CN117029168A - High-concentration negative oxygen ion generating device - Google Patents

Abstract

The invention discloses a high-concentration negative oxygen ion generating device which comprises a first drawer, a second drawer and an outer shell, wherein the first drawer and the second drawer are spliced and installed on the inner surface of one side of the outer shell, the first drawer and the second drawer are arranged side by side up and down, a negative ion generator is fixedly installed in the second drawer, a negative electrode needle group is fixedly installed on the outer surface of the side edge of the negative ion generator, a cleaning piece for cleaning the negative electrode needle group is movably installed in the second drawer, and the cleaning piece comprises a splicing scraping plate, a first clamping seat and a second clamping seat, and the second clamping seat is spliced and installed on the outer surface of one end of the splicing scraping plate; the device has a split combined structure, can randomly adjust the concentration of negative oxygen ions, can randomly adjust according to the use scene, and has a self-cleaning structure in the device, so that the high-concentration negative oxygen ion generating device always has good use effect.

Description

High-concentration negative oxygen ion generating device

Technical Field

The invention belongs to the technical field of air purification equipment, and particularly relates to a high-concentration negative oxygen ion generating device.

Background

The air negative ion generator utilizes high-voltage corona to increase negative ion components in air, thereby improving air quality, the latest negative ion generation technology, and the ecological negative ion generation technology with a negative ion system and a pollutant collecting system is technically upgraded on the basis of the first two negative ion technologies, so that the visualization of negative ion purification is realized.

Patent document CN100511888C discloses an electrical apparatus that generates negative oxygen ions. Including casing, anion generation chamber and switching power supply, its characterized in that: the humidity detection device is connected with the switch power supply and can adjust the output value of the high-voltage generator; the negative ion generating cavity comprises a fan, a plurality of discharge needles, a positive plate, a negative plate and a permanent magnet serving as an ion trap, wherein the discharge needles are arranged on the positive plate at the upper part of the negative ion generating cavity according to triangular waves, the negative plate is arranged below the discharge needles, the permanent magnet is arranged at the lower ends of the left side wall and the right side wall of the negative ion generating cavity, the fan is positioned on the rear side surface of the negative ion generating cavity, high working voltage is adopted, the plurality of discharge needles are used for ensuring no ozone, improving the concentration of negative ions and having great effect on changing the living room environment and human health care.

The high-concentration negative oxygen ion generating device has certain defects when in use, does not have an auxiliary self-cleaning structure, performs high-voltage corona through the discharge needle to realize negative ion purification operation, and can cause dust accumulation phenomenon on the discharge needle of the oxygen ion generating device after long-time use to cause dust contamination on the surface of the discharge needle, so that the discharge needle cannot be fully contacted with air, and the ion purification effect of the discharge needle is reduced; meanwhile, the negative oxygen ion generating device only has a single negative oxygen ion purifying function, when the negative oxygen ion generating device is used, the negative oxygen ion purifying intensity and the air filtering intensity of the negative oxygen ion generating device cannot be adjusted arbitrarily according to the use environment, the negative oxygen ion generating device cannot be suitable for different use scenes, and the use effect of the negative oxygen ion generating device is reduced; and secondly, the negative oxygen ion generating device adopts a single air duct structural design, so that the air outlet direction of the negative oxygen ion generating device cannot be adjusted randomly according to requirements when the negative oxygen ion generating device is used, the use coverage of the negative oxygen ion generating device is reduced, the flexibility is poor, and certain adverse effects are brought to a user.

Disclosure of Invention

The invention aims to provide a high-concentration negative oxygen ion generating device which can solve the existing problems.

