CN212633038U - Position-adjustable cathode wire mounting structure of electric dust collector - Google Patents

Abstract

The utility model relates to a position-adjustable cathode wire installation structure of an electric dust collector, which comprises a tower body, an upper hanging beam and a lower hanging beam which are arranged in the tower body, the upper hanging beam is positioned above the lower hanging beam, an anode tube which is vertically arranged is arranged between the upper hanging beam and the lower hanging beam, the anode tube is provided with a positioning plate, a cathode wire vertically arranged is penetrated in the anode tube and penetrates through the positioning plate, the upper end of the cathode wire is arranged on the upper hanging beam through an upper adjusting mechanism, the lower end of the cathode wire is arranged on the lower hanging beam through a lower adjusting mechanism, the positioning plate is divided into a first positioning plate and a second positioning plate which are detachably connected on the anode tube through an installation mechanism, the first positioning plate and the second positioning plate are abutted to form a positioning hole for the cathode wire to pass through, and one half of the positioning hole is arranged on the first positioning plate, and the other half of the positioning hole is arranged on the second positioning plate. The utility model discloses the effect of the function of dismantling the locating plate has.

Description

Position-adjustable cathode wire mounting structure of electric dust collector

Technical Field

The utility model belongs to the technical field of the technique of dust collecting equipment installation and specifically relates to an electrostatic precipitator negative pole line mounting structure with adjustable position is related to.

Background

The adjusting device of the cathode ray is a mechanism for adjusting the mutual position between the cathode ray and the anode hexagonal hole, thereby achieving the ideal discharge distance and greatly improving the dust collection effect of the wet electrostatic dust collector.

The Chinese patent with application publication number CN109433424A discloses a cathode line adjusting and positioning structure of an electric dust collector and a construction method thereof, wherein the positioning structure comprises a hexagonal anode tube inside a tower body and a cathode line penetrating through the inside of the anode tube, the bottom end of the anode tube is provided with an adjusting plate, and the top end of the anode tube is correspondingly provided with a positioning plate; the upper end of the cathode wire is connected with an upper hanging beam; the lower end of the cathode wire sequentially penetrates through the positioning plate and the adjusting plate to be connected to the lower hanging beam; the upper hanging beam and the lower hanging beam are arranged above and below the anode tube in a through length manner; when the positioning structure is used, the upper hanging beam and the lower hanging beam are preliminarily positioned through the adjusting holes in the adjusting plate, and then are adjusted and positioned through the positioning plate and finally fixed. The invention can ensure that the spatial positions of the cathode lines in the vertical direction and the horizontal direction meet the design requirements.

The above prior art solutions have the following drawbacks: when the cathode wire is used, the cathode wire penetrates into the anode tube from top to bottom, the lower part of the cathode wire penetrates through an adjusting hole on an adjusting plate, hanging rods at the top end and the bottom end of the cathode wire are installed, the hanging rods penetrate through hanging holes of an upper hanging beam and a lower hanging beam, the end parts of the cathode wire respectively penetrate through limiting holes of the upper hanging beam and the lower hanging beam, a positioning plate is installed at the top of the anode tube, a positioning piece is aligned according to the hexagonal pipe orifice of an anode plate of an anode module, the cathode wire penetrating into the anode module is clamped, the cathode wire is centered, after the positioning is finished, the position of the cathode wire in the adjusting hole and the hanging hole is adjusted and determined, and then the hanging rods of the cathode wire are respectively fixed on the upper hanging beam and the; because the back locating plate and the regulating plate are still fixedly connected to the anode tube after the installation is finished, the gas needing to be dedusted can be prevented from entering, and the dedusting effect of the electric dedusting device is influenced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide an electrostatic precipitator negative pole line mounting structure with adjustable position has the function of dismantling the locating plate, makes the gas of removing dust get into the anode tube more easily, improves electrostatic precipitator's dust removal effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides an electrostatic precipitator negative pole line mounting structure with adjustable position, includes the tower body, sets up and hang the roof beam down on in the tower body, it is located hangs the roof beam top down to go up to hang the roof beam, go up and hang the anode tube that is provided with vertical setting between the roof beam under and, be provided with the locating plate on the anode tube, cathode ray and the negative pole line that wear to be equipped with vertical setting in the anode tube pass the locating plate, the negative pole line upper end sets up on hanging the roof beam through last adjustment mechanism, and the lower extreme sets up on hanging the roof beam under through adjustment mechanism down, its characterized in that: the locating plate components of a whole that can function independently set first locating plate and second locating plate into, first locating plate and second locating plate pass through installation mechanism and can dismantle the connection on the positive pole pipe, first locating plate and second locating plate department of supporting form the locating hole that supplies the negative pole line to pass, half of the locating hole is seted up on first locating plate on half offer on the second locating plate.

