阅读说明：本技术 一种车载面板式烟雾净化器 (Vehicle-mounted panel type smoke purifier ) 是由 王璐 杨秀鹏 刘昊 陈俊帆 于 2019-10-16 设计创作，主要内容包括：本发明公开了一种车载面板式烟雾净化器,包括烟雾颗粒吸附装置、外壳、空气质量传感器、主控模块、蓝牙模块和显示器,烟雾颗粒吸附装置安装于外壳的底吸附面板上,外壳包覆整个烟雾颗粒吸附装置,空气质量传感器、主控模块和蓝牙模块均安装于外壳的侧面板内壁,显示器安装于外壳的侧面板外壁,主控模块分别与空气质量传感器、蓝牙模块和显示器电性连接,外壳的外壁还设置有Type-C接口,电源通过Type-C接口分别为空气质量传感器、主控模块、蓝牙模块和显示器供电,主控模块控制电源供电烟雾颗粒吸附装置。本发明面板式结构,体积小、通过烟雾颗粒吸附装置和纳米颗粒背板进行双层烟雾吸附,烟雾净化效果佳,智能化控制,同时可实时观测车内空气质量。(The invention discloses a vehicle-mounted panel Type smoke purifier which comprises a smoke particle adsorption device, a shell, an air quality sensor, a main control module, a Bluetooth module and a display, wherein the smoke particle adsorption device is arranged on a bottom adsorption panel of the shell, the shell coats the whole smoke particle adsorption device, the air quality sensor, the main control module and the Bluetooth module are all arranged on the inner wall of a side panel of the shell, the display is arranged on the outer wall of the side panel of the shell, the main control module is respectively and electrically connected with the air quality sensor, the Bluetooth module and the display, a Type-C interface is further arranged on the outer wall of the shell, a power supply respectively supplies power to the air quality sensor, the main control module, the Bluetooth module and the display through the Type-C interfaces, and the main control module controls the power supply to supply the. The panel type structure is small in size, double-layer smoke adsorption is carried out through the smoke particle adsorption device and the nanoparticle backboard, the smoke purification effect is good, intelligent control is achieved, and meanwhile the quality of air in the vehicle can be observed in real time.)

1. A vehicle-mounted panel type smoke purifier comprises a smoke particle adsorption device (1), a shell (2), an air quality sensor (3), a main control module (4), a Bluetooth module (5) and a display (6), and is characterized in that the smoke particle adsorption device (1) is installed on a bottom adsorption panel (2-1) of the shell (2), the shell (2) coats the whole smoke particle adsorption device (1), the air quality sensor (3), the main control module (4) and the Bluetooth module (5) are all installed on the inner wall of a side panel (2-2) of the shell (2), the display (6) is installed on the outer wall of the side panel (2-2) of the shell (2), and the main control module (4) is respectively and electrically connected with the air quality sensor (3), the Bluetooth module (5) and the display (6), the outer wall of shell (2) still is provided with Type-C interface (7), and the power passes through Type-C interface (7) and is air quality sensor (3), host system (4), bluetooth module (5) and display (6) power supply respectively, host system (4) control power supply smog particle adsorption equipment (1).

2. The vehicle panel type smoke purifier of claim 1, wherein: the main control module (4) adopts an 8-bit singlechip.

3. The vehicle panel type smoke purifier of claim 2, wherein: the smoke particle adsorption device (1) comprises an upper smoke particle adsorption device (1-1) and a lower smoke particle adsorption device (1-2), and the upper smoke particle adsorption device (1-1) is connected with the lower smoke particle adsorption device (1-2) in a nested mode.

4. The vehicle panel type smoke purifier of claim 3, wherein: the upper smoke particle adsorption device (1-1) comprises an upper inner lining plate (1-11) and an inner metal cylindrical tube (1-12), the inner metal cylindrical tube (1-12) is mounted on the upper inner lining plate (1-11), small round holes are formed in the upper inner lining plate (1-11), the small round holes are distributed in a matrix mode, the size of each small round hole is matched with that of the inner metal cylindrical tube (1-12), and the inner metal cylindrical tube (1-12) is vertically embedded into the small round holes.

