CN113769495A

CN113769495A - Intelligent vehicle-mounted air filter element

Info

Publication number: CN113769495A
Application number: CN202111131323.0A
Authority: CN
Inventors: 罗仁娟; 陈新; 黄燚
Original assignee: Yunnan Normal University
Current assignee: Yunnan University YNU; Yunnan Normal University
Priority date: 2021-09-26
Filing date: 2021-09-26
Publication date: 2021-12-10

Abstract

The invention discloses an intelligent vehicle-mounted air filter element which comprises a rectangular shell, a first filter layer, a second filter layer, a primary filter screen and an activated carbon filter screen, wherein the first filter layer is provided with an antiviral coating, and the second filter layer is provided with an antibacterial coating; the rectangular shell is hollow, openings are formed in the front and the back of the rectangular shell, the primary filter screen is embedded in the opening in the front of the rectangular shell, and the activated carbon filter screen is embedded in the opening in the back of the rectangular shell; the inside of the rectangular shell is provided with a first rotatable storage roller, a first recovery roller, a second storage roller and a second recovery roller. And a part of first filter layer between the first storage roller and the first recovery roller and a part of second filter layer between the second storage roller and the second recovery roller are sequentially positioned between the primary filter screen and the activated carbon filter screen. The invention prolongs the service life of the filter element, increases the function of automatically replacing the filter element, greatly improves the intelligent degree and simultaneously reduces the vehicle maintenance cost.

Description

Intelligent vehicle-mounted air filter element

Technical Field

The invention relates to the technical field of vehicle-mounted filter elements, in particular to an intelligent vehicle-mounted air filter element.

Background

With the development of the whole society, the popularity of automobiles is higher and higher, and the air quality on roads is also sharply reduced, especially in urban areas. The air of the road is mainly mixed with tiny particles, bacteria, waste gas, dust and the like, and various viruses taking the air as a transmission medium are also transmitted globally nowadays.

The automobile air conditioner filter element blocks the harmful substances for a driver, creates a good air environment for passengers in the automobile, and protects the health of the passengers in the automobile. But at present, the vehicle-mounted air filter element does not arouse attention of car owners, and the main reasons are that the service life of the vehicle-mounted air filter element is not long, the replacement frequency is high, the replacement difficulty is high, and the vehicle-mounted air filter element is a disposable spare part, so that the use cost is high, and the vehicle-maintenance cost is not favorably saved. In addition, the existing vehicle-mounted air filter element is simple in structure, only consists of an outer frame and a filter layer, and is single in function and extremely low in intelligent degree.

Disclosure of Invention

Aiming at the defects in the prior art, the service life of the filter element is prolonged, the replacement times are reduced, and the protection to drivers and passengers in the vehicle is improved. The invention provides an intelligent vehicle-mounted air filter element which comprises a rectangular shell, a first filter layer, a second filter layer, a primary filter screen and an activated carbon filter screen, wherein the first filter layer is provided with an antiviral coating, and the second filter layer is provided with an antibacterial coating; the rectangular shell is hollow, openings are formed in the front and the back of the rectangular shell, the primary filter screen is embedded in the opening in the front of the rectangular shell, and the activated carbon filter screen is embedded in the opening in the back of the rectangular shell;

a rotatable first storage roller, a rotatable first recovery roller, a rotatable second storage roller and a rotatable second recovery roller are arranged in the rectangular shell; the first storage roller, the first recovery roller, the second storage roller and the second recovery roller are all parallel to the long side of the rectangular shell, the first storage roller and the second storage roller are close to one long side wall of the rectangular shell, and the first recovery roller and the second recovery roller are close to the other long side wall of the rectangular shell;

the first filter layer is wound on the first storage roller, and the tail end of the first filter layer is connected with the first recovery roller; the second filter layer is wound on the second storage roller, and the tail end of the second filter layer is connected with the second recovery roller;

and a part of first filter layer between the first storage roller and the first recovery roller and a part of second filter layer between the second storage roller and the second recovery roller are sequentially positioned between the primary filter screen and the activated carbon filter screen.

The invention has the beneficial effects that:

1. the first filter layer adopts a nano filter layer, the second filter layer adopts a PM2.5 filter layer, and the anti-virus coating and the anti-bacterium coating are combined to intercept micro particles, viruses, bacteria, waste gas, dust and the like, so that the air filtering effect is greatly improved, and the quality of air in the vehicle is improved.

