CN115264736A - Air purifier - Google Patents

Abstract

The invention discloses an air purifier, which relates to the technical field of air purifiers and comprises a box body, a purifying box and purifying components, wherein ventilating notches are formed in the left side and the right side of the box body, and sucking components are arranged on the two sides in the box body. According to the invention, the copper-clad layer made of copper and the rubber layer made of rubber can generate static electricity after friction, the static electricity can be transmitted to the surface of the air moving plate through the rotating rod, the air can flow in the rotating process of the air moving plate, a plurality of groups of air moving plates are arranged in the purifying box, the air can be fully mixed in the purifying box through the rotation of the air moving plates, the condition that the purifying effect is inconsistent due to uneven air distribution can be effectively avoided through air mixing, the air purifying effect of the equipment can be improved, and the static electricity on the surface of the air moving plate can adsorb dust impurities in the air in the process that the air is uniformly mixed, so that the equipment can clean and absorb the dust in the air.

Description

Air purifier

Technical Field

The invention relates to the technical field of air purifiers, in particular to an air purifier.

Background

An air purifier, also known as an air cleaner, an air freshener, and a purifier, refers to a product capable of adsorbing, decomposing, or converting various air pollutants (generally including PM2.5, dust, pollen, odor, formaldehyde, and other decoration pollutants, bacteria, allergens, and the like), and effectively improving air cleanliness, and is mainly classified into household, commercial, industrial, and building.

As in application No.: 201610637768.9, in accordance with the present invention, an air purifier is provided, wherein a cavity is provided in a cavity housing; the top end of the cavity shell is sealed with a cavity cover; the bottom end of the cavity is provided with a high-pressure purification device and an air inlet grille cover; the top end of the cavity is provided with a first purifying device; the outer side of the cavity shell is provided with an upper mounting part and a lower mounting part; a purification layer and an air outlet grille cover are arranged between the upper mounting part and the lower mounting part to form a first air equalizing cavity and a second air equalizing cavity; a vertical pipe and a plurality of gas distribution channels are arranged in the cavity; a top cover is arranged above the cavity cover, and a motor cavity is formed between the top cover and the cavity cover; an air inlet motor and an air outlet motor are arranged in the motor cavity; one end of the air inlet motor is communicated with the top end of the vertical pipe, and the other end of the air inlet motor is led out of the top cover through the air inlet pipe; one end of the air outlet motor is communicated with the cavity, and the other end of the air outlet motor is led out of the top cover through the air outlet pipe. The invention has simple structure and low cost; the outdoor air can be introduced into the room after being filtered, and meanwhile, the indoor waste gas is led out of the room after being treated, so that the circulating ventilation is formed; meanwhile, the gas exhausted from the indoor exchanges heat with the gas introduced from the outdoor.

Air purifiers similar to the above applications currently suffer from the following disadvantages:

common air purifier's filter core is changed the difficulty usually on the market to can't accomplish automatic replacement filter core, air purifier lacks the self-cleaning function outside this, uses the back for a long time at air purifier, needs manual cleanness, and the convenience of use is lower.

In view of the above, an air purifier is proposed by improving the existing structure and defects.

Disclosure of Invention

The present invention is directed to an air purifier to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an air purifier, includes box, purifying box and purification subassembly, the notch of ventilating has been seted up to the left and right sides of box, and the inside both sides of box settle there is the suction subassembly, the end-to-end connection of suction subassembly has the regulation and control case, and the bottom middle-end of regulation and control case is provided with first motor, the output of first motor is connected with the pump package spare, the purifying box settles in the top outside of regulation and control case, and the inside of purifying box is provided with the deashing subassembly, the inboard top of purifying box is provided with the flow distribution box, and the outside surface of flow distribution box is provided with first automatically controlled valve, the bottom outside of flow distribution box is provided with the second automatically controlled valve, the inboard middle-end of flow distribution box is provided with the suction tube, and the surface of suction tube is provided with the third automatically controlled valve, the purification subassembly sets up in the inboard top of suction tube, and the top outside of suction tube is provided with the two-way suction pump, the outside of second two-way suction pump is provided with the back flow respectively, the top both sides of flow distribution box are provided with the fourth automatically controlled valve, the top outside of second two-way suction pump is connected with the drain pipe, and the top outside of drain pipe is provided with the collection dirt collection case.

Furthermore, the suction assembly comprises a plate body pipe, a suction port, a heating medium box, an inlet pipe and a cooling medium box, wherein the suction port is formed in the outer end of the plate body pipe, the heating medium box is arranged at the middle end of the inner side of the plate body pipe at the left end of the box body, the heating medium box is arranged at the middle end of the inner side of the plate body pipe at the right end of the box body, and the inlet pipe is connected to the bottom end of the plate body pipe.

