CN213630835U

CN213630835U - Negative ion purifier

Info

Publication number: CN213630835U
Application number: CN202022549761.6U
Authority: CN
Inventors: 冯晓丹
Original assignee: Guangzhou Xijiya Electronic Technology Co ltd
Current assignee: Guangzhou Xijiya Electronic Technology Co ltd
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-07-06
Anticipated expiration: 2030-11-06

Abstract

The utility model discloses an anion generator, including casing subassembly and anion generating assembly, anion generating assembly locates in the casing subassembly, the casing subassembly is including face of intaking and air-out face, anion generating assembly includes anion high voltage generator, anion discharge electrode and anion emission needle, and the air gets into in the casing subassembly from the face of intaking, anion high voltage generator produces the high pressure, sends to anion emission needle through anion discharge electrode to the anion high voltage discharge produces the anion and wafts out from the air-out face; the utility model discloses be provided with main seat groove and vice seat groove, the anion purification ware of being convenient for stands and puts and parallel puts, and all is equipped with cotton piece in main seat inslot, the vice seat inslot, reduces the noise that anion purification ware studio produced.

Description

Negative ion purifier

Technical Field

The utility model relates to an anion purifies technical field, especially relates to an anion purifier.

Background

The negative ion purifier has the advantages that air containing negative ions is smooth in breathing and relaxed and happy, when the concentration of the negative ions in the air is high, the negative ions can inhibit the propagation of various germs, and can purify dust, smoke, pollen, flock and other inhalable particles in indoor air, so that the possibility of diseases is reduced. The negative ion needle of present clarification plant is generally hidden the clarifier deeply, and is far away from the air-out face, and the negative ion is consumed more in clarification plant, and general negative ion clarifier just stands alone and puts or puts alone in parallel.

Therefore, there is an urgent need to develop a single-choice negative ion purification device, which has a negative ion needle close to the air outlet surface and reduces the loss, and simultaneously improves the single-choice negative ion purification device which is independently placed in a standing manner or in a parallel manner.

SUMMERY OF THE UTILITY MODEL

The purification device aims to solve the problems that in the existing purification device, the negative ion needle is far away from the air outlet in the purifier, and more negative ions are consumed in the purification device; the negative ion purifier is independently placed in a standing way or independently placed in a parallel way, and the like, the utility model aims to provide the negative ion purifier which comprises a shell component and a negative ion generating component, the negative ion generating assembly is arranged in the shell assembly, the shell assembly comprises an air inlet surface and an air outlet surface, the negative ion generating assembly comprises a negative ion high voltage generator, a negative ion discharging electrode and a negative ion emitting needle, the negative ion high-voltage generator is arranged on the side edge of the air inlet surface, the negative ion emission needle is arranged on the air outlet surface, the negative ion discharge electrode is connected with a negative ion high voltage generator and a negative ion emission needle, air enters the shell assembly from an air inlet surface, the negative ion high voltage generator generates high voltage, and the negative ions are sent to the negative ion emission needle through the negative ion discharge electrode, and the negative ions generated by high-voltage discharge of the air flow float out of the air outlet surface.

Furthermore, one end of the negative ion discharge electrode is electrically connected with the high-voltage output end of the negative ion high-voltage generator, and the other end of the negative ion discharge electrode is connected with the negative ion emission needle.

Furthermore, the negative ion generating assembly further comprises a main circuit board and an auxiliary circuit board, wherein the main circuit board and the auxiliary circuit board are arranged on the side edge of the air outlet surface, the main circuit board is electrically connected with the auxiliary circuit board, and the negative ion high-voltage generator is electrically connected with the auxiliary circuit board.

Furthermore, the negative ion generating assembly comprises a fan, the fan is arranged between the air inlet surface and the air outlet surface and is electrically connected with the main circuit board, and wind power generated by rotation of the fan blows out negative ions along the air outlet surface.

Furthermore, the shell assembly comprises a first shell and a second shell, the first shell and the second shell are embedded to form a rectangular box body, the air inlet surface is arranged on the second shell, and the air outlet surface is arranged on the first shell.

Further, a group of main seat grooves are formed in the lower portion of the shell assembly, a plurality of auxiliary seat grooves are formed in the outer side of the second shell, cotton blocks are arranged in the main seat grooves and the auxiliary seat grooves, the main seat grooves and the auxiliary seat grooves enable the negative ion generator to stand or horizontally place, and noise generated by the working chamber of the negative ion purifier is reduced.

Further, be equipped with the draw-in groove in the second casing, the draw-in groove is around locating into wind surface department for place fixed fan, the second casing outside is equipped with a recess, be provided with little drawer in the recess, be equipped with the cotton piece of fragrance in the little drawer, can add fragrance essential oil to the cotton piece of fragrance during the use to anion purifier during operation gives out fragrance.

Further, the shell assembly further comprises a switch button, an indicator light and a power line, the switch button and the indicator light are arranged on the shell assembly, the power line is arranged on the side edge of the shell assembly, the switch button, the indicator light and the power line are all electrically connected with the auxiliary circuit board, and the switch button is turned on and turned off to control the switch of the indicator light and the on-off of the power supply of the fan, the negative ion high-voltage generator and the main circuit board.

Furthermore, a plurality of through holes are formed in the first shell and used for placing the negative ion emission needles.

Further, the negative ion emitting needle is carbon fiber.

Furthermore, the second shell is provided with a plurality of connecting holes and a plurality of connecting pieces, and the connecting pieces are connected with the connecting holes, so that the second shell is fixedly connected with the first shell.

Further, the connecting member is a screw.

The beneficial effects of the utility model reside in that:

(1) the utility model discloses be provided with main seat groove and vice seat groove, the anion purification ware of being convenient for stands and puts and parallel puts, and all is equipped with cotton piece in main seat inslot, the vice seat inslot, reduces the noise that anion purification ware studio produced.

(2) The utility model discloses the second casing outside is equipped with a recess, be provided with little drawer in the recess, be equipped with the cotton piece of fragrance in the little drawer, can add fragrance essential oil to the cotton piece of fragrance during the use to anion purifier during operation gives out fragrance.

(3) The utility model discloses an air-out face department is located to the emission needle, more is favorable to producing and blows off the anion, and reduces the anion emission needle loss.

Drawings

FIG. 1 is a perspective view of an anion purifier of the present invention;

FIG. 2 is a schematic view of the internal structure of an anion purifier of the present invention;

FIG. 3 is a front view of the negative ion purifier of the present invention;

FIG. 4 is a rear view of the anion purifier of the present invention;

FIG. 5 is a top view of the anion purifier of the present invention;

fig. 6 is a bottom view of the negative ion purifier of the present invention.

In the figure, 1 is a negative ion high voltage generator, 2 is a negative ion discharge electrode, 3 is a negative ion emission needle, 4 is a main circuit board, 5 is a secondary circuit board, 6 is a fan, 7 is a shell component, 71 is a first shell, 711 is a through hole, 72 is a second shell, 721 is a clamping groove, 722 is a groove, 723 is a small drawer, 73 is an air inlet surface, 74 is an air outlet surface, 75 is a main seat groove, 76 is a secondary seat groove, 8 is a switch button, 9 is an indicator light, 10 is a power line, and 11 is a connecting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the negative ion purifier of the present invention comprises a housing assembly 7 and a negative ion generating assembly, the negative ion generating assembly is arranged in the shell assembly 7, the shell assembly 7 comprises an air inlet surface 73 and an air outlet surface 74, the negative ion generating component comprises a negative ion high voltage generator 1, a negative ion discharging electrode 2 and a negative ion emitting needle 3, the negative ion high-voltage generator 1 is arranged on the side edge of the air inlet surface 73, the negative ion emission needle 3 is arranged on the air outlet surface 74, one end of the negative ion discharge electrode 2 is electrically connected with the high-voltage output end of the negative ion high-voltage generator 1, the other end of the negative ion generator is connected with the negative ion emitting needle 3, air enters the shell component 7 from the air inlet surface 73, the negative ion high-voltage generator 1 generates high voltage, the negative ions are sent to a negative ion emission needle 3 through a negative ion discharge electrode 2, and the negative ions generated by high-voltage discharge of the air flow are blown out from an air outlet surface.

