CN211822891U - Novel negative ion purifier - Google Patents

Abstract

The utility model discloses a novel anion purifier, wherein, including the drain pan, the well section of thick bamboo that is equipped with on the drain pan and the upper cover that is equipped with on a well section of thick bamboo, and the ultraviolet ray that is equipped with on the drain pan of a well section of thick bamboo disappears and kills the device and be equipped with the anion material layer of spraying on the inner wall of a well section of thick bamboo. The utility model discloses have use cost low and easy operation, and colorful effect.

Description

Novel negative ion purifier

Technical Field

The utility model relates to an air purification technical field, in particular to can be applied to novel anion purifier of environment such as family, car, hospital.

Background

The negative ion air purifier is an environment-optimized electric appliance which utilizes self-generated negative ions to purify, remove dust, remove odor and sterilize air, and is different from the traditional air purifier in that the negative ions are used as action factors to actively attack and capture harmful substances in the air. At present, the anion air purifier in the market has a single structure, some have only to have an ultraviolet lamp or an ultraviolet disinfection device to disinfect, and some have only anion device to carry out the air purification function. If a consumer wants to achieve the purposes of sterilizing and purifying air, two different devices need to be purchased. Therefore, the use cost is increased, and the use is separated and inconvenient. Therefore, the method has the defects of high use cost, and complex and troublesome operation.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, an object of the present invention is to provide a novel anion purifier with low cost and simple operation, and multiple colors.

In order to achieve the above object, the utility model provides a pair of novel anion purifier, wherein, including the drain pan, the well section of thick bamboo that is equipped with on the drain pan and the upper cover that is equipped with on the well section of thick bamboo, and the ultraviolet ray that is equipped with on the drain pan of a well section of thick bamboo disappears and kills the device and be equipped with the anion material layer of spraying on the inner wall of a well section of thick bamboo. The well section of thick bamboo is equipped with the annular transition platform that extends to the opening inboard including well logical shell of being connected with the drain pan on the opening that well leads to the shell top, be equipped with to the well logical inner shell that leads to the inside extension of shell, the end ring platform that is equipped with on the bottom opening of well logical inner shell on the annular transition platform, and be equipped with on the end ring platform many with the intercommunication in lead to the inside intercommunicating pore that leads to the shell inside and well logical inner shell inside. The negative ion material layer is respectively arranged on the inner wall of the through outer shell and the inner wall of the through inner shell. The upper cover is provided with a support leg which is supported on the annular transition table to form a gap between the upper cover and the opening edge of the through shell. The ultraviolet sterilizing device comprises a support arranged in a bottom shell, a fan arranged on the support, a honeycomb air inlet hole communicated with the outside is formed in the bottom shell corresponding to the position of the fan, a rechargeable battery arranged on the support above the fan, a PCBA mainboard with two ends respectively extending to two sides of the bottom shell is arranged above the support, one end of the PCBA mainboard is provided with a switch button communicated with the outside, the other end of the PCBA mainboard is provided with a TYPE-C charging port communicated with the outside, a lamp circuit board arranged on a bottom ring platform above the PCBA mainboard, a seven-color lamp arranged at the central position of the lamp circuit board, and a plurality of ultraviolet UVC lamps arranged on the lamp circuit board around the seven-color lamp.

In some embodiments, the interior of the through housing is in inlet communication with the honeycomb inlet aperture; the middle through inner shell is communicated with the air inlet of the honeycomb through the communicating hole, and a gap is formed between the upper cover and the opening edge of the middle through outer shell to communicate the inside of the middle through inner shell and the outside of the middle through outer shell.

In some embodiments, a non-slip foot pad is provided on the bottom of the bottom case.

In some embodiments, the PCBA motherboard is connected to the rechargeable battery and the lamp circuit board, respectively.

In some embodiments, the PCBA mainboard comprises a main control chip, and the switch button and the power supply circuit are respectively connected with the main control chip. The power supply circuit comprises a charging circuit connected with the main control chip, a charging input connected with the charging circuit, and a DC-DC chip voltage boosting and stabilizing circuit connected with the ultraviolet UVC germicidal lamp. The DC-DC chip voltage boosting and stabilizing circuit is connected with the main control chip, and the charging circuit TYPE-C charging port is connected with the rechargeable battery.

