CN113294866A - Solid sterilization and disinfection device and air separation environment-friendly disinfection equipment - Google Patents

Abstract

The invention discloses a solid sterilization and disinfection device and air separation environment-friendly disinfection equipment, which comprise: the sterilizing box is used for storing the solid sterilizing disinfectant; the ion coating mechanism is arranged on one side of the sterilizing box and used for coating the sterilizing particles with ions so as to improve the diffusion range of the sterilizing particles. The solid sterilization device and the air separation environment-friendly disinfection equipment are improved, so that the suspension time and the diffusion range of sterilization particles released by the solid sterilization device in the air are improved, the sterilization effect of the solid sterilization device is obviously improved, meanwhile, groups of inactivated multi-molecule germs in the air can be gathered and stored, the condition that the groups of the multi-molecule germs cause secondary pollution to the outside air is avoided, the environment is protected, the risk of damage to the health of a user is reduced, and the performance of the air separation environment-friendly disinfection equipment for sterilizing and disinfecting the air is greatly improved.

Description

Solid sterilization and disinfection device and air separation environment-friendly disinfection equipment

Technical Field

The invention belongs to the technical field of air separation and environment-friendly disinfection, and particularly relates to a solid sterilization and disinfection device and air separation and environment-friendly disinfection equipment.

Background

Air disinfection refers to the disinfection of microorganisms, bacteria and the like that contain in the air, and air disinfection is mainly applied to places such as hotel, station, club, hospital, residential quarter mill, and in daily life, the air can receive the pollution of impurity such as suspended particles, bacterium, virus, dust, volatility gaseous pollutant and waste gas, and the pollution of air can cause comparatively serious harm to people's healthy.

The air disinfection equipment that people used usually mainly comprises several parts such as air exchange device, degassing unit, auxiliary device and control system, can divide into several kinds such as plasma disinfection degassing unit, ultraviolet sterilization degassing unit, solid disinfection degassing unit according to the mode difference of disinfecting to the air, and wherein, solid disinfection degassing unit has energy-concerving and environment-protective, the convenient advantage of use and uses comparatively extensively.

The solid sterilization and disinfection device and the air sterilization and disinfection equipment both continuously release sterilization and disinfection particles into the air, and the bacteria in the air are adsorbed and inactivated by the sterilization and disinfection particles, so that a large-size multi-molecule bacteria aggregation group is formed, and then the air is sterilized and disinfected by a settlement mode under the action of the dead weight of the multi-molecule bacteria aggregation group.

The present better for aerosol sterilization and disinfection machine of disinfection effect that disinfects, aerosol sterilization and disinfection machine is through carrying out atomizing spun mode to the disinfection granule that disinfects when using for the disinfection granule that disinfects forms aerosol attitude disinfection particle that disinfects in the air, and aerosol propagation compares with the airborne and has: long suspension time and wide diffusion range.

However, even the aerosol sterilization and disinfection machine with good sterilization and disinfection effects can sterilize and disinfect air by means of the way that sterilization and disinfection particles adsorb and inactivate germs contained in the outside air and naturally settle, so that multi-molecule germ aggregates formed by the combination of the sterilization and disinfection particles and the germs are directly exposed in the outside air, even a part of the multi-molecule germ aggregates still suspend in the outside air, thus the solid sterilization and disinfection device and the air disinfection equipment have poor sterilization and disinfection effects on the outside air, meanwhile, the multi-molecule germ aggregates suspending in the outside air can cause secondary pollution to the outside air, increase the risk of damage to the health of users, and reduce the sterilization and disinfection performance of the air disinfection equipment.

Therefore, in order to solve the above technical problems, it is necessary to provide a solid sterilization and disinfection device and an environment-friendly air separation and disinfection apparatus.

Disclosure of Invention

The invention aims to provide a solid sterilization and disinfection device and air separation environment-friendly disinfection equipment, and aims to solve the problem that the solid sterilization and disinfection device and the air separation environment-friendly disinfection equipment are poor in sterilization and disinfection performance.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

a solid sterilization and disinfection device comprising: the sterilization box, the solid sterilization disinfectant, the bracket and the plurality of negative ion generators;

the solid sterilizing disinfectant is arranged in the sterilizing box;

the bracket is arranged on one side of the solid disinfectant, which is far away from the sterilization box, and both sides of the sterilization box are connected with particle dredging films;

the negative ion generators are uniformly distributed on two sides of the bracket.

Further, the solid sterilizing disinfectant comprises the following components: the disinfectant comprises sterilizing particles, a disinfectant carrier, an activating agent, a fixing agent and a stabilizing agent, wherein chlorite is selected for the sterilizing particles, the disinfectant carrier can be selected from silica gel, bentonite or a synthetic molecular sieve, boric acid and oxalic acid are selected for the activating agent, gel and high-molecular fixing glue can be selected for the fixing agent, and calcium chloride, magnesium sulfate or sodium sulfate can be selected for the stabilizing agent.

Furthermore, an ion wrapping cavity is formed between the bracket and the particle dredging film, so that the sterilization and disinfection particles emitted by the solid sterilization and disinfection agent can be wrapped by the ion wrapping cavity in an ion manner, and the ions ionized by the negative ion generator can be stored and limited by the ion wrapping cavity, so that the effect of wrapping the sterilization and disinfection particles by the ions is improved;

the both sides of support all dig and have the fixed orifices that discharges, the fixed orifices that discharges and anion generator phase-match are convenient for install anion generator fixedly through digging the fixed orifices that discharges to be convenient for play the effect of ionization to the air of ion parcel intracavity through anion generator's operation.