By adopting the technical scheme, when the wet electrostatic dust collector is positioned and installed, the first positioning plate and the second positioning plate are fixed on the anode tube through the installation mechanism, the positioning hole is positioned at the axis of the anode tube, the cathode wire passes through the positioning hole for positioning, and the upper adjusting mechanism and the lower adjusting mechanism are used for fixing the cathode wire, so that the positioning and installation of the cathode wire are realized, the cathode wire is positioned on the axis of the anode tube, the ideal discharge distance is achieved, and the dust collection effect of the wet electrostatic dust collector is greatly improved; after the anode tube is installed, the first positioning plate and the second positioning plate are detached from the installation mechanism, so that gas needing dust removal can enter the anode tube without hindrance during working.

The present invention may be further configured in a preferred embodiment as: installation mechanism includes first guide rail and first locking bolt, first guide rail is seted up at the positive pole pipe upper surface along positive pole pipe length direction, first locating plate and second locating plate slide and connect on first guide rail, first locking bolt is provided with two, two first locking bolt wears to establish respectively on first locating plate and the second locating plate, and the bottom all with positive pole pipe threaded connection.

Through adopting above-mentioned technical scheme, during the installation of negative pole line location, slide first locating plate and second locating plate and be connected to first guide rail on, screw up first locking bolt and fix first locating plate and second locating plate on the anode tube, the locating hole is located the axle center of anode tube this moment, fix a position the installation with the negative pole line through the locating hole afterwards, back good with the installation of negative pole line location is twisted out first locking bolt, again with first locating plate and second locating plate slip out on first guide rail.

The present invention may be further configured in a preferred embodiment as: lower adjustment mechanism is including adjusting seat and second locking bolt, adjust the seat setting and hang the roof beam upper surface under, hang down and set up the second guide rail that runs through hanging the roof beam down on the roof beam, set up the third guide rail that runs through the regulation seat on the regulation seat, second locking bolt head is inconsistent with regulation seat upper surface, and second guide rail and third guide rail and threaded connection have lock nut are passed to the bottom, lock nut upper surface is inconsistent with hanging roof beam lower surface down, the negative pole line lower extreme sets up on adjusting the seat.

Through adopting above-mentioned technical scheme, the negative pole line passes through the locating hole and fixes a position the back, adjusts the seat through the drive and moves on second guide rail and third guide rail, realizes that the negative pole line is located directly over adjusting the seat, screws up second locking bolt and makes and adjust the seat fixed, sets up negative pole line bottom in adjusting the seat top afterwards, simple structure and convenient operation.

The present invention may be further configured in a preferred embodiment as: adjust the seat upper surface and be provided with first V template and second V template, first V template, second V template opening part are placed relatively, form the centre gripping mouth that supplies the negative pole line centre gripping, adjust the seat upper surface and be provided with the first V template of drive and be close to, keep away from the actuating mechanism that second V template removed.

Through adopting above-mentioned technical scheme, through actuating mechanism with first V template along being close to second V template direction removal, fix the negative pole line lower extreme on adjusting the seat, simple structure and convenient operation.

