CN111885805A

CN111885805A - Waste gas static removing device for chemical intermediate substance

Info

Publication number: CN111885805A
Application number: CN202010663648.2A
Authority: CN
Inventors: 付航
Original assignee: 付航
Current assignee: JIANGSU FOUR NEW INTERFACE AGENT SCIENCE AND TECHNOLOGY Co.,Ltd.
Priority date: 2020-07-10
Filing date: 2020-07-10
Publication date: 2020-11-03
Anticipated expiration: 2040-07-10
Also published as: CN111885805B

Abstract

The invention discloses a waste gas static removing device of a chemical intermediate substance, relates to the technical field of static elimination, and solves the problems that the existing static removing device mainly attracts current through a metal structure and leads the current to the underground, most of the static removing device is of a fixed structure, gaps are more, and static adsorption has certain loopholes. An electrostatic conducting device for waste gas of chemical intermediate substances comprises a shell; a motor frame is integrally arranged on one side of the shell, and a shaft frame is fixedly arranged in the middle of the top of the motor frame; a conical inlet structure is arranged at the bottom of the shell; negative charge net and positive charge net all can last the rotation through the drive of pivot, will last quick contact through the inside waste gas of casing, and the guide is absorbed comprehensively, adsorbs the discharge through the electric charge of guide in with the air, utilizes metal connecting rod conduction electric charge, and the electric charge is discharged underground through conductor wire and electricity discharge pin finally, gets rid of static.

Description

Waste gas static removing device for chemical intermediate substance

Technical Field

The invention relates to the technical field of static elimination, in particular to a waste gas static electricity removing device for a chemical intermediate substance.

Background

At present, along with the development of chemical industry, more and more chemical plants and larger scale are provided, the emission of various waste gases is increased, especially, toxic gases seriously pollute the environment and the healthy life of people, the treatment effect of the existing waste gas treatment equipment is not obvious, and the problem cannot be fundamentally solved; in chemical production enterprises, corrosive chemical waste gas of a plastic pipe conveying belt is generally adopted, static electricity is easily generated due to friction between gas and a pipe wall in the gas conveying process because a plastic pipe pipeline is too long, and if combustible components are mixed in the conveyed gas, combustion or explosion can be caused due to the static electricity, so that potential safety hazards are brought to production.

Through search, for example, patent No. CN205517192U discloses a chemical waste gas treatment device with electrostatic discharge function, which includes a condensed water tank, a first clean room, a second clean room and an electrostatic discharge device; the condensed water tank is connected with a water spraying pipe and a condensed water pipe; the spray pipe is connected with the rotary transmission device; the rotation transmission device comprises a motor, a first gear and a second gear; a liquid adding valve is arranged on the first purifying chamber; an annular exhaust pipe is arranged at the bottom of the first purifying chamber; the first activated carbon adsorber is arranged at the air inlet of the annular exhaust pipe; an electrostatic removing device is arranged between the first activated carbon adsorber and the air extractor; the bottom of the first purifying chamber is provided with a first drainage valve and a support leg; the second purifying chamber is connected with the first purifying chamber through a gas guide pipe; the utility model can achieve the best purifying effect by purifying the waste gas for many times; the static electricity conducting and removing device is additionally arranged at the inlet of the annular exhaust pipe, so that static electricity generated in the waste gas conveying process is eliminated.

However, the static electricity removing device used at present mainly attracts current through a metal structure and leads the current to the underground, most of the static electricity removing devices are fixed structures, gaps are more, static electricity adsorption has certain leaks, and a general attracting device does not have a function of actively generating guiding capacity and is not beneficial to continuously removing static electricity, so that the existing requirements are not met, and the waste gas static electricity removing device of a chemical intermediate substance is provided for the reasons.

Disclosure of Invention

Problem (A)