2. The first filter layer and the second filter layer are used as main filter layers, the first storage roller stores a certain amount of the first filter layer, and the second storage roller stores a certain amount of the second filter layer. The first storage roller and the first recovery roller are periodically rotated, so that the old first filter layer is wound on the first recovery roller, and the new first filter layer is positioned behind the primary filter screen. In the same way, the old second filter layer is wound on the second recovery roller, and meanwhile, the new second filter layer is positioned in front of the activated carbon filter screen. First filter layer and second filter layer are regularly renewed, and the operation of renewing is automatic to be accomplished, need not manually operation, has guaranteed the filter effect, compares current single structure's filter core, has prolonged life greatly, has increased the automatic function of changing of filter core simultaneously, has promoted intelligent degree.

Preferably, the rectangular housing is provided at an inner portion thereof with a storage chamber for mounting the first and second storage drums, and with a recovery chamber for mounting the first and second recovery drums.

Preferably, the space between the storage inner cavity and the recovery inner cavity forms a filter cavity, and the opening in the front and the opening in the rear of the rectangular shell are both communicated with the filter cavity. The storage inner cavity, the recovery inner cavity and the filter cavity are separated, so that the first filter layer and the second filter layer which are not used are prevented from being polluted.

Preferably, the filter cavity is provided with two rows of parallel first guide rollers, wherein the first guide rollers of one row are opposite to the first guide rollers of the other row in a staggered manner; two rows of first guide rollers are positioned between the first storage roller and the first recovery roller, and the first filter layer sequentially bypasses each first guide roller, so that the cross section of part of the first filter layer positioned in the filter cavity is wavy.

Preferably, the filter cavity is provided with two rows of parallel second guide rollers, wherein the second guide rollers of one row are opposite to the second guide rollers of the other row in a staggered manner; two rows of second guide rollers are positioned between the second storage roller and the second recovery roller, and the second filter layer sequentially bypasses each second guide roller, so that the cross section of part of the second filter layer positioned in the filter cavity is wavy.

The first filter layer and the second filter layer in the filter cavity are designed into a wave shape, so that the air filtering area is greatly increased, and the filtering effect is improved. Meanwhile, the first guide roller and the second guide roller can rotate, resistance is small, and the renewing action of the first filter layer and the second filter layer is reduced.

Preferably, both ends of all the first guide rollers and both ends of all the second guide rollers are rotatably connected to both short side walls of the rectangular housing, respectively.

Preferably, the first storage roller, the first recovery roller, the second storage roller and the second recovery roller have the same structure and each comprise a hollow column and a motor installed inside the hollow column; the rotating shafts of the motors respectively extend out of two ends of the hollow column, and one ends of the rotating shafts are fixed with the short side walls of the rectangular shell, so that the motors drive the hollow column to synchronously rotate. In order to improve the filtering area and reduce the installation space occupied by the motor, the motor is arranged in the hollow column, the size of the filtering cavity is increased as much as possible, and the filtering efficiency is further improved. In addition, the motor is connected with a central control screen of the automobile, the central control screen displays the rotating circle of the motor, and the number of the remaining first filter layers and the second filter layers is correspondingly calculated, so that a driver is reminded to pay attention to replacement.

Preferably, the rotating shaft is provided with a limiting disc, one end of the hollow column penetrates through the rotating shaft, a step surface matched with the limiting disc is arranged at the penetrating end of the hollow column, and the limiting disc is positioned between the motor and the short side wall of the fixed rotating shaft; the sealed and sealed one end in addition of hollow post is equipped with the through-hole that is used for the pivot to pass, along the axial of pivot and toward the direction slip hollow post of keeping away from spacing dish, and then makes the motor pass the one end that hollow post runs through with separation motor and hollow post.

Preferably, the shell of the motor is provided with a plurality of sliding grooves extending along the axial direction, the inner wall of the hollow column is provided with limiting strips in one-to-one correspondence with each sliding groove, and the limiting strips are inserted into the corresponding sliding grooves in one-to-one correspondence, so that the motor and the hollow column synchronously rotate.

