CN209978204U - Portable air cleaning structure - Google Patents

Abstract

The utility model discloses a portable air cleaning structure, it includes that an outer cover group reaches an empty group and a fan of straining, and this empty group of straining sets up in outer cover is organized, and this empty group of straining inside is provided with an at least photocatalyst subassembly, and this empty group of straining both sides limit is provided with a control circuit respectively again, the last at least one light-emitting component that is provided with of control circuit, and the fan set up in outer cover is organized and the montage has a motor, light-emitting component produces the light source and shines the photocatalyst subassembly, just during motor operation and drive fan, this fan can be in outer cover internal rotation and with outside air by inhaling, and its outside air just can pass through the photocatalyst subassembly filters to clean air to send clean air out by the air outlet, in order to reach air-purifying and sterilization function and the small efficiency of conveniently carrying.

Description

Portable air cleaning structure

Technical Field

The utility model relates to an air purification structure, in particular to a portable air purification structure with air purification and sterilization functions and small size and convenient carrying.

Background

An important risk factor for air pollution is the health problems that lead to humans, including respiratory infections, heart disease, chronic obstructive pulmonary disease, stroke, and lung cancer. Health problems caused by air pollution may include dyspnea, asthma, coughing, wheezing, and even exacerbating existing respiratory and cardiopulmonary ailments. Deterioration of human health due to poor air quality is common, but the major impact is on the cardiopulmonary system. The response of individuals to air pollution is different, depending on the kinds of pollutants, exposure conditions, individual health conditions, genetic factors and the like, therefore, in order to achieve the purpose of purifying air, at least one air purifier is added at home, so that the dirty air passes through a filter screen in the air purifier, then various pollutants are removed or adsorbed by the filter screen, and the purified air is released, however, due to the relation of work or other factors, the time of one day at home may be less than half a day, in other words, most of people are exposed to the external environment, therefore, the air purifier at home obviously cannot provide the clean air at any time, but the air purifiers sold on the market are mainly designed aiming at the indoor space at home, are mostly not easy to carry or too large in volume to store, and cannot carry the air purifier with one when going out to keep good air quality, however, since the space in the vehicle is narrow, the aerosol is easy to accumulate and seriously affects the quality of the air in the vehicle, and harms the health of the driver and passengers, so that the environmental space in the vehicle needs an air cleaner to help purify the air when the vehicle is driven outdoors, and how to reduce the volume of the air cleaner, the air cleaner can occupy no space and is convenient to move and carry, and even can be installed in the space in the vehicle, thereby really improving the necessity.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable air cleaning structure can solve the inconvenient technical problem who carries and can't install in the car that current air cleaning structure exists because of the volume is too big.

A portable air cleaning structure comprises an outer cover group, wherein the outer cover group is provided with an upper cover and a lower cover, a front opening is formed at the front end of the outer cover group, and a rear opening is formed at the rear end of the outer cover group;

the air filter group is arranged in the outer cover group, at least one photocatalyst component is arranged in the air filter group, a front frame piece is arranged at the front end of the air filter group, a rear frame piece is arranged at the rear end of the air filter group, two side edges of the air filter group are respectively provided with a control circuit, and at least one light-emitting piece is arranged on the control circuit;

and the fan is arranged in the outer cover assembly and is oppositely arranged on one side of the rear frame piece, and the fan assembly is connected with a motor.

Furthermore, an air inlet is formed in the front frame member, and an air outlet is formed in the rear frame member.

Further, the outer cover set further comprises a side cover, the side cover is connected with the upper cover and the lower cover, the side cover is arranged on one side of the control circuit relatively, a side hole is formed in the side cover, and the side hole supplies a switch set of the control circuit to be set.

Furthermore, the outer cover assembly further comprises a side shell, the side shell is assembled with the lower cover, and at least one power supply element is arranged in the side shell.

Furthermore, a magnetic element is arranged at the rear end of the air filter group, and a magnetic absorbing element is arranged on the rear frame piece.

Furthermore, an upper rail is arranged on the inner side of the upper cover, a lower rail is arranged on the inner side of the lower cover, and the width of the upper rail is larger than that of the lower rail.