The invention aims to provide a waste gas static removing device for chemical intermediate substances, which solves the problems that the existing static removing device proposed in the background technology mainly attracts current through a metal structure and leads the current to the underground, most of the static removing devices are of fixed structures, gaps are more, static adsorption has certain loopholes, and a general attracting device does not have the function of actively generating guiding capacity and is not beneficial to continuously removing static electricity.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: an electrostatic conducting device for waste gas of chemical intermediate substances comprises a shell; a motor frame is integrally arranged on one side of the shell, and a shaft frame is fixedly arranged in the middle of the top of the motor frame; a conical inlet structure is arranged at the bottom of the shell; the top of the outer side of the motor frame is fixedly provided with a motor A through a bolt; the top of the shell is fixedly provided with a cover plate through a bolt; a conical outlet structure is integrally arranged at the top of the cover plate; a motor B is fixedly arranged on one side of the top of the cover plate through a bolt; a transmission shaft is rotatably arranged in the middle of the cover plate; a rubber insulating layer is laid on the inner side of the shell through bonding; an annular rail is fixedly arranged at the bottom of the inner side of the shell, and an annular groove is formed in the top of the annular rail; the top of the annular rail is provided with an insulating rotating ring in a sliding manner; the insulating rotating ring also comprises a negative charge net, a driven shaft and an insulating sleeve; a negative charge net is embedded in the inner side of the insulating rotating ring, a driven shaft is integrally arranged at the top of the middle of the negative charge net, and a coupler is arranged at the top of the driven shaft and is rotationally connected with the bottom of the transmission shaft; an annular groove is formed in the bottom of the insulating rotating ring, and a spherical roller is rotatably arranged in the annular groove through a rotating shaft; an insulating sleeve is sleeved outside the driven shaft; the inner side of the top of the insulating rotating ring is fixedly provided with a positive charge net through clearance fit; the inner side of the shell is fixedly provided with a negative charge sleeve frame and a positive charge sleeve frame, and the positive charge sleeve frame is positioned above the negative charge sleeve frame.

Preferably, the middle of the positive charge net is upwards integrally provided with a cylindrical structure, and the cylindrical structure is fixedly arranged on the outer side of the insulating sleeve through clearance fit; four groups of positioning columns are integrally arranged on the outer side of the top of the insulating rotating ring; four groups of positioning holes are formed in the periphery of the positive charge net, and the positive charge net can be circumferentially fixed through the positioning sleeves and the positioning columns of the insulating rotating rings.

Preferably, the middle of the negative charge sleeve frame is integrally provided with an annular structure, the middle of the negative charge sleeve frame is fixedly provided with a metal bearing through interference fit, and the metal bearing is arranged at the bottom of the outer side of the driven shaft through interference fit and is close to the bottom of the insulating sleeve.

Preferably, the middle of the positive charge sleeve frame is integrally provided with an annular structure, the middle of the positive charge sleeve frame is fixedly provided with a metal bearing in interference fit, and the metal bearing is arranged on the cylindrical outer side of the positive charge net in interference fit; insulating cylinders are uniformly arranged on two sides of the negative charge sleeve frame and the positive charge sleeve frame, metal connecting rods are arranged in the insulating cylinders, and the inner ends of the metal connecting rods are connected and communicated with metal bearings; one side of the metal connecting rod extends and is rotatably provided with a rotating frame.

Preferably, the top parts of the two sides of the rotating frame are uniformly provided with annular structures in an integrated manner, bearings are fixedly arranged in the annular structures in an interference fit manner, and the annular structure on one side of the rotating frame integrally extends outwards to form a transmission cylinder; the extending parts of the metal connecting rods penetrate through two groups of bearings of the rotating frame to be rotatably connected, and the transmission cylinders on the outer sides of the rotating frame penetrate through the shaft frame to be rotatably connected; the extending parts of the metal connecting rods are fixedly provided with gears; the outer ends of the transmission cylinders are fixedly provided with gears through key connection; a gear is fixedly arranged outside a rotating shaft of the motor A through key connection, the gear of the motor A is positioned in the middle of the two groups of transmission cylinder gears, and the three groups of gears are meshed; the outer end of both sides of driving cylinder homogeneous body formula is provided with small-size pedestal structure.

Preferably, the inner side of the top of the rotating frame connected outside the negative charge sleeve frame is respectively provided with a fur rod and a rubber rod in a rotating way through a rotating shaft; the fur rod and the rubber rod are in friction contact, and both the fur rod and the rubber rod are in friction contact with the surface of the metal connecting rod; the fur rod and the rubber rod are fixedly provided with gears outside the rotating shafts, and the gears are meshed with the gears outside the metal connecting rods.

Preferably, the silk rod and the glass rod are respectively and rotatably arranged on the inner side of the top of the rotating frame connected with the outside of the positive charge sleeve frame through rotating shafts; the silk rod and the glass rod are in friction contact, and both the silk rod and the glass rod are in friction contact with the surface of the metal connecting rod; the silk stick and the glass stick are fixedly provided with gears outside the rotating shaft, and the gears are meshed with the gears outside the metal connecting rod.