An air separation environmental protection disinfecting equipment, includes above-mentioned solid sterilization degassing unit, still includes: the device comprises a disinfection equipment shell, a fixed base, a limiting sleeve, a particle isolation net and a pair of negative pressure fans;

the fixed base is connected with one side of the shell of the disinfection equipment, a pair of disinfection fixed cavities are drilled on the fixed base, and the disinfection fixed cavities are matched with the sterilization box;

the limiting sleeve is arranged in the shell of the disinfection equipment, and a plurality of uniformly distributed germ adsorbing grids are arranged on the outer side of the limiting sleeve;

the particle isolation net is arranged on one side, away from the fixed base, of the disinfection equipment shell, and an arc-shaped vibration hammer is arranged on one side, away from the limiting sleeve, of the particle isolation net;

the negative pressure fans are arranged between the particle isolation net and the limiting sleeve, and fan fixing frames are connected between the negative pressure fans and the disinfection equipment shell.

Furthermore, an air inlet is formed in one side of the disinfection equipment shell, so that air to be sterilized and disinfected can be conveniently gathered and gathered through the air inlet, an air inlet grid is arranged in the air inlet, the air inlet can be conveniently protected primarily through the air inlet grid, and the condition that large-volume impurities enter the disinfection equipment shell from the air inlet in the use process of the disinfection equipment shell is avoided;

one side that the air inlet grid is close to germ adsorption grid net is equipped with air filter, is convenient for draw in the air of gathering in the air intake through air filter and play impurity filtering's effect, one side that air filter was kept away from to the disinfecting equipment shell is connected with sealed cabinet door, and convenient to use person controls through the on-off state to sealed cabinet door to be convenient for play the control effect to the maintenance of disinfecting equipment shell inside, improved the convenience in the disinfecting equipment shell use.

Furthermore, grid net supports are connected between the germ adsorbing grid nets and the limiting sleeves, so that the germ adsorbing grid nets can be fixed and limited through the grid net supports, and the germ adsorbing grid nets can be vibrated subsequently through the interaction of the grid net supports and the electromagnets;

the limiting sleeve is provided with a vibration avoiding groove matched with the grid mesh support in a chiseled mode, the grid mesh support is convenient to mount and fix by chiseling the vibration avoiding groove, and meanwhile, a vibration space is provided for the grid mesh support through the vibration avoiding groove;

a plurality of vibration springs which are uniformly distributed are arranged in the vibration avoiding groove, the vibration springs play a role in connecting the grid mesh support and the limiting sleeve, and the grid mesh support is convenient to support and reset through the vibration springs;

a plurality of be equipped with the electro-magnet between the vibrating spring, be convenient for follow-up through the mode to the electro-magnet carry pulse current to control the magnetism of electro-magnet to be convenient for play mobile control's effect to the grid net support through the interact of electro-magnet and grid net support, be convenient for vibrate along with the mode that the grid net support removed through the germ adsorption grid net, thereby be convenient for clean the germ granule of adhesion on the germ adsorption grid net.

Further, the limiting sleeve is internally connected with a rotating shaft, the rotating shaft plays a role in fixedly supporting the limiting sleeve, a rotating shaft base is rotatably connected between the rotating shaft and the fixing base, the rotating shaft base plays a role in connecting the rotating shaft and the fixing base, and the stability of the rotating shaft in the rotating process is improved.

Furthermore, one side of the particle isolation net close to the arc-shaped vibration hammer is connected with a protection film, so that the particle isolation net is protected by the protection film, the damage caused by the action force of the arc-shaped vibration hammer in the use process of the particle isolation net is reduced, and the service life of the particle isolation net is prolonged;

the side of the particle isolation net far away from the protective film is provided with the sterilization coating, so that the particle isolation net can be conveniently isolated and sterilized through the sterilization coating, the condition that germs are adhered in the use process of the particle isolation net is avoided, meanwhile, the gas in the shell of the disinfection equipment can be further sterilized and disinfected through the sterilization coating, the effect of sterilizing and disinfecting the air by the shell of the disinfection equipment is improved, and the condition that secondary pollution is caused to the air by the exhaust grid in the use process of the shell of the disinfection equipment is avoided.

Furthermore, one side of the arc-shaped vibration hammer, which is far away from the particle isolation net, is connected with a connecting piece, so that the arc-shaped vibration hammer can be conveniently fixed, supported and limited through the connecting piece, the stability of the arc-shaped vibration hammer in the operation process is improved, a limiting seat is hinged between the connecting piece and the shell of the disinfection equipment, the limiting seat can be used for connecting the connecting piece and the shell of the disinfection equipment, the particle isolation net can be conveniently cleaned and prevented from being blocked in a manner that the arc-shaped vibration hammer rotates around the limiting seat, and the stability of the particle isolation net in the use process is improved;

one side of the limiting seat close to the shell of the disinfection equipment is connected with a static conductive outlet wire, so that the particle isolation net can be conveniently charged and discharged through the static conductive outlet wire, and subsequently adsorbed germs can be conveniently collected.

Furthermore, one side of the disinfection equipment shell, which is far away from the particle isolation net, is provided with an air outlet, air which is sterilized and disinfected in the disinfection equipment shell is conveniently discharged through the air outlet, an air exhaust grid is arranged in the air outlet, the air outlet is protected through the air exhaust grid, the condition that external impurities drop into the disinfection equipment shell from the air outlet in the use process of the disinfection equipment shell is avoided, and the stability of the disinfection equipment shell in the operation process is improved.

