203 and the driving wheels 205 are powered by the trolley line power supply 106 by providing a trolley line power supply 106 on the frame modular filter 10 and carbon brushes 208 configured with the trolley line power supply on the mobile scanning sterilization and disinfection module 20. Specifically, referring to fig. 7, fig. 7 is a schematic structural diagram of a mobile scanning type dynamic filtration static sterilization and disinfection system provided in this embodiment. As shown in fig. 7, the trolley line power supply 106 is disposed inside the slide rail 104 at the upper end of the frame modular filter 10. Further, referring to fig. 8, fig. 8 is a schematic structural diagram of the mobile scanning type sterilization and disinfection module provided in this embodiment. As shown in fig. 8, the carbon brushes 208 are disposed above the frame door 201, the carbon brushes 208 are embedded in the sliding grooves of the trolley line power supply 106, and when the mobile scanning type sterilization and disinfection module moves 20, the trolley line power supply 106 supplies power to the mobile scanning type sterilization and disinfection module 20 through the carbon brushes 208 on the mobile scanning type sterilization and disinfection module 20.
In one embodiment, the structure of the mobile scanning type dynamic filtering static sterilization and disinfection system comprises a single-sided structure and a double-sided structure. Specifically, referring to fig. 9, fig. 9 is a schematic structural diagram of a single-sided mobile scanning type dynamic filtration static sterilization and disinfection system provided in the embodiment of the present application. As shown in fig. 9, the single-sided mobile scanning type dynamic filtration static sterilization and disinfection system comprises a frame combined filter 10 and a mobile scanning type sterilization and disinfection module 20, wherein the mobile scanning type sterilization and disinfection module 20 is arranged at the air inlet side of the frame combined filter 10, and a frame door 201 is embedded into a chute guide rail 104. Specifically, referring to fig. 10, fig. 10 is a schematic structural diagram of a double-sided mobile scanning type dynamic filtration static sterilization and disinfection system provided in the embodiment of the present application. As shown in fig. 10, the double-sided mobile scanning type dynamic filtration static sterilization and disinfection system includes a frame combined filter 10 and two mobile scanning type sterilization and disinfection modules 20, the mobile scanning type sterilization and disinfection modules 20 are respectively disposed on the air inlet side and the air outlet side of the frame combined filter 10, and the frame door 201 is embedded in the chute guide rail 104. The double-sided mobile scanning type dynamic filtering static sterilization and disinfection system can shorten the sterilization and disinfection time and improve the sterilization and disinfection efficiency.
In one embodiment, the mobile scanning type dynamic filtration static sterilization and disinfection system comprises an air inlet channel mobile and scanning type sterilization and disinfection module 20, a frame combined filter 10, a module replacement channel and an air outlet channel, wherein the filter module which is used for a long time is replaced by the module replacement channel, and the structure of the module replacement is consistent with that of the filter module 101.
Further, the replacement module can cooperate with the mobile scanning type sterilization and disinfection module 20 to replace the filter module 101 in good time, so that the filter effect is ensured, the function of statically replacing the filter module 101 can be realized, and unfiltered gas is effectively prevented from being discharged to the outside when the filter module 101 is replaced. Specifically, after the filtering module 101 is operated for a period of time, when the resistance increase value of the filtering module 101 reaches the design life requirement, the control unit starts the replacement operation mode to move the mobile scanning type sterilization and disinfection module 20 on one side to the set position, and the mobile scanning type sterilization and disinfection module on the other side is still located at the corresponding position of the filtering module 101. Because the filter module 101 in the filter module frame 102 is blocked by the mobile scanning type sterilization and disinfection module, the positioning sealing ring 202 on the mobile scanning type sterilization and disinfection module 20 and the filter module frame 102 form a closed structure, so that the filter module 101 automatically stops running. The dynamic replacement of the filter module 101 can be accomplished by opening the fastening structure that secures the filter module 101, removing the filter module 101, replacing a new filter module 101, and tightening the fastening structure.
