CN112781155A

CN112781155A - Air purifier capable of removing bacteria

Info

Publication number: CN112781155A
Application number: CN202110275874.8A
Authority: CN
Inventors: 蔡美君
Original assignee: Guangzhou Tebei Technology Information Co ltd
Current assignee: Guangzhou Tebei Technology Information Co ltd
Priority date: 2021-03-15
Filing date: 2021-03-15
Publication date: 2021-05-11

Abstract

The invention discloses an air purifier capable of sterilizing, which structurally comprises a control panel, a purifying mechanism and a moving wheel, wherein the control panel is embedded and fixed at the upper end of the purifying mechanism, the moving wheel is arranged at the bottom of the lower end of the purifying mechanism, air enters an extrusion structure and enters a bent plate along a compression plate with a round angle at the inner side so as to block part of dust, the extrusion structure is driven to rotate in a limiting way by taking a limiting shaft as a shaft, so that the air is concentrated in the extrusion structure to circulate, the direction of the circulated air is changed under the condition that the air flow rate is not influenced by a vent hole in the bent plate, the circulated air is prevented from being too uniform, the circulated air enters a diversion structure after passing through the circulation structure, enters a blocking mechanism from a transparent plate, large-particle dust is blocked, ultraviolet irradiation is prevented from being blocked, and ultraviolet rays of part of bacteria are prevented from being blocked by, preventing the direct irradiation of ultraviolet rays to kill bacteria from being blocked.

Description

Air purifier capable of removing bacteria

Technical Field

The invention relates to the field of air medium filtration sterilization, in particular to an air purifier capable of sterilizing.

Background

The air purifier is generally used in indoor places with more dust and dense bacteria, the air purifier is used for circulating indoor air, dust floating in the air is adsorbed and collected, and meanwhile, an ultraviolet irradiation method is adopted to kill active microorganisms such as bacteria in the air and prevent living bacteria from entering human respiratory tracts when the living bacteria float in the air.

However, the ultraviolet light is transmitted along a straight line, so that the penetrating power of the ultraviolet light is weak, only bacteria directly exposed to the ultraviolet light can be killed, air in the air purifier circulates, the air flow speed is uniform, the bacteria and dust can easily and uniformly pass through the range of a channel irradiated by the ultraviolet light, the ultraviolet light of partial bacteria is blocked by adsorbed dust particles, an irradiation dead angle is formed in unidirectional ultraviolet irradiation, and partial bacteria are prevented from being killed by the direct ultraviolet irradiation.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides an air purifier that can degerming, its structure includes control panel, purification mechanism, removes the wheel, control panel inlays admittedly in purification mechanism upper end, it installs in purification mechanism lower extreme bottom to remove the wheel, purification mechanism is equipped with circulation mouth, purifying box, shines mechanism, air suction device, bracing piece, the laminating of circulation mouth is inboard at the purifying box, the bracing piece is located the purifying box center axis, the air suction device inlays admittedly in the purifying box inboard, it is parallel to each other with the air suction device to shine the mechanism, it installs in purifying box lower extreme bottom to remove the wheel, bracing piece upper end has the guide effect for the arc structure of outside bending.

As a further improvement of the invention, the irradiation mechanism is provided with a sterilizer, a fixed plate, a flow structure and a diversion structure, the sterilizer is embedded and fixed at the inner side of the fixed plate, the flow structure is clamped at the inner side of the fixed plate, the diversion structure is positioned at the lower end of the flow structure, the fixed plate and the air suction device are parallel to each other, and the two sterilizers are distributed in a relative horizontal state and are in a horizontal irradiation mode.

As a further improvement of the invention, the circulation structure is provided with a fixing ring, a connecting plate, a limiting shaft, an extrusion structure and a corrugated plate, the corrugated plate is attached to the outer side of the fixing ring, the outer side of the fixing ring is embedded and fixed on the inner side of the extrusion structure, the outer side of the extrusion structure is clamped and fixed on the inner side of the limiting shaft, the outer side of the limiting shaft is installed on the inner side of the connecting plate, the outer side of the connecting plate is clamped and fixed on the inner side of the fixing plate, the fixing ring is welded on the outer side of the supporting rod, and the upper end and.

As a further improvement of the invention, the extrusion structure is provided with a fixed rod, a compression plate and a bending plate, the fixed rod is clamped at the inner side of the compression plate, the bending plate is embedded at the outer side of the compression plate, the outer side of the fixed rod is clamped at the inner side of the limiting shaft, the compression plate is made of rubber and has the characteristic of easy deformation, the bending plate is of an arc-shaped structure which is bent downwards, and the left side and the right side of the middle of the bending plate are provided with net-shaped ventilation holes.

As a further improvement of the invention, the turning structure is provided with a blocking mechanism, a transparent plate and turning holes, the outer side of the blocking mechanism is embedded and fixed on the inner side of the transparent plate, the turning holes are positioned on the left side and the right side of the lower end of the transparent plate, the transparent plate is positioned at the lower end of the circulation structure, and the transparent plate is of a molded structure and is made of transparent glass material and has the characteristic of weak light blocking.

The blocking mechanism is provided with a force bearing mechanism, a rotating ring and supporting blocks, the force bearing mechanism is arranged on the outer side of each supporting block, the outer side of each force bearing mechanism is clamped on the inner side of each rotating ring, the rotating rings and the supporting blocks are located on the same central axis, the outer sides of the rotating rings are embedded and fixed on the inner side of the transparent plate, five force bearing mechanisms are arranged and distributed uniformly in an annular mode by taking the supporting blocks as centers, and spheres are arranged on the outer sides inside the rotating rings and embedded and fixed inside the transparent plate.

The force bearing mechanism is further improved by comprising a limiting plate, a trough plate and a movable plate, wherein the trough plate is fixedly embedded on the surface of the upper end of the limiting plate, the limiting plate is arranged on the left side and the right side of the movable plate, the outer side of the movable plate is clamped on the inner side of the rotating ring, the limiting plate is arranged in a state of inclining 45 degrees, the movable plate is in a rectangular state and is in a fixed state, and a thicker rubber layer is wrapped on the outer side of the movable plate.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. in the air admission extrusion structure, the compression board that is the fillet along the inboard gets into curved plate, thereby block part dust, it uses spacing axle to drive extrusion structure to carry out spacing rotation as the axle, extrusion structure inboard carries out spacing activity with solid fixed ring outside fold board simultaneously, make the air concentrate circulate in extrusion structure, and two relative extrusion structure stop the air of circulation, the ventilation hole of curved plate inside is under the condition that does not influence air flow rate, the direction of circulating air changes, the air of avoiding the circulation is too even.

2. The air of circulation gets into behind the circulation structure in the diversion structure, get into blocking mechanism in the follow transparent plate, block large granule dust, avoid ultraviolet irradiation to receive and block, blocking mechanism blocks the air of circulation simultaneously, make rotatory ring carry out slight rotation when receiving the air current power of load mechanism, strengthen the disorder of circulation air, make the air carry out the ultraviolet irradiation sterilization of relapseing, avoid adsorbing the dust granule that advances to block the ultraviolet ray of partial bacterium, prevent that the ultraviolet ray from killing the direct irradiation of bacterium and receiving and block.

Drawings

Fig. 1 is a schematic structural view of an air cleaner capable of sterilizing according to the present invention.

Fig. 2 is a schematic side view of a purification mechanism according to the present invention.

FIG. 3 is a schematic side view of an irradiation mechanism according to the present invention.

FIG. 4 is a schematic structural diagram of a flow-through structure according to the present invention.

FIG. 5 is a schematic side view of an extruded structure according to the present invention.

Fig. 6 is a schematic side view of a direction changing structure according to the present invention.

Fig. 7 is a schematic top view of a blocking mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a force-bearing mechanism of the present invention.