The present invention may be further configured in a preferred embodiment as: actuating mechanism includes actuating lever and drive cap, drive cap outer wall threaded connection is on adjusting the seat, the actuating lever level sets up, and actuating lever one end sets up on first V template, and the other end wears to establish on the drive cap and rotate to connect on the drive cap, the actuating lever is along drive cap length direction joint on the drive cap, first V template bottom surface is inconsistent with regulation seat upper surface.

Through adopting above-mentioned technical scheme, rotate the drive cap, realize that the drive cap drives the actuating lever and removes along the direction that is close to, keeps away from second V template, realize loosening and pressing from both sides tightly simple structure and convenient operation to the negative pole line lower extreme.

The present invention may be further configured in a preferred embodiment as: go up adjustment mechanism and include adjusting nut and adjusting shim, go up and hang and seted up first adjusting through-hole on the roof beam, first adjusting through-hole diameter is greater than negative pole line diameter, the negative pole line is worn to establish on first adjusting through-hole, adjusting nut threaded connection is in negative pole line upper end, adjusting shim wears to establish on the negative pole line and is located between adjusting nut and the last roof beam of hanging.

Through adopting above-mentioned technical scheme, the negative pole line is fixed a position through the locating hole, and lower adjustment mechanism is with the fixed back of negative pole line lower extreme, and first adjusting through hole is passed to the negative pole line upper end, wears to establish adjusting shim on the negative pole line, with adjusting nut threaded connection in negative pole line upper end, adjusting nut compresses tightly adjusting shim at last hanging beam upper surface, realizes fixed, simple structure and convenient operation to the negative pole line upper end.

The present invention may be further configured in a preferred embodiment as: adjusting nut and last string are provided with overspeed device tensioner between the roof beam, overspeed device tensioner includes tensioning plate, guide arm and spring, the vertical and one end sliding connection of guide arm is on last string roof beam, and the other end setting is in the tensioning plate bottom surface that the level set up, set up the second regulation through-hole that supplies the negative pole line to pass on the tensioning plate, the negative pole line is worn to establish on the second regulation through-hole, the adjusting shim is located between tensioning plate and the adjusting nut, spring one end sets up in tensioning plate bottom surface, and the other end sets up at last string roof beam top surface.

Through adopting above-mentioned technical scheme, during the installation, with negative pole line pulling downwards, tensioning plate moves down and drives the spring compression, later with negative pole line lower extreme fixed connection under on adjustment mechanism, realize that adjusting nut produces vertical ascending effort, realize that adjusting nut is difficult to rotate not hard up on the negative pole line.

The present invention may be further configured in a preferred embodiment as: the guide rod is connected with a clamping nut in a threaded mode, and the clamping nut is located below the upper hanging beam.

Through adopting above-mentioned technical scheme, during the use, rotatable joint nut realizes the control to the spring compression volume to the realization is to the regulation of adjusting nut effort, simple structure and convenient operation.

The present invention may be further configured in a preferred embodiment as: the first V-shaped plate and the second V-shaped plate are provided with anti-skid rubber on the surfaces which are abutted to the cathode line.

Through adopting above-mentioned technical scheme, anti-skidding rubber makes the negative pole line and the friction of first V template, second V template increase, makes the negative pole line be difficult to follow the slippage between first V template, the second V template.

To sum up, the utility model discloses a following at least one useful technological effect:

1. when the cathode wire is positioned and installed, the first positioning plate and the second positioning plate are fixed on the anode tube through the installation mechanism, the cathode wire is positioned on the axis of the anode tube through the positioning hole, and the first positioning plate and the second positioning plate are detached from the installation mechanism after the cathode wire is positioned, so that gas needing dust removal can enter the anode tube without hindrance during work;

2. the tensioning device can generate vertical upward force on the adjusting nut, so that the adjusting nut is not easy to rotate and loosen on a cathode line;

3. the upper adjusting mechanism and the lower adjusting mