Air purifier
Technical Field
The invention relates to an air purifier, and belongs to the field of air purification devices.
Background
With the development of the times, people pay more and more attention to the air quality of living environment, in order to increase the freshness of indoor air, most people use the air purifier to purify the closed indoor air, because the purification requirement of the air purification device is a relatively closed space, the air flow can be ignored, but because the air purifier is continuously used, the internal chemical reaction can generate ozone, and the ozone continuously taken in can cause damage to human bodies.
However, the existing semi-closed air purifier has the following disadvantages:
1. because in relative airtight space, reach the fresh effect of air through chemical reaction, the filter screen layer can produce a large amount of dusts in the replacement process, if not change clean in time, can pollute the indoor air on the contrary, arouses diseases such as human respiratory track, generally adopts the mode of dismantling the washing, and it is comparatively loaded down with trivial details to dismantle the step, needs the operation of stopping the clarifier simultaneously.
2. Because air purifier can produce ozone when time after using, in relative inclosed space, if not in time clear up ozone, the ozone that continuously produces can increase indoor ozone's concentration, causes destruction to human cells, arouses the uncomfortable reaction.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide an air purifier to solve the problems that in a relatively closed space, the effect of air freshening is achieved through chemical reaction, a filter screen layer can generate a large amount of dust in the replacement process, if the filter screen layer is not replaced and cleaned in time, indoor air can be polluted instead, diseases such as human respiratory tracts and the like are caused, the disassembly and washing mode is generally adopted, the disassembly steps are complicated, and meanwhile, the operation of the purifier needs to be stopped.
In order to achieve the purpose, the invention is realized by the following technical scheme: an air purifier structurally comprises a base, a key, an outer frame and an ozone dustproof device, wherein the top of the base is fixedly connected with the bottom of the outer frame through screws, the inside of the outer frame is electrically connected with the inside of the key, the rear end of the key is movably connected with the front end of the outer frame, the left end of the outer frame is connected with the right end of the ozone dustproof device, the outer frame is of a hollow cuboid structure, the air purifier is mounted inside the outer frame and is connected with the ozone dustproof device, a box door is arranged on the outer wall of the outer frame, and the box door is connected with a dust collector to conveniently clean dust;
the ozone dust-proof device comprises a filtering and adsorbing net, an auxiliary vibration device and an ozone cleaning device, wherein the top of the filtering and adsorbing net is connected with the bottom of the auxiliary vibration device through a clamping groove, the right end of the filtering and adsorbing net is connected with the right end of the ozone cleaning device, and the filtering and adsorbing net is of a detachable structure, so that the top of the filtering and adsorbing net and the bottom of the auxiliary vibration device are connected with a buckle for positioning.
Optimally, the filtering and adsorbing net consists of a filter screen and a dust collector, the right end of the filter screen is attached to the left end of the dust collector, the outer wall of the left end of the dust collector wraps the outer wall of the right end of the filter screen, the filter screen is preliminarily sucked under the unified control of the external keys of the dust collector, and a large amount of dust is accumulated when air purification is avoided.
The best, supplementary vibrating device comprises vibration linking pipe, vibration trace, supplementary compression rod, spring, lug roof, the vibration linking pipe inner wall is clearance fit with the vibration trace outer wall, vibration trace top left end is laminated mutually with supplementary compression rod right-hand member, there is the clearance vibration trace top right-hand member and lug roof left end, lug roof left end is embedded being connected with the spring right-hand member, vibration trace bottom link up mutually with vibration linking pipe top, and lug roof right-hand member is connected with reciprocating vibration's vibrating device, reaches the vibration effect through lasting reciprocal striking lug roof, and then shakes off the dust on the filter screen.
Optimally, the ozone cleaning device consists of an ozone cleaning plate, a transmission line and an ozone inductor, wherein the inside of the ozone cleaning plate is electrically connected with the side end of the transmission line, the right end of the transmission line and the left end of the ozone inductor are of an integrated structure, the ozone inductor can detect ozone, and when ozone is generated, an electromagnet is started through the transmission of a sensor and the transmission line.