Furthermore, the outer surface of the plate body pipe is attached to the inner surface of the box body, and the box body is communicated with the plate body pipe through the ventilating notch and the suction port.

Further, the pump subassembly includes first two-way pump, sunction inlet, first exhaust opening and second exhaust opening, the left end of first two-way pump is connected with the sunction inlet, and the right-hand member of first two-way pump is connected with first exhaust opening, the top outside of first two-way pump is connected with the second exhaust opening.

Furthermore, the first bidirectional pump is rotatably connected with the first motor, and the inlet pipe is communicated with the first bidirectional pump through the suction inlet.

Further, the deashing subassembly includes copper cladding, dwang, rubber layer and air-moving plate, the inboard middle-end of copper cladding is provided with the dwang, and the dwang is close to copper cladding one side and is connected with the rubber layer, the wind air-moving plate is connected in the top outside of dwang.

Further, the rubber layer is connected with the rotating rod in a sleeved mode, and the outer surface of the rubber layer is attached to the inner surface of the copper cladding.

Further, purify the subassembly and include holding vessel, wire groove, second motor, wire groove board, replacement pipe, around the flow tube, the wire groove has been seted up to the upper and lower both sides of holding vessel, and the upper and lower both sides of holding vessel are provided with the second motor, the output of second motor is connected with the wire groove board, the right-hand member of holding vessel is connected with the replacement pipe, the left part outside of suction tube is connected with around the flow tube.

Furthermore, the second motor is connected with the mesh groove plate in a rotating mode, and the outer surface of the mesh groove plate is attached to the inner surface of the storage tank.

Further, the storage tank is communicated with the suction pipe through the replacement pipe, and the suction pipe is communicated with the dirt passing pipe through a second bidirectional suction pump.

The invention provides an air purifier which has the following beneficial effects: the static on pnematic board surface can adsorb the dust impurity in the air, this makes equipment still can clean the absorption to the dust in the air, this makes the purifying effect of equipment can obtain promoting, the rotation of pnematic board is driven by the flow of air in addition, this can remove extra drive unit from, this energy-conserving performance that can lifting means, work through the second motor, it rotates to enable the net gape board, this makes the net gape board can change the size of net gape, through the size of change net gape, enable the intraductal air flow rate of suction and change with the time of active carbon contact, this makes equipment can freely adjust the contact time of air and active carbon according to the turbidity of outside air, this whole purifying effect in space and the use flexibility that can lifting means.

1. The air purification device can drive the air plate outside the rotating rod to rotate after the sterilized air flows into the purification box, the air plate can enable the rubber layer at the tail end of the rotating rod to perform rotary friction on the inner surface of the copper cladding layer in the rotating process, the copper cladding layer made of copper and the rubber layer made of rubber generate static electricity after the friction, the static electricity can be transmitted to the surface of the air plate through the rotating rod, the air plate can also enable the air to flow in the rotating process, a plurality of groups of air plates are arranged in the purification box, the air can be fully mixed in the purification box through the rotation of the air plate, the phenomenon that the purification effect is inconsistent due to the fact that the air is not uniformly distributed can be effectively avoided through air mixing, the air purification effect of the device can be improved, the static electricity on the surface of the air plate can adsorb dust and impurities in the air in the process that the air is uniformly mixed, the device can clean and absorb the dust in the air, the purification effect of the device can be improved, and in addition, the rotation of the air plate is driven by the flow of the air, the additional driving unit can save energy, and the device can be improved.

2. Before the equipment works in summer, the heat medium box in the plate body pipe can heat the left plate body pipe to about 70 ℃, outside air enters the inner side of the plate body pipe and contacts with hot air, the hot air can effectively kill germs in the outside air, before the equipment is used in winter, the plate body pipe at the right end can be cooled to about minus 5 ℃ by the refrigerant box, so that the air can be sterilized when entering the refrigerant box, the temperature of the outside air is lower in winter, the power required by the refrigerant box for cooling to the specified temperature can be reduced, the integral power consumption of the equipment can be improved, the power for heating the heat medium box to the specified temperature can be reduced when the equipment is used in summer in the same way, the integral power consumption of the equipment can be reduced, the heat medium box and the refrigerant box can perform environmental heating and cooling functions in corresponding seasons besides sterilization, and the integral functionality of the equipment can be effectively improved.

