CN213542775U - Plasma air purification and disinfection device integrating illumination and illumination - Google Patents

Abstract

The utility model relates to a collect illumination in plasma air purification degassing unit of an organic whole, belong to two types of medical instrument fields, it includes the casing and sets up the lighting mechanism in the casing, filtering mechanism and disinfection mechanism, the casing includes shell body and flip, the opening has been seted up to inside cavity of shell body and main panel, flip and opening looks adaptation, flip rotates to be connected at one of them lateral wall of shell body, be connected with lock solid mechanism between flip and the shell body, be equipped with air inlet mechanism and exhaust mechanism on the shell body, flip is the light-passing board, disinfection mechanism is including setting up the plasma generator in the shell body. This application has been solved the air and has been got into the organism from the wind-guiding hole when inside purifying, brings the dust pollution inner structure into easily, influences the life's of instrument problem, has the effect of the structure in the clearance casing of being convenient for.

Description

Plasma air purification and disinfection device integrating illumination and illumination

Technical Field

The application relates to the field of second-class medical instruments, in particular to a plasma air purification and disinfection device integrating illumination and disinfection.

Background

Hospitals are susceptible people and pathogenic bacteria places, respiratory diseases caused by air transmission are most easily infected with each other. Particularly, when an air conditioning system is adopted, cross infection is easily caused because the branch pipelines are communicated. When the independent circulating air ultraviolet disinfection device or the electrostatic adsorption disinfection device is adopted to solve the purification and disinfection problems of the centralized air-conditioning system, the implementation is difficult due to high cost. The ozone disinfection, the ultraviolet disinfection and the chemical disinfectant or the fumigation disinfection with low cost are carried out in an unmanned state, and have the effects of corroding and aging objects.

The plasma generator is a high-voltage positive and negative ion generator, positive ions are generated by saw-tooth positive electrodes continuously, and the positive ions are high-energy and high-concentration positive ions and can be applied to occasions such as hospitals for disinfection. The novel multifunctional disinfection cabinet can prevent air-borne diseases from being transmitted in public places, can solve the inconvenience caused by traditional ultraviolet rays, ozone disinfection devices and other disinfection devices, can normally work, study and move indoors while performing indoor normal disinfection, and realizes man-machine coexistence. Therefore, the method is economical and practical, reduces the cost of disinfection, and does not need to continuously purchase ultraviolet lamp tubes or disinfectant; the environment is protected, no chemical reagent is needed to be added for disinfection, and no secondary pollution is caused to the environment; safe and convenient, and can be purified and disinfected by human-computer; preventing diseases, effectively reducing the transmission of pathogenic bacteria by air and reducing the occurrence probability of respiratory diseases.

The utility model discloses a utility model patent that the bulletin number is CN205191402U discloses an air purification lamp of suspension type, including furred ceiling mechanism, the host computer structure, the luminous body structure, filter equipment and controlling means, thereby the motor drives the wind wheel and rotates and inhale the wind-guiding hole fast with the outside air along the arc inclined plane of wind scooper, the air passes filter equipment, air transport after the purification is to the air outlet and outwards discharges, anion generator that air outlet department was equipped with can release abundant anion for the air after the purification, the air that has the anion, but indoor air purification, the structural upper cover of LED light source is equipped with and is down trapezoidal printing opacity cover, and is pleasing to the eye, the light transmissivity is good, and light is even soft, and illuminating effect is showing.

In view of the above related technologies, the inventor believes that, when air enters the inside of the machine body from the air guide hole for purification, dust is easily brought into the inside of the machine body to pollute the internal structure, which affects the service life of the apparatus.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the structure in the clearance casing, this application provides a plasma air purification degassing unit who collects the illumination in an organic whole.