The negative ion generating assembly further comprises a main circuit board 4 and an auxiliary circuit board 5, the main circuit board 4 and the auxiliary circuit board 5 are arranged on the side edge of the air outlet surface 74, the main circuit board 4 is electrically connected with the auxiliary circuit board 5, and the negative ion high-voltage generator 1 is electrically connected with the auxiliary circuit board 5. The negative ion generating assembly comprises a fan 6, the fan 5 is arranged between the air inlet surface 73 and the air outlet surface 74 and is electrically connected with the main circuit board 4, and the fan 5 rotates to generate wind power to blow out negative ions along the air outlet surface 74.

Referring to fig. 4, in an embodiment of the present invention, the housing assembly 7 includes a first housing 71 and a second housing 72, the first housing 71 and the second housing 72 are embedded to form a rectangular box, the air inlet surface 73 is disposed on the second housing 72, and the air outlet surface 74 is disposed on the first housing 71; a group of main seat slots 75 are formed below the shell assembly 7, three auxiliary seat slots 76 are formed in the outer side of the second shell 72, cotton blocks are arranged in the main seat slots 75 and the auxiliary seat slots 76, and the auxiliary seat slots 76 enable the anion generators to be placed in parallel, so that the anion generators are prevented from being knocked down and damaged when being placed; the main seat groove 75 and the auxiliary seat groove 76 realize the standing and the flat placement of the anion generator, and reduce the noise generated by the working chamber of the anion purifier.

In other embodiments of the present invention, a plurality of sub-seat grooves 76 may be formed outside the second housing 72, so that the anion generator can be better placed flat.

Referring to fig. 2-3, in an embodiment of the present invention, four through holes 11 are disposed on the first housing 71, the through holes 11 are used for placing the negative ion emitting pins 3, and the negative ion emitting pins 3 are carbon fibers; a clamping groove 721 is formed in the second shell 72, the clamping groove 721 is arranged at the position, surrounding the air inlet face 73, and used for placing and fixing the fan 6, a groove 722 is formed in the outer side of the second shell 72, a small drawer 723 is arranged in the groove 722, and a fragrance cotton block (not shown) is arranged in the small drawer 723.

In other embodiments of the present invention, the first housing 71 may be provided with a plurality of through holes 11 for placing more negative ion emitting pins 3, so as to generate more negative ions.

Casing subassembly 7 is still including shift knob 8, pilot lamp 9 and power cord 10, shift knob 8 is located on casing subassembly 7 with

pilot lamp

9, 7 sides of casing subassembly are located to power cord 10, shift knob 8, pilot lamp 9 and power cord 10 are all connected vice circuit board 5 and are closed through the opening of shift knob 8 to the equal electricity of shift knob 8, control fan 6, anion high voltage generator 1 and main circuit board 4's power break-make when the transform of control pilot lamp 9.

In the embodiment of the utility model, the indicator light 9 comprises a red indicator light and a green indicator light, the power cord 10 is connected, the switch button 8 is pressed, the green indicator light 9 is lighted, and the anion purifier starts to work; and the switch button 8 is pressed, the red indicator light 9 is turned on, and the negative ion purifier stops working.

The second housing 72 is provided with a plurality of connecting holes 11 and a plurality of connecting members (not shown), and the connecting members are connected with the connecting holes 11, so that the second housing 72 is connected and fixed with the first housing 71, and the connecting members are screws.