3. When air flows through the storage tank, the air can enter the storage tank through the mesh groove at the bottom end of the storage tank and is in contact with the activated carbon, the air in contact with the activated carbon can be discharged out of the storage tank through the mesh groove at the top end of the storage tank after being cleaned, and the mesh groove plate can rotate through the operation of the second motor, so that the mesh groove plate can change the size of the mesh groove, the air flow rate in the suction pipe and the time of contact with the activated carbon can be changed by changing the size of the mesh groove, the contact time of the air and the activated carbon can be freely adjusted by equipment according to the turbidity of the outside air, and the space overall purification effect and the use flexibility of the equipment can be improved.

4. When the activated carbon needs to be replaced, the valve at the outer end of the suction pipe is closed, the valve at the outer end of the sewage through pipe is opened, the valve at the outer end of the return pipe is closed, the valve at the outer end of the replacement pipe is opened, at the same time, when the second bidirectional suction pump sucks the activated carbon, the suction force can enter the inner side of the storage tank through the replacement pipe, so that the activated carbon in the storage tank can be sucked out by the equipment and discharged into the sewage collection tank through the sewage through pipe, after a user cleans the activated carbon in the sewage collection tank, the brand-new sewage collection tank is put into the position of a sewage collection position, at the moment, the second bidirectional suction pump works in the reverse direction, the activated carbon in the sewage collection tank can be sent back into the storage tank according to the original path, through the above operations, the automatic activated carbon replacement can be realized under the condition that no new component needs to be added to the equipment, and the convenience in the use process of the equipment can be greatly improved.

5. According to the invention, after the air in the plate body pipe is heated to a high temperature by the heating medium box, the first bidirectional pump works to input the high-temperature air in the plate body pipe into the purification box along the air purification route, the static electricity on the surface of the pneumatic plate can be eliminated after encountering the high temperature, so that the dust adhered to the surface of the pneumatic plate can be mixed with the high-temperature air, the valve at the outer end of the suction pipe is closed, the valve at the outer end of the bypass pipe is opened, the valve at the outer end of the dirt through pipe is opened, the valve at the outer end of the return pipe is closed, and meanwhile, the second bidirectional pump works to discharge the dust and the high-temperature air into the dirt collection box through the dirt through pipe, so that the adsorbed dust can be automatically cleaned under the condition that no additional equipment is added, the condition that the dust cleaning effect is poor due to excessive dust on the surface of the pneumatic plate can be effectively avoided, and meanwhile, the dirt collection box is arranged at the top end of the equipment, so that the process of manually cleaning the collected dust by a user can be facilitated.

Drawings

FIG. 1 is a front view of an air purifier according to the present invention;

FIG. 2 is a schematic perspective view of a housing of an air purifier according to the present invention;

FIG. 3 is a schematic view of an air cleaner intake assembly according to the present invention;

FIG. 4 is an enlarged schematic view of an air purifier shown in FIG. 1;

FIG. 5 is a cross-sectional view of a purifying box of an air purifier according to the present invention;

FIG. 6 is a schematic view of a suction tube of an air purifier according to the present invention;

FIG. 7 is an enlarged view of the air purifier shown in FIG. 6B;

fig. 8 is a schematic top view of a storage tank of an air cleaner according to the present invention.

In the figure: 1. a box body; 2. a vent slot; 3. a suction assembly; 301. a plate body pipe; 302. a suction port; 303. a heating medium tank; 304. an inlet pipe; 305. a refrigerant tank; 4. a regulating and controlling box; 5. a first motor; 6. a pump assembly; 601. a first bi-directional pumping; 602. a suction inlet; 603. a first exhaust port; 604. a second air outlet; 7. a purification box; 8. a soot cleaning assembly; 801. a copper cladding; 802. rotating the rod; 803. a rubber layer; 804. a wind power plate; 9. a shunt box; 10. a first electrically controlled valve; 11. a second electrically controlled valve; 12. a suction tube; 13. a third electrically controlled valve; 14. a purification component; 1401. a storage tank; 1402. a mesh groove; 1403. a second motor; 1404. a grid plate; 1405. replacing the tube; 1406. a bypass pipe; 15. a second bidirectional pump; 16. a return pipe; 17. a fourth electrically controlled valve; 18. a sewage pipe; 19. a sewage collection box.