The application provides a collect illumination in plasma air purification degassing unit of an organic whole adopts following technical scheme:

the utility model provides a collect illumination in plasma air purification degassing unit of an organic whole, includes casing and sets up lighting mechanism, filtering mechanism and the disinfection mechanism in the casing, the casing includes shell body and flip, and the opening has been seted up to inside cavity of shell body and main panel, flip and opening looks adaptation, and flip rotates to be connected at one of them lateral wall of shell body, is connected with lock solid mechanism between flip and the shell body, is equipped with air inlet mechanism and exhaust mechanism on the shell body, and flip is the light-passing board, and the disinfection mechanism is including setting up the plasma generator in the shell body.

Through adopting above-mentioned technical scheme, during the use, in the air in the environment gets into the casing from air inlet mechanism, gets into the environment again from exhaust mechanism after the purification of filtering mechanism and disinfection mechanism, can prevent that the air propagation nature disease from spreading in public place, can solve the inconvenience that degassing unit such as ultraviolet ray and ozone disinfection brought again, in indoor normal disinfection, people can also be normal work, study and the activity indoor.

Meanwhile, the light of the lighting mechanism illuminates through the turnover cover, so that the disinfection and illumination are integrated, the space is saved, and the use is more convenient. When the lighting mechanism, the filtering mechanism and the disinfection mechanism in the shell are polluted or need to be replaced, the turnover cover can be turned over by a user to expose the through hole, so that the user can clean or replace the filtering mechanism and the disinfection mechanism in the shell through the through hole, and the replacement cost of instruments is reduced.

Optionally, the locking mechanism includes an elastic buckle and a slot, the buckle is fixed on one side of the flip close to the shell body, and the slot is formed in the shell body.

Through adopting above-mentioned technical scheme, through going into the draw-in groove with the buckle card, it is fixed with flip and shell body fast, and it is more convenient to cover and close and open flip.

Optionally, the flip cover is a frosted crystal panel.

By adopting the technical scheme, the possibility of reflecting light of the flip cover is reduced.

Optionally, lighting mechanism includes lamp plate, fluorescent tube and two first installation component, and the fluorescent tube is installed on the lamp plate, and first installation component includes connecting plate and butt board, and the connecting plate is fixed with shell body inner wall, and the butt board vertical fixation is close to the opening one end of shell body at the connecting plate, and the both sides that the lamp plate is relative are the butt respectively on a butt board, and when the lamp plate slided to one of them first installation component, the relative one side of lamp plate can break away from another first installation component.

Through adopting above-mentioned technical scheme, when the lamp plate is impaired or receive the pollution and need dismantle, user of service can slide the lamp plate to one of them first installation component for relative one side of lamp plate can break away from another first installation component, then take off the lamp plate from the through-hole of shell body, clear up or change can, dismantle and simple to operate, thereby further be convenient for clear up the structure in the casing.

Optionally, the first mounting assembly further comprises a spring, the spring is arranged in parallel with the abutting plate, and the end of the spring is fixed on the side, close to each other, of the connecting plate.

Through adopting above-mentioned technical scheme, when the lamp plate was installed on first installation component, because the butt of spring, the lamp plate is difficult for sliding on the butt board, improves the steadiness of lamp plate. When the lamp plate is dismantled to needs, the lamp plate slides, and lamp plate extrusion spring contracts to make the lamp plate take out from the opening.

Optionally, the air exhaust mechanism comprises at least two fans, and the fans are installed on one side of the shell body, which is far away from the turnover cover.

Through adopting above-mentioned technical scheme, the fan is hidden and is kept away from flip one side at the shell body, reduces the possibility of sheltering from flip, improves whole pleasing to the eye degree.

Optionally, filtering mechanism sets up between air intake mechanism and exhaust mechanism, filtering mechanism includes the grid board, the active carbon filters the otter board, HEPA filter screen and two second installation subassemblies, two third installation subassemblies and two third installation subassemblies, the second installation subassembly, third installation subassembly and fourth installation subassembly set up the same with first installation subassembly, the grid board sets up between air intake mechanism and active carbon filters the otter board, the HEPA filter screen sets up and crosses otter board one side at the active carbon and filter the otter board and deviate from grid board, the grid board is installed on two second installation subassemblies, the active carbon filters the otter board and installs on two third installation subassemblies, the HEPA filter screen is installed on two fourth installation subassemblies.

Through adopting above-mentioned technical scheme, the air gets into the casing from air intake mechanism after, passes through grating board, active carbon filter screen board and HEPA filter screen tertiary filtration in proper order, and great dust particle in the filtering air carries out preliminary purification to the air. The active carbon filter screen plate removes various peculiar smell gases in the air, and finally the dust larger than 0.3 mu m and bacteria attached to the dust are adsorbed, filtered, blocked and separated by the high-efficiency filter through the HEPA filter screen, so that the purification space of partial hundred grades and 1 ten thousand grades of the whole room is obtained. When the grating plate, the active carbon filter screen plate and the HEPA filter screen are required to be replaced or cleaned, the grating plate, the active carbon filter screen plate and the HEPA filter screen can be taken down for replacement or cleaning.

Optionally, the shell body is far away from the air inlet mechanism and is provided with a liquid crystal display screen.

Through adopting above-mentioned technical scheme, liquid crystal display can show the parameter in real time, and the user of being convenient for judges indoor environment state.

Optionally, exhaust mechanism includes air exit and an at least shutter plate, and the air exit is seted up at the lateral wall of shell body perpendicular to lamp plate, and the shutter plate is installed at the relative both sides wall of air exit.

Through adopting above-mentioned technical scheme, the shutter plate can reduce debris or mosquito and get into the possibility of air exit.

Optionally, the louver blades are rotatably mounted on two opposite side walls of the air outlet.

By adopting the technical scheme, a user can also rotate the louver blades to adjust the wind direction of the air outlet, so that the application range is widened.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the lighting mechanism, the purification mechanism and the air exhaust mechanism in the shell are polluted or need to be replaced, a user can turn the turnover cover to expose the through hole, so that the user can clean or replace the lighting mechanism, the purification mechanism or the air exhaust mechanism in the shell through the through hole;

2. when a user can slide the lamp panel to one of the first mounting assemblies, one side, opposite to the lamp panel, of the lamp panel can be separated from the other first mounting assembly, then the lamp panel is taken down from the through hole of the shell body and cleaned or replaced, and the lamp panel is convenient to detach and mount;

3. the spring is with the lamp plate butt on first installation component for the lamp plate is difficult for sliding on the butt board, improves the steadiness of lamp plate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 2;

FIG. 4 is a schematic illustration of an installation of an embodiment of the present application;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 4;

fig. 6 is a schematic view for showing the structure of the filter mechanism.

Description of reference numerals: 1. a housing; 11. a shell body; 111. a liquid crystal display screen; 112. heat dissipation holes; 113. a connecting member; 12. a cover is turned; 13. a locking mechanism; 131. buckling; 132. a card slot; 2. an illumination mechanism; 21. a lamp panel; 22. a lamp tube; 23. a first mounting assembly; 231. a connecting plate; 232. a butt joint plate; 233. a spring; 3. a filtering mechanism; 31. a grid plate; 32. an active carbon filter screen plate; 33. a HEPA filter screen; 34. a second mounting assembly; 35. a third mounting assembly; 36. a fourth mounting assembly; 4. a sterilizing mechanism; 5. an air intake mechanism; 51. a fan; 6. an exhaust mechanism; 61. an air outlet; 62. louver blades.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a plasma air purification and disinfection device integrating illumination. Referring to fig. 1 and 2, the plasma air purifying and sterilizing device integrating illumination and sterilization comprises a casing 1, an illuminating mechanism 2, a filtering mechanism 3, a sterilizing mechanism 4, an air inlet mechanism 5 and an air outlet mechanism 6, wherein the casing 1 is installed on a casing body 11, the casing 1 comprises a casing body 11, a flip cover 12 and a locking mechanism 13, the air inlet mechanism 5 and the air outlet mechanism 6 are installed in the illuminating mechanism 2, the filtering mechanism 3 and the sterilizing mechanism 4 and are arranged in the casing body 11 for circularly purifying and sterilizing air in the environment while illuminating. Flip 12 rotates to be connected on shell body 11, and when lighting mechanism 2, filter mechanism 3 and the disinfection mechanism 4 of casing 1 inside received pollution or need to be changed, user of service can overturn flip 12 and expose the opening to be convenient for user of service can reduce instrument replacement cost through the inside filter mechanism 3 and the disinfection mechanism 4 of through-hole cleaning or change casing 1.

Referring to fig. 1 and 2, casing 1 can be processed into the cuboid of unidimensional not, preferred wide 500mm, long 1000mm, high 200mm or wide 500mm, long 800mm, high 200mm, and casing 11 is inside hollow cuboid, and liquid crystal display 111 is installed along axial one end to 11 main panels of casing for show relevant parameter in real time, the person of being convenient for judges indoor environment state. The main panel of the shell body 11 is provided with a rectangular through opening adjacent to the liquid crystal display screen 111, the flip cover 12 is matched with the through opening, and the flip cover 12 is rotatably connected to one end of the shell body 11 along the axial direction through a hinge so that the flip cover 12 can be turned over to cover or expose the through opening. Flip 12 is the quartzy panel of printing opacity dull polish for lighting mechanism 2's light sees through flip 12 and throws light on, realizes disinfection and illumination integration, saves space, and it is more convenient to use. And the possibility of the flip 12 reflecting light can be reduced. A plurality of heat dissipation holes 112 are formed in two side walls of the shell body 11 adjacent to the through opening and one end of the shell body close to the liquid crystal display screen 111, and the heat dissipation holes 112 are circularly distributed and used for dissipating heat inside the shell body 11 in time.

The disinfection mechanism 4 comprises a plasma generator arranged in the shell body 11 and continuously generates high-energy and high-concentration positive ions and negative ions, the high-concentration positive ions enable bacteria and inhalable particles in the air to be extremely surrounded by the positive ions, and the bacteria are killed due to the destruction of bacterial electrolytes and cell membranes under the action of the positive ions. The positive ions and the negative ions can kill various bacteria in the air more effectively in the process of neutralization, the negative ions are captured by oxygen in the air and become negative oxygen ions, and the negative oxygen ions carry out sterilization, smoke elimination, dust removal, odor removal and formaldehyde removal, thereby improving the air quality.

Referring to fig. 2 and 3, the locking mechanism 13 includes an elastic buckle 131 and a locking slot 132, the buckle 131 is triangular, and the buckle 131 is integrally formed at one end of the flip 12 close to the liquid crystal display 111 and facing the housing 11. The draw-in groove 132 is seted up and is close to flip 12 one side at casing body 11, and draw-in groove 132 is the rectangle and is close to flip 12 one side uncovered, and when closing flip 12 flip lid on the opening, during buckle 131 card goes into draw-in groove 132, fixes flip 12 and casing body 11, reduces the automatic possibility of opening of flip 12 use to it is more convenient that the lid closes and flip 12.

Referring to fig. 4, two connecting members 113 are fixed to a side of the housing 11 away from the flip 12 by screws, and mounting holes are formed in the connecting members, so that when a user mounts the electronic device, the connecting members 113 and an external structure are fixed by screws, and the housing 1 is mounted close to a roof to form a ceiling type, which saves space and is more attractive.

The air inlet mechanism 5 comprises at least two fans 51, two circular through holes are formed in one side, away from the flip 12, of the shell body 11, and the fans 51 are installed on one side, away from the flip 12, of the shell body 11, are opposite to the through holes and are used for sucking air in an environment into the shell body 11. The fan 51 is hidden at one side of the shell body 11 far away from the flip cover 12, so that the possibility of shielding the flip cover 12 is reduced, and the overall attractiveness is improved.