5. The vehicle panel type smoke purifier of claim 4, wherein: the lower smoke particle adsorption device (1-2) comprises a lower inner lining plate (1-21) and an outer metal cylindrical pipe (1-22), the outer metal cylindrical pipe (1-22) is installed on the lower inner lining plate (1-21), large round holes are formed in the lower inner lining plate (1-21), the large round holes are distributed in a matrix mode, the size of each large round hole is matched with that of the outer metal cylindrical pipe (1-22), and the outer metal cylindrical pipe (1-22) is vertically embedded in the large round holes.

6. The vehicle panel type smoke purifier of claim 5, wherein: the inner metal cylindrical tubes (1-12) and the outer metal cylindrical tubes (1-22) are all metal capacitors, the heights of the inner metal cylindrical tubes (1-12) and the outer metal cylindrical tubes (1-22) are consistent, and the ratio of the outer diameters of the inner metal cylindrical tubes (1-12) to the outer metal cylindrical tubes (1-22) is 1: 2, the sizes of the upper inner lining plates (1-11) and the lower inner lining plates (1-21) are the same, the inner metal cylindrical tubes (1-12) and the outer metal cylindrical tubes (1-22) are distributed and matched, so that the inner metal cylindrical tubes (1-12) are embedded into the outer metal cylindrical tubes (1-22), and the circular mandrels of the two metal cylindrical tubes are overlapped.

7. The vehicle panel type smoke purifier of claim 6, wherein: the connection parts of the inner metal cylindrical tubes (1-12) and the upper inner lining plates (1-11) and the connection parts of the outer metal cylindrical tubes (1-22) and the lower inner lining plates (1-21) are respectively welded with a positive electrode lead and a negative electrode lead, the positive electrode lead and the negative electrode lead are respectively connected with a positive electrode and a negative electrode of a power supply, the upper smoke particle adsorption device (1-1) and the lower smoke particle adsorption device (1-2) are electrified, and each inner metal cylindrical tube (1-12) or each outer metal cylindrical tube (1-22) is connected in parallel.

8. The vehicle panel type smoke purifier of claim 6, wherein: the upper inner lining plates (1-11) and the lower inner lining plates (1-21) are conductive panels, the upper inner lining plates (1-11) and the lower inner lining plates (1-21) are respectively and electrically connected with a positive electrode and a negative electrode of a power supply, and each inner metal cylindrical tube (1-12) or each outer metal cylindrical tube (1-2) is connected in parallel.

9. The panel-type smoke purifier for vehicles according to claim 7 or 8, wherein: the outer walls of the inner metal cylindrical pipes (1-12) are granular, and insulating layers are arranged on the surfaces of the inner metal cylindrical pipes (1-12) and the outer metal cylindrical pipes (1-22).

10. The vehicle panel type smoke purifier of claim 9, wherein: the shell (2) is made of high-temperature-resistant insulating materials, four side panels (2-2) of the shell (2) are common panels, the side panels (2-2) are higher than the inner metal cylindrical tube (1-12) and the outer metal cylindrical tube (1-22), the bottom adsorption panel (2-1) of the shell (2) is a nanoparticle backboard with a nanoparticle layer coated on the inner side surface, the upper inner lining plate (1-11) is fixed on the bottom adsorption panel (2-1), the upper particle passing panel (2-3) of the shell (2) is provided with insulating porous holes, and the insulating porous holes are the same as the aperture of the outer metal cylindrical tube (1-22) and are opposite to the aperture.

Technical Field

The invention relates to the technical field of air purifiers, in particular to a vehicle-mounted panel type smoke purifier.