Detailed Description

Referring to fig. 1-8, the present invention provides the following technical solutions: the utility model provides an air purifier, including box 1, purifying box 7 and purification subassembly 14, ventilating notch 2 has been seted up to the left and right sides of box 1, and the inside both sides of box 1 settle there is the subassembly 3 that inhales, the end-to-end connection who inhales subassembly 3 has regulation and control case 4, and the bottom middle-end of regulation and control case 4 is provided with first motor 5, the output of first motor 5 is connected with pump assembly 6, purifying box 7 settles in the top outside of regulation and control case 4, and the inside of purifying box 7 is provided with deashing subassembly 8, the inboard top of purifying box 7 is provided with reposition of redundant personnel case 9, and the outside surface of reposition of redundant personnel case 9 is provided with first electrically controlled valve 10, the bottom outside of reposition of redundant personnel case 9 is provided with second electrically controlled valve 11, the inboard middle-end of reposition of redundant personnel case 9 is provided with suction tube 12, and the surface of suction tube 12 is provided with third electrically controlled valve 13, purifying subassembly 14 sets up on the inboard top of suction tube 12, and the top outside of reposition of redundant personnel case 12 is provided with second two-way suction pump 15, the outside of second two-way suction tube 15 is provided with return pipe 16 respectively, the outside of the top of reposition of redundant personnel case 9 is provided with dirty pipe 18, the dirty collecting tube 18 that leads to be connected with the dirt collecting tube 18.

Referring to fig. 1-3, the suction assembly 3 includes a plate body tube 301, a suction port 302, a heat medium box 303, an inlet tube 304 and a refrigerant box 305, the outer end of the plate body tube 301 is provided with the suction port 302, the middle end of the inner side of the plate body tube 301 at the left end of the box 1 is provided with the heat medium box 303, the middle end of the inner side of the plate body tube 301 at the right end of the box 1 is provided with the hot refrigerant box 305, the bottom end of the plate body tube 301 is connected with the inlet tube 304, the outer surface of the plate body tube 301 is attached to the inner surface of the box 1, the box 1 is communicated with the plate body tube 301 through a vent slot 2 and the suction port 302, the suction pump assembly 6 includes a first bidirectional suction pump 601, a suction port 602, a first exhaust port 603 and a second exhaust port 604, the left end of the first bidirectional suction pump 601 is connected with the suction port 602, the right end of the first bidirectional pump 601 is connected with the first exhaust port 603, the outer side of the top of the first bidirectional pump 601 is connected with the second exhaust port 604, the first bidirectional pump 601 is rotatably connected with the first motor 5, and the inlet tube 304 is communicated with the first bidirectional pump 601 through the suction port 602;

the specific operation is as follows, when the equipment is used in summer, the first bidirectional suction pump 601 works, the suction force can be transmitted to the inlet pipe 304 through the suction inlet 602, after entering the inside of the inlet pipe 304, the suction force can enter the suction inlet 302 through the plate body pipe 301, so that the outside air can enter the inner side of the plate body pipe 301 through the ventilating notch 2, before the equipment works, the heat medium box 303 in the plate body pipe 301 can heat the plate body pipe 301 to about 70 ℃, after the outside air enters the inner side of the plate body pipe 301 and contacts with the hot air, the hot air can effectively kill germs in the outside air, and the sterilized air can enter the inner side of the first bidirectional suction pump 601 and is conveyed to the purifying box 7 through the second exhaust outlet 604.

Referring to fig. 1, 4 and 5, the ash removal assembly 8 includes a copper cladding 801, a rotating rod 802, a rubber layer 803 and an air blowing plate 804, the rotating rod 802 is disposed at the middle end of the inner side of the copper cladding 801, the rubber layer 803 is connected to one side of the rotating rod 802 close to the copper cladding 801, the air blowing plate 804 is connected to the outer side of the top of the rotating rod 802, the rubber layer 803 is connected to the rotating rod 802 in a sleeved manner, and the outer surface of the rubber layer 803 is attached to the inner surface of the copper cladding 801;