The static disinfection system that disinfects of removal scanning formula dynamic filtration that this application embodiment provided includes frame combination formula filter 10 and removes scanning formula disinfection module 20 that disinfects, and frame combination formula filter 10 includes at least two filtration modules 101 that set up side by side, and filtration module 101 can effectively obstruct dust, bacterium and/or virus in the air, realizes dynamic filtration's mode of operation based on filtration module 101. When the mobile scanning type sterilization and disinfection module 20 moves to the position corresponding to the filtering module 101, the filtering module 101 stops running, the mobile scanning type sterilization and disinfection module 20 kills bacteria and viruses on the adsorption and separation filtering module 101, after the sterilization and disinfection of the filtering module 101 is completed, the filtering module moves to the position corresponding to the next group of filtering module 101 again, the sterilization and disinfection treatment is carried out on the filtering module, and the static sterilization and disinfection working mode is realized based on the mobile scanning type sterilization and disinfection module 20. The air purifier can separate and treat filtration, purification, sterilization and disinfection, is organic and unified, can effectively prevent and control cross infection of viruses and bacteria through air, and has good epidemic prevention effect. The filter module 101 at the opposite position is sterilized and disinfected in a movable scanning mode through the movable scanning type sterilization and disinfection module 20, so that the installed power and the operation energy consumption are reduced to the maximum extent. In addition, standardized and modularized device structure improves equipment production, installation and replacement efficiency.
The embodiment of the application creatively provides a brand-new air treatment device sterilization and disinfection thought, and the air containing dust, PM2.5 micro-dust and virus and bacteria is subjected to an optimized purification technology by adopting a mobile scanning type dynamic filtration static sterilization and disinfection system, so that the quality requirement of purification is met; can effectively prevent cross infection, ensure the health and safety of personnel and livestock and poultry, and provide clean and safe air for crowd activity places, clean production workshops and livestock breeding places. Compared with the prior art, the traditional dynamic sterilization and disinfection concept is broken through, and the filtration, purification and sterilization and disinfection are divided and treated, and are organically unified; the cross infection of virus and bacteria through air is effectively prevented and controlled, the epidemic prevention effect is good, and the panic psychology of the masses is eliminated; by means of a control technology, the operation process is visualized, and installed power and operation energy consumption are reduced to the maximum extent; standardized modular structure improves equipment production and installation and change efficiency.
Fig. 11 is a schematic flow chart of a mobile scanning type dynamic filtration static sterilization and disinfection method according to an embodiment of the present application. The mobile scanning type dynamic filtering static sterilization and disinfection method is operated on the control unit. As shown in fig. 11, a mobile scanning type dynamic filtration static sterilization and disinfection method includes:
s110, controlling the mobile scanning type sterilization and disinfection module to move to a preset first position, stopping operation of the corresponding filtering module at the first position after the mobile scanning type sterilization and disinfection module moves to the first position, and controlling the sterilization and disinfection unit to perform sterilization and disinfection treatment on the filtering module at the first position.
Specifically, referring to fig. 12, fig. 12 is a flow chart of sterilization and disinfection provided in the embodiments of the present application. As shown in fig. 10, the sterilization and disinfection process includes:
s1101, sending a starting signal to a driving wheel at a preset disinfection time node, so that the driving wheel moves the movable scanning type sterilization and disinfection module parked in the pause frame into a connected filtering module frame;
s1102, when the first electric control contact of the filtering module frame is connected with the second electric control contact of the scanning type static sterilization and disinfection module, receiving a high-level signal sent by the second electric control contact, and sending a stop signal to the driving wheel to stop the mobile scanning type sterilization and disinfection module in the filtering module frame; the air inlet channel of the filter module in the filter module frame is blocked by the movable scanning type sterilization and disinfection module, and the positioning sealing ring and the filter module frame form a closed structure, so that the filter module stops running;
s1103, starting the sterilization and disinfection unit of the mobile scanning sterilization and disinfection module, and starting a timer with a preset time interval, so that the sterilization and disinfection unit performs sterilization and disinfection with the preset time interval on the filter module embedded in the filter module frame.
Illustratively, when the mobile scanning type sterilization and disinfection module stops at the stopping frame at the left side, a starting signal of moving to the right is sent to the driving wheel; when the movable scanning type sterilization and disinfection module stops at the stopping frame at the right side, a starting signal of leftward movement is sent to the driving wheel. When the mobile scanning type sterilization and disinfection module stops at the frame of the filtering module, the starting signal moving leftwards or rightwards is correspondingly sent to the driving wheel according to the starting signal moving leftwards or rightwards sent by the previous wheel pair, so that the mobile scanning type sterilization and disinfection module continuously moves towards the same direction.