Furthermore, the upper side of the air filter group is provided with an upper guide part which is jointed with the upper track, the lower side of the air filter group is provided with a lower guide part which is jointed with the lower track, and the width of the upper guide part is larger than that of the lower guide part.

Furthermore, an electrical connecting piece is arranged on the side shell.

Furthermore, the inner wall of the air filter group is provided with at least one inner guide groove, and the inner guide groove is used for the photocatalyst component group.

Furthermore, an upper positioning part and at least one upper flow guide channel are formed on the inner side of the upper cover.

Furthermore, a lower positioning part and at least a lower diversion channel are formed on the inner side of the lower cover, and the upper positioning part, the lower positioning part and the motor are mutually assembled.

Furthermore, the outer cover group is provided with a front air guide at the front opening position and a rear air guide at the rear opening position.

Adopt above-mentioned technical scheme the utility model discloses following beneficial effect can be brought:

the utility model discloses an outer cover group and empty group and a fan of straining, this empty group of straining is set up in outer cover is organized, and should empty the inside at least photocatalyst subassembly that is provided with of group of straining, should empty group both sides limit of straining is provided with a control circuit respectively again, the last at least one light-emitting component that is provided with of control circuit, and the fan set up in outer cover is organized and the montage has a motor, light-emitting component produces the light source and shines photocatalyst subassembly, just when motor operation and drive fan, this fan can be in outer cover internal rotation and with outside air by inhaling, and its outside air just can pass through photocatalyst subassembly filters to clean air to send clean air out by the air outlet to reach the efficiency that air-purifying and bactericidal function and small conveniently carried.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective exploded view of the preferred embodiment of the present invention.

Fig. 3 is a schematic cross-sectional view of the preferred embodiment of the present invention.

Fig. 4 is another schematic cross-sectional view of the preferred embodiment of the present invention.

Fig. 5 is a first schematic diagram of the preferred embodiment of the present invention.

Fig. 6 is a second schematic diagram of the preferred embodiment of the present invention.

Fig. 7 is a third schematic view of the preferred embodiment of the present invention.

In the figure, 1-portable air cleaning structure, 2-outer cover group, 21-upper cover, 211-upper track, 212-upper positioning part, 213-upper flow guide channel, 22-lower cover, 221-lower track, 222-lower positioning part, 223-lower flow guide channel, 23-side cover, 231-side hole, 24-side shell, 241-power supply element, 242-electrical connecting piece, 25-front opening, 26-rear opening, 27-front air guide piece, 28-rear air guide piece, 29-magnetic element, 3-air filter group, 31-photocatalyst component, 32-front frame piece, 321-air inlet, 33-rear frame piece, 331-air outlet, 332-magnetic absorbing element, 34-control circuit, 341-luminous element, 342-switch, 35-upper guide part, 36-lower guide part, 37-inner guide groove, 4-fan, 41-motor and 5-external power supply.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and the detailed description;

please refer to fig. 1, fig. 2, fig. 3 and fig. 4, which are a perspective assembly view, a perspective exploded view, a cross-sectional view and another perspective cross-sectional view of the preferred embodiment of the present invention, as can be clearly seen from the drawings, wherein the portable air cleaning structure 1 includes an outer cover set 2, an air filter set 3 and a fan 4.

The outer cover assembly 2 includes an upper cover 21, a lower cover 22, a side cover 23 and a side casing 24, the outer cover assembly 2 is formed with a front opening 25 at the front position, and is formed with a rear opening 26 at the rear position, the inner side of the upper cover 21 is provided with an upper track 211 and is formed with an upper positioning portion 212 and at least one upper flow guiding channel 213, the lower cover 22 and the upper cover 21 are mutually assembled, and the inner side of the lower cover 22 is provided with a lower track 221 and is formed with a lower positioning portion 222 and at least one lower flow guiding channel 223, wherein the width of the upper track 211 is larger than the width of the lower track 221, the side cover 23 is arranged between the upper cover 21 and the lower cover 22 and is assembled with the upper cover 21 and the lower cover 22, and is formed with a side hole 231 on the side cover 23, the other side casing 24 is assembled with the lower cover 22, and the side casing 24 is provided with at least one power supply element 241 and is provided with an electrical connection 242, the outer cover assembly 2 is provided with a front air guide 27 at the position of the front opening 25 and a rear air guide 28 at the position of the rear opening 26.