specifically, after the sterilized air flows into the interior of the purification box 7, the pneumatic plate 804 outside the rotating rod 802 is driven to rotate, during the rotation of the pneumatic plate 804, the rubber layer 803 at the end of the rotating rod 802 can perform rotational friction on the inner surface of the copper cladding 801, while after the copper cladding 801 and the rubber layer 803 made of rubber material are subjected to friction, static electricity can be generated, and the static electricity can be transmitted to the surface of the pneumatic plate 804 through the rotating rod 802, during the rotation of the pneumatic plate 804, the air can also flow, the pneumatic plate 804 is provided with a plurality of groups inside the purification box 7, through the rotation of the pneumatic plate 804, the air can be fully mixed in the purification box 7, through the mixed air, the occurrence of inconsistent purification effect caused by uneven distribution of air can be effectively avoided, which can improve the air purification effect of the equipment, during the uniform mixing of air, the static electricity on the surface of the pneumatic plate 804 can adsorb impurities in the air, which the dust in the air can be also be cleaned and absorbed, so that the purification effect of the equipment can be improved, and the air can be driven by the pneumatic plate 804 to flow through the second electric control valve 13, and the suction pipe 12, so that the air can flow in the third electric control unit 12, and the suction pipe 12 can be driven by the electric control unit 12, and the suction pipe 12, which can be driven by the electric control unit 12, the purified air can flow through the purification component 14, and can be adsorbed by the activated carbon in the purification component 14 to absorb harmful substances in the air, after the purified air enters the second bidirectional suction pump 15, the purified air can enter the purification box 7 again through the return pipe 16, after the purified air enters the purification box 7 through the return pipe 16, the second electric control valve 11 and the fourth electric control valve 17 are opened, the first electric control valve 10 and the third electric control valve 13 are closed, and the first bidirectional suction pump 601 performs reverse suction, so that the purified air can enter the diversion box 9 through the fourth electric control valve 17, then flows out from the second electric control valve 11, is sucked to the inner side of the first bidirectional suction pump 601 through the second exhaust port 604, and the purified air entering the first bidirectional suction pump 601 can be discharged to the inner side of the plate pipe 301 at the right end of the box body 1 through the first exhaust port 603, the plate body pipe 301 at the right end of the box body 1 can work through the refrigerant box 305 to refrigerate, after purified air enters the plate body pipe 301 at the right end of the box body 1, the purified air can be contacted with cold air and then is sprayed out from the ventilating notch 2 at the right end, so that the equipment can refrigerate in summer, when the equipment is used in winter, the first motor 5 drives the first bidirectional pump 601 to adjust the direction, so that the positions of the suction inlet 602 and the first exhaust outlet 603 can be adjusted, at the moment, the air can be sucked in from the ventilating notch 2 at the right end of the equipment and is discharged from the ventilating notch 2 at the left end, before the equipment is used, the refrigerant box 305 can cool the plate body pipe 301 at the right end to about minus 5 ℃, so that the air can also be sterilized when entering the refrigerant box 305, the temperature of the outside air is low in winter, so that the power required for cooling the refrigerant box 305 to a specified temperature can be reduced, and the whole power consumption of the equipment can be improved, similarly, when the equipment is used in summer, the power of the heat medium box 303 heated to the specified temperature is also reduced, so that the whole power consumption of the equipment can be reduced, and the heat medium box 303 and the refrigerant box 305 can perform the functions of environment heating and temperature reduction in corresponding seasons besides sterilization, so that the whole functionality of the equipment can be effectively improved.

Referring to fig. 1, 6, 7 and 8, the purification assembly 14 includes a storage tank 1401, a mesh slot 1402, a second motor 1403, a mesh slot plate 1404, a displacement pipe 1405 and a flow-winding pipe 1406, the mesh slot 1402 is disposed on the upper and lower sides of the storage tank 1401, the second motor 1403 is disposed on the upper and lower sides of the storage tank 1401, the output end of the second motor 1403 is connected to the mesh slot plate 1404, the displacement pipe 1405 is connected to the right end of the storage tank 1401, the flow-winding pipe 1406 is connected to the left outer side of the suction pipe 12, the second motor 1403 is rotatably connected to the mesh slot plate 1404, the outer surface of the mesh slot plate 1404 is attached to the inner surface of the storage tank 1401, the storage tank 1401 is communicated with the suction pipe 12 through the displacement pipe 1405, and the suction pipe 12 is communicated with the sewage-passing pipe 18 through the second bidirectional pump 15.