And S120, after the sterilization and disinfection of the filtering module at the first position are finished, controlling the mobile scanning type sterilization and disinfection module to move to a preset second position, and performing sterilization and disinfection treatment on the filtering module corresponding to the second position.
Specifically, after the preset disinfection time interval, a starting signal is sent to the driving wheel, so that the driving wheel moves the mobile scanning type sterilization module parked in the filtering module frame to the next group of filtering module frames, and when the mobile scanning type sterilization module parked in the next group of filtering module frames, an operation signal is sent to the filtering module in the upper group of filtering module frames, so that the filtering module continues to operate.
Illustratively, the frame door bottom is configured with the third automatically controlled contact, and the third automatically controlled contact is connected the control unit, and the spout guide rail inboard of pausing frame is configured with the fourth automatically controlled contact. The control unit determines whether the current mobile scanning type sterilization and disinfection module stops at the filtering module frame or the stopping frame by judging whether the high-level signal sent by the second electric control contact or the high-level signal sent by the third electric control contact. Further, when the control unit determines that the current mobile scanning type sterilization and disinfection module stops at the stopping frame, it may determine whether the current mobile scanning type sterilization and disinfection module stops at the stopping frame on the left side or the stopping frame on the right side by determining whether the previous round sends a start signal to the driving wheel to the left or to the right, for example, the driving wheel moves to the right, and the mobile scanning type sterilization and disinfection module moves to the stopping frame on the right side. Furthermore, after the third electric control contact sends a high level signal to the control unit, the control unit starts a timer with a preset charging time interval, and after the timing is finished, the control unit sends a corresponding starting signal to the driving wheel according to the stopping position of the current mobile scanning type sterilization and disinfection module.
Furthermore, the control unit is connected with the system control terminal, the control unit can acquire the operation data of the filtering module and send the operation data of the filtering module to the system control terminal, and a worker can judge whether the resistance added value of the filtering module reaches a replacement threshold value according to the operation data of the filtering module and when the filtering module reaches the replacement threshold value. The system control terminal can send the replacement instruction to the control unit, and no matter the mobile scanning type sterilization and disinfection module is in a standby state or a working state, the control unit can respond to the replacement instruction and start the replacement operation module. Specifically, referring to fig. 13, fig. 13 is a flow chart of filter module replacement provided in the embodiment of the present application. As shown in fig. 13, the filter module replacement process includes:
s130, when the resistance of the filtering module is increased to a preset resistance threshold value, sending a starting signal to the driving wheel to enable the driving wheel to move the mobile scanning type sterilization and disinfection module into a filtering module frame corresponding to the filtering module; wherein, the filter module to be replaced is replaced through the replacement module channel;
and S140, after a new filter module is replaced, sending a starting signal to the driving wheel, so that the driving wheel moves the mobile scanning type sterilization and disinfection module into a filter module frame corresponding to the next replaced filter module.
Specifically, the control unit compares the stop position of the current mobile scanning type sterilization and disinfection module with the position of the filter module to be replaced, obtains the distance between the stop position and the filter module, and sends a corresponding starting signal to the driving wheel according to the distance between the stop position and the filter module. For example, the difference between the stop position of the mobile scanning type sterilization and disinfection module and the position of the filter module to be replaced is two filter module frames, based on this, the mobile scanning type sterilization and disinfection module needs to receive the high level signal sent by the second electrical control contact for three times, and when the second electrical control contact signal is received for the third time, it is determined that the stop position of the mobile scanning type sterilization and disinfection module corresponds to the filter module to be replaced.
The embodiment of the application carries out regularly disinfection and sterilization processing through the filtration module of control removal scanning formula disinfection and sterilization module on to the phase position, and effective prevention and control virus bacterium produces cross infection through the air, and furthest reduces disinfection and sterilization's operation consumption, reduces the working costs. The application provides a remove scanning formula disinfection method that disinfects has creatively provided a brand-new filtration purification disinfection thinking of disinfecting, disinfects the disinfection module through removing scanning formula, implements the optimum purification to the air, provides clean, safe air for crowd's workplace, clean workshop and livestock-raising place.
It should be noted that, in the embodiment of the above mobile scanning type dynamic filtration static sterilization and disinfection system, the included units and modules are only divided according to the function logic, but not limited to the above division, as long as the corresponding functions can be realized; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the embodiment of the invention.
It should be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. The present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the claims.