The invention solves the problems that:

1. the negative oxygen ion generating device does not have an auxiliary self-cleaning structure, and the negative oxygen ion generating device performs high-voltage corona through the discharge needle to realize negative ion purification operation, and long-time use can lead the discharge needle of the oxygen ion generating device to generate dust accumulation phenomenon, so that the surface of the discharge needle is stained with dust, the discharge needle cannot be fully contacted with air, and the ion purification effect of the discharge needle is reduced;

2. meanwhile, the negative oxygen ion generating device only has a single negative oxygen ion purifying function, when the negative oxygen ion generating device is used, the negative oxygen ion purifying intensity and the air filtering intensity of the negative oxygen ion generating device cannot be adjusted arbitrarily according to the use environment, the negative oxygen ion generating device cannot be suitable for different use scenes, and the use effect of the negative oxygen ion generating device is reduced;

3. meanwhile, the negative oxygen ion generating device adopts a single air duct structural design, so that the air outlet direction of the negative oxygen ion generating device cannot be adjusted randomly according to requirements when the negative oxygen ion generating device is used, the use coverage of the negative oxygen ion generating device is reduced, the flexibility is poor, and certain adverse effects are brought to a user.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a high concentration negative oxygen ion generating device, includes first drawer, second drawer and shell body, first drawer and second drawer are all installed in one side internal surface of shell body in the concatenation, first drawer and second drawer are the upper and lower side by side setting, the inside fixed mounting of second drawer has anion generator, and anion generator's side surface fixed mounting has negative pole needle group, the inside movable mounting of second drawer has the clearance piece that is used for clearing up negative pole needle group, the clearance piece includes concatenation scraper blade, first cassette and second cassette, the one end surface at the concatenation scraper blade is installed in the second cassette concatenation, the other end surface at the concatenation scraper blade is installed in the first cassette concatenation, the upper end of shell body is equipped with the exhaust duct, the upper end of shell body is located the equal movable mounting in both sides of exhaust duct and has the side revolve tuber pipe, the strip groove that a plurality of groups cooperation negative pole needle group used has been seted up on the surface of concatenation scraper blade.

As a further technical scheme of the invention, the negative electrode needle group consists of a plurality of groups of ionization bars, the first clamping seat, the second clamping seat and the second drawing hopper are driven by a screw rod, two ends of the first clamping seat, the second clamping seat and the splicing scraping plate are spliced and fixed through clamping grooves, when the negative oxygen ion generating device is used, the negative ion generator is electrified and operated, so that voltage is applied to the ionization bars of the negative electrode needle group, the ionization bars are contacted with air to carry out ionization, negative ion production and negative ion diffusion, the principle is that an electric field is strong to cause ionization of molecules in the air, namely one or more electrons in the molecules are separated to form charged ions and free electrons, under the action of the electric field, the ionization bars release negative ions, sharp shapes and high voltages enable the ionization bars to carry negative charges, a large number of free electrons with additional charges are emitted from the surfaces of the ionization bars, the free electrons are impacted towards surrounding air molecules, the molecules are ionized and charged, the negative ions are formed, the generated negative ions are rapidly diffused in the air around the ionization bars, the negative ions are carried with the additional charges, the negative ions, the surrounding ions are carried with the negative ions, the negative ions are combined with the negative ions and the negative ions, and the negative ions are absorbed by the negative ions, and the harmful substances are absorbed by the air, and the dust are attached to the surfaces, and the dust are changed to the surfaces, and the harmful substances are attracted by the dust, and the dust are the dust, and the dust is changed.

According to the technical scheme, the limiting guide rod matched with the first clamping seat and the second clamping seat is arranged on the inner side of the second drawer, the first clamping seat and the second clamping seat are movably sleeved on the outer surface of the limiting guide rod, the first clamping seat and the second clamping seat can be driven by rotation of the screw rod, the first clamping seat and the second clamping seat drive the splicing scraping plates to move, and the strip-shaped scraping grooves of the splicing scraping plates are utilized to scrape and clean the negative electrode needle group.

As a further technical scheme of the invention, the outer surface of one end of each screw rod is provided with a motor, the two screw rods are in transmission connection through a gear matching chain, a user starts the motor to drive one screw rod to rotate, and the gear matching chain is used to enable the two screw rods to synchronously rotate, so that the first clamping seat and the second clamping seat are driven to move simultaneously.