Compared with the prior art, the invention has the following advantages:

the solid sterilization device and the air separation environment-friendly disinfection equipment are improved, so that the suspension time and the diffusion range of sterilization particles released by the solid sterilization device in the air are prolonged, the sterilization effect of the solid sterilization device is remarkably improved, meanwhile, groups of inactivated multi-molecule germs in the air can be gathered and stored, the condition that the groups of the multi-molecule germs gather to cause secondary pollution to the outside air is avoided, the separation environment is protected, the risk of damage to the health of a user is reduced, and the performance of the air separation environment-friendly disinfection equipment for performing sterilization and disinfection on the air is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of an environment-friendly air separation sterilization apparatus according to an embodiment of the present invention;

FIG. 2 is a first side sectional view of an environment-friendly air separation sterilizer apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the structure of FIG. 2 at B;

FIG. 5 is a schematic view of a part of an environment-friendly air separation sterilizing apparatus according to an embodiment of the present invention;

FIG. 6 is a schematic view of the structure of FIG. 5 at C;

FIG. 7 is another perspective view of an environment-friendly air separation sterilizer of an embodiment of the present invention;

FIG. 8 is a second side cross-sectional view of an environment-friendly air separation sterilization unit in accordance with an embodiment of the present invention;

FIG. 9 is a schematic view of the structure of FIG. 8 at D;

FIG. 10 is a schematic view of the structure at E in FIG. 8;

FIG. 11 is a schematic view of the motion of the curved vibratory hammer according to one embodiment of the invention;

FIG. 12 is a front sectional view of an air separation environmental protection sterilization apparatus in an embodiment of the present invention;

FIG. 13 is a schematic view of the structure of FIG. 12 at F;

FIG. 14 is a schematic view of the structure of FIG. 12 at G;

FIG. 15 is a schematic view of the structure at H in FIG. 12;

FIG. 16 is a top cross-sectional view of an air separation environmental protection sanitizer in accordance with an embodiment of the present invention;

FIG. 17 is a schematic view of the structure of FIG. 16 at I;

fig. 18 is a schematic view of the structure at J in fig. 16.

In the figure: 1. the sterilization device comprises a sterilization box, 2, a solid sterilization disinfectant, 3, a support, 301, a particle dredging film, 302, a one-way air guide film, 4, an anion generator, 5, a sterilization device shell, 501, an air inlet grid, 502, an air filter screen, 503, a sealing cabinet door, 6, a fixed base, 7, a limiting sleeve, 701, a germ adsorption grid, 702, a grid support, 703, a vibration spring, 704, an electromagnet, 705, a rotating shaft, 706, a rotating shaft base, 707, a film cleaning plate, 708, an auxiliary cleaning plate, 709, a cleaning suction nozzle, 710, a cleaning brush, 711, a cleaning fan, 712, a cleaning storage box, 713, a ventilation filter screen, 714, a moving sleeve, 715, a first threaded rotating shaft, 716, a flexible protective sheet, 717, a first belt wheel, 718, a second belt wheel, 719, a driving belt, 720, a first rotating shaft, 721, a first bevel gear, a second bevel gear, 723, a cleaning motor, a cleaning fan, a cleaning rod, a cleaning fan, a cleaning rod, a cleaning rod, a cleaning fan, a cleaning rod, a cleaning rod, a cleaning rod, a cleaning a, 724. The vibration screen comprises a third bevel gear, 725, a third threaded rotating shaft, 726, an auxiliary supporting sleeve, 8, a particle isolation net, 801, an arc vibration hammer, 802, a protective film, 803, a sterilization coating, 804, a connecting piece, 805, a limiting seat, 806, a static electricity outgoing line, 807, an air exhaust grid, 9, a negative pressure fan, 901, a fan fixing frame, 10, a passive material sensing sensor, 1001, a driving motor, 1002, a first gear, 1003, a second gear, 1004, a third threaded rotating shaft, 1005, a threaded sleeve, 1006, a fixing plate and 11, and a display screen.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses a solid sterilization and disinfection device and air separation environment-friendly disinfection equipment, and as shown in figures 1-11, the solid sterilization and disinfection device comprises: the sterilization box comprises a sterilization box 1, a solid sterilization disinfectant 2, a bracket 3 and a plurality of negative ion generators 4.

Referring to fig. 2, the solid disinfectant 2 is disposed in the sterilization case 1, so that the solid disinfectant 2 can radiate disinfecting particles to sterilize and disinfect air in the housing 5 of the disinfection apparatus.

Wherein, the solid disinfectant 2 comprises the following components: sterilizing particles, a disinfectant carrier, an activating agent, a fixing agent and a stabilizing agent.

Optionally, chlorite is selected as the sterilizing particles.

Preferably, the sterilizing particles are calcium chlorite, and the sterilizing particles have the advantages of good using effect and high safety.

Alternatively, the disinfectant carrier may be silica gel, bentonite or a synthetic molecular sieve.

Preferably, the disinfectant carrier is a synthetic molecular sieve, the disinfectant carrier has the advantages of small molecular diameter and high use safety, and meanwhile, the contact area of the sterilization particles and air can be increased through the synthetic molecular sieve, so that the effect of sterilization and disinfection of germs in the air is improved.

Optionally, the activating agent is boric acid or oxalic acid.

Preferably, the activating agent is oxalic acid, and has the advantages of high reaction rate and strong activating effect.

Optionally, the fixing agent can be gel or high-molecular fixing glue.

Preferably, the fixing agent is gel, and has the characteristics of low use cost and excellent fixing effect.

Alternatively, the stabilizer may be calcium chloride, magnesium sulfate or sodium sulfate.

Preferably, the stabilizing agent is calcium chloride, which does not cause adverse effect on the sterilization and disinfection particles and is convenient for improving the stability of the solid sterilization and disinfection agent 2 in the using process.

Referring to fig. 2-3, the support 3 is disposed on one side of the solid disinfectant 2 away from the sterilizing box 1, so that the support 3 can support and limit the particle dredging film 301.

Referring to fig. 2-3, the particle dredging film 301 is connected to both sides of the sterilization case 1, so that the sterilization particles emitted from the solid sterilization disinfectant 2 can be conveyed in a sorted manner through the particle dredging film 301, and the uniformity of subsequent particle wrapping of the sterilization particles is improved.

Meanwhile, the particle dredging film 301 positioned on the upper side has the function of isolating settled impurities, so that the adverse effect of the settled impurities on the ionization work in the ion wrapping cavity is reduced.