Preferably, the ozone cleaning plate comprises a through hole, a transverse plate and a sliding electric heating device, the rear end of the through hole is communicated with the middle end of the transverse plate, the transverse plate is mechanically connected with the sliding electric heating device, the left front end of the sliding electric heating device is attached to the right rear end of the through hole, the left end of the transverse plate is provided with a power supply, the power supply and the left end of the movable switch are in the same horizontal line, and when the power supply and the movable switch are in contact, the sliding electric heating device is started.
Best, slip electric heating device comprises silk screen device, heating plate, heat dowel steel, activity switch, electro-magnet, silk screen device bottom is connected for the electricity with the heating plate is inside, the heating plate bottom welds with heat transfer rod top, heat dowel steel bottom left end and activity switch right-hand member fixed connection, screw fixed connection is passed through with the electro-magnet left end to heat transfer rod right-hand member, and heat transfer rod bottom is connected with the slide rail, and the promotion of cooperation electro-magnet increases stability, and when the silk screen device was located the through-hole centre, activity switch contacted with the power.
Preferably, the silk screen device comprises a constant-temperature straight rod, a heating wire, a conduction convex block and a fixed rod, wherein the bottom of the constant-temperature straight rod and the top of the fixed rod are of an integrated structure, the outer wall of the constant-temperature straight rod is connected with the side end of the heating wire through the conduction convex block, the heating wire is of a spiral net structure, the effect of reducing the through hole is achieved by connecting three constant-temperature straight rods, and meanwhile, the constant-temperature straight rod is constant-temperature sixty degrees.
Advantageous effects
When in use, the key is a master control key, the dust collector, the vibrating device and the like can be controlled, the right end of the lug top plate is connected with the vibrating device which vibrates in a reciprocating manner, after the lug top plate is impacted by vibration, the vibration frequency is increased under the reaction of the spring, the vibration is transmitted to the vibration linkage rod (the top is connected with the chute), meanwhile, the vibration frequency is increased again under the vibration coordination of the auxiliary compression rod, at the moment, the vibration linkage rod (the bottom is a tip lug) continuously impacts with the inner wall of the vibration connecting pipe, so that the vibration connecting pipe drives the filter screen to vibrate, dust is diffused into the air through instantaneous back and forth vibration, the dust collector can be uniformly controlled through the external key, the filter screen is preliminarily sucked and removed, a large amount of dust is prevented from being accumulated when air is purified, the filter screen is of a net structure, and can adsorb dust to, improving air freshness) can detect ozone, when ozone is generated, the electromagnet is started through the transmission of the sensor and the transmission line, the electromagnet pushes the heat transfer rod and the movable switch to slide to the left, the left end in the transverse plate is provided with a power supply, the power supply and the left end of the movable switch are in the same horizontal line, when the two contact each other, the sliding electric heating device is started, the sliding electric heating device is mutually matched with the through hole, when the sliding electric heating device slides to the leftmost end, the silk screen device is just positioned at the center of the through hole (at the moment, the movable switch is contacted with the power supply), the silk screen device starts to heat up, the fixed rod plays a role in stabilizing and fixing the bottom, meanwhile, the constant temperature straight rod can control the temperature, so that the heating wires and the conduction convex blocks are heated simultaneously, the heating wires are of a spiral net structure, the effect of reducing the through hole is achieved by connecting the three constant-temperature straight rods, and the constant-temperature straight rods are constant-temperature sixty degrees.
Compared with the prior art, the invention has the following advantages:
1. after the lug roof receives vibrations striking, under the reaction of spring, vibration frequency has been increased, and transmit this vibrations to the vibration trace, simultaneously under the vibration fit of supplementary compression pole, increase vibration frequency once more, vibration trace and vibration linkage pipe inner wall last striking this moment, make the vibration linkage pipe drive the filter screen vibration, through the vibration of making a round trip in the twinkling of an eye, it is aerial to make the dust distribute, the dust catcher is tentatively absorbed the filter screen this moment, when avoiding air-purifying, a large amount of dusts are piled up, and then under the condition of unnecessary dismantlement, clean the filter screen, improve the duration of clarifier, also will improve purification efficiency after the cleanness.