As a further technical scheme of the invention, the inside of the first drawer is spliced and installed with a photocatalyst net, a biological enzyme net and a water washing filter pad, the photocatalyst net is arranged on the outer surface of the upper end of the biological enzyme net, the water washing filter pad is fixedly installed on the outer surface of the lower end of the biological enzyme net, and a triple gas filter structure is formed in the first drawer by utilizing the arrangement of the photocatalyst net, the biological enzyme net and the water washing filter pad, so that the air inlet filter effect of the high-concentration negative oxygen ion generating device is improved.

According to the invention, one end of the side air rotating pipe is provided with the rotary clamping mouth, the side air rotating pipe is movably connected with the outer shell through the rotary clamping mouth, the inner side of the side air rotating pipe is provided with the rectangular through hole, and the two sides of the outer shell are provided with the rotary air duct structures by utilizing the arrangement of the two groups of side air rotating pipes, so that the air outlet direction of the high-concentration negative oxygen ion generating device can be randomly regulated according to the use requirement.

As a further technical scheme of the invention, the inner side of the other end of the side cyclone pipe is movably provided with the rotary air nozzle, the rotary air nozzle is movably connected with the side cyclone pipe through a rotating shaft, a user can control the exhaust switch of the side cyclone pipe by rotating the rotary air nozzle, and meanwhile, the wind direction of the side cyclone pipe can be adjusted.

As a further technical scheme of the invention, the outer surface of the lower end of the outer shell is spliced and installed with a power supply base, the lower end of the outer shell and four corners of the power supply base are spliced and fixed through splicing clamping grooves, a battery block is installed in the middle of the power supply base, a movable castor is movably arranged at the bottom of the power supply base, and the battery block of the power supply base is utilized to perform zero-time power supply operation on the high-concentration negative oxygen ion generating device, so that the service time of the high-concentration negative oxygen ion generating device is prolonged.

As a further technical scheme of the invention, a control knob is movably arranged on the outer surface of the upper end of the outer shell, a fan is arranged on the inner side of the lower end of the outer shell, an air inlet groove is arranged on the outer surface of the lower end of the outer shell, and a side rotary cover plate is movably arranged on one side of the air inlet groove.

The invention has the beneficial effects that:

1. the first and second drawers are provided with air filtering and negative ion purifying functions respectively when the high-concentration negative oxygen ion generating device is used, the air filtering effect of the negative oxygen ion generating device can be increased or the negative oxygen ion concentration of the negative oxygen ion generating device is improved by installing the first and second drawers with corresponding numbers, high-concentration negative ion purification is realized, so that the flexibility of the high-concentration negative oxygen ion generating device in use is effectively improved, the high-concentration negative oxygen ion generating device can be arbitrarily regulated according to a use scene, when the high-concentration negative oxygen ion generating device is operated, when a user installs one group of the first drawers and three groups of the second drawers, the device is stressed on the negative oxygen ion purifying operation, the user can perform ionization, negative ion production and negative ion diffusion operation by starting the negative ion generator, the ionization rod is contacted with air, negative ions generated by the negative ion generating device and the negative ion generating device are collided with particles, bacteria, viruses, dust and other positive-charged harmful substances in the air, the negative ion generating device can change the negative ions into heavy substances, the heavy substances and the negative ions, the negative ions can be subjected to sedimentation with the heavy substances, the negative ions can be performed by the negative ions, the negative ions can be simultaneously, the air can be purified by the air filtering device, the high-concentration negative ions can be filtered by the negative ions, the negative ions can be filtered by the negative ions can be purified by the air, the high-concentration can be purified by the air, and the air can be purified by the air, and the high-concentration negative ions can be purified by the air, and high-quality can be purified by the air quality can be simultaneously, and high quality can be purified by the air quality and high quality, and high quality can be purified by the air quality. The high-concentration negative oxygen ion generating device is provided with a spliced combined fixing structure, so that the flexibility of the high-concentration negative oxygen ion generating device in use is improved.