In the figure: the device comprises a control panel-1, a purification mechanism-2, a moving wheel-3, a flow port-21, a purification box-22, an irradiation mechanism-23, an air suction device-24, a support rod-25, a sterilizer-231, a fixed plate-232, a flow structure-233, a diversion structure-234, a fixed ring-a 1, a connecting plate-a 2, a limiting shaft-a 3, an extrusion structure-a 4, a corrugated plate-a 5, a fixed rod-a 41, a compression plate-a 42, a bending plate-a 43, a blocking mechanism-w 1, a transparent plate-w 2, a diversion hole-w 3, a force bearing mechanism-w 11, a supporting block-w 12, a supporting block-w 13, a limiting plate-e 1, a groove plate-e 2 and a movable plate-e 3.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to an air purifier capable of sterilizing, which structurally comprises a control panel 1, a purifying mechanism 2 and a moving wheel 3, wherein the control panel 1 is fixedly embedded at the upper end of the purifying mechanism 2, the moving wheel 3 is installed at the bottom of the lower end of the purifying mechanism 2, the purifying mechanism 2 is provided with a flow opening 21, a purifying box 22, an irradiation mechanism 23, a suction fan 24 and a support rod 25, the flow opening 21 is attached to the inner side of the purifying box 22, the support rod 25 is positioned on the central axis of the purifying box 22, the suction fan 24 is fixedly embedded at the inner side of the purifying box 22, the irradiation mechanism 23 is parallel to the suction fan 24, the moving wheel 3 is installed at the bottom of the lower end of the purifying box 22, the upper end of the support rod 25 is of an arc structure which is bent towards the outer side and has a guide effect, the suction fan 24 is controlled by the control panel 1, so that the suction fan, the air enters the inside of the irradiation mechanism 23 following the circulation port 21, passes through the ultraviolet irradiation of the irradiation mechanism 23 along the support rod 25, and is discharged from the bottom.

Wherein, it is equipped with steriliser 231, fixed plate 232, circulation structure 233, diversion structure 234 to shine mechanism 23, steriliser 231 inlays to be fixed plate 232 inboard, circulation structure 233 block is inboard at fixed plate 232, diversion structure 234 is located circulation structure 233 lower extreme, fixed plate 232 is parallel to each other with aspirator 24, steriliser 231 is equipped with two, is relative horizontal state and distributes, and for the horizontal irradiation mode, passes through steriliser 231 ultraviolet sterilization of fixed plate 232 inboard when making the air pass through in circulation structure 233.

Wherein the flow structure 233 is provided with a fixing ring a1, a connecting plate a2, a limiting shaft a3, an extrusion structure a4 and a corrugated plate a5, the corrugated plate a5 is attached to the outer side of a fixing ring a1, the outer side of the fixing ring a1 is embedded and fixed to the inner side of a pressing structure a4, the outer side of the extrusion structure a4 is clamped at the inner side of a limit shaft a3, the outer side of the limit shaft a3 is arranged at the inner side of a connecting plate a2, the outer side of the connecting plate a2 is clamped at the inner side of the fixing plate 232, the fixing ring a1 is welded at the outer side of the supporting rod 25, the upper end and the lower end of the inner side of the extrusion structure a4 are made of strip sponge materials, and have the characteristics of strong deformation effect and small elasticity, so that the air enters the extrusion structure a4 to drive the extrusion structure a4 to rotate in a limited way by taking the limit shaft a3 as a shaft, meanwhile, the inner side of the extrusion structure a4 and the corrugated plate a5 on the outer side of the fixing ring a1 perform limiting movement, so that air completely passes through the extrusion structure a4, and the air is prevented from circulating from the gap.

The squeezing structure a4 is provided with a fixing rod a41, a compression plate a42 and a bending plate a43, the fixing rod a41 is clamped inside the compression plate a42, the bending plate a43 is embedded outside the compression plate a42, the fixing rod a41 is clamped inside the limiting shaft a3, the compression plate a42 is made of rubber and has the characteristic of easy deformation, the bending plate a43 is a downward bending arc-shaped structure, and net-shaped vent holes are formed in the left side and the right side of the middle of the structure, so that when air enters the squeezing structure a4, the air enters the bending plate a43 along the compression plate a42 with the inner side in a round angle shape, dust is blocked, and the direction of the air flowing through is changed under the condition that the air flow rate is not influenced by the vent holes in the bending plate a43, and the air flowing through is prevented from being too uniform.