Background

With the improvement of living standard of people, automobiles become daily tools for riding instead of walk gradually. Because of the increase of work or life pressure, a lot of drivers especially male sex have the habit of smoking, also can not control and live in the car and smoke, and in the narrow and small private car in space, smog in the car hardly distributes away, especially under the circumstances that the door window is closed, these smog not only influence driver's self health, also can cause other passengers in the car to be forced to inhale the second hand cigarette, and it is well known that long-term inhaling second hand cigarette extremely easily causes lung cancer, causes huge threat to human health. Consequently, on-vehicle air purifier can often be installed in the car, with smoke or other peculiar smells in purifying the car, current smoke purifier adopts devices such as air pump inside with air suction device, add active carbon and filter screen again in the device and adsorb the particulate matter in the air, thereby reach smoke purification effect, this type of clarifier is bulky, can occupy great car space, adsorption effect is not good, and air quality is invisible in the car, the air quality in people can't have solved in the car in real time, then can't be when air quality is good in the car, in time stop air purification, resources are saved. Therefore, a vehicle-mounted panel type smoke purifier which occupies a small space, has a good adsorption effect, can display the quality of air in a vehicle in real time, is intelligently controlled and is convenient to operate is urgently needed.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides a vehicle-mounted panel type smoke purifier which is simple in structure, small in size, good in purification effect, intelligent in control and capable of observing the quality of air in a vehicle in real time.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows: the utility model provides a vehicle-mounted panel formula smoke purifier, including smog particle adsorption equipment, and a housing, air matter level sensor, host system, bluetooth module and display, smog particle adsorption equipment installs on the bottom adsorption panel of shell, the whole smog particle adsorption equipment of shell cladding, air matter level sensor, host system and bluetooth module are all installed in the side inboard wall of shell, the display is installed in the side outer wall of shell, host system respectively with air matter level sensor, bluetooth module and display electric connection, the outer wall of shell still is provided with Type-C interface, the power passes through Type-C interface and is air matter level sensor respectively, host system, bluetooth module and display power supply, host system controls power supply smog particle adsorption equipment.

Furthermore, the main control module adopts an 8-bit singlechip.

Further, the smoke particle adsorption device comprises an upper smoke particle adsorption device and a lower smoke particle adsorption device, and the upper smoke particle adsorption device is connected with the lower smoke particle adsorption device in a nested mode.

Further, go up smog granule adsorption equipment and include interior bushing plate and interior metal cylinder pipe, interior metal cylinder pipe is installed on last bushing plate, be equipped with little round hole on going up the bushing plate, little round hole is the matrix distribution, and just little round hole coincide with interior metal cylinder pipe size, and interior metal cylinder pipe erects to be embedded in little round hole.

Further, lower smog granule adsorption equipment includes interior liner plate and outer metal cylinder pipe down, outer metal cylinder pipe is installed on interior liner plate down, be equipped with big round hole down on the interior liner plate, big round hole is the matrix distribution, and big round hole and outer metal cylinder pipe size coincide, and outer metal cylinder pipe erects to be embedded in big round hole.

Further, the inner metal cylindrical tube and the outer metal cylindrical tube are both metal capacitors, the heights of the inner metal cylindrical tube and the outer metal cylindrical tube are consistent, and the outer diameter ratio is 1: 2, the upper inner lining plate and the lower inner lining plate are consistent in size, the inner metal cylindrical tube and the outer metal cylindrical tube are distributed and matched, the inner metal cylindrical tube is embedded into the outer metal cylindrical tube, and the circular central axes of the two metal cylindrical tubes are overlapped.

Furthermore, a positive wire and a negative wire are respectively welded at the joint of the inner metal cylindrical tube and the upper inner lining plate and the joint of the outer metal cylindrical tube and the lower inner lining plate, the positive wire and the negative wire are respectively connected with a positive electrode and a negative electrode of a power supply, the upper smoke particle adsorption device and the lower smoke particle adsorption device are electrified, and each inner metal cylindrical tube or each outer metal cylindrical tube is connected in parallel.