The beneficial effects of the utility model are that utensil use cost is low and easy operation, reaches colorful effect. Because the fan drives the air to enter the equipment, the ultraviolet UVC lamp in the equipment emits UVC ultraviolet rays to kill germs in the air. Meanwhile, the negative ion material layer is sprayed on the inner wall of the middle cylinder, negative oxygen ions are continuously generated, and then the negative oxygen ions are dispersed into the surrounding air along with the air sterilized by ultraviolet rays, so that the air in a room is effectively sterilized and purified. Therefore, the machine has two functions of sterilization and air purification, and realizes low use cost and simple operation. And because the colorful lamp emits cool colorful light at the top of the machine, the surrounding environment is rendered bright and colorful in the using process, so that the colorful lamp gives a pleasant feeling to people and realizes a colorful effect.

Drawings

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

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

fig. 3 is a schematic diagram of the explosion structure of the present invention.

Fig. 4 is a schematic sectional view of the present invention.

Fig. 5 is a schematic view of the internal structure of the present invention;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

FIG. 7 is a schematic structural view of a PCBA main board, a bracket and a fan in the present invention;

fig. 8 is a schematic structural view of the circuit board of the lamp of the present invention;

fig. 9 is a circuit block diagram of the PCBA main board and the lamp circuit board of the present invention.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1-9, a novel negative ion purifier comprises a bottom shell 01, a middle cylinder 02 arranged on the bottom shell 01, an upper cover 03 arranged on the middle cylinder 02, an ultraviolet sterilizing device 04 arranged on the bottom shell 01 of the middle cylinder 02, and a negative ion material layer 05 sprayed on the inner wall of the middle cylinder 02. The middle barrel 02 comprises a middle through outer shell 21 connected with the bottom shell 01, an annular transition table 22 arranged on an opening at the top of the middle through outer shell 21 and extending towards the inner side of the opening, a middle through inner shell 23 arranged on the annular transition table 22 and extending towards the inner part of the middle through outer shell 21, a bottom ring table 24 arranged on an opening at the bottom end of the middle through inner shell 23, and a plurality of communication holes 25 arranged on the bottom ring table 24 and used for communicating the inner part of the middle through outer shell 21 with the inner part of the middle through inner shell 23. The anion material layer 05 is respectively arranged on the inner wall of the through outer shell 21 and the inner wall of the through inner shell 23. The upper cover 03 is provided with legs 26 supported on the annular transition table 22 so that a gap is formed between the upper cover 03 and the opening edge of the through housing 21. The ultraviolet sterilization device 04 comprises a support 41 arranged in a bottom shell 01, a fan 42 arranged on the support 41, a honeycomb air inlet 43 communicated with the outside arranged on the bottom shell 01 corresponding to the position of the fan 42, a rechargeable battery 44 arranged on the support 41 above the fan 42, a PCBA mainboard 45 arranged above the support 41 and having two ends respectively extending to two sides of the bottom shell 01, a switch button 46 communicated with the outside arranged on one end of the PCBA mainboard 45, a TYPE-C charging port 47 communicated with the outside arranged on the other end of the PCBA mainboard 45, a lamp circuit board 48 arranged on a bottom ring platform 24 above the PCBA mainboard 45, a seven-color lamp 48 arranged at the central position of the lamp circuit board 48 and a plurality of ultraviolet UVC lamps 40 arranged on the lamp circuit board 48 around the seven-color lamp 49. The interior of the hollow shell 21 is communicated with the honeycomb air inlet hole 43; the through inner shell 23 is communicated with the honeycomb air inlet hole 43 through the communicating hole 25, and a gap is formed between the upper cover 03 and the opening edge of the through outer shell 21 to communicate the inside of the through inner shell 23 and the outside of the through outer shell 21. An anti-skid foot pad 06 is arranged at the bottom of the bottom shell 01. The PCBA motherboard 45 is connected to the rechargeable battery 44 and the lamp circuit board 48, respectively. The PCBA motherboard 45 includes a main control chip, and a switch button 46 and a power supply circuit are connected to the main control chip, respectively. The power supply circuit comprises a charging circuit connected with the main control chip, a charging input connected with the charging circuit, and a DC-DC chip voltage boosting and stabilizing circuit connected with the ultraviolet UVC germicidal lamp. The DC-DC chip voltage boosting and stabilizing circuit is connected with the main control chip, and the charging circuit TYPE-C charging port 47 is connected with the rechargeable battery 44.

