CN111545021A - High-energy ion generator - Google Patents

Abstract

The invention relates to the technical field of air purification equipment and environmental protection, and discloses a high-energy ion generator. The invention ensures the air dryness in the ion tube by using multiple seals, is convenient to install and prolongs the service life of the ion tube.

Description

High-energy ion generator

Technical Field

The invention relates to the technical field of air purification equipment and environmental protection, in particular to a high-energy ion generator.

Background

The principle of the high-energy ion generator is that a large amount of alpha particles are generated in the electrode discharging process, and oxygen in the air is ionized into positive and negative oxygen ions. The method is widely applied to a plurality of fields such as pollution industry, medical system, household air purification and the like.

In the prior art, electrodes are arranged inside and outside an ion tube, and air is ionized through discharge of a glass medium. In the process of glass medium discharge, the ion tube is kept dry, and water vapor and impurities can influence the service life of the ion tube, so that the ion tube is cracked.

The existing ion tube has poor sealing performance, is sealed only by the contact of an ion tube opening and a connecting seat, hardly avoids the entering of water vapor and pollution particles in the moist working condition, and shortens the service life of the ion tube.

In addition, the existing base is simple in mounting structure and inconvenient to mount, and can be completed only by means of a complex tool.

Disclosure of Invention

The present invention is directed to solve the above problems, and an object of the present invention is to provide a high-energy ion generator, which ensures air dryness inside an ion tube by using multiple seals, is convenient to install, and prolongs the service life of the ion tube.

The technical scheme adopted by the invention is as follows:

a high-energy ion generator is characterized by comprising a bottom plate, a connecting seat and an ion tube, wherein the connecting seat is fixed on the bottom plate, the ion tube is fixed on the connecting seat, the connecting seat comprises a base and a kit, a first through hole is formed in the middle of the base and corresponds to a second through hole in the bottom plate in position, at least two fixing lugs are arranged on the outer edge of the base, the base is fixed on the bottom plate by the fixing lugs, the kit is arranged above the base, a third through hole is formed in the bottom of the kit, the ion tube is matched with the inner wall of the kit, a conductive rod is fixedly arranged in the first through hole and the third through hole, a conductive elastic sheet is arranged at the head of the conductive rod and matched with a metal layer on the inner wall of the ion tube, the conductive rod penetrates through the second through hole of the bottom plate, a connector lug is arranged at the tail, a second sealing groove is formed in the top of the base, a second sealing ring is arranged in the second sealing groove, the base and the bottom plate are sealed through the first sealing ring, and the sleeve and the base are sealed through the second sealing ring.

Further, a third sealing groove is formed in the inner wall of the top of the sleeve, a third sealing ring is arranged between the third sealing groove and the outer wall of the ion tube, and the third sealing ring seals the outer wall of the ion tube and the inner wall of the sleeve.

Further, the conducting rod comprises a bolt arranged in the first through hole of the base, a threaded screw rod arranged in the third through hole and a long nut connected above the threaded screw rod, a threaded through hole is formed in the middle of the bolt, the bolt head is embedded in the first groove above the base, a convex shoulder is arranged in the middle of the threaded screw rod, the convex shoulder is embedded in the second groove at the bottom of the sleeve piece, the lower end of the threaded screw rod is matched in the threaded through hole of the bolt, the upper end of the threaded screw rod is matched with the lower end of the long nut, the conducting elastic sheet is installed at the upper end of the long nut through a screw, and the lower end of the bolt is connected with the wiring screw.

Furthermore, an extension part is arranged below the base, the first through hole penetrates through the extension part, the extension part penetrates through the second through hole, the lower end of the bolt penetrates out of the first through hole, and the bolt is fixed in the first through hole through a nut.

Further, the bolt head is a hexagonal bolt head, the first groove is an inner hexagonal groove, and the hexagonal bolt head is matched in the inner hexagonal groove.

Furthermore, the convex shoulder is a hexagonal head, the second groove is provided with a hexagonal groove, and the hexagonal head is matched with the hexagonal groove.