An ion wrapping cavity is formed between the bracket 3 and the particle dredging film 301, so that the sterilization and disinfection particles and negative air ions in the ion wrapping cavity are combined with each other to form suspended particles.

Meanwhile, the ion wrapping cavity can play a role in storing and limiting air negative ions ionized by the negative ion generator 4, so that the effect of wrapping the sterilization and disinfection particles with the ions is improved, and the combination efficiency of suspended particles is improved.

Specifically, the sterilization box 1 is far away from both sides of the germ adsorption grid net 701 and is provided with vent holes, and the fixed base 6 is provided with a communicating groove matched with the vent holes, so that air in the shell 5 of the disinfection equipment can enter the ion wrapping cavity conveniently through the mutual matching of the vent holes and the communicating groove, and air required for ionization can be provided for the ion wrapping cavity conveniently.

Simultaneously, the gas in the disinfecting equipment shell 5 has carried out prefiltering under the effect of air inlet grid 501 and air filter screen 502, has avoided appearing the great miscellaneous condition of causing the jam to the intercommunication groove of bulky, and the air in the disinfecting equipment shell 5 can disinfect under the effect of solid disinfectant 2 after entering into sterilization box 1, can not cause the pollution to ion parcel chamber.

Referring to fig. 3-6, the side of the communicating groove away from the vent hole is connected with the one-way air guiding film 302, and the one-way air guiding film 302 can perform an isolation and protection function on the communicating groove, and meanwhile, the condition that the cleaning brush 710 cleans the multi-molecule pathogen accumulation group into the communicating groove in the cleaning process is avoided.

In addition, the both sides of support 3 all dig the fixed orifices that discharges, and the fixed orifices that discharges and anion generator 4 phase-match are convenient for install anion generator 4 fixedly through digging the fixed orifices that discharges to be convenient for play the effect of ionization to the air of ion parcel intracavity through anion generator 4's operation.

Referring to fig. 3, the plurality of anion generators 4 are uniformly distributed on two sides of the bracket 3, so that air in the ion-coated cavity is ionized into air anions under the action of the anion generators 4, the anion generators 4 can form high corona at the release tip after being electrified, a large amount of negative charges are emitted at high speed, and the negative charges can be captured by oxygen molecules in the air to form the air anions.

In addition, because the air negative ions are in a state of carrying negative charges in the ion wrapping cavity, when the air negative ions encounter the sterilization and disinfection particles, the air negative ions can wrap the sterilization and disinfection particles under the charge adsorption characteristic.

Simultaneously, because the proportion of air anion is less than the air, the air anion can be the ascending motion in the air, when using a plurality of air anions to carry out the cladding to the disinfection particle that disinfects, accessible air anion plays the effect of lifting to the disinfection particle that disinfects, thereby make the disinfection particle that disinfects can be in the state that rises in the air, the suspension time of disinfection particle in the air that disinfects has been prolonged, and reduced the disinfection particle that disinfects and receive the circumstances that self gravity influences and appear subsiding at diffusion process, the diffusion range of the disinfection particle that disinfects has been improved, and then the disinfection particle that disinfects has improved disinfects the effect of disinfecting to the air.

Referring to fig. 1-11, an air separation environment-friendly disinfection device comprises the above solid sterilization and disinfection device, and further comprises: the disinfection equipment comprises a shell 5 of the disinfection equipment, a fixed base 6, a limiting sleeve 7, a particle isolation net 8 and a plurality of negative pressure fans 9.

Wherein, one side of the disinfection equipment shell 5 is provided with an air inlet, which is convenient for collecting and gathering the air to be sterilized and disinfected through the air inlet.

Referring to fig. 2, the air inlet grid 501 is installed in the air inlet, so that the air inlet can be protected primarily through the air inlet grid 501, and the situation that large-volume impurities enter the disinfection equipment shell 5 from the air inlet in the use process of the disinfection equipment shell 5 is avoided.

Referring to fig. 2, an air filter 502 is disposed on one side of the air inlet grid 501 close to the pathogen adsorption grid 701, so that the air collected and gathered at the air inlet can be filtered through the air filter 502.

Referring to fig. 1-8, one side of the disinfection apparatus housing 5, which is away from the air filter 502, is connected to a sealing cabinet door 503, so that a user can control the open/close state of the sealing cabinet door 503, thereby facilitating the maintenance of the inside of the disinfection apparatus housing 5, and improving the convenience of cleaning and maintaining the disinfection apparatus housing 5.

The fixed base 6 is connected with one side of the disinfection equipment shell 5, so that the disinfection equipment shell 5 can be conveniently and fixedly supported by the fixed base 6, and meanwhile, the sterilization box 1 can be conveniently and hermetically limited by the fixed base 6.

In addition, the fixed base 6 is provided with a pair of disinfection fixed cavities, the disinfection fixed cavities are matched with the sterilization box 1, the sterilization box 1 is convenient to be matched with the disinfection fixed cavities to achieve the effect of sealing and limiting the sterilization box 1, and therefore the sterilization and disinfection effect on air in the sterilization equipment shell 5 is achieved in the following mode that sterilization and disinfection particles are emitted into the sterilization equipment shell 5 through the sterilization box 1.

Referring to fig. 8, the limiting sleeve 7 is disposed in the housing 5 of the sterilization apparatus, so that the germ adsorbing grid 701 can be fixed and limited by the limiting sleeve 7.

The outer side of the limiting sleeve 7 is provided with a plurality of uniformly distributed pathogen adsorption grids 701, so that the pathogen adsorption grids 701 can adsorb and collect pathogen particles in the housing 5 of the disinfection equipment.

The germ adsorbing grid mesh 701 is obliquely arranged, the germ adsorbing grid mesh 701 and the limiting sleeve 7 are obliquely arranged, so that the germ adsorbing grid mesh 701 rotates around the rotating shaft 705 under the action of the negative pressure fan 9, the contact uniformity of sterilization particles and air in the shell 5 of the sterilizing equipment can be improved through the rotation of the germ adsorbing grid mesh 701, the efficiency of sterilization and disinfection of the air is improved, meanwhile, a certain negative pressure can be generated on one side of the sterilizing box 1 through the rotation of the germ adsorbing grid mesh 701, and the scattering efficiency of the sterilization particles in the sterilizing box 1 is improved.

Specifically, the included angle between the projection straight line of the plane where the germ adsorption grid mesh 701 is located and the central axis of the limiting sleeve 7 ranges from 5 degrees to 15 degrees.

Experiments prove that the optimal angle between the projection straight line of the plane where the germ adsorption grid 701 is located and the central axis of the limiting sleeve 7 is 8 degrees, at the moment, the acting force of the germ adsorption grid 701 on the air flow in the disinfection equipment shell 5 is the largest, and the mixing effect of the air and the suspended particles in the disinfection equipment shell 5 is optimal.

Referring to fig. 13, a grid support 702 is connected between each of the germ adsorbing grids 701 and the limiting sleeve 7, so that the germ adsorbing grids 701 can be fixed and limited by the grid support 702, and the germ adsorbing grids 701 can be vibrated by the interaction between the grid support 702 and the electromagnet 704.

In addition, the limiting sleeve 7 is provided with a vibration avoiding groove matched with the grid support 702 in a chiseled mode, the grid support 702 is conveniently and fixedly installed through chiseling the vibration avoiding groove, and meanwhile, a vibration space is provided for the grid support 702 through the vibration avoiding groove.

Referring to fig. 13, a plurality of vibration springs 703 are uniformly distributed in the vibration avoiding groove, and the vibration springs 703 serve to connect the grid support 702 to the limiting sleeve 7, so that the grid support 702 is supported and reset by the vibration springs 703.

Referring to fig. 13, an electromagnet 704 is disposed between the vibrating springs 703, so that the magnetism of the electromagnet 704 can be controlled by supplying a pulse current to the electromagnet 704, and thus the movement of the grid support 702 can be controlled by the interaction between the electromagnet 704 and the grid support 702.

Wherein, germ adsorbs the grid 701 when revolving around the pivot along with negative-pressure air fan 9's operation, can receive the effect of centrifugal force to the radial direction of pivot to remove, simultaneously, electro-magnet 704 can produce intermittent type nature adsorption affinity to grid support 702 under the effect of pulse current for grid support 702 carries out reciprocating motion under the effect of centrifugal force and electro-magnet 704, thereby be convenient for through the vibration of germ adsorption grid 701 to play the clean effect of vibration to the attached multimolecular germ cluster of gathering of surface.

Referring to fig. 12-13, a rotating shaft 705 is connected to the position-limiting sleeve 7, and the rotating shaft 705 plays a role of fixing and supporting the position-limiting sleeve 7.

Referring to fig. 12 to 15, a rotating shaft base 706 is rotatably connected between the rotating shaft 705 and the fixing base 6, and the rotating shaft base 706 plays a role of connecting the rotating shaft 705 and the fixing base 6, so that stability of the rotating shaft 705 in a rotating process is improved.

Referring to fig. 5 to 15, a pair of thin film cleaning plates 707 is disposed on the outer side of the fixing base 6, a pair of auxiliary cleaning plates 708 is disposed between the pair of thin film cleaning plates 707, so that the auxiliary cleaning plates 708 assist the thin film cleaning plates 707 to clean the fixing base 6, and a plurality of cleaning nozzles 709 uniformly distributed are connected to both the thin film cleaning plates 707 and one side of the auxiliary cleaning plates 708 close to the fixing base 6, so that the cleaning nozzles 709 absorb and collect the multi-molecule pathogen aggregation on the fixing base 6.

Referring to fig. 6 to 15, the cleaning brushes 710 are connected to both sides of the cleaning suction nozzle 709, so that the multi-molecule pathogen accumulation group on the fixed base 6 can be cleaned by the cleaning brushes 710, and the effect of gathering and accumulating the multi-molecule pathogen accumulation group by the rotating shaft base 706 is improved.

Referring to fig. 6 to 15, cleaning fans 711 are connected to both sides of the thin film cleaning plate 707 and the auxiliary cleaning plate 708, so that negative pressure is generated by the operation of the cleaning fans 711, and the multi-molecule pathogen aggregation group on the fixing base 6 is collected and aggregated by the cleaning suction nozzle 709.

Referring to fig. 5-10, a cleaning storage box 712 is connected to the film cleaning plate 707 and the auxiliary cleaning plate 708 at a side away from the cleaning brush 710, so as to facilitate the collection of the multi-molecule pathogens through the cleaning storage box 712, and facilitate the user to clean the multi-molecule pathogens in the disinfection apparatus housing 5 by disassembling and assembling the cleaning storage box 712.

In addition, ventilation holes matched with the cleaning fan 711 are bored at both sides of the cleaning storage box 712, and air in the cleaning storage box 712 is conveniently extracted by the cleaning brush 710 through the ventilation holes, so that the cleaning storage box 712 is conveniently in a negative pressure extraction state.

Referring to fig. 8-10, the ventilation filter 713 is installed in the ventilation hole, so that the ventilation filter 713 can isolate and protect the ventilation hole, and the adverse effect of the multi-molecule pathogen accumulation on the operation state of the cleaning brush 710 is avoided.

Referring to fig. 6-18, a pair of movable sleeves 714 are connected to a side of the thin film cleaning plate 707 close to the fixed base 6, so that the thin film cleaning plate 707 is supported and controlled in movement by the movable sleeves 714.