Preferably, the minor face lateral wall of rectangle casing be equipped with store the inner chamber and retrieve the apron that the inner chamber corresponds, every apron all be equipped with the terminal corresponding spacing hole of corresponding motor.

After the first filter layer is used up, the first filter layer is wound on the first recovery roller completely, and similarly, after the second filter layer is used up, the second filter layer is wound on the second recovery roller completely, and then the first storage roller, the first recovery roller, the second storage roller and the second recovery roller need to be replaced by new ones. The concrete operation is to open two cover plates, then to draw out the hollow column along the axial direction, and the motor and the rotating shaft are kept in the rectangular shell, when inserting a new hollow column, the limiting strip of the hollow column is inserted into the sliding groove in an aligning way until the limiting disc is contacted with the step surface, the insertion and the installation are in place, then to cover the cover plates, and the replacement is completed.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a schematic view of the connection structure of the hollow column and the motor in this embodiment;

fig. 5 is a schematic view of a connection structure of the motor and the limiting disc.

In the attached drawings, a rectangular shell 1, a first filter layer 2, a second filter layer 3, an initial filter screen 4, an activated carbon filter screen 5, a first storage roller 6, a first recovery roller 7, a second storage roller 8, a second recovery roller 9, a storage inner cavity 10, a recovery inner cavity 11, a filter cavity 12, a first guide roller 13, a second guide roller 14, a hollow column 15, a motor 16, a limiting disc 17, a step surface 18, a rotating shaft 19, a sliding groove 20, a limiting strip 21 and a cover plate 22.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

As shown in fig. 1 and fig. 2, the present embodiment provides an intelligent vehicle-mounted air filter element, which includes a rectangular casing 1, a first filter layer 2, a second filter layer 3, a primary filter 4 and an activated carbon filter 5, wherein the first filter layer 2 is provided with an antiviral coating, and the second filter layer 3 is provided with an antibacterial coating; rectangle casing 1 cavity and rectangle casing 1's preceding and back all are equipped with the opening, just imitate filter screen 4 and inlay in the preceding opening of rectangle casing 1 to and active carbon filter screen 5 inlays in the opening behind rectangle casing 1. The internal structure of the rectangular shell 1 is as follows:

a rotatable first storage roller 6, a rotatable first recovery roller 7, a rotatable second storage roller 8 and a rotatable second recovery roller 9 are arranged in the rectangular shell 1; the first storage roller 6, the first recovery roller 7, the second storage roller 8 and the second recovery roller 9 are all parallel to the long side of the rectangular shell 1, the first storage roller 6 and the second storage roller 8 are close to one long side wall of the rectangular shell 1, and the first recovery roller 7 and the second recovery roller 9 are close to the other long side wall of the rectangular shell 1. Specifically, the first filter layer 2 is wound around the first storage drum 6, and the end of the first filter layer 2 is connected to the first recovery drum 7; the second filter layer 3 is wound on the second storage roller 8, and the tail end of the second filter layer 3 is connected with the second recovery roller 9. Specifically, a part of the first filter layer 2 between the first storage drum 6 and the first recovery drum 7 and a part of the second filter layer 3 between the second storage drum 8 and the second recovery drum 9 are sequentially positioned between the primary filter screen 4 and the activated carbon filter screen 5. The first filter layer 2 is a nano filter layer, the second filter layer 3 is a PM2.5 filter layer, and the anti-virus coating and the anti-bacterium coating are combined to intercept micro particles, viruses, bacteria, waste gas, dust and the like, so that the air filtering effect is greatly improved, and the quality of air in the vehicle is improved.

In order to avoid cross-contamination, the interior of the rectangular housing 1 is provided with a storage chamber 10 for mounting the first and second storage cylinders 6, 8 and with a recycling chamber 11 for mounting the first and second recycling cylinders 7, 9. The space between the storage chamber 10 and the recovery chamber 11 forms a filter chamber 12, and both the front opening and the rear opening of the rectangular casing 1 communicate with the filter chamber 12. The storage chamber 10, the recovery chamber 11 and the filter chamber 12 are separated to avoid contamination of the unused first filter layer 2 and second filter layer 3.