2. When producing ozone, the electro-magnet promotes heat transfer pole and moves switch and slide left (activity switch and power contact this moment), start sliding electric heating device, the silk screen device begins to heat up, the dead lever plays the effect at the bottom of stabilizing, the steerable temperature of constant temperature straight-bar simultaneously, make the heater strip, the conduction lug intensifies simultaneously, the heater strip is spiral network structure, through connecting three constant temperature straight-bars, reach the effect of reducing the through-hole, avoid overflowing of ozone, constant temperature straight-bar is constant temperature sixty degrees simultaneously, and then pass through the mode of air contact heating with the ozone of process, under the prerequisite of unblock clarifier, in time clear away ozone, prevent that ozone from continuously piling up.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
FIG. 1 is a schematic view of an air purifier according to the present invention;
FIG. 2 is a front sectional view of the ozone dust-proof device of the present invention;
FIG. 3 is a left side sectional view of the filtration and adsorption net of the present invention;
FIG. 4 is a right sectional view of the ozone cleaning plate of the present invention;
FIG. 5 is an enlarged view of the sliding electric heating device of FIG. 4 according to the present invention;
fig. 6 is an enlarged view of the screen assembly of fig. 5 in accordance with the present invention.
In the figure: a base-1, a key-2, an outer frame-3, an ozone dust-proof device-4, a filtering and adsorbing net-41, an auxiliary vibrating device-42, an ozone cleaning device-43, a filter screen-410, a dust collector-411, a vibrating connecting pipe-420, a vibrating linkage rod-421, an auxiliary compressing rod-422, a spring-423, a bump top plate-424 and an ozone cleaning plate-430, the device comprises a transmission line-431, an ozone sensor-432, a through hole-4301, a transverse plate-4302, a sliding electric heating device-4303, a silk screen device-A1, a heating plate-A2, a heat transfer rod-A3, a movable switch-A4, an electromagnet-A5, a constant temperature straight rod-B1, a heating wire-B2, a conduction bump-B3 and a fixed rod-B4.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1, the present invention provides an air purifier, comprising: the structure of the ozone dust collector comprises a base 1, a button 2, an outer frame 3 and an ozone dust-proof device 4, wherein the top of the base 1 is fixedly connected with the bottom of the outer frame 3 through a screw, the inside of the outer frame 3 is electrically connected with the inside of the button 2, the rear end of the button 2 is movably connected with the front end of the outer frame 3, the left end of the outer frame 3 is connected with the right end of the ozone dust-proof device 4, the outer frame 3 is of a hollow cuboid structure, an air purifier is mounted inside the outer frame 3 and is connected with the ozone dust-proof device 4, a box door is arranged on the outer wall of the outer frame 3, the box door is connected with a dust collector 411, dust is convenient to clean, the button;
referring to fig. 2, the ozone dust-proof device 4 is composed of a filtering and adsorbing net 41, an auxiliary vibration device 42, and an ozone cleaning device 43, wherein the top of the filtering and adsorbing net 41 is connected with the bottom of the auxiliary vibration device 42 by a clamping groove, the right end of the filtering and adsorbing net 41 is connected with the right end of the ozone cleaning device 43, and the filtering and adsorbing net 41 is of a detachable structure, so that the top of the filtering and adsorbing net 41 and the bottom of the auxiliary vibration device 42 are connected with a buckle for positioning.
Referring to fig. 2, the filtering and adsorbing net 41 is composed of a filter screen 410 and a dust collector 411, the right end of the filter screen 410 is attached to the left end of the dust collector 411, the outer wall of the left end of the dust collector 411 wraps the outer wall of the right end of the filter screen 410, the dust collector 411 can be controlled in a unified manner through an external key 2, the filter screen 410 is preliminarily sucked, a large amount of dust is prevented from being accumulated when air is purified, the filter screen 410 is of a mesh structure, dust can be adsorbed to a certain extent, accordingly, the amount of dust in the air is reduced, and the air freshness is improved.