Furthermore, the upper inner lining plate and the lower inner lining plate are conductive panels, the upper inner lining plate and the lower inner lining plate are respectively and electrically connected with the anode and the cathode of the power supply, and each inner metal cylindrical tube or each outer metal cylindrical tube is connected in parallel.

Furthermore, the outer wall of the inner metal cylindrical pipe is granular, insulating layers are arranged on the surfaces of the inner metal cylindrical pipe and the outer metal cylindrical pipe, and the inner metal cylindrical pipe and the outer metal cylindrical pipe are sprayed by a metal insulating spraying technology, so that short circuit between the inner metal cylindrical pipe and the outer metal cylindrical pipe can be avoided.

Furthermore, the shell is made of high-temperature-resistant insulating materials, four side panels of the shell are common panels, the side panels are higher than the inner metal cylindrical tube and the outer metal cylindrical tube, the bottom adsorption panel of the shell is a nanoparticle back plate with the inner side surface coated with a nanoparticle layer, the upper inner lining plate is fixed on the bottom adsorption panel, the upper particle-passing panel of the shell is provided with insulating porous holes, and the insulating porous holes are the same as the outer metal cylindrical tube in pore size and are opposite to the hole positions.

The invention has the following beneficial effects:

1) the double-layer smoke adsorption is carried out through the smoke particle adsorption device and the nanoparticle back plate, the adsorption effect is good, and the concentration of smoke particles in the vehicle can be greatly reduced;

2) the concentration of various pollution particles in the vehicle is detected in real time through the air quality sensor, monitoring data are transmitted to the main control module, the main control module further converts the detection data into air quality index readings to be displayed on the display, so that the air quality in the vehicle is visualized, the smoke particle adsorption device can be started and stopped timely according to the observed air quality condition, and the energy is saved;

3) the whole smoke purifier is designed in a panel type, so that the occupied space is small;

4) the smoke particle adsorption device consists of an inner metal cylindrical pipe and an outer metal cylindrical pipe which are mutually nested, and is easy to replace and maintain;

5) each group of inner and outer metal cylindrical pipes are connected in parallel and operate independently, so that the whole smoke particle adsorption device can be made into different shapes according to the requirements of users, and the product flexibility is high;

6) the Bluetooth module is used for short-distance wireless communication and is connected with a mobile phone, so that the operation of the vehicle-mounted panel type smoke purifier can be controlled wirelessly, the intelligent operation is realized, and the convenience and the labor saving are realized;

7) the main control module adopts an 8-bit singlechip to integrate and miniaturize the circuit of the vehicle-mounted panel type smoke purifier, and can control the electrifying voltage of the smoke particle adsorption device within the range of 20V-36V, namely within the range of human body safe voltage, and simultaneously ensure the normal work of the smoke particle adsorption device and the adsorption of smoke particles.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the housing structure of FIG. 1;

figure 3 is a schematic view of the smoke particle adsorption means of figure 1;

figure 4 is a schematic view of the upper smoke particle adsorption means of figure 3;

FIG. 5 is an assembled view of the inner and outer cylindrical metal tubes of FIG. 3;

FIG. 6 is a schematic view of the upper inner liner panel of FIG. 3;

FIG. 7 is a schematic view of the lower liner panel structure of FIG. 3.