Wherein, the fixed base 6 is provided with a moving chute matched with the moving sleeve 714, so that the moving control of the film cleaning plate 707 is facilitated in a manner that the moving sleeve 714 moves along the moving chute, and the cleaning treatment of the particle dredging film 301 by the film cleaning plate 707 is facilitated.

Referring to fig. 18, a first threaded rotating shaft 715 is disposed in the moving chute, and the first threaded rotating shaft 715 is disposed through the moving sleeve 714, so that the moving sleeve 714 is supported and controlled by the first threaded rotating shaft 715.

Referring to fig. 5-18, a flexible protection sheet 716 is connected to a side of the moving chute away from the moving sleeve 714, so that the flexible protection sheet 716 can be used for isolating and protecting the moving chute, and the condition that the multi-molecule pathogen aggregation group falls into the moving chute in the use process of the disinfection apparatus housing 5 is avoided.

One side of the first threaded rotating shaft 715 close to the first belt wheel 717 is connected with the first belt wheel 717, the first belt wheel 717 drives the first threaded rotating shaft 715, one side of the first belt wheel 717 far away from the shell 5 of the disinfection device is provided with the second belt wheel 718, a transmission belt 719 is connected between the first belt wheel 717 and the second belt wheel 718, and the transmission belt 719 plays a role in connecting the second belt wheel 718 with the first belt wheel 717, so that the first belt wheel 717 rotates correspondingly with the rotation of the second belt wheel 718 under the effect of the transmission belt 719.

Referring to fig. 17, a first rotating shaft 720 is connected to the second belt pulley 718, so that the first rotating shaft 720 can fix, support and drive the second belt pulley 718, a first bevel gear 721 is connected to a side of the first rotating shaft 720 far from the second belt pulley 718, and the first bevel gear 721 drives the first rotating shaft 720.

One side of the first bevel gear 721 is engaged with the second bevel gear 722, the second bevel gear 722 functions to transmit the power of the cleaning motor 723, the cleaning motor 723 is connected to the second bevel gear 722, and the cleaning motor 723 functions to provide power, so that the motion states of the thin film cleaning plate 707 and the auxiliary cleaning plate 708 can be controlled correspondingly by controlling the operation state of the cleaning motor 723.

Referring to fig. 17, a pair of third bevel gears 724 are engaged on the side of the second bevel gear 722 far from the first bevel gear 721, and the third bevel gears 724 drive the third threaded rotating shaft 725.

Referring to fig. 17, a pair of third bevel gears 724 are respectively connected with a third threaded rotating shaft 725, so that the auxiliary supporting sleeve 726 can be supported and driven to move by the third threaded rotating shaft 725.

An auxiliary supporting sleeve 726 is connected to a side of the third threaded rotating shaft 725 away from the third bevel gear 724, and the auxiliary supporting sleeve 726 is connected to the auxiliary cleaning plate 708, so that the auxiliary cleaning plate 708 can be supported and controlled by the auxiliary supporting sleeve 726.

Wherein, the last chisel of unable adjustment base 6 has the regulation spout with auxiliary support sleeve 726 assorted, is convenient for play mobile control's effect to supplementary cleaning plate 708 along the mode of adjusting the spout removal through auxiliary support sleeve 726, adjusts the spout and keeps away from one side of auxiliary support sleeve 726 and is connected with flexible protection piece 716, is convenient for play the effect of isolation protection to adjusting the spout through flexible protection piece 716.

Referring to fig. 8-9, the particle isolation net 8 is disposed on a side of the disinfection apparatus housing 5 away from the fixing base 6, so as to facilitate the particle isolation net 8 to perform a screening and discharging function on the germ particles and the sterilization particles in the disinfection apparatus housing 5.

The arc-shaped vibration hammer 801 is arranged on one side, away from the limiting sleeve 7, of the particle isolation net 8, so that the particle isolation net 8 can be cleaned and prevented from being blocked through interaction of the arc-shaped vibration hammer 801 and the particle isolation net 8, and the situation that the particle isolation net 8 is blocked in the using process is avoided.

Referring to fig. 9, a protective film 802 is connected to one side of the particle isolation net 8 close to the arc-shaped vibration hammer 801, so that the particle isolation net 8 is protected by the protective film 802, the damage of the particle isolation net 8 caused by the action force of the arc-shaped vibration hammer 801 during use is reduced, and the service life of the particle isolation net 8 is prolonged.

Referring to fig. 8-9, a sterilization coating 803 is disposed on a side of the particle isolation net 8 away from the protective film 802, so that the particle isolation net 8 can be isolated and sterilized by the sterilization coating 803, the adhesion of germs during the use of the particle isolation net 8 is avoided, the gas in the disinfection equipment housing 5 can be further sterilized and disinfected by the sterilization coating 803, the effect of the disinfection equipment housing 5 in sterilizing and disinfecting air is improved, and the secondary pollution caused by the air discharged by the air discharge grid 807 during the use of the disinfection equipment housing 5 is avoided.

Preferably, the material of the bactericidal coating 803 is nano-silver antibacterial fiber, and has the advantages of excellent bactericidal effect and strong flexibility.

Referring to fig. 9, one side of the arc-shaped vibration hammer 801, which is far away from the particle isolation net 8, is connected with a connecting piece 804, so that the arc-shaped vibration hammer 801 can be conveniently fixed, supported and limited by the connecting piece 804, and the stability of the arc-shaped vibration hammer 801 in the operation process is improved.

Limiting seats 805 are hinged between the connecting piece 804 and the disinfection equipment shell 5, the limiting seats 805 play a role in connecting the connecting piece 804 and the disinfection equipment shell 5, the particle isolation net 8 is convenient to clean and prevent blockage in a mode that the arc-shaped vibration hammer 801 rotates around the limiting seats 805, and stability of the particle isolation net 8 in the using process is improved.