2. Through setting up the clearance piece, when this high concentration negative oxygen ion generator uses, make its inside initiative clean function that has, after long-time use, make the ionization stick of negative pole needle group still keep bright and clean state, promote its result of use, during the use, through starting motor, make motor drive a lead screw and rotate, utilize the use of gear cooperation chain, make two lead screws synchronous rotation, thereby drive first cassette and second cassette removal simultaneously, first cassette and second cassette drive concatenation scraper blade remove, utilize the bar of concatenation scraper blade to scrape the clearance operation to negative pole needle group, get rid of negative pole needle group surface dust, secondly utilize the setting of spacing guide arm, can avoid first cassette and second cassette rotatory, make first cassette and second cassette do horizontal migration, adopt the draw-in groove structure concatenation between first cassette simultaneously, second cassette and the concatenation scraper blade, after the second drawer is taken out, can take off the concatenation scraper blade and change or clear up it.

3. Through setting up two sets of side cyclone pipes, when this high concentration negative oxygen ion generator uses, make its both sides all have auxiliary exhaust structure, the user is through the fan that starts outer shell bottom, make outside air get into the inside at the bottom of the outer shell through the inlet channel, after the air passes first drawer and second drawer, accomplish filtration and anion purification operation, the air after handling is discharged through side cyclone pipe and exhaust channel, the user can control the exhaust switch of side cyclone pipe through rotating rotatory tuyere, can adjust the wind direction of side cyclone pipe simultaneously, secondly utilize the setting of two sets of side cyclone pipes, make the both sides of outer shell all have rotary type wind channel structure, can adjust the air-out direction of high concentration negative oxygen ion generator wantonly according to the use demand, the flexibility when promoting it, utilize the battery piece of power supply base simultaneously, can carry out zero power supply operation to high concentration negative oxygen ion generator, prolong its live time.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of a high concentration negative oxygen ion generator according to the present invention;

FIG. 2 is a block diagram of a second drawer of the high concentration negative oxygen ion generator of the present invention;

FIG. 3 is a block diagram of the cleaning member of the high concentration negative oxygen ion generating apparatus of the present invention;

FIG. 4 is a block diagram of a first drawer of the high concentration negative oxygen ion generator of the present invention;

FIG. 5 is a schematic diagram of the overall structure of a side cyclone tube in a high concentration negative oxygen ion generator according to the present invention;

FIG. 6 is an overall construction diagram of a power supply base in a high concentration negative oxygen ion generating apparatus of the present invention.

In the figure: 1. a power supply base; 2. an air inlet groove; 3. a first drawer; 4. a second drawer; 5. a control knob; 6. an exhaust groove; 7. a side cyclone tube; 8. an outer housing; 9. a side-rotating cover plate; 10. a negative ion generator; 11. a negative electrode needle group; 12. a strip-shaped scraping groove; 13. cleaning the piece; 14. a motor; 15. a screw rod; 16. a limit guide rod; 17. splicing scraping plates; 18. a first clamping seat; 19. a second clamping seat; 20. a chain; 21. a photocatalyst net; 22. a biological enzyme net; 23. washing the filter pad with water; 24. a rotary tuyere; 25. rectangular through holes; 26. rotating the clamping mouth; 27. moving casters; 28. a battery block; 29. and a splicing clamping groove.

Detailed Description

In order to further describe the technical means and effects adopted by the present invention for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present invention with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1-6, a high concentration negative oxygen ion generating device, including first drawer 3, second drawer 4 and shell body 8, first drawer 3 and second drawer 4 all splice the one side internal surface of installing at shell body 8, first drawer 3 and second drawer 4 are arranged side by side from top to bottom, the inside fixed mounting of second drawer 4 has anion generator 10, and the side surface fixed mounting of anion generator 10 has negative pole needle group 11, the inside movable mounting of second drawer 4 has the clearance piece 13 that is used for clearing up negative pole needle group 11, clearance piece 13 includes concatenation scraper blade 17, first cassette 18 and second cassette 19, the one end surface at concatenation scraper blade 17 is installed in the concatenation of second cassette 19 splice, the other end surface at concatenation scraper blade 17 is installed in the concatenation of first cassette 18, the upper end of shell body 8 is equipped with exhaust duct 6, the upper end of shell body 8 is located the both sides of exhaust duct 6 and all movably mounted side-spin tuber pipe 7, the surface of scraper blade 17 has a plurality of groups to cooperate the scraping groove 12 that negative pole needle group 11 used.

The negative electrode needle group 11 is composed of a plurality of groups of ionization bars, the first clamping seat 18, the second clamping seat 19 and the second drawer 4 are driven by the screw rod 15, two ends of the first clamping seat 18, the second clamping seat 19 and the splicing scraping plate 17 are spliced and fixed through clamping grooves, when the negative oxygen ion generating device is used, the negative ion generator 10 is electrified and operated, so that voltage is applied to the ionization bars of the negative electrode needle group 11, the ionization bars are in contact with air to carry out ionization, negative ion production and negative ion diffusion, the principle is that the electric field is strong to cause ionization of molecules in the air, namely one or more electrons in the molecules are separated to form charged ions and free electrons, the ionization bars release negative ions under the action of the electric field, sharp shapes and high voltages enable the ionization bars to carry negative charges, a large number of free electrons with additional charges are emitted from the surfaces of the ionization bars, the free electrons are impacted towards surrounding air molecules to ionize the molecules and charge the negative ions, the generated negative ions are rapidly diffused in the air around the ionization bars, and the negative ions are attracted by the negative ions, the negative ions and the negative ions are combined with the negative ions and the negative ions, and the harmful substances are combined with the air or the harmful substances, and the dust and other harmful substances are deposited on the surfaces, and the surfaces are improved.

The inside of second drawer 4 is provided with the spacing guide arm 16 that cooperation first cassette 18 and second cassette 19 used, and first cassette 18 and second cassette 19 activity cup joint the surface at spacing guide arm 16, utilizes the rotation of lead screw 15, can drive first cassette 18 and second cassette 19 for first cassette 18 and second cassette 19 drive concatenation scraper blade 17 and remove, utilize the bar of concatenation scraper blade 17 to scrape groove 12, scrape the clearance operation to negative pole needle group 11.

The outer surface of one end of each screw rod 15 is provided with a motor 14, the two screw rods 15 are in transmission connection through a gear matching chain 20, a user starts the motor 14 to drive one screw rod 15 to rotate, and the gear matching chain 20 is used to enable the two screw rods 15 to synchronously rotate, so that the first clamping seat 18 and the second clamping seat 19 are driven to move simultaneously.

The photocatalyst net 21, biological enzyme net 22 and washing filter pad 23 are installed in the inboard concatenation of first drawer 3, and photocatalyst net 21 sets up the upper end surface at biological enzyme net 22, and washing filter pad 23 fixed mounting is at the lower extreme surface of biological enzyme net 22, and the inboard of first drawer 3 is equipped with the ultraviolet lamp that the cooperation photocatalyst net 21 used, utilizes photocatalyst net 21, biological enzyme net 22 and washing filter pad 23's setting, forms triple gas filtration in the inside of first drawer 3, promotes high concentration negative oxygen ion generator's air intake filter effect.

One end of the side air rotating pipe 7 is provided with a rotary clamping nozzle 26, the side air rotating pipe 7 is movably connected with the outer shell 8 through the rotary clamping nozzle 26, rectangular through holes 25 are formed in the inner side of the side air rotating pipe 7, and the two sides of the outer shell 8 are provided with rotary air duct structures by means of the arrangement of the two groups of side air rotating pipes 7, so that the air outlet direction of the high-concentration negative oxygen ion generating device can be adjusted randomly according to use requirements.

The inner side of the other end of the side cyclone tube 7 is movably provided with a rotary air nozzle 24, the rotary air nozzle 24 is movably connected with the side cyclone tube 7 through a rotating shaft, a user can control the exhaust switch of the side cyclone tube 7 by rotating the rotary air nozzle 24, and meanwhile, the wind direction of the side cyclone tube 7 can be adjusted.

The power supply base 1 is installed in the lower extreme surface concatenation of shell body 8, and the lower extreme of shell body 8 is fixed through concatenation draw-in groove 29 concatenation between the four corners of power supply base 1, and the mid-mounting of power supply base 1 has battery piece 28, and the bottom activity of power supply base 1 has movable castor 27, utilizes the battery piece 28 of power supply base 1, can carry out zero power supply operation to high concentration negative oxygen ion generator, prolongs its live time.

The upper end surface movable mounting of shell body 8 has control knob 5, and the lower extreme inboard of shell body 8 is equipped with the fan, and the lower extreme surface of shell body 8 is equipped with air inlet tank 2, and one side movable mounting of air inlet tank 2 has side-spin apron 9.

The high-concentration negative oxygen ion generating device has the advantages that the first drawer 3 and the second drawer 4 are arranged, when the high-concentration negative oxygen ion generating device is used, the first drawer 3 and the second drawer 4 respectively have the functions of air filtration and negative ion purification, the air filtration effect of the negative oxygen ion generating device can be improved or the negative oxygen ion concentration of the negative oxygen ion generating device is improved through arranging the first drawer 3 and the second drawer 4 with corresponding numbers, the high-concentration negative oxygen ion purification is realized, the flexibility in the use process is effectively improved, the high-concentration negative oxygen ion generating device can be adjusted according to the use situation at will, when a user installs one group of first drawers 3 and three groups of second drawers 4 in operation, the device is focused on the negative oxygen ion purification operation, the user can apply voltage on the ionization bars of the negative electrode needle group 11 through starting the negative ion generator 10, the ionization bars are contacted with air, so as to perform ionization, anion production and anion diffusion operations, the produced anions collide with harmful substances with positive charges such as particles, bacteria, viruses, dust and the like in the air and neutralize the charges, so that the harmful substances become heavy and settle on the ground or other solid surfaces along with the action of gravity, thereby improving the air quality, a plurality of anion generators 10 can be combined in one outer shell 8 to produce a large amount of anions when the plurality of second drawers 4 are used, thereby realizing high-concentration anion purification operations, and simultaneously when the number of the first drawers 3 is three, the number of the second drawers 4 is one, the high-concentration anion generator is focused on the air purification function, and a triple gas filtering structure is formed inside the first drawers 3 by utilizing the arrangement of the photocatalyst net 21, the biological enzyme net 22 and the water washing filter pad 23, impurities in the air are effectively filtered, and the high-concentration negative oxygen ion generating device is provided with a spliced combined fixed structure through the arrangement of the first drawer 3 and the second drawer 4, so that the flexibility of the high-concentration negative oxygen ion generating device in use is improved;

through setting up the cleaning piece 13, when the high concentration negative oxygen ion generating device is used, make its inside have initiative clean function, after long-time use, make the ionization stick of negative pole needle group 11 still keep bright and clean state, promote its result of use, during the use, through starting motor 14, make motor 14 drive a lead screw 15 rotate, utilize the use of gear cooperation chain 20, make two lead screws 15 synchronous rotation, thereby drive first cassette 18 and second cassette 19 to remove simultaneously, first cassette 18 and second cassette 19 drive concatenation scraper 17 to remove, utilize the bar of concatenation scraper 17 to scrape the clearance operation to negative pole needle group 11, remove negative pole needle group 11 surface dust, secondly utilize the setting of spacing guide arm 16, can avoid first cassette 18 and second cassette 19 to rotate, make first cassette 18 and second cassette 19 do horizontal migration, adopt the splice structure splice between first cassette 18, second cassette 19 and the concatenation scraper 17, after second drawer 4 is taken out, can take out concatenation scraper 17 and change or clear up it to operate it;

through setting up two sets of side cyclone tube 7, when this high concentration negative oxygen ion generator uses, make its both sides all have auxiliary exhaust structure, the user is through starting the fan of shell body 8 bottom, make outside air get into the inside at shell body 8 bottom through intake groove 2, after the air passes first drawer 3 and second drawer 4, accomplish filtration and anion purification operation, the air after handling is discharged through side cyclone tube 7 and exhaust groove 6, the user can control the exhaust switch of side cyclone tube 7 through rotating rotatory tuyere 24, can adjust the wind direction of side cyclone tube 7 simultaneously, secondly utilize the setting of two sets of side cyclone tube 7, make the both sides of shell body 8 all have rotary duct structure, the air-out direction of high concentration negative oxygen ion generator can be adjusted wantonly according to the use demand, the flexibility when promoting it uses, utilize the battery piece 28 of negative power supply base 1 simultaneously, can carry out zero power supply operation to high concentration oxygen ion generator, prolong its live time.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims (9)