The embodiment has the following specific use modes and functions:

in the invention, the air suction device 24 is controlled by the control panel 1, the air suction device 24 rotates to suck the air outside the circulation port 21, the air enters the irradiation mechanism 23 along the circulation port 21, the air is irradiated by ultraviolet rays of the irradiation mechanism 23 along the support rod 25 and then is discharged from the bottom, the air passes through the sterilizer 231 inside the fixed plate 232 to be sterilized by ultraviolet rays when passing through the circulation structure 233, the air enters the extrusion structure a4 and enters the bent plate a43 along the compression plate a42 with a round angle at the inner side, so that partial dust is blocked, the extrusion structure a4 is driven to rotate in a limiting way by taking the limiting shaft a3 as a shaft, meanwhile, the inner side of the extrusion structure a4 and the corrugated plate a5 outside the fixed ring a1 perform limiting movement, so that the air is concentrated in the extrusion structure a4 to circulate, the air is prevented from circulating from a gap, and the two opposite extrusion structures a4 block the circulating air, the vent holes in the curved plate a43 change the direction of the circulating air without affecting the air flow rate, and the circulating air is prevented from being too uniform.

Example 2:

as shown in fig. 6-8:

wherein, diversion structure 234 is equipped with blocking mechanism w1, transparent plate w2, diversion hole w3, blocking mechanism w1 outside is inlayed admittedly in transparent plate w2 inboard, diversion hole w3 is located transparent plate w2 lower extreme left and right sides, transparent plate w2 is located circulation structure 233 lower extreme, transparent plate w2 is U type structure, and is transparent glass material, has and blocks the less strong characteristic to light, and the air of circulation passes through transparent plate w2 and gets into in blocking mechanism w1, blocks the large granule dust, avoids ultraviolet irradiation to receive and blocks.

The blocking mechanism w1 is provided with a force bearing mechanism w11, a rotating ring w12 and a supporting block w13, the force bearing mechanism w11 is installed outside the supporting block w13, the outside of the force bearing mechanism w11 is clamped inside the rotating ring w12, the rotating ring w12 and the supporting block w13 are located on the same central axis, the outside of the rotating ring w12 is embedded and fixed inside a transparent plate w2, the number of the force bearing mechanisms w11 is five, the supporting blocks w13 are uniformly distributed in a central ring shape, the outside of the rotating ring w12 is provided with balls, the balls are embedded and fixed inside the transparent plate w2, so that the rotating ring w12 slightly rotates when receiving the air flow force of the force bearing mechanism w11, the scattering of circulating air is enhanced, and the air is sterilized by repeated ultraviolet irradiation.

The force bearing mechanism w11 is provided with a limiting plate e1, a groove plate e2 and a movable plate e3, the groove plate e2 is embedded and fixed on the upper end surface of the limiting plate e1, the limiting plate e1 is installed on the left side and the right side of the movable plate e3, the outer side of the movable plate e3 is clamped on the inner side of a rotating ring w12, the limiting plate e1 is installed in a state of inclining 45 degrees, the movable plate e3 is in a rectangular state and is in a fixed state, a thicker rubber layer is wrapped on the outer side of the movable plate e3, the groove plate e2 on the limiting plate e1 blocks air circulation, and therefore the limiting plate e1 is limited by the movable plate e3 when being subjected to air circulation, and air circulates in an inclined.

The embodiment has the following specific use modes and functions:

in the invention, the circulating air enters the diversion structure 234 after passing through the circulation structure 233, enters the blocking mechanism w1 from the transparent plate w2, blocks large-particle dust, prevents ultraviolet irradiation from being blocked, simultaneously blocks the circulating air by the blocking mechanism w1, enables the rotating ring w12 to slightly rotate when being subjected to the air flow force of the force bearing mechanism w11, enhances the scattering of the circulating air, enables the air to be sterilized by repeated ultraviolet irradiation, and blocks the air circulation by the groove-shaped plate e2 on the limiting plate e1 in the force bearing mechanism w11, so that the limiting plate e1 is limited by the movable plate e3 when being subjected to the air circulation effect, enables the air to circulate in an inclined state, the air circulates in the left-right direction in the diversion hole w3, meanwhile, part of dust sliding from the limiting plate e1 stays at the middle bottom of the lower end of the transparent plate w2, and prevents ultraviolet of part of bacteria from being blocked by adsorbed dust particles, preventing the direct irradiation of ultraviolet rays to kill bacteria from being blocked.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims

1. The utility model provides an air purifier that can degerming, its structure includes control panel (1), purifies mechanism (2), removes wheel (3), control panel (1) inlays admittedly in purifying mechanism (2) upper end, remove wheel (3) and install in purifying mechanism (2) lower extreme bottom, its characterized in that:

purification mechanism (2) are equipped with circulation mouth (21), purifying box (22), shine mechanism (23), induced draft ware (24), bracing piece (25), circulation mouth (21) laminating is inboard at purifying box (22), bracing piece (25) are located purifying box (22) center axis, induced draft ware (24) are embedded at purifying box (22) inboardly, it is parallel to each other with induced draft ware (24) to shine mechanism (23), remove wheel (3) and install in purifying box (22) lower extreme bottom.

2. A degerming-capable air purifier as recited in claim 1, wherein: shine mechanism (23) and be equipped with steriliser (231), fixed plate (232), circulation structure (233), diversion structure (234), steriliser (231) are embedded and are fixed at fixed plate (232) inboard, circulation structure (233) block is inboard at fixed plate (232), diversion structure (234) are located circulation structure (233) lower extreme, fixed plate (232) are parallel to each other with aspirator (24).

3. A sterilizing air cleaner according to claim 2, characterized in that: circulation structure (233) are equipped with solid fixed ring (a 1), connecting plate (a 2), spacing axle (a 3), extrusion structure (a 4), fold board (a 5), fold board (a 5) laminating is in solid fixed ring (a 1) outside, gu fixed ring (a 1) outside is inlayed and is fixed at extrusion structure (a 4) inboard, extrusion structure (a 4) outside block is inboard at spacing axle (a 3), spacing axle (a 3) outside is installed in connecting plate (a 2) inboard, connecting plate (a 2) outside block is inboard at fixed plate (232).

4. A degerming-capable air purifier as recited in claim 3, wherein: the extrusion structure (a 4) is provided with a fixing rod (a 41), a compression plate (a 42) and a bending plate (a 43), the fixing rod (a 41) is clamped on the inner side of the compression plate (a 42), the bending plate (a 43) is embedded and fixed on the outer side of the compression plate (a 42), and the outer side of the fixing rod (a 41) is clamped on the inner side of a limiting shaft (a 3).

5. A sterilizing air cleaner according to claim 2, characterized in that: diversion structure (234) are equipped with stop gear (w 1), transparent plate (w 2), diversion hole (w 3), it is inboard at transparent plate (w 2) to inlay outside stop gear (w 1), diversion hole (w 3) are located transparent plate (w 2) lower extreme left and right sides, transparent plate (w 2) are located circulation structure (233) lower extreme.

6. The air purifier capable of sterilization as set forth in claim 5, wherein: the blocking mechanism (w 1) is provided with a force bearing mechanism (w 11), a rotating ring (w 12) and a supporting block (w 13), the force bearing mechanism (w 11) is installed on the outer side of the supporting block (w 13), the outer side of the force bearing mechanism (w 11) is clamped on the inner side of the rotating ring (w 12), the rotating ring (w 12) and the supporting block (w 13) are located on the same central axis, and the outer side of the rotating ring (w 12) is clamped on the inner side of a transparent plate (w 2).

7. The air purifier capable of sterilization as set forth in claim 6, wherein: the force bearing mechanism (w 11) is provided with a limiting plate (e 1), a groove plate (e 2) and a movable plate (e 3), the groove plate (e 2) is embedded and fixed on the upper end surface of the limiting plate (e 1), the limiting plates (e 1) are installed on the left side and the right side of the movable plate (e 3), and the outer side of the movable plate (e 3) is clamped on the inner side of the rotating ring (w 12).