A static conductive outlet wire 806 is connected to one side of the limiting seat 805 close to the disinfection equipment housing 5, so that the static conductive outlet wire 806 can conduct charge to the particle isolation net 8, a situation that a part of multi-molecule pathogen aggregation groups are gathered on one side of the particle isolation net 8 can occur in the use process of the particle isolation net 8, the multi-molecule pathogen aggregation groups are formed by combining pathogens, sterilization particles and air negative ions, and therefore the particle isolation net 8 is provided with negative charges under the action of the air negative ions, and when the particle isolation net 8 is hammered by the arc-shaped vibration hammer 801, the arc-shaped vibration hammer 801 and the static conductive wire 806 can conduct charge to the particle isolation net 8.

In addition, an air outlet is cut on one side, far away from the particle isolation net 8, of the disinfection equipment shell 5, and air after sterilization and disinfection in the disinfection equipment shell 5 is conveniently discharged through the cut air outlet.

Referring to fig. 2, an air exhaust grid 807 is arranged in the air outlet, so that the air outlet is protected by the air exhaust grid 807, the condition that external impurities drop into the disinfection equipment shell 5 from the air outlet in the use process of the disinfection equipment shell 5 is avoided, and the stability of the disinfection equipment shell 5 in the operation process is improved.

Referring to fig. 2, a pair of negative pressure fans 9 are arranged between the particle isolation net 8 and the limiting sleeve 7, so that the operation of the negative pressure fans 9 can conveniently extract air in the environment, and the subsequent sterilization and disinfection treatment of the air is facilitated.

Referring to fig. 2 and fig. 8, a blower fixing frame 901 is connected between the pair of negative pressure blowers 9 and the disinfection apparatus housing 5, and the blower fixing frame 901 plays a role of fixing and supporting the negative pressure blowers 9.

Referring to fig. 14, a plurality of passive material sensing sensors 10 are arranged in the sterilization box 1, so that the mode of receiving and detecting the radiation of the solid sterilization disinfectant 2 through the passive material sensing sensors 10 plays a role in detecting the storage amount of the solid sterilization disinfectant 2, and the solid sterilization disinfectant 2 can be added and replaced conveniently.

Referring to fig. 12 in conjunction with fig. 14, a driving motor 1001 is provided at a side of the sterilizing cassette 1 away from the passive material sensing sensor 10, so as to control the moving state of the sterilizing cassette 1 by controlling the operation state of the driving motor 1001.

One side of the driving motor 1001 close to the rotating shaft base 706 is connected with a first gear 1002, and one side of the first gear 1002 is engaged with a second gear 1003, so that the driving motor 1001 is conveniently powered by the mutual matching of the first gear 1002 and the second gear 1003.

In addition, a driving control cavity matched with the second gear 1003 is formed in the fixed base 6 in a chiseled mode, and therefore running space is conveniently provided for the first gear 1002 and the second gear 1003.

Referring to fig. 14, a third threaded shaft 1004 is connected to the second gear 1003, so that the threaded sleeve 1005 can be controlled by rotating the third threaded shaft 1004.

Both sides of the third threaded shaft 1004 are connected with threaded sleeves 1005, and a fixing plate 1006 is connected between the threaded sleeves 1005 and the sterilizing box 1, so that the moving state of the sterilizing box 1 can be controlled correspondingly by the way that the threaded sleeves 1005 move along with the rotation of the third threaded shaft 1004.

During the specific use, the disinfection particle that disinfects that solid disinfectant 2 distributed out can be carried to ion parcel intracavity in the ration under the effect of particle mediation film 301, simultaneously, carries out the ionization to the gas of ion parcel intracavity through the mode of anion generator 4 to ion parcel intracavity discharge, improves the diffusion range of the disinfection particle of disinfecting through the mode that will disinfect disinfection particle and air anion combine to form suspended particle to the disinfection effect of disinfecting to the air has been improved to sterilization box 1.

When the air needs to be sterilized and disinfected, the air in the environment can be collected and gathered by controlling the operation of the negative pressure fan 9, the air in the environment can enter the disinfection equipment shell 5 through the air inlet grid 501, the preliminary filtration is carried out under the action of the air filter screen 502, and then the germs and impurities contained in the air in the disinfection equipment shell 5 can be adsorbed and gathered by the sterilization and disinfection particles.

Accessible germ adsorbs the effect that the grid 701 plays the absorption gathering to the germ particle in the disinfection equipment housing 5, simultaneously, because the air current in the disinfection equipment housing 5 removes according to certain direction under negative-pressure air fan 9's effect, germ adsorbs the grid 701 and can rotate under the effect of air current in the disinfection equipment housing 5, the rotation through germ adsorbs the grid 701 can improve the contact homogeneity of air and the disinfection particle of disinfecting in the disinfection equipment housing 5, the efficiency of disinfecting the air is disinfected the disinfection, simultaneously, the rotation of germ adsorption grid 701 can improve the diffusion velocity of the disinfection particle of disinfecting in the sterilization box 1, be convenient for improve the performance of disinfecting the air in the disinfection equipment housing 5.

The air after sterilization and disinfection can be discharged through the air exhaust grids 807, sterilization and disinfection particles and germ particles contained in the air can be isolated and screened through the particle isolation net 8 in the air discharging process, the sterilization and protection effect on the sterilization coating 803 can be achieved through the protection film 802 in the use process of the particle isolation net 8, and the effect of sterilization and disinfection on the air in the sterilization equipment shell 5 is further improved.

When the particle isolation net 8 is in use, the negative pressure fan 9 applies acting force to the inclined surface of the arc-shaped vibration hammer 801, the arc-shaped vibration hammer 801 can rotate around the limiting seat under the action of the negative pressure fan 9, the stress surface of the arc-shaped vibration hammer 801 is reduced along with the rotation of the connecting piece 804, so that the acting force applied to the arc-shaped vibration hammer 801 is reduced, subsequently, the arc-shaped vibration hammer 801 can reset under the action of self gravity, the particle isolation net 8 is vibrated and hammered through the arc-shaped vibration hammer 801, and the particle isolation net 8 is vibrated, cleaned and prevented from being blocked through hammering of the arc-shaped vibration hammer 801.

The effect that box 1 that disinfects accessible passive material perception sensor 10 played the detection to solid disinfectant 2's memory space in the use, be convenient for play the effect of prediction to solid disinfectant 2's live time according to passive material perception sensor 10's testing result, thereby be convenient for play the effect of suggestion change to the user through display screen 11, when passive material perception sensor 10 detected solid disinfectant 2 and used up, accessible control driving motor 1001 operation's mode drive third screw thread pivot 1004 rotates, threaded sleeve 1005 can promote box 1 that disinfects under the effect of internal and external screw thread and pop out unable adjustment base 6 afterwards, the convenience that the user carries out the packing to solid disinfectant 2 has been improved.

After the cleaning device is used, the magnetism of the electromagnet 704 can be controlled by a pulse current supplied to the electromagnet 704, the pathogen adsorption grid 701 can be cleaned by vibration through the interaction between the grid support 702 and the electromagnet 704, the cleaning motor 723 can be controlled to operate, the first rotating shaft 720 is driven to rotate under the interaction between the first bevel gear 721 and the second bevel gear 722, the first threaded rotating shaft 715 is driven to rotate through the second belt pulley 718, then the film cleaning plate 707 can be moved under the action of the moving sleeve 714, and negative pressure is formed in the cleaning storage box 712 by controlling the operation of the cleaning fan 711, so that the film cleaning plate 707 can collect the multi-molecule pathogen accumulation groups on the particle conveying film 301 and the fixed base 6 through the cleaning suction nozzle 709 in the moving process.

Meanwhile, the third bevel gear 724 can be driven to rotate by the rotation of the second bevel gear 722, the auxiliary cleaning plate 708 is driven to move by the interaction of the third threaded rotating shaft 725 and the auxiliary supporting sleeve 726, the film cleaning plate 707 is cleaned by the auxiliary cleaning plate 708, and then the cleaning storage box 712 can be detached and cleaned by the user by opening the sealing cabinet door 503.

According to the technical scheme, the invention has the following beneficial effects:

the solid sterilization device and the air separation environment-friendly disinfection equipment are improved, so that the suspension time and the diffusion range of sterilization particles released by the solid sterilization device in the air are improved, the sterilization effect of the solid sterilization device is obviously improved, meanwhile, groups of inactivated multi-molecule germs in the air can be gathered and stored, the condition that the groups of the multi-molecule germs cause secondary pollution to the outside air is avoided, the environment is protected, the risk of damage to the health of a user is reduced, and the performance of the air separation environment-friendly disinfection equipment for sterilizing and disinfecting the air is greatly improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A solid sterilization and disinfection device, comprising:

a sterilizing box;

the solid sterilizing disinfectant is arranged in the sterilizing box and can release sterilizing particles;

the ion coating mechanism is arranged on one side of the sterilizing box and used for coating the sterilizing particles with ions and improving the diffusion range of the sterilizing particles.

2. A solid sterilising and disinfecting device according to claim 1, wherein the solid sterilising and disinfecting agent comprises the following components: sterilizing particles, a disinfectant carrier, an activating agent, a fixing agent and a stabilizing agent.

3. The solid sterilization and disinfection apparatus according to claim 1, wherein said ion-coating mechanism comprises a support, a pair of particle-dredging films and a plurality of negative ion generators, wherein the pair of particle-dredging films are respectively mounted on two sides of the support, an ion-coating chamber is formed between the support and the particle-dredging films, and the plurality of negative ion generators are mounted on the support and act in the ion-coating chamber.

4. An environment-friendly air separation sterilizing apparatus, comprising the solid sterilizing device of claim 1, and further comprising:

sterilizing the equipment enclosure;

the pair of negative pressure fans are arranged in the shell of the disinfection equipment;

the germ furling device is arranged on one side of the negative pressure fan and is used for adsorbing, inactivating and collecting germs;

and the particle screening component is arranged on one side of the negative pressure fan, which is far away from the germ collecting device, and is used for screening the sterilization and disinfection particles.

5. The environment-friendly air separation and disinfection equipment as claimed in claim 4, wherein one side of the disinfection equipment shell is connected with a fixed base, one side of the disinfection equipment shell is provided with an air inlet, an air inlet grid is installed in the air inlet, and one side of the air inlet grid in the disinfection equipment shell is provided with an air filter screen.

6. The air separation and environment-friendly disinfection device as claimed in claim 4, wherein the germ collecting device comprises a limiting sleeve, and a plurality of uniformly distributed germ adsorbing grids are arranged outside the limiting sleeve.

7. The environment-friendly air separation and disinfection equipment as claimed in claim 6, wherein a grid support is connected between the plurality of pathogen adsorption grids and the limiting sleeve, a vibration avoiding groove matched with the grid support is formed in the limiting sleeve, a plurality of vibration springs are uniformly distributed in the vibration avoiding groove, and electromagnets are arranged between the plurality of vibration springs.

8. The environment-friendly air separation and disinfection apparatus of claim 4, wherein the particle screening assembly comprises a particle isolation net, and an arc-shaped vibration hammer is arranged on one side of the particle isolation net close to the negative pressure fan.

9. The environment-friendly air separation and disinfection equipment as claimed in claim 8, wherein a protective film is connected to one side of the particle isolation net close to the arc-shaped vibration hammer, and a sterilization coating is provided on one side of the particle isolation net away from the protective film.

10. The environment-friendly air separation and disinfection equipment as claimed in claim 8, wherein a connecting piece is connected to one side of the arc-shaped vibration hammer away from the particle isolation net, and a limiting seat is hinged between the connecting piece and the disinfection equipment shell.

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