Preferably, the other ends of the metal connecting rods in the negative charge sleeve frame and the positive charge sleeve frame penetrate through the shell and are provided with conducting wires in a connected mode, and the bottoms of the conducting wires are provided with electricity discharging pins in a connected mode; the bottom of the electricity discharging pin is integrally provided with two groups of steel pins, and the steel pins penetrate through the conducting wires to be connected with the negative charge sleeve frame and the positive charge sleeve frame respectively.

(III) advantageous effects

The invention provides a waste gas static removing device of chemical intermediate substances, which provides a guiding function for the removing device by arranging a negative charge net and a positive charge net, wherein the negative charge net and the positive charge net can be driven by a transmission shaft to continuously rotate, waste gas passing through the inside of a shell is continuously and quickly contacted, the guiding absorption is comprehensive, charges in air are absorbed and discharged by guiding, the charges are conducted by a metal connecting rod, and finally the charges are discharged underground through a conductive wire and a discharging pin, so that static electricity is removed.

The motor A drives the two groups of transmission cylinders to continuously rotate by utilizing the gears, the transmission cylinders simultaneously drive the rotating frame to continuously rotate, the rotating frame rotates around the metal connecting rod, the fur rod and the rubber rod automatically rotate by matching of the gears, the fur rod and the rubber rod rub with each other to generate negative charges, the fur rod and the rubber rod are close to the metal connecting rod to guide the negative charges into a negative charge net, the fur rod and the rubber rod rotate in the negative charge net and absorb the positive charges in waste gas, and the fur rod and the rubber rod are guided into the ground by utilizing a conductive wire and a discharging pin; the silk rod and the glass rod are close to the metal connecting rod to lead negative charges into the positive charge net, the positive charges in the waste gas are absorbed while the silk rod and the glass rod rotate in the positive charge net, and the silk rod and the glass rod are led into the ground by using the conducting wire and the electricity discharging pin.

And secondly, the arrangement of the fur rod and the rubber rod provides the capability of increasing the adsorption function for the removing device, negative charges can be continuously generated through the friction of the fur rod and the rubber rod, the negative charges penetrate through the negative charge sleeve frame to be connected with a negative charge net, and the positive charges in the waste gas are continuously guided and finally discharged to the underground by utilizing the principle of mutual attraction of different poles of the charges, so that the static electricity removal of the waste gas is completed.

Moreover, the setting of silk stick and glass stick provides the ability that increases adsorption function for leading except that the device, can continuously produce positive charge through the friction of silk stick and glass stick, and positive charge passes positive charge set frame and connects the positive charge net, utilizes the principle that the heteropolar inter attraction of electric charge to continuously guide the negative charge in the waste gas and finally arrange underground, accomplishes leading of waste gas static.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic bottom view of the embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 4 is a partially disassembled structural schematic diagram in an embodiment of the present invention;

FIG. 5 is a bottom view of the embodiment of the present invention;

FIG. 6 is a schematic perspective view of a negative charge cartridge according to an embodiment of the present invention;

FIG. 7 is an enlarged partial structural view of part A in the embodiment of the present invention;

FIG. 8 is an enlarged partial structural view of a portion B in the embodiment of the present invention;

in fig. 1 to 8, the correspondence between the part names or lines and the reference numbers is:

1. a housing; 101. a motor frame; 102. a pedestal; 2. a motor A; 3. a cover plate; 4. a motor B; 5. a drive shaft; 6. an annular rail; 7. insulating rotary rings; 701. a net of negative charges; 702. a driven shaft; 703. an insulating sleeve; 8. a network of positive charges; 9. a negative charge jacket frame; 10. a positive charge housing; 11. an insulating cylinder; 12. a metal connecting rod; 13. a rotating frame; 14. a transmission cylinder; 15. a fur rod; 16. a rubber rod; 17. silk rods; 18. a glass rod; 19. a conductive wire; 20. and (6) discharging the electric pins.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: the electrostatic conducting and eliminating device for waste gas of chemical intermediate matter includes casing 1; a motor frame 101 is integrally arranged on one side of the shell 1, and a shaft frame 102 is fixedly arranged in the middle of the top of the motor frame 101; the bottom of the shell 1 is provided with a conical inlet structure; the top of the outer side of the motor frame 101 is fixedly provided with a motor A2 through a bolt; the top of the shell 1 is fixedly provided with a cover plate 3 through bolts; a conical outlet structure is integrally arranged at the top of the cover plate 3; a motor B4 is fixedly arranged on one side of the top of the cover plate 3 through a bolt; a transmission shaft 5 is rotatably arranged in the middle of the cover plate 3; a rubber insulating layer is laid on the inner side of the shell 1 through bonding; an annular rail 6 is fixedly arranged at the bottom of the inner side of the shell 1, and an annular groove is formed in the top of the annular rail 6; the top of the annular rail 6 is provided with an insulating rotating ring 7 in a sliding way; the insulating rotating ring 7 also comprises a negative charge net 701, a driven shaft 702 and an insulating sleeve 703; a negative charge net 701 is embedded on the inner side of the insulating rotating ring 7, a driven shaft 702 is integrally arranged at the top of the middle of the negative charge net 701, and a coupler is arranged at the top of the driven shaft 702 and is rotationally connected with the bottom of the transmission shaft 5; an annular groove is formed in the bottom of the insulating rotating ring 7, and a spherical roller is rotatably arranged in the annular groove through a rotating shaft; an insulating sleeve 703 is sleeved outside the driven shaft 702; a positive charge net 8 is fixedly arranged on the inner side of the top of the insulating rotary ring 7 through clearance fit; wherein, the middle of the positive charge net 8 is integrally provided with a cylindrical structure upwards, and the cylindrical structure is fixedly arranged outside the insulating sleeve 703 through clearance fit; four groups of positioning columns are integrally arranged on the outer side of the top of the insulating rotary ring 7; four groups of positioning holes are formed in the periphery of the positive charge net 8, and the positive charge net 8 can be circumferentially fixed by matching positioning columns of the insulating rotary ring 7 through positioning sleeves; a negative charge sleeve frame 9 and a positive charge sleeve frame 10 are fixedly arranged on the inner side of the shell 1, and the positive charge sleeve frame 10 is positioned above the negative charge sleeve frame 9; wherein, the inner side of the top of a rotating frame 13 connected outside the negative charge sleeve frame 9 is respectively provided with a fur rod 15 and a rubber rod 16 in a rotating way through a rotating shaft; the fur rod 15 and the rubber rod 16 are in frictional contact, and both the fur rod 15 and the rubber rod 16 are in frictional contact with the surface of the metal connecting rod 12; gears are fixedly arranged outside the rotating shafts of the fur rod 15 and the rubber rod 16, and the gears are meshed with the gears outside the metal connecting rod 12; wherein, the middle of the negative charge sleeve frame 9 is integrally provided with an annular structure, and the middle of the negative charge sleeve frame 9 is fixedly provided with a metal bearing through interference fit, and the metal bearing is arranged at the bottom of the outer side of the driven shaft 702 through interference fit and is close to the bottom of the insulating sleeve 703; wherein, the middle of the positive charge sleeve frame 10 is integrally provided with an annular structure, and the middle of the positive charge sleeve frame 10 is fixedly provided with a metal bearing through interference fit, and the metal bearing is arranged on the cylindrical outer side of the positive charge net 8 through interference fit; insulating cylinders 11 are uniformly arranged on two sides of the negative charge sleeve frame 9 and the positive charge sleeve frame 10, metal connecting rods 12 are arranged in the insulating cylinders 11, and the inner ends of the metal connecting rods 12 are communicated with metal bearings; the extending parts of the metal connecting rods 12 are all fixedly provided with gears; one side of the metal connecting rod 12 is extended and is rotatably provided with a rotating frame 13; wherein, the top parts of the two sides of the rotating frame 13 are uniformly provided with an annular structure, the annular structures are fixedly provided with bearings through interference fit, and the annular structure at one side of the rotating frame 13 is integrally and outwardly extended and provided with a transmission cylinder 14; the extending parts of the metal connecting rods 12 are rotatably connected through two groups of bearings of the rotating frame 13, and the outer transmission cylinders 14 of the rotating frame 13 are rotatably connected through the shaft frame 102; the outer ends of the transmission cylinders 14 are fixedly provided with gears through key connection; a gear is fixedly arranged outside a rotating shaft of the motor A2 through key connection, the motor A2 gear is positioned in the middle of the two groups of gears of the transmission cylinder 14, and the three groups of gears are meshed; the outer ends of the two sides of the transmission cylinder 14 are provided with small-sized shaft bracket structures in a uniform mode.