1. The utility model provides a high concentration negative oxygen ion generating device, its characterized in that, including first drawer (3), second drawer (4) and shell body (8), one side internal surface at shell body (8) is all installed in the equal concatenation of first drawer (3) and second drawer (4), first drawer (3) and second drawer (4) are the upper and lower side by side setting, the inside fixed mounting of second drawer (4) has negative ion generator (10), and the side surface fixed mounting of negative ion generator (10) has negative pole needle group (11), the inside movable mounting of second drawer (4) has clearance spare (13) that are used for clearing up negative pole needle group (11), clearance spare (13) are including concatenation scraper blade (17), first cassette (18) and second cassette (19), the one end surface at concatenation scraper blade (17) is installed in the concatenation of second cassette (19) concatenation, the other end surface at concatenation scraper blade (17) is installed in the concatenation, the side surface of the shell body (8) is equipped with a plurality of strip-shaped groove (6) and is equipped with on the side of rolling out of a plurality of strip-shaped scraper blade (8) and is located on the side of the shell body (6) and is equipped with a plurality of strip-shaped air duct (7).

2. The high-concentration negative oxygen ion generating device according to claim 1, wherein the negative electrode needle group (11) consists of a plurality of groups of ionization bars, the first clamping seat (18), the second clamping seat (19) and the second drawer (4) are driven by a screw rod (15), and two ends of the first clamping seat (18), the second clamping seat (19) and the splicing scraping plate (17) are spliced and fixed by clamping grooves.

3. The high-concentration negative oxygen ion generating device according to claim 2, wherein a limit guide rod (16) matched with a first clamping seat (18) and a second clamping seat (19) is arranged on the inner side of the second drawer (4), and the first clamping seat (18) and the second clamping seat (19) are movably sleeved on the outer surface of the limit guide rod (16).

4. The high-concentration negative oxygen ion generating device according to claim 2, wherein an outer surface of one end of the screw rod (15) is provided with a motor (14), and the two screw rods (15) are in transmission connection through a gear matching chain (20).

5. The high-concentration negative oxygen ion generating device according to claim 1, wherein a photocatalyst net (21), a biological enzyme net (22) and a washing filter pad (23) are spliced and installed on the inner side of the first drawer (3), the photocatalyst net (21) is arranged on the outer surface of the upper end of the biological enzyme net (22), and the washing filter pad (23) is fixedly installed on the outer surface of the lower end of the biological enzyme net (22).

6. The high-concentration negative oxygen ion generating device according to claim 1, wherein one end of the side air rotating pipe (7) is provided with a rotary clamping nozzle (26), the side air rotating pipe (7) is movably connected with the outer shell (8) through the rotary clamping nozzle (26), and a rectangular through hole (25) is formed in the inner side of the side air rotating pipe (7).

7. The high-concentration negative oxygen ion generating device according to claim 6, wherein a rotary air nozzle (24) is movably arranged on the inner side of the other end of the side air rotating pipe (7), and the rotary air nozzle (24) is movably connected with the side air rotating pipe (7) through a rotating shaft.

8. The high-concentration negative oxygen ion generating device according to claim 1, wherein a power supply base (1) is spliced and installed on the outer surface of the lower end of the outer shell (8), the lower end of the outer shell (8) and four corners of the power supply base (1) are spliced and fixed through splicing clamping grooves (29), a battery block (28) is installed in the middle of the power supply base (1), and a movable caster (27) is arranged at the bottom of the power supply base (1).

9. The high-concentration negative oxygen ion generating device according to claim 1, wherein a control knob (5) is movably mounted on the outer surface of the upper end of the outer shell (8), a fan is arranged on the inner side of the lower end of the outer shell (8), an air inlet groove (2) is formed in the outer surface of the lower end of the outer shell (8), and a side rotary cover plate (9) is movably mounted on one side of the air inlet groove (2).