The air filter group 3 is disposed in the outer cover group 2, the housing of the air filter group 3 is made of high transparent material and is provided with at least one photocatalyst component 31 therein, the air filter group 3 is provided with a front frame member 32 at the front end position, the front frame member 32 is provided with an air inlet 321 therein, the rear frame member 33 is provided at the rear end position, the rear frame member 33 is provided with an air outlet 331 therein, the rear frame member 33 is provided with a magnetic absorbing member 332 thereon, the positions of the two side edges of the air filter group 3 are respectively provided with a control circuit 34, the control circuit 34 is respectively provided with a light emitting member 341 thereon, and one of the control circuits 34 is disposed at one side of the side cover 23 and is provided with a switch 342, the switch 342 and the side hole 231 are mutually assembled, so that the air filter group 3 and the rear frame member 33 can be mutually assembled, and the upper and lower sides of the air filter group 3 are respectively provided with an upper guide portion 35 and a lower guide portion 36, the upper guide 35 is connected to the upper rail 211, the lower guide 36 is connected to the lower rail 221, the width of the upper guide 35 is greater than the width of the lower guide 36, the inner wall of the air filter set 3 is provided with at least one inner guide groove 37, the inner guide groove 37 is used for assembling the photocatalyst component 31, and the rear end of the air filter set 3 is provided with a magnetic element 38 connected to the magnetic attraction element 332.

The fan 4 is disposed in the outer cover assembly 2, the fan 4 is disposed on one side of the rear frame member 33, a motor 41 is connected to one side of the fan 4 opposite to the rear frame member 33, and the motor 41, the upper positioning portion 212 and the lower positioning portion 222 are mutually assembled and fixedly disposed in the outer cover assembly 2.

Referring to the aforementioned drawings and fig. 5, fig. 5 is a schematic diagram of a preferred embodiment of the present invention, as can be seen clearly from the drawings, wherein when the portable air cleaning structure 1 is powered on and the switch 342 is turned on, the motor 41 drives the fan 4 to rotate, the control circuit 34 is powered on to start the light emitting element 341 to generate a light source, and when the fan 4 rotates, the fan 4 generates an airflow in the cover assembly 2 and guides the airflow to the air outlet 331, and the external air outside the portable air cleaning structure 1 is sucked from the air inlet 321 and enters the photocatalyst element 31 of the air filter assembly 3, and the photocatalyst element 31 performs air cleaning and sterilization by the illumination of the light emitting element 341, and the cleaned air is sent from the air filter assembly 3 and sent to the air outlet 331 of the rear frame 33, and wherein the cleaned air can pass through the periphery of the motor 41, the upper positioning portion 212 and the lower positioning portion 222, the upper diversion tunnel 213 and the lower diversion tunnel 223 can reduce the blocking area and reduce the wind resistance, and the purified air is driven by the fan 4 to be sent to the rear air guide 28 and then discharged from the rear air guide 28, so as to achieve the functions of purifying air and sterilizing, and having small volume and convenient carrying.

Referring to the drawings and fig. 6, it can be seen clearly that the second embodiment of the present invention is a schematic implementation diagram, wherein the front frame member 32, the rear frame member 33, the front air guide member 27 and the rear air guide member 28 are common members, the front frame member 32 and the front air guide member 27 are combined by ultrasonic heat melting, the front frame member 32 and the air filter set 3 are locked and fixed with each other, the magnetic element 38 and the magnetic absorbing element 332 are attracted and positioned between the rear frame member 33 and the air filter set 3, thereby when the photocatalyst module 31 is to be replaced in the portable air cleaner structure, the front frame member 27, the front frame member 32 and the air filter set 3 can be directly extracted and the magnetic element 38 and the magnetic absorbing element 332 are separated from each other, the photocatalyst module 31 can be assembled with the kit and assembled with the inner guide groove 37 in an extraction manner, and the inner guide groove 37 is formed on the inner wall of the air filter set 3 with a slope, the photocatalyst components 31 are arranged in the inner guide grooves 37 in a mutually inclined manner, so that the light source generated by the light emitting member 341 can directly irradiate the photocatalyst components 31, and when the replaced air filter set 3 is to be installed back into the outer cover set 2, the upper guide part 35 of the air filter set 3 can be connected with the upper rail 211, the lower guide part 36 of the air filter set 3 is connected with the lower rail 221, and the upper rail 211 and the lower rail 221 are arranged in different widths, so that the condition that the air filter set 3 is installed incorrectly can be effectively avoided, and the installation position of the air filter set 3 can be marked by characters, so that the air filter set 3 can smoothly enter the outer cover set 2 and is mutually adsorbed and positioned by the magnetic elements 38 and the magnetic absorbing elements 332.