Wherein, the silk rod 17 and the glass rod 18 are respectively and rotatably arranged on the inner side of the top of the rotating frame 13 connected with the outside of the positive charge sleeve frame 10 through rotating shafts; the silk rod 17 and the glass rod 18 are in friction contact, and both the silk rod 17 and the glass rod 18 are in friction contact with the surface of the metal connecting rod 12; gears are fixedly arranged outside the rotating shafts of the silk rod 17 and the glass rod 18, and the gears are meshed with the gears outside the metal connecting rod 12.

The other ends of the metal connecting rods 12 in the negative charge sleeve frame 9 and the positive charge sleeve frame 10 penetrate through the shell 1 and are provided with conducting wires 19 in a connected mode, and the bottoms of the conducting wires 19 are provided with electricity discharging pins 20 in a connected mode; two groups of steel pins are integrally arranged at the bottom of the electricity discharge pin 20, and the steel pins respectively penetrate through the conducting wires 19 to be connected with the negative charge sleeve frame 9 and the positive charge sleeve frame 10.

The working principle is as follows: when in use, the electricity discharge pin 20 is inserted into the ground; the motor B4 is started, the motor B4 drives the transmission shaft 5 to rotate, the transmission shaft 5 drives the driven shaft 702 to rotate through the coupler, the driven shaft 702 drives the insulating rotating ring 7 to rotate by the fact that the spherical roller is close to the annular rail 6, the insulating rotating ring 7 drives the negative charge net 701 and the positive charge net 8 to synchronously rotate, the negative charge net 701 and the positive charge net 8 are used for guiding static electricity in waste gas and respectively guiding the charge into the metal connecting rod 12, and the electric lead 19 and the electricity discharge pin 20 are used for discharging the static electricity to the underground.

Starting a motor A2, driving two groups of transmission cylinders 14 to continuously rotate by a motor A2 through gears, driving a rotating frame 13 to continuously rotate while the transmission cylinders 14 rotate, driving a fur stick 15 and a rubber stick 16 to automatically rotate through the cooperation of the gears while the rotating frame 13 rotates around a metal connecting rod 12, enabling the fur stick 15 and the rubber stick 16 to mutually rub to generate negative charges, leading the negative charges into a negative charge net 701 by enabling the fur stick 15 and the rubber stick 16 to be close to the metal connecting rod 12, absorbing the positive charges in waste gas while rotating in the negative charge net 701, and leading the positive charges into the ground through a conductive wire 19 and a discharging pin 20; the silk rod 17 and the glass rod 18 are close to the metal connecting rod 12 to introduce negative charges into the positive charge net 8, absorb positive charges in exhaust gas while rotating in the positive charge net 8, and are introduced underground by using the conductive wire 19 and the electricity discharging pin 20.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a waste gas static of chemical intermediate object leads except that device which characterized in that: comprises a shell (1); a motor frame (101) is integrally arranged on one side of the shell (1), and a shaft frame (102) is fixedly arranged in the middle of the top of the motor frame (101); the bottom of the shell (1) is provided with a conical inlet structure; the top of the outer side of the motor frame (101) is fixedly provided with a motor A (2) through a bolt; the top of the shell (1) is fixedly provided with a cover plate (3) through a bolt; the top of the cover plate (3) is integrally provided with a conical outlet structure; a motor B (4) is fixedly arranged on one side of the top of the cover plate (3) through a bolt; a transmission shaft (5) is rotatably arranged in the middle of the cover plate (3); a rubber insulating layer is laid on the inner side of the shell (1) through bonding; an annular rail (6) is fixedly arranged at the bottom of the inner side of the shell (1), and an annular groove is formed in the top of the annular rail (6); the top of the annular rail (6) is provided with an insulating rotating ring (7) in a sliding manner; the insulating rotating ring (7) also comprises a negative charge net (701), a driven shaft (702) and an insulating sleeve (703); a negative charge net (701) is embedded in the inner side of the insulating rotating ring (7), a driven shaft (702) is integrally arranged at the top of the middle of the negative charge net (701), and a coupler is arranged at the top of the driven shaft (702) and is rotatably connected with the bottom of the transmission shaft (5); an annular groove is formed in the bottom of the insulating rotating ring (7), and a spherical roller is rotatably arranged in the annular groove through a rotating shaft; an insulating sleeve (703) is sleeved outside the driven shaft (702); the inner side of the top of the insulating rotating ring (7) is fixedly provided with a positive charge net (8) through clearance fit; the inner side of the shell (1) is fixedly provided with a negative charge sleeve frame (9) and a positive charge sleeve frame (10), and the positive charge sleeve frame (10) is positioned above the negative charge sleeve frame (9).

2. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: the middle of the positive charge net (8) is upwards integrally provided with a cylindrical structure, and the cylindrical structure is fixedly arranged on the outer side of the insulating sleeve (703) through clearance fit; four groups of positioning columns are integrally arranged on the outer side of the top of the insulating rotating ring (7); four groups of positioning holes are formed in the periphery of the positive charge net (8), and the positive charge net (8) can be circumferentially fixed through the positioning sleeves and the positioning columns of the insulating rotating rings (7).

3. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: the middle of the negative charge sleeve frame (9) is integrally provided with an annular structure, the middle of the negative charge sleeve frame (9) is fixedly provided with a metal bearing through interference fit, and the metal bearing is arranged at the bottom of the outer side of the driven shaft (702) through interference fit and is close to the bottom of the insulating sleeve (703).

4. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: the middle of the positive charge sleeve frame (10) is integrally provided with an annular structure, the middle of the positive charge sleeve frame (10) is fixedly provided with a metal bearing through interference fit, and the metal bearing is arranged on the cylindrical outer side of the positive charge net (8) through interference fit; insulating cylinders (11) are arranged on two sides of the negative charge sleeve frame (9) and the positive charge sleeve frame (10) in a uniform mode, metal connecting rods (12) are arranged in the insulating cylinders (11), and the inner ends of the metal connecting rods (12) are communicated with metal bearings in a connected mode; one side of each metal connecting rod (12) extends and is rotatably provided with a rotating frame (13).

5. The device for electrostatically removing the exhaust gas from the chemical intermediate substance as set forth in claim 4, wherein: annular structures are uniformly arranged at the tops of two sides of the rotating frame (13), bearings are fixedly arranged in the annular structures through interference fit, and a transmission cylinder (14) is integrally and outwardly extended from one side of the rotating frame (13) in an annular structure mode; the extending parts of the metal connecting rods (12) are rotatably connected through two groups of bearings of the rotating frame (13), and the outer side transmission cylinders (14) of the rotating frame (13) are rotatably connected through the shaft frame (102); gears are fixedly arranged at the extending positions of the metal connecting rods (12); the outer ends of the transmission cylinders (14) are fixedly provided with gears through key connection; gears are fixedly arranged outside a rotating shaft of the motor A (2) through key connection, the gears of the motor A (2) are positioned in the middle of the gears of the two groups of transmission cylinders (14), and the three groups of gears are meshed; the outer ends of the two sides of the transmission cylinder (14) are uniformly provided with small-sized shaft bracket structures in a whole type.

6. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: a fur rod (15) and a rubber rod (16) are respectively and rotatably arranged on the inner side of the top of a rotating frame (13) connected outside the negative charge sleeve frame (9) through a rotating shaft; the fur rod (15) and the rubber rod (16) are in friction contact, and both the fur rod (15) and the rubber rod (16) are in friction contact with the surface of the metal connecting rod (12); gears are fixedly arranged outside the rotating shafts of the fur rod (15) and the rubber rod (16), and the gears are meshed with the gears outside the metal connecting rod (12).

7. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: the inner side of the top of a rotating frame (13) connected outside the positive charge sleeve frame (10) is respectively provided with a silk rod (17) and a glass rod (18) in a rotating way through a rotating shaft; the silk rod (17) is in friction contact with the glass rod (18), and the silk rod (17) and the glass rod (18) are in friction contact with the surface of the metal connecting rod (12); gears are fixedly arranged outside the rotating shafts of the silk rod (17) and the glass rod (18), and the gears are meshed with the gears outside the metal connecting rod (12).

8. The electrostatic waste gas removal device for chemical intermediate substances, as claimed in claim 1, wherein: the other ends of the metal connecting rods (12) in the negative charge sleeve frame (9) and the positive charge sleeve frame (10) penetrate through the shell (1) and are connected with a conductive wire (19), and the bottoms of the conductive wires (19) are connected with a discharging pin (20); the bottom of the electricity discharging pin (20) is integrally provided with two groups of steel pins, and the steel pins respectively penetrate through the conducting wires (19) to be connected with the negative charge sleeve frame (9) and the positive charge sleeve frame (10).