Specifically, when air flows through the storage tank 1401, the air can enter the storage tank 1401 through the mesh groove 1402 at the bottom end of the storage tank 1401 and contact with the activated carbon, the air contacting with the activated carbon can be discharged out of the storage tank 1401 through the mesh groove 1402 at the top end of the storage tank 1401 after being cleaned, the mesh groove plate 1404 can rotate through the operation of the second motor 1403, the size of the mesh groove plate 1404 can be changed, the air flow rate in the suction pipe 12 and the contact time with the activated carbon can be changed by changing the size of the mesh groove 1402, the contact time of the air and the activated carbon can be freely adjusted according to the turbidity of the outside air, the overall purification effect and the use flexibility of the space of the equipment can be improved, when the activated carbon needs to be replaced, the valve at the outer end of the suction pipe 12 is closed, the valve at the sewage pipe 18 is opened, the valve at the outer end of the return pipe 16 is closed, meanwhile, the valve at the outer end of the replacement pipe 1405 is opened, when the second bidirectional pump 15 pumps, the pumping force can enter the storage tank 1401 through the replacement pipe 1405, so that the equipment can pump out the activated carbon in the storage tank 1401 and discharge the activated carbon into the dirt collection tank 19 through the dirt through pipe 18, after a user cleans the activated carbon in the dirt collection tank 19, the brand-new dirt collection tank 19 is put into the position of the dirt collection tank 19, at the moment, the second bidirectional pump 15 works in the reverse direction, the activated carbon in the dirt collection tank 19 can be sent back to the storage tank 1401 according to the original route, through the above operations, the equipment can realize automatic activated carbon replacement without adding new parts, the convenience in the using process of the equipment can be greatly improved, after the air in the plate body pipe 301 is heated to high temperature by the heat medium tank 303, the first bidirectional pump 601 works, the high-temperature air in the plate body pipe 301 can be input into the purification tank 7 along the air purification route, static electricity on the surface of the wind board 804 can be eliminated after high temperature is met, so that dust adhered to the surface of the wind board 804 can be mixed with high-temperature air, at the moment, the valve at the outer end of the suction pipe 12 is closed, the valve at the outer end of the flow surrounding pipe 1406 is opened, the valve at the outer end of the dirt passing pipe 18 is opened, the valve at the outer end of the return pipe 16 is closed, meanwhile, the second bidirectional suction pump 15 works, dust and high-temperature air can be discharged into the dirt collection box 19 through the dirt passing pipe 18, the adsorbed dust can be automatically cleaned under the condition that no additional equipment is added to the equipment, the situation that the dust cleaning effect is poor due to excessive dust on the surface of the wind board 804 can be effectively avoided, and meanwhile, the dirt collection box 19 is arranged at the top end of the equipment, and the process of manually cleaning the collected dust by a user can be facilitated.

In summary, when the air purifier is used, firstly, when the equipment is used in summer, the first bidirectional pump 601 works to enable suction force to be transmitted to the inlet pipe 304 through the suction inlet 602, the suction force enters the inlet pipe 304 and then enters the suction inlet 302 through the plate body pipe 301, so that external air can enter the inner side of the plate body pipe 301 through the ventilating notch 2, before the equipment works, the heat medium box 303 in the plate body pipe 301 can heat the plate body pipe 301 to about 70 ℃, after the external air enters the inner side of the plate body pipe 301 and contacts with hot air, the hot air can effectively kill germs in the external air, and the sterilized air can enter the inner side of the first bidirectional pump 601 and is conveyed to the purifying box 7 through the second exhaust outlet 604;

then after the sterilized air flows into the purification box 7, the air-driven plate 804 outside the rotating rod 802 is driven to rotate, in the rotating process of the air-driven plate 804, the rubber layer 803 at the tail end of the rotating rod 802 can perform rotary friction on the inner surface of the copper cladding 801, the copper cladding 801 made of copper and the rubber layer 803 made of rubber can generate static electricity after friction, the static electricity can be transmitted to the surface of the air-driven plate 804 through the rotating rod 802, in the rotating process of the air-driven plate 804, the air can also flow, a plurality of groups of air-driven plates 804 are arranged in the purification box 7, through the rotation of the air-driven plates 804, the air can be fully mixed in the purification box 7, through mixing the air, the condition that the purification effect is inconsistent due to uneven air distribution can be effectively avoided, the air purification effect of the equipment can be improved, and in the uniform mixing process of the air, the static electricity on the surface of the air-driven plate 804 can adsorb dust impurities in the air, so that the dust in the air can be cleaned and absorbed, the purification effect of the equipment can be improved, and in addition, the air-driven by the additional energy-saving unit, the air-driven unit can be driven by the air-driven;

then after the air ash removal is completed, the first electric control valve 10 on the surface of the diversion box 9 and the third electric control valve 13 on the surface of the suction pipe 12 are opened, and the second bidirectional suction pump 15 is operated, so that the suction force can be transmitted to the third electric control valve 13 through the suction pipe 12, and the air in the purification box 7 can enter the inner side of the suction pipe 12 through the first electric control valve 10 and the third electric control valve 13 and can flow to the direction of the second bidirectional suction pump 15 through the suction pipe 12, and the air can flow through the purification component 14 during the flow process in the suction pipe 12, can absorb harmful substances in the air through activated carbon adsorption in the purification component 14, and can enter the purification box 7 again through the return pipe 16 after the purified air enters the second bidirectional suction pump 15;