Referring to fig. 2, the auxiliary vibration device 42 is composed of a vibration connecting tube 420, a vibration connecting rod 421, an auxiliary compression rod 422, a spring 423, and a bump top plate 424, the inner wall of the vibration connecting tube 420 is in clearance fit with the outer wall of the vibration connecting rod 421, the left end of the top of the vibration connecting rod 421 is attached to the right end of the auxiliary compression rod 422, a clearance exists between the right end of the top of the vibration connecting rod 421 and the left end of the bump top plate 424, the left end of the bump top plate 424 is in embedded connection with the right end of the spring 423, the bottom of the vibration connecting rod 421 is communicated with the top of the vibration connecting tube 420, a vibration device vibrating in a reciprocating manner is connected to the right end of the bump top plate 424, a vibration effect is achieved by continuously and reciprocally striking the bump top plate 424, so that dust on the filter screen 410 is shaken off, after the bump top plate 424 is struck by vibration, the vibration frequency is increased under the reaction of the, meanwhile, under the vibration cooperation of the auxiliary compression rod 422, the vibration frequency is increased again, at this time, the vibration linkage rod 421 (the bottom is a tip bump) continuously collides with the inner wall of the vibration linking tube 420, so that the vibration linking tube 420 drives the filter screen 410 to vibrate, and dust is emitted into the air through instantaneous back-and-forth vibration.
Referring to fig. 3, the ozone cleaning device 43 comprises an ozone cleaning plate 430, a transmission line 431 and an ozone sensor 432, wherein the inside of the ozone cleaning plate 430 is electrically connected with the side end of the transmission line 431, the right end of the transmission line 431 and the left end of the ozone sensor 432 are integrated, the ozone sensor 432 can detect ozone, and when ozone is generated, the electromagnet a5 is started through the transmission of the sensor and the transmission line 431.
Referring to fig. 4, the ozone cleaning plate 430 comprises a through hole 4301, a horizontal plate 4302, and a sliding electric heating device 4303, wherein the rear end of the through hole 4301 is connected to the middle end of the horizontal plate 4302, the inside of the horizontal plate 4302 is mechanically connected to the sliding electric heating device 4303, the left front end of the sliding electric heating device 4303 is attached to the right rear end of the through hole 4301, the left end of the inside of the horizontal plate 4302 is provided with a power source, the power source and the left end of a movable switch a4 are in the same horizontal line, when the power source and the movable switch a4 are in contact, the sliding electric heating device 4303 is started, the sliding electric heating device 4303 is engaged with the through hole 4301, and when the sliding electric heating device 4303 slides to the leftmost end, the.
Referring to fig. 5, the sliding electric heating device 4303 is composed of a wire mesh device a1, a heating plate a2, a heat transfer rod A3, a movable switch A4, and an electromagnet A5, the bottom of the wire mesh device a1 is electrically connected to the inside of the heating plate a2, the bottom of the heating plate a2 is welded to the top of the heat transfer rod A3, the left end of the bottom of the heat transfer rod A3 is fixedly connected to the right end of the movable switch A4, the right end of the heat transfer rod A3 is fixedly connected to the left end of the electromagnet A5 through a screw, the bottom of the heat transfer rod A3 is connected to a sliding rail, and the sliding rail is pushed by the electromagnet A5 to increase stability.
Referring to fig. 6, the silk screen device a1 includes a constant temperature straight bar B1, a heating wire B2, a conductive bump B3, and a fixing bar B4, the bottom of the constant temperature straight bar B1 and the top of the fixing bar B4 are integrated, the outer wall of the constant temperature straight bar B1 is connected to the side end of the heating wire B2 through the conductive bump B3, the heating wire B2 is a spiral mesh structure, and the through hole 4301 is reduced by connecting three constant temperature straight bars B1, and the constant temperature straight bar B1 is at a constant temperature of sixty degrees, the fixing bar B4 has a function of stabilizing the bottom, and the constant temperature straight bar B1 can control the temperature, so that the heating wire B2 and the conductive bump B3 are heated at.