Referring to fig. 4 and 5, exhaust mechanism 6 sets up two, and exhaust mechanism 6 includes air exit 61 and shutter 62, and air exit 61 sets up at the lateral wall of shell 11 perpendicular to lamp plate 21, and air exit 61 is the rectangle and sets up along shell 11 axial for the gaseous exhaust after will purifying. The louver blades 62 are rotatably mounted on the two axial side walls of the air outlet 61 through the pin shafts, so that the possibility that sundries or mosquitoes enter the air outlet 61 can be reduced, a user can also rotate the louver blades 62 to adjust the air outlet direction of the air outlet 61, and the application range is improved.

Referring to fig. 2 and 5, lighting mechanism 2 includes lamp plate 21, fluorescent tube 22 and two first installation components 23, and lamp plate 21 is the rectangle and the area is less than the opening area of shell 11, and fluorescent tube 22 installs on lamp plate 21, and fluorescent tube 22 is connected with external circuit to can provide the illumination. First installation component 23 is installed and is close to flip 12 one side at casing 11, first installation component 23 includes connecting plate 231, butt plate 232 and spring 233, connecting plate 231 bonds with the inner wall of casing 11 perpendicular to opening and fixes, butt plate 232 integrated into one piece vertical fixation is close to casing 11's opening one end at connecting plate 231, spring 233 is on a parallel with the setting of butt plate 232, the tip bonding of spring 233 is fixed in the one side that connecting plate 231 is close to each other, the both sides that lamp plate 21 is relative respectively the butt on the spring 233 of a butt plate 232 connection. When lamp plate 21 is impaired or receive the pollution and need dismantle, user of service can promote lamp plate 21 and slide to one of them first installation component 23, and lamp plate 21 relative one side can break away from another first installation component 23, then takes out lamp plate 21 from the through-hole of shell body 11, clears up or changes, and it is more convenient to dismantle and install.

Referring to fig. 5 and 6, the filtering mechanism 3 is disposed between the air intake mechanism 5 and the air exhaust mechanism 6, the filtering mechanism 3 includes a grating plate 31, an activated carbon filter screen plate 32, a HEPA filter screen 33, two second mounting assemblies 34, two third mounting assemblies 35 and two third mounting assemblies 36, the second mounting assemblies 34, the third mounting assemblies 35 and the third mounting assemblies 36 are disposed the same as the first mounting assemblies 23, the grating plate 31 is disposed between the air intake mechanism 5 and the activated carbon filter screen plate 32, the HEPA filter screen 33 is disposed on a side of the activated carbon filter screen plate 32 away from the grating plate 31, the grating plate 31 is mounted on the two second mounting assemblies 34, the activated carbon filter screen plate 32 is mounted on the two third mounting assemblies 35, and the HEPA filter screen 33 is mounted on the two fourth mounting assemblies 36.

After the air enters the casing 1 from the air inlet mechanism 5, the air is sequentially filtered by the grating plate 31, the activated carbon filter screen plate 32 and the HEPA filter screen 33 in three stages, and the grating plate 31 filters out larger dust particles in the air to primarily purify the air. The active carbon filter screen plate 32 removes various peculiar smell gases in the air, and finally the dust larger than 0.3 mu m and bacteria attached to the dust are adsorbed, filtered, blocked and separated through the HEPA filter screen 33, so that the purification space of partial hundred grades and 1 ten thousand grades of the whole room is obtained.

The plasma air purification and disinfection device integrating illumination and provided by the embodiment of the application has the specific use mode that: when in use, air in the environment enters the machine shell 1 from the air inlet mechanism 5, is purified by the filtering mechanism 3 and the sterilizing mechanism 4, and then enters the environment again from the air outlet mechanism 6.