The utility model relates to an operating principle of anion purifier:

after the power line 10 is switched on, the red indicator light is on, the switch button 8 is pressed, the green indicator light is on, the anion purifier starts to work, the anion high-voltage generator 1 arranged on the side edge of the air inlet face 73 is electrified to transmit electricity to the anion emission needle 3 through the anion discharge electrode 2, high-voltage discharge is carried out on air to generate anions, and the fan 6 in the second shell 72 is just opposite to the air outlet face 74 so as to blow out the anions along the air outlet face 74.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e., the present invention is intended to cover all equivalent variations and modifications.

Claims

1. An anion clarifier which characterized in that: the negative ion generator comprises a shell component and a negative ion generation component, wherein the negative ion generation component is arranged in the shell component, the shell component comprises an inlet air surface and an outlet air surface, the negative ion generation component comprises a negative ion high-voltage generator, a negative ion discharge electrode and a negative ion emission needle, the negative ion high-voltage generator is arranged on the inlet air surface side, the negative ion emission needle is arranged on the outlet air surface, the negative ion discharge electrode is connected with the negative ion high-voltage generator and the negative ion emission needle, air enters the shell component from the inlet air surface, the negative ion high-voltage generator generates high voltage, the negative ion discharge electrode is sent to the negative ion emission needle, and negative ions generated by high-voltage discharge of the air are blown out from the outlet air surface.

2. The negative ion cleaner of claim 1, wherein: one end of the negative ion discharge electrode is electrically connected with the high-voltage output end of the negative ion high-voltage generator, and the other end of the negative ion discharge electrode is connected with the negative ion emission needle.

3. The negative ion cleaner of claim 1, wherein: the negative ion generating assembly further comprises a main circuit board and an auxiliary circuit board, the main circuit board and the auxiliary circuit board are arranged on the side edge of the air outlet face, the main circuit board is electrically connected with the auxiliary circuit board, and the negative ion high-voltage generator is electrically connected with the auxiliary circuit board.

4. The negative ion cleaner of claim 3, wherein: the negative ion generating assembly comprises a fan, the fan is arranged between the air inlet surface and the air outlet surface and is electrically connected with the main circuit board, and the fan rotates to generate wind power to blow out negative ions along the air outlet surface.

5. The negative ion cleaner of claim 1, wherein: the shell assembly comprises a first shell and a second shell, the first shell and the second shell are embedded to form a rectangular box body, the air inlet face is arranged on the second shell, and the air outlet face is arranged on the first shell.

6. The negative ion cleaner of claim 5, wherein: the anion generator is characterized in that a group of main seat grooves are formed in the lower portion of the shell assembly, a plurality of auxiliary seat grooves are formed in the outer side of the second shell, cotton blocks are arranged in the main seat grooves and the auxiliary seat grooves, and the anion generator can stand or be horizontally placed through the main seat grooves and the auxiliary seat grooves.

7. The negative ion cleaner of claim 5, wherein: the novel fan is characterized in that a clamping groove is formed in the second shell, the clamping groove is arranged at the position of the air inlet face in a surrounding mode and used for placing a fixed fan, a groove is formed in the outer side of the second shell, a small drawer is arranged in the groove, and a fragrant cotton block is arranged in the small drawer.

8. The negative ion cleaner of claim 5, wherein: the shell assembly further comprises a switch button, an indicator lamp and a power line, the switch button and the indicator lamp are arranged on the shell assembly, the power line is arranged on the side edge of the shell assembly, the switch button, the indicator lamp and the power line are electrically connected with the auxiliary circuit board, and the switch button is turned on and turned off to control the on-off of the power supply of the fan, the negative ion high-voltage generator and the main circuit board while the indicator lamp is changed.

9. The negative ion cleaner of claim 5, wherein: the first shell is provided with a plurality of through holes, and the through holes are used for placing negative ion emission needles.

10. The negative ion cleaner of claim 5, wherein: the second shell is provided with a plurality of connecting holes and a plurality of connecting pieces, and the connecting pieces are connected with the connecting holes, so that the second shell is fixedly connected with the first shell.