When in use, the key 2 is a master control key, which can control the dust collector 411 and a vibrating device, etc., the right end of the lug top plate 424 is connected with a vibrating device with reciprocating vibration, after the lug top plate 424 is impacted by vibration, the vibration frequency is increased under the reaction of the spring 423 and is transmitted to the vibration linkage rod 421 (the top is connected with a chute), and simultaneously, under the vibration cooperation of the auxiliary compression rod 422, the vibration frequency is increased again, at this time, the vibration linkage rod 421 (the bottom is a tip lug) is continuously impacted with the inner wall of the vibration connecting pipe 420, so that the vibration connecting pipe 420 drives the filter screen 410 to vibrate, and the dust is emitted into the air through instantaneous back-and-forth vibration, the dust collector 411 can be uniformly controlled by the external key 2 to primarily suck the filter screen 410, so as to avoid the accumulation of a large amount of dust when purifying air, (the filter screen 410 is of a mesh, thereby reducing the amount of dust in the air), improving the air freshness, the ozone sensor 432 can detect ozone, when ozone is generated, the electromagnet a5 is started through the transmission of the sensor and the transmission line 431, the electromagnet a5 pushes the heat transfer rod A3 and the movable switch A4 to slide leftwards, the power supply is arranged at the left end inside the transverse plate 4302, the power supply and the left end of the movable switch A4 are in the same horizontal line, when the power supply and the movable switch A4 are in contact, the sliding electric heating device 4303 is started, the sliding electric heating device 4303 and the through hole 4301 are mutually matched, when the sliding electric heating device 4303 slides to the leftmost end, the screen device a1 is just positioned at the center of the through hole 4301, (at this time, the movable switch A4 is in contact with the power supply), the screen device a1 starts to heat up, the fixing rod B4 plays a role of stabilizing the bottom, and the constant temperature mesh B1 can control the temperature straight rod, so that the heating wire B2 and the conduction bump, the effect of reducing the through hole 4301 is achieved by connecting three constant-temperature straight rods B1, and the constant-temperature straight rod B1 is constant-temperature sixty degrees.
The invention solves the problems that in a relatively closed space, the effect of air freshening is achieved through chemical reaction, a filter screen layer can generate a large amount of dust in the replacement process, if the filter screen layer is not replaced and cleaned in time, the indoor air can be polluted, diseases such as human respiratory tract and the like are caused, the disassembly and water washing mode is generally adopted, the disassembly steps are relatively complicated, the operation of a purifier is required to be stopped, ozone is generated at times after the air purifier is used, if the ozone is not cleaned in time in the relatively closed space, the continuously generated ozone can increase the concentration of the indoor ozone and damage the human cells to cause uncomfortable reaction, through the mutual combination of the components, after a lug top plate is impacted by vibration, the vibration frequency is increased under the reaction of a spring, the vibration is transmitted to a vibration linkage rod, and simultaneously under the vibration matching of an auxiliary compression rod, the vibration frequency is increased again, the vibration linkage rod continuously impacts with the inner wall of the vibration linking pipe at the moment, the vibration linking pipe drives the filter screen to vibrate, dust is emitted into the air through instantaneous back-and-forth vibration, the dust collector primarily absorbs the filter screen at the moment, a large amount of dust is accumulated when air is purified, the filter screen is cleaned without being detached, the cruising ability of the purifier is improved, the purification efficiency is also improved after cleaning, when ozone is generated, the electromagnet pushes the heat transfer rod and the movable switch to slide to the left (the movable switch is contacted with a power supply at the moment), the sliding electric heating device is started, the silk screen device starts to heat up, the fixed rod plays a role in stabilizing and fixing the bottom, the constant temperature straight rod can control the temperature at the same time, the heating wire and the conduction lug simultaneously heat up, the heating wire is of a spiral net structure, and the effect of reducing the, avoid overflowing of ozone, the constant temperature straight-bar is constant temperature sixty degrees simultaneously, and then passes through the mode of air contact heating with the ozone of process, under the prerequisite of unblock clarifier, in time clears away ozone, prevents that ozone from continuously piling up.
The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.
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.