Further, a sealing gasket is arranged on the upper surface of the first groove of the base and the lower surface of the second groove of the sleeve.

Further, the bottom surface sets up the annular in the external member, the ionic tube cooperation is in the annular.

Further, the edge of the upper surface of the base is provided with an annular edge groove, the lower edge of the sleeve is provided with a flange, and the flange is matched in the annular edge groove.

Furthermore, three to six fixed ears are uniformly distributed on the outer edge of the base.

The invention has the beneficial effects that:

(1) multiple sealing arrangements from the bottom plate and the base to the wall of the ion tube ensure the drying of the air in the ion tube;

(2) the matched mounting structure between the bolts and the nuts is exquisite, and the assembly can be completed only by a simple tool;

(3) the service life of the ion tube is prolonged by more than three times.

Drawings

FIG. 1 is a schematic overall configuration of the present invention;

fig. 2 is a partially enlarged view of a portion of the coupling socket;

figure 3 is a partial cross-sectional view of the connecting socket portion;

FIG. 4 is a perspective illustration of a perspective view of the base;

FIG. 5 is a perspective view of another perspective of the base;

fig. 6 is a perspective view of the kit.

The reference numbers in the drawings are respectively:

1. a base plate; an ion tube;

3. a connecting seat; 4, an electric box;

5. a conductive mesh; 6, connecting the power strip;

7. a base; a kit;

9. a first through hole; 10, fixing the lug;

11. a first seal groove; 12, a first seal ring;

13. a first groove; a second seal groove;

15. an annular side groove; an extension portion;

17. a third through hole; a second groove;

19. a ring groove; a flange;

21. a third seal groove; a second via hole;

23. a bolt; a threaded through hole;

25. a nut; a binding screw;

27. a double-ended screw; shoulder 28;

29. a second seal ring; a seal gasket;

31. a long nut; a conductive spring plate;

33. and a third sealing ring.

Detailed Description

The following describes in detail an embodiment of the high-energy ionizer according to the present invention with reference to the accompanying drawings.

Referring to the attached drawing 1, the high-energy ion generator comprises a plurality of ion tubes 2 arranged on a bottom plate 1, the ion tubes 2 are fixed through a connecting seat 3, the inside of the connecting seat 3 is connected to a conducting layer on the inner wall of the ion tube 2 through a conducting rod, the conducting rod penetrates through the bottom plate 1 to be connected with an electric box 4 below the bottom plate 1, the ion tubes 2 are supplied with high voltage, the ion tubes 2 are externally wrapped with a conducting net 5, the conducting net 5 is connected to a power ground end through a connecting piece 6, the high voltage is discharged in a glass medium of the ion tubes 2 to generate alpha particles, and oxygen in the air is ionized into ions.

Referring to fig. 2, the connecting base 3 is mainly divided into two parts, one part is a base 7 fixed on the bottom plate 1, and the other part is a sleeve 8 arranged on the base 7 and connected together through a connecting piece.

Referring to fig. 3, 4 and 5, a first through hole 9 is formed in the middle of the base 7, three fixing lugs 10 are arranged on the outer edge of the base 7, and the number of the fixing lugs 10 can be determined according to actual sizes, and is generally two to six. A first sealing groove 11 is formed in the lower surface of the base 7, and the first sealing groove 11 is used for placing a first sealing ring 12. A first groove 13 is formed in the middle of the upper surface of the base 7, a second sealing groove 14 is formed in the top of the base 7, and an annular side groove 15 is formed in the edge of the upper surface of the top of the base 7. An extension part 16 is arranged below the base 7, and the first through hole 9 penetrates through the extension part 16.

Referring to fig. 3 and 6, the middle of the sleeve 8 is provided with a third through hole 17, the bottom of the sleeve 8 is provided with a second groove 18, the inner bottom surface of the sleeve 8 is provided with a ring groove 19, the lower edge of the sleeve 8 is provided with a flange 20, and the inner wall of the top of the sleeve 8 is provided with a third sealing groove 21.