then after the purified air enters the inside of the purifying box 7 through the return pipe 16, the second electric control valve 11 and the fourth electric control valve 17 are opened, the first electric control valve 10 and the third electric control valve 13 are closed, and the first bidirectional suction pump 601 performs reverse suction, which enables the purified air to enter the inside of the diversion box 9 through the fourth electric control valve 17, flow out from the second electric control valve 11, be sucked to the inside of the first bidirectional suction pump 601 through the second air outlet 604, and the purified air entering the first bidirectional suction pump 601 can be discharged to the inside of the plate body pipe 301 at the right end of the box body 1 through the first air outlet 603, the plate body pipe 301 at the right end of the box body 1 can be refrigerated through the refrigerant box 305, after the purified air enters the inside of the plate body pipe 301 at the right end of the box body 1, the purified air can be contacted with the cold air and then be sprayed out from the air outlet 2 at the right end, which enables the equipment to be refrigerated in summer, when the equipment is used in winter, the first motor 5 drives the first bidirectional pump 601 to adjust the direction, so that the positions of the suction inlet 602 and the first exhaust outlet 603 can be adjusted, air can be sucked from the ventilating notch 2 at the right end of the equipment and discharged from the ventilating notch 2 at the left end, the plate body pipe 301 at the right end of the cooling medium box 305 can be cooled to about minus 5 ℃ before the equipment is used, so that the air can be sterilized when entering the cooling medium box 305, the power required for cooling the cooling medium box 305 to the specified temperature can be reduced due to low outside air temperature in winter, the whole power consumption of the equipment can be improved, the power for heating the heating medium box 303 to the specified temperature can be reduced when the equipment is used in summer, the whole power consumption of the equipment can be reduced, the heating medium box 303 and the cooling medium box 305 can perform the functions of temperature increasing and reducing in corresponding seasons except sterilization, the overall functionality of the equipment can be effectively improved;

when air flows through the storage tank 1401, the air can enter the storage tank 1401 through the mesh groove 1402 at the bottom end of the storage tank 1401 and can contact with the activated carbon, the air contacting with the activated carbon can be discharged out of the storage tank 1401 through the mesh groove 1402 at the top end of the storage tank 1401 after being cleaned, and the mesh groove plate 1404 can rotate through the operation of the second motor 1403, so that the mesh groove plate 1404 can change the size of the mesh groove 1402, the air flow rate in the suction pipe 12 and the time of contact with the activated carbon can be changed by changing the size of the mesh groove 1402, the time of contact between the air and the activated carbon can be freely adjusted according to the turbidity of the outside air, and the whole space purification effect and the use flexibility of the equipment can be improved;

then when the activated carbon needs to be replaced, the valve at the outer end of the suction pipe 12 is closed, the valve at the outer end of the sewage through pipe 18 is opened, the valve at the outer end of the return pipe 16 is closed, the valve at the outer end of the replacement pipe 1405 is opened, at the same time, when the second bidirectional suction pump 15 sucks the activated carbon, the suction force can enter the inner side of the storage tank 1401 through the replacement pipe 1405, so that the activated carbon in the storage tank 1401 can be sucked out by the equipment and discharged into the sewage collection tank 19 through the sewage through pipe 18, after a user cleans the activated carbon in the sewage collection tank 19, the brand-new sewage collection tank 19 is put into the position of the sewage collection tank 19, at the moment, the second bidirectional suction pump 15 works in the reverse direction, the activated carbon in the sewage collection tank 19 can be sent back into the storage tank 1401 as it is, through the above operations, the automatic activated carbon replacement can be realized under the condition that the equipment does not need to add new components, and the convenience in the use process of the equipment can be greatly improved;

finally, after the air in the plate body pipe 301 is heated to a high temperature by the heat medium box 303, the first bidirectional suction pump 601 works to input the high-temperature air in the plate body pipe 301 into the purification box 7 along an air purification route, the static electricity on the surface of the pneumatic plate 804 can be eliminated after encountering the high temperature, so that the dust adhered to the surface of the pneumatic plate 804 can be mixed with the high-temperature air, at the moment, the valve at the outer end of the suction pipe 12 is closed, the valve at the outer end of the bypass pipe 1406 is opened, the valve at the outer end of the dirt passing pipe 18 is opened, the valve at the outer end of the return pipe 16 is closed, and meanwhile, the second bidirectional suction pump 15 works to discharge the dust and the high-temperature air into the dirt collection box 19 through the dirt passing pipe 18, so that the adsorbed dust can be automatically cleaned under the condition that no additional equipment is added, the condition that the dust cleaning effect is deteriorated due to excessive dust on the surface of the pneumatic plate 804 can be effectively avoided, and the dirt collection box 19 is arranged at the top of the equipment, so that a flow process of manually cleaning the collected dust by a user can be facilitated.