Wherein the reference numerals are: the device comprises a smoke particle adsorption device 1, an upper smoke particle adsorption device 1-1, an upper inner lining plate 1-11, an inner metal cylindrical pipe 1-12, a lower smoke particle adsorption device 1-2, a lower inner lining plate 1-21, an outer metal cylindrical pipe 1-22, a shell 2, a bottom adsorption panel 2-1, a side panel 2-2, an upper particle passing panel 2-3, an air quality sensor 3, a main control module 4, a Bluetooth module 5, a display 6 and a Type-C interface 7.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 7, the vehicle-mounted panel type smoke purifier of the present invention comprises a smoke particle adsorption device 1, a housing 2, an air quality sensor 3, a main control module 4, a bluetooth module 5 and a display 6, wherein the housing 2 is made of a high temperature resistant insulating material, a bottom adsorption panel 2-1 of the housing 2 is a nanoparticle backboard with an inner side surface coated with a nanoparticle layer, four side panels 2-2 of the housing 2 are common panels, an upper particle-passing panel 2-3 of the housing 2 is provided with insulating porous holes, the smoke particle adsorption device 1 is installed in the bottom adsorption panel 2-1 of the housing 2, the air quality sensor 3, the main control module 4 and the bluetooth module 5 are all installed on the inner walls of the side panels 2-2 of the housing 2, the display 6 is installed on the outer walls of the side panels 2-2 of the housing 2, the main control module 4 adopts an 8-bit, respectively with air mass sensor 3, bluetooth module 5 and 6 electric connection of display, the outer wall of shell 2 still is provided with Type-C interface 7, and the power is air mass sensor 3, host system 4, bluetooth module 5 and the 6 power supplies of display respectively through Type-C interface 7, and host system 4 control power supply smog particle adsorption equipment 1.

As shown in fig. 3, the smoke particle adsorption means 1 comprises an upper smoke particle adsorption means 1-1 and a lower smoke particle adsorption means 1-2, the upper smoke particle adsorption means 1-1 being nestingly connected to the lower smoke particle adsorption means 1-2.

As shown in fig. 3, 4 and 6, the upper smoke particle adsorption device 1-1 comprises an upper inner lining plate 1-11 and an inner metal cylindrical tube 1-12, the inner metal cylindrical tube 1-12 is mounted on the upper inner lining plate 1-11, small circular holes are arranged on the upper inner lining plate 1-11, the small circular holes are distributed in a matrix shape, the small circular holes are matched with the size of the inner metal cylindrical tube 1-12, and the inner metal cylindrical tube 1-12 is vertically embedded in the small circular holes.

As shown in figures 3 and 7, the lower smoke particle adsorption device 1-2 comprises a lower inner lining plate 1-21 and an outer metal cylindrical pipe 1-22, wherein the outer metal cylindrical pipe 1-22 is arranged on the lower inner lining plate 1-21, large circular holes are arranged on the lower inner lining plate 1-21 and distributed in a matrix manner, the large circular holes are matched with the outer metal cylindrical pipe 1-22 in size, and the outer metal cylindrical pipe 1-22 is vertically embedded in the large circular holes.

As shown in fig. 3 and 5, the inner metal cylindrical pipes 1 to 12 and the outer metal cylindrical pipes 1 to 22 are metal capacitors, the heights of the inner metal cylindrical pipes 1 to 12 and the outer metal cylindrical pipes 1 to 22 are consistent, and the ratio of the outer diameters of the inner metal cylindrical pipes 1 to 12 to the outer metal cylindrical pipes 1 to 22 is 1: 2, the sizes of the upper inner lining plate 1-11 and the lower inner lining plate 1-21 are the same, the inner metal cylindrical tube 1-12 is matched with the outer metal cylindrical tube 1-22 in distribution, so that the inner metal cylindrical tube 1-12 is embedded into the outer metal cylindrical tube 1-22, and the circular mandrels of the two metal cylindrical tubes are overlapped.

Furthermore, the outer wall of the inner metal cylindrical pipe 1-12 is granular, insulating layers are arranged on the surfaces of the inner metal cylindrical pipe 1-12 and the outer metal cylindrical pipe 1-2, and the short circuit between the inner metal cylindrical pipe and the outer metal cylindrical pipe can be avoided by adopting a metal insulating spraying technology.

As shown in the figures 1 and 2, the side panel 2-2 is higher than the inner metal cylindrical tube 1-12 and the outer metal cylindrical tube 1-22, the upper inner lining plate 1-11 is fixed on the bottom adsorption panel 2-1, and the insulating porous of the upper particle passing panel 2-3 is the same with the pore diameter of the outer metal cylindrical tube 1-2 and is opposite to the pore diameter.