Referring to fig. 3, the base plate 1 is provided with a second through hole 22, the extension portion 16 of the base 7 extends into the second through hole 22, the fixing lug 10 of the base 7 fixes the base 7 on the base plate 1 through a screw, and the first sealing ring 12 is arranged in the first sealing groove 11 of the base 7. The first sealing ring 12 closes the air passage between the base 7 and the base plate 1.

As a first part of the conducting rod, a bolt 23 is arranged in the first through hole 9 of the base 7, a bolt head is positioned in the first groove 13 of the base 7, the bolt head is a hexagonal bolt head, the first groove 13 is a hexagon socket head, and the hexagonal bolt head is matched in the hexagon socket head. The bolt 23 is provided with a threaded through hole 24 in the middle, the lower end of the bolt passes through the first through hole 9 and extends out from the position of the extension part 16, the bolt 23 is fixed below the extension part 16 through a nut 25, and a wiring screw 26 is arranged in the threaded through hole 24 of the extension part and used for connecting a power supply.

As the second part of the conducting rod, a double-threaded screw 27 is arranged in the third through hole 17, a shoulder 28 is arranged in the middle of the double-threaded screw 27, the shoulder 28 is embedded in the second groove 18 at the bottom of the sleeve 8, the lower end of the double-threaded screw 27 is matched in the threaded through hole 24 of the bolt 23, the shoulder 28 is a hexagonal head, the second groove 18 is a hexagonal groove, and the hexagonal head is matched in the hexagonal groove. The upper end of the double-ended screw 27 extends above the bottom of the sleeve 8.

A second sealing ring 29 is arranged in the second sealing groove 14 of the base 7, after the sleeve 8 is inserted into the double-threaded screw 27 from top to bottom, the bottom of the sleeve 8 is matched with the top of the base 7, a sealing gasket 30 is further arranged at the matching position of the two first grooves 13 and the second groove 18, and the flange 20 at the lower edge of the sleeve 8 is matched in the annular side groove 15. The second sealing ring 29 and the sealing gasket 30 close the air passage between the base 7 and the sleeve 8.

As a third part of the conductive rod, a long nut 31 is connected with the upper end of the double-end screw 27, the long nut 31 is in an outer hexagonal shape, the lower end of the long nut 31 is matched with the upper end of the double-end screw 27, a conductive elastic sheet 32 is installed at the upper end of the long nut 31, and the conductive elastic sheet 32 is installed in a screw hole at the upper end of the long nut 31 through a screw.

The ion tube 2 is inserted from the upper part of the sleeve 8, the lower opening wall of the ion tube 2 is matched and fixed with the annular groove 19 in the sleeve 8, and the conductive elastic sheet 32 is matched and electrically connected with the conductive layer on the inner wall of the ion tube 2. A third sealing ring 33 is arranged in the third sealing groove 21 at the upper end of the sleeve 8, and the third sealing ring 33 is matched between the third sealing groove 21 and the outer wall of the ion tube 2 to seal an air channel between the ion tube 2 and the sleeve 8.

The installation process of the present invention is described below and can be accomplished with simple tools. First, the first seal ring 12 is set in the first seal groove 11 of the base 7, the extension portion 16 of the base 7 is inserted into the second through hole 22 of the base plate 1, the fixing lug 10 is fixed and fastened by a screw, the bolt 23 is inserted into the first through hole 9 of the base 7, the bolt 23 is fixed below the extension portion 16 of the base 7 by a nut 25 at the lower portion of the base plate 1, and the binding screw 26 is attached. Since the bolt head is engaged with the hexagonal socket of the first recess 13, the operation can be performed with the aid of a simple wrench and screwdriver.

Then, the lower end of the stud 27 is screwed into the internal thread hole of the bolt 23, and the middle of the stud is provided with the sealing gasket 30, and the process can be completed by a wrench.

A second sealing ring 29 is arranged in the second sealing groove 14 of the base 7, and then the sleeve 8 is inserted into the double-thread screw 27 from top to bottom, so that the sleeve 8 is matched with the base 7. The long nut 31 is screwed into the double-threaded screw 27 to fixedly fit the sleeve 8 and the base 7. The conductive elastic sheet 32 is installed on the upper end of the long nut 31 through a screw.

A third seal ring 33 is provided in the third seal groove 21 of the sleeve 8, and finally the ion tube 2 is inserted into the sleeve 8, so that the opening wall of the ion tube 2 is fitted and fixed to the annular groove 19 of the sleeve 8. And the conductive elastic sheet 32 is matched on the conductive layer on the inner wall of the ion tube 2.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A high-energy ionizer characterized in that: the ion tube fixing device comprises a bottom plate, a connecting seat and an ion tube, wherein the connecting seat is fixed on the bottom plate, the ion tube is fixed on the connecting seat, the connecting seat comprises a base and a sleeve piece, a first through hole is formed in the middle of the base and corresponds to a second through hole in the bottom plate in position, at least two fixing lugs are arranged on the outer edge of the base and fix the base on the bottom plate, the sleeve piece is arranged above the base, a third through hole is formed in the bottom of the base, the ion tube is matched with the inner wall of the sleeve piece, a conductive rod is fixedly arranged in the first through hole and the third through hole, a conductive elastic sheet is arranged at the head of the conductive rod and matched with a metal layer on the inner wall of the ion tube, the conductive rod penetrates through the second through hole of the bottom plate, a connector lug is arranged at the tail end of the conductive rod, a, a second sealing ring is arranged in the second sealing groove, the first sealing ring seals between the base and the bottom plate, and the second sealing ring seals between the sleeve and the base.

2. The high-energy ionizer of claim 1, wherein: and a third sealing groove is formed in the inner wall of the top of the sleeve, a third sealing ring is arranged between the third sealing groove and the outer wall of the ion tube, and the third sealing ring seals the outer wall of the ion tube and the inner wall of the sleeve.

3. The high-energy ionizer of claim 1, wherein: the conducting rod comprises a bolt arranged in a first through hole of the base, a threaded screw rod arranged in a third through hole and a long nut connected above the threaded screw rod, a threaded through hole is formed in the middle of the bolt, a bolt head is embedded in a first groove above the base, a convex shoulder is arranged in the middle of the threaded screw rod, the convex shoulder is embedded in a second groove at the bottom of the sleeve, the lower end of the threaded screw rod is matched in the threaded through hole of the bolt, the upper end of the threaded screw rod is matched with the lower end of the long nut, the conducting elastic sheet is installed at the upper end of the long nut through a screw, and the lower end of the bolt is connected with a wiring screw.

4. The high-energy ionizer of claim 3, wherein: the extension portion is arranged below the base, the first through hole penetrates through the extension portion, the extension portion penetrates through the second through hole, the lower end of the bolt penetrates out of the first through hole, and the bolt is fixed in the first through hole through a nut.

5. The high-energy ionizer of claim 4, wherein: the bolt head is a hexagonal bolt head, the first groove is an inner hexagonal groove, and the hexagonal bolt head is matched in the inner hexagonal groove.

6. The high-energy ionizer of claim 5, wherein: the convex shoulder is a hexagonal head, the second groove is provided with a hexagonal groove, and the hexagonal head is matched with the hexagonal groove.

7. The high-energy ionizer of claim 6, wherein: and a sealing gasket is arranged on the upper surface of the first groove of the base and the lower surface of the second groove of the sleeve.

8. The high-energy ionizer according to any one of claims 1 to 7, wherein: the bottom surface sets up the annular in the external member, the ionic tube cooperation is in the annular.

9. The high-energy ionizer according to any one of claims 1 to 7, wherein: the edge of the upper surface of the base is provided with an annular edge groove, the lower edge of the sleeve is provided with a flange, and the flange is matched in the annular edge groove.

10. The high-energy ionizer according to any one of claims 1 to 7, wherein: the fixed ears are three to six and are uniformly distributed on the outer edge of the base.

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