Claims (10)

1. An air purifier is characterized by comprising a box body (1), a purifying box (7) and a purifying assembly (14), wherein ventilating notches (2) are formed in the left side and the right side of the box body (1), suction assemblies (3) are arranged on two sides in the box body (1), the tail end of each suction assembly (3) is connected with a regulating and controlling box (4), a first motor (5) is arranged at the middle bottom of each regulating and controlling box (4), the output end of each first motor (5) is connected with a suction assembly (6), the purifying box (7) is arranged on the outer side of the top of each regulating and controlling box (4), a dust cleaning assembly (8) is arranged in the purifying box (7), a flow dividing box (9) is arranged at the top end of the inner side of the purifying box (7), a first electric control valve (10) is arranged on the surface of the outer side of the flow dividing box (9), a second electric control valve (11) is arranged on the outer side of the bottom of the flow dividing box (9), a suction pipe (12) is arranged at the middle end of the inner side of the flow dividing box (9), a third electric control valve (13) is arranged on the surface of the flow dividing box (12), a second electric control valve (14) is arranged on the top end of the inner side of the suction pipe (12), a second electric control assembly (15) is arranged on the top of the outer side of the suction pipe (15), and a bidirectional pump (15) is arranged on the outer side of the two-directional pump (15) respectively, and fourth electric control valves (17) are arranged on two sides of the top of the flow distribution box (9), a sewage through pipe (18) is connected to the outer side of the top of the second bidirectional pump (15), and a sewage collection box (19) is arranged on the outer side of the top of the sewage through pipe (18).

2. The air purifier as claimed in claim 1, wherein the suction assembly (3) comprises a plate body pipe (301), a suction port (302), a heat medium tank (303), an inlet pipe (304) and a refrigerant tank (305), the suction port (302) is opened at the outer end of the plate body pipe (301), the heat medium tank (303) is arranged at the middle end of the inner side of the plate body pipe (301) at the left end of the box body (1), the heat refrigerant tank (305) is arranged at the middle end of the inner side of the plate body pipe (301) at the right end of the box body (1), and the inlet pipe (304) is connected to the bottom end of the plate body pipe (301).

3. An air cleaner according to claim 2, wherein the outer surface of the plate body pipe (301) is attached to the inner surface of the case (1), and the case (1) is communicated with the plate body pipe (301) through the ventilating slot (2) and the suction port (302).

4. The air purifier as claimed in claim 2, wherein the pumping assembly (6) comprises a first bidirectional pumping pump (601), a suction inlet (602), a first exhaust outlet (603) and a second exhaust outlet (604), the suction inlet (602) is connected to the left end of the first bidirectional pumping pump (601), the first exhaust outlet (603) is connected to the right end of the first bidirectional pumping pump (601), and the second exhaust outlet (604) is connected to the outer side of the top of the first bidirectional pumping pump (601).

5. An air cleaner according to claim 4, wherein the first bi-directional pump (601) is rotatably connected to the first motor (5), and the inlet pipe (304) is connected to the first bi-directional pump (601) through the suction inlet (602).

6. The air purifier as claimed in claim 1, wherein the ash removal assembly (8) comprises a copper cladding (801), a rotating rod (802), a rubber layer (803) and an air blowing plate (804), the rotating rod (802) is arranged at the middle end of the inner side of the copper cladding (801), the rubber layer (803) is connected to one side, close to the copper cladding (801), of the rotating rod (802), and the air blowing plate (804) is connected to the outer side of the top of the rotating rod (802).

7. An air purifier according to claim 6, wherein the rubber layer (803) is sleeved with the rotating rod (802), and the outer surface of the rubber layer (803) is attached to the inner surface of the copper cladding (801).

8. The air purifier as claimed in claim 1, wherein the purifying assembly (14) comprises a storage tank (1401), a mesh groove (1402), a second motor (1403), a mesh groove plate (1404), a displacement pipe (1405) and a flow winding pipe (1406), the mesh groove (1402) is formed in the upper side and the lower side of the storage tank (1401), the second motor (1403) is arranged on the upper side and the lower side of the storage tank (1401), the mesh groove plate (1404) is connected to the output end of the second motor (1403), the displacement pipe (1405) is connected to the right end of the storage tank (1401), and the flow winding pipe (1406) is connected to the outer side of the left portion of the suction pipe (12).

9. An air cleaner as claimed in claim 8, wherein the second motor (1403) is rotatably connected to the mesh tray panel (1404), and an outer surface of the mesh tray panel (1404) is in contact with an inner surface of the storage tank (1401).

10. An air cleaner according to claim 8, wherein the storage tank (1401) is in communication with the suction pipe (12) via a displacement pipe (1405), and the suction pipe (12) is in communication with the aeration pipe (18) via a second bi-directional suction pump (15).

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