When the lighting mechanism 2, the filtering mechanism 3 and the disinfecting mechanism 4 inside the machine shell 1 are polluted or need to be replaced, a user can turn the turnover cover 12 to expose the through opening, so that the user can clean or replace the lighting mechanism 2, the filtering mechanism 3 and the disinfecting mechanism inside the machine shell 1 through the through holes, and the instrument replacement cost is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a collection illumination in plasma air purification degassing unit of an organic whole, includes casing (1) and sets up lighting mechanism (2), filtering mechanism (3) and disinfection mechanism (4) in casing (1), its characterized in that: casing (1) is including shell body (11) and flip (12), and the opening has been seted up to inside cavity and main panel of shell body (11), flip (12) and opening looks adaptation, and flip (12) one end is rotated and is connected in shell body (11) one of them lateral wall, is connected with locking mechanism (13) between flip (12) and shell body (11), is equipped with air inlet mechanism (5) and exhaust mechanism (6) on shell body (11), and flip (12) are the light-passing board, and disinfection mechanism (4) are including setting up the plasma generator in the shell body.

2. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: the locking mechanism (13) comprises an elastic buckle (131) and a clamping groove (132), the buckle (131) is fixed on one side, close to the shell body (11), of the flip cover (12), and the clamping groove (132) is formed in the shell body (11).

3. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: the flip cover (12) is a frosted crystal panel.

4. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: illumination mechanism (2) are including lamp plate (21), fluorescent tube (22) and two first installation component (23), fluorescent tube (22) are installed on lamp plate (21), first installation component (23) are including connecting plate (231) and butt board (232), connecting plate (231) and shell body (11) inner wall are fixed, butt board (232) vertical fixation is close to the opening one end of shell body (11) at connecting plate (231), the both sides that lamp plate (21) are relative butt respectively on one butt board (232), when lamp plate (21) slided to one of them first installation component (23), lamp plate (21) relative one side can break away from another first installation component (23).

5. A plasma air purification and disinfection device integrated with illumination and lighting as claimed in claim 4, wherein: the first mounting assembly (23) further comprises a spring (233), the spring (233) is arranged in parallel to the abutting plate (232), and the end portion of the spring (233) is fixed to one side of the connecting plate (231) close to each other.

6. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: the air inlet mechanism (5) comprises at least two fans (51), and the fans (51) are installed on one side, far away from the turnover cover (12), of the shell body (11).

7. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: the filtering mechanism (3) is arranged between the air inlet mechanism (5) and the air outlet mechanism (6), the filtering mechanism (3) comprises a grating plate (31), an active carbon filter screen plate (32), a HEPA filter screen (33) and two second mounting assemblies (34), two third installation components (35) and two fourth installation components (36), second installation component (34), third installation component (35) and fourth installation component (36) set up the same with first installation component (23), grid plate (31) set up between air intake mechanism (5) and active carbon filter screen board (32), HEPA filter screen (33) set up in active carbon filter screen board (32) deviate from grid plate (31) one side, grid plate (31) are installed on two second installation components (34), active carbon filter screen board (32) are installed on two third installation components (35), HEPA filter screen (33) are installed on two fourth installation components (36).

8. A plasma air purification and sterilization device integrated with illumination as claimed in claim 1, wherein: and a liquid crystal display screen (111) is arranged on the shell body (11) far away from the air inlet mechanism (5).

9. A plasma air purification and disinfection device integrated with illumination and lighting as claimed in claim 4, wherein: exhaust mechanism (6) include air exit (61) and at least one shutter (62), and the lateral wall at shell body (11) perpendicular to lamp plate (21) is seted up in air exit (61), and shutter (62) are installed in air exit (61) both sides wall relatively.

10. A plasma air purification and sterilization device integrated with illumination as set forth in claim 9, wherein: the louver blades (62) are rotatably arranged on two opposite side walls of the air outlet (61).

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