The working principle is as follows

The switch key is pressed for a long time to start, the CPU controls the boosting IC to boost the voltage to supply power to the ultraviolet UVC lamp 40, the fan 42 motor and the seven-color lamp 49, and the ultraviolet UVC lamp 40 has the functions of sterilization and gradual change of the seven-color lamp 49 to emit light. The fan 42 draws air from the outside into the machine, and the ultraviolet rays emitted from the ultraviolet UVC lamps 40 sterilize viruses or germs in the drawn air. The negative oxygen ion material layer 05 sprayed on the inner wall separates out negative oxygen ions which are discharged to the external space together with the air sterilized by ultraviolet rays. The negative oxygen ions are combined with large particles such as dust and the like contained in the outside air to sink, so that the aim of purifying the air is fulfilled. Thus, the effects of sterilization and air purification are realized.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (5)

1. A novel negative ion purifier is characterized by comprising a bottom shell, a middle cylinder arranged on the bottom shell, an upper cover arranged on the middle cylinder, an ultraviolet disinfection device arranged on the bottom shell of the middle cylinder, and a sprayed negative ion material layer arranged on the inner wall of the middle cylinder;

the middle cylinder comprises a middle through outer shell connected with the bottom shell, an annular transition table arranged on an opening at the top of the middle through outer shell and extending towards the inner side of the opening, a middle through inner shell arranged on the annular transition table and extending towards the interior of the middle through outer shell, a bottom ring table arranged on an opening at the bottom end of the middle through inner shell, and a plurality of communicating holes arranged on the bottom ring table and used for communicating the interior of the middle through outer shell with the interior of the middle through inner shell;

the negative ion material layers are respectively arranged on the inner wall of the through outer shell and the inner wall of the through inner shell;

the upper cover is provided with a support leg which is supported on the annular transition table to form a gap between the upper cover and the opening edge of the through shell;

ultraviolet ray killing device include the support that is equipped with in the drain pan, the fan that is equipped with on the support, be equipped with on the drain pan that corresponds the fan position with the communicating honeycomb inlet port of outside, the rechargeable battery that is equipped with on the support of fan top, be equipped with the PCBA mainboard that both ends extend to on the drain pan both sides respectively above the support, serve at PCBA mainboard and be equipped with the communicating shift knob in outside, be equipped with on the PCBA mainboard other end with the communicating TYPE-C charging mouth in outside, the lamp circuit board that is equipped with on the base ring bench of PCBA mainboard top, and the central point of lamp circuit board position be equipped with seven color lamps and be equipped with a plurality of ultraviolet UVC lamps on seven color lamp circuit boards all around.

2. The novel negative ion purifier as recited in claim 1, wherein the interior of the hollow shell is communicated with the honeycomb air inlet; the middle through inner shell is communicated with the air inlet of the honeycomb air inlet through a communication hole; a gap is formed between the upper cover and the opening edge of the through outer shell to communicate the inside of the through inner shell and the outside of the through outer shell.

3. The novel negative ion purifier as claimed in claim 2, wherein the bottom of the bottom shell is provided with an anti-slip foot pad.

4. The novel anion purifier as recited in claim 1, 2 or 3, wherein the PCBA motherboard is connected with the rechargeable battery and the lamp circuit board respectively.

5. The novel negative ion purifier as claimed in claim 4, wherein the PCBA mainboard comprises a main control chip, and a switch button and a power supply circuit are respectively connected with the main control chip;

the power supply circuit comprises a charging circuit connected with the main control chip, a charging input connected with the charging circuit, and a DC-DC chip boosting and voltage stabilizing circuit connected with the ultraviolet UVC germicidal lamp; the DC-DC chip voltage boosting and stabilizing circuit is connected with the main control chip; the charging circuit TYPE-C charging port is connected with a rechargeable battery.

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