In the embodiment, the filter cavity 12 is provided with two rows of parallel first guide rollers 13, wherein the first guide rollers 13 of one row are opposite to the first guide rollers 13 of the other row in a staggered manner; two rows of first guide rollers 13 are located between the first storage drum 6 and the first recovery drum 7, and the first filter layers 2 pass each first guide roller 13 in turn, so that the cross-sectional shape of the part of the first filter layers 2 located in the filter chamber 12 is wave-shaped. Further, the filter cavity 12 is provided with two rows of parallel second guide rollers 14, wherein the second guide rollers 14 of one row are opposite to the second guide rollers 14 of the other row in a staggered manner; two rows of second guide rollers 14 are located between the second storage roller 8 and the second recovery roller 9, and the second filter layer 3 passes around each second guide roller 14 in turn, so that the cross-sectional shape of the part of the second filter layer 3 located in the filter chamber 12 is wavy. Specifically, both ends of all the first guide rollers 13 and both ends of all the second guide rollers 14 are rotatably connected to both short-side walls of the rectangular casing 1, respectively. The first filter layer 2 and the second filter layer 3 in the filter chamber 12 are designed into a wave shape, which greatly increases the air filtering area and thus improves the filtering effect. Meanwhile, the first guide roller 13 and the second guide roller 14 can rotate, resistance is small, and the renewing action of the first filter layer 2 and the second filter layer 3 is reduced.

In the present embodiment, the first filter layer 2 and the second filter layer 3 serve as main filter layers, the first storage drum 6 stores a certain amount of the first filter layer 2, and the second storage drum 8 stores a certain amount of the second filter layer 3. The first storage drum 6 and the first recovery drum 7 are periodically rotated so that the old first filter layer 2 is wound around the first recovery drum 7 while the new first filter layer 2 is positioned behind the primary filter 4. In the same way, the old second filter layer 3 is wound on the second recovery drum 9, and the new second filter layer 3 is positioned in front of the activated carbon filter screen 5. First filter layer 2 and second filter layer 3 are regularly renewed, have guaranteed the filter effect, and more importantly first filter layer 2 of storing on first storage cylinder 6 to and before second filter layer 3 of storing on second storage cylinder 8 ended using, saved the operation of the whole filter core of dismouting, prolonged life greatly.

As shown in fig. 3 to 5, the first filter layer 2 is completely wound around the first recycling drum 7 after being used, and the second filter layer 3 is completely wound around the second recycling drum 9 after being used, so that the first storage drum 6, the first recycling drum 7, the second storage drum 8 and the second recycling drum 9 are convenient to take out, and the first storage drum 6, the first recycling drum 7, the second storage drum 8 and the second recycling drum 9 of the present embodiment have the same structure, and each include a hollow column 15 and a motor 16 installed inside the hollow column 15; and a rotating shaft 19 of the motor 16 extends out of two ends of the hollow column 15 respectively, and one end of the rotating shaft 19 is fixed with the short side wall of the rectangular shell 1, so that the motor 16 drives the hollow column 15 to rotate synchronously. In order to increase the filtering area and reduce the installation space occupied by the motor 16, the motor 16 is arranged in the hollow column 15, so that the size of the filtering cavity 12 is increased as much as possible, and the filtering efficiency is further improved. Furthermore, the rotating shaft 19 is provided with a limiting disc 17, one end of the hollow column 15 penetrates through the rotating shaft, and the penetrating end of the hollow column is provided with a step surface 18 matched with the limiting disc 17, and the limiting disc 17 is positioned between the motor 16 and the short side wall of the fixed rotating shaft 19; the sealed and sealed one end in the other end of hollow post 15 is equipped with the through-hole that is used for pivot 19 to pass, along the axial of pivot 19 and toward keeping away from spacing dish 17 direction slip hollow post 15, and then make motor 16 pass the one end that hollow post 15 runs through in order to separate motor 16 and hollow post 15. Further, the shell of the motor 16 is provided with a plurality of sliding grooves 20 extending along the axial direction, the inner wall of the hollow column 15 is provided with limiting strips 21 corresponding to each sliding groove 20 one to one, and the limiting strips 21 are inserted into the corresponding sliding grooves 20 one to one, so that the motor 16 and the hollow column 15 rotate synchronously. Further, the short side wall of the rectangular casing 1 is provided with cover plates 22 corresponding to the storage cavity 10 and the recovery cavity 11, and each cover plate 22 is provided with a limit hole corresponding to the tail end of the corresponding motor 16. It is necessary to replace the first storage roller 6, the first recovery roller 7, the second storage roller 8, and the second recovery roller 9 with new ones. The specific operation is to open the two cover plates 22, then to axially draw out the hollow column 15, while the motor 16 and the rotating shaft 19 remain in the rectangular shell 1, and when a new hollow column 15 is inserted, the limiting strip 21 of the hollow column 15 is inserted in alignment with the sliding groove 20 until the limiting disc 17 contacts with the step surface 18, and the insertion and installation are in place, and then to cover the cover plates 22, and the replacement is completed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. The utility model provides an on-vehicle air filter of intelligence which characterized in that: the filter comprises a rectangular shell, a first filter layer, a second filter layer, a primary filter screen and an activated carbon filter screen, wherein the first filter layer is provided with an antiviral coating, and the second filter layer is provided with an antibacterial coating; the rectangular shell is hollow, openings are formed in the front and the back of the rectangular shell, the primary filter screen is embedded in the opening in the front of the rectangular shell, and the activated carbon filter screen is embedded in the opening in the back of the rectangular shell;

2. The intelligent vehicle air filter of claim 1, wherein: the inside of rectangle casing is equipped with the storage inner chamber that is used for installing first storage cylinder and second storage cylinder to and be equipped with the recovery inner chamber that is used for installing first recovery cylinder and second recovery cylinder.

3. The intelligent vehicle air filter of claim 2, wherein: the space between the storage inner cavity and the recovery inner cavity forms a filter cavity, and the opening in the front of the rectangular shell and the opening in the back of the rectangular shell are both communicated with the filter cavity.

4. The intelligent vehicle air filter of claim 3, wherein: the filter cavity is provided with two rows of parallel first guide rollers, wherein the first guide rollers of one row are staggered and opposite to the first guide rollers of the other row; two rows of first guide rollers are positioned between the first storage roller and the first recovery roller, and the first filter layer sequentially bypasses each first guide roller, so that the cross section of part of the first filter layer positioned in the filter cavity is wavy.

5. The intelligent vehicle air filter of claim 4, wherein: the filter cavity is provided with two rows of parallel second guide rollers, wherein the second guide rollers of one row are staggered and opposite to the second guide rollers of the other row; two rows of second guide rollers are positioned between the second storage roller and the second recovery roller, and the second filter layer sequentially bypasses each second guide roller, so that the cross section of part of the second filter layer positioned in the filter cavity is wavy.

6. The intelligent vehicle air filter of claim 5, wherein: and the two ends of all the first guide rollers and the two ends of all the second guide rollers are respectively and rotatably connected to the two short side walls of the rectangular shell.

7. The intelligent vehicle air filter of claim 2, wherein: the first storage roller, the first recovery roller, the second storage roller and the second recovery roller have the same structure and respectively comprise a hollow column and a motor arranged in the hollow column; the rotating shafts of the motors respectively extend out of two ends of the hollow column, and one ends of the rotating shafts are fixed with the short side walls of the rectangular shell, so that the motors drive the hollow column to synchronously rotate.

8. The intelligent vehicle air filter of claim 7, wherein: the rotating shaft is provided with a limiting disc, one end of the hollow column penetrates through the rotating shaft, a step surface matched with the limiting disc is arranged at the penetrating end of the hollow column, and the limiting disc is positioned between the motor and the short side wall of the fixed rotating shaft; the sealed and sealed one end in addition of hollow post is equipped with the through-hole that is used for the pivot to pass, along the axial of pivot and toward the direction slip hollow post of keeping away from spacing dish, and then makes the motor pass the one end that hollow post runs through with separation motor and hollow post.

9. The intelligent vehicle air filter of claim 7, wherein: the shell of the motor is provided with a plurality of sliding grooves extending along the axial direction, the inner wall of the hollow column is provided with limiting strips in one-to-one correspondence with each sliding groove, and the limiting strips are inserted into the corresponding sliding grooves in one-to-one correspondence, so that the motor and the hollow column can rotate synchronously.

10. The intelligent vehicle air filter of claim 1, wherein: the minor face lateral wall of rectangle casing be equipped with store the inner chamber and retrieve the apron that the inner chamber corresponds, every apron all be equipped with the terminal corresponding spacing hole of corresponding motor.