Referring to the drawings and fig. 7, a third implementation schematic diagram of a preferred embodiment of the present invention is clearly shown in the drawings, wherein the portable air cleaning structure 1 can be electrically connected to an external power supply 5 such as a solar circuit board, a mobile power supply, or a commercial power supply through the electrical connection member 242, so that the solar circuit board can generate power to the power supply 241 for charging.

The above, it is only the preferred embodiment of the present invention, not right the utility model discloses a restriction, any technical personnel in the field are not departing from the utility model discloses an in the protection scope, the equivalent replacement that makes and decorate all fall into the protection scope of the utility model.

Claims (12)

1. A portable air purification structure is characterized in that: comprises an outer cover group, wherein the outer cover group is provided with an upper cover and a lower cover, a front opening is formed at the front end of the outer cover group, and a rear opening is formed at the rear end of the outer cover group;

the air filter group is arranged in the outer cover group, at least one photocatalyst component is arranged in the air filter group, a front frame piece is arranged at the front end of the air filter group, a rear frame piece is arranged at the rear end of the air filter group, two side edges of the air filter group are respectively provided with a control circuit, and at least one light-emitting piece is arranged on the control circuit;

and the fan is arranged in the outer cover assembly and is oppositely arranged on one side of the rear frame piece, and the fan assembly is connected with a motor.

2. The portable air purification structure of claim 1, wherein: an air inlet is formed in the front frame member, and an air outlet is formed in the rear frame member.

3. The portable air purification structure of claim 1, wherein: the outer cover assembly further comprises a side cover, the side cover is connected with the upper cover and the lower cover, the side cover is arranged on one side of the control circuit oppositely, a side hole is formed in the side cover, and the side hole supplies a switch assembly of the control circuit.

4. The portable air purification structure of claim 1, wherein: the outer cover assembly further comprises a side shell which is assembled with the lower cover, and at least one power supply element is arranged in the side shell.

5. The portable air purification structure of claim 1, wherein: the air filter group is provided with a magnetic element at the rear end position, and the rear frame piece is provided with a magnetic absorbing element.

6. The portable air purification structure of claim 1, wherein: an upper rail is arranged on the inner side of the upper cover, a lower rail is arranged on the inner side of the lower cover, and the width of the upper rail is larger than that of the lower rail.

7. The portable air purification structure of claim 6, wherein: the upper side of the air filter group is provided with an upper guide part which is jointed with the upper track, the lower side of the air filter group is provided with a lower guide part which is jointed with the lower track, and the width of the upper guide part is larger than that of the lower guide part.

8. The portable air purification structure of claim 4, wherein: an electrical connecting piece is arranged on the side shell.

9. The portable air purification structure of claim 1, wherein: at least one inner guide groove is arranged on the inner wall of the air filter group and used for the photocatalyst component group to be arranged.

10. The portable air purification structure of claim 1, wherein: an upper positioning part and at least one upper flow guide channel are formed on the inner side of the upper cover.

11. The portable air purification structure of claim 10, wherein: the inner side of the lower cover is provided with a lower positioning part and at least one lower diversion channel, and the upper positioning part, the lower positioning part and the motor are mutually assembled.

12. The portable air purification structure of claim 1, wherein: the outer cover group is provided with a front air guide at the front opening position and a rear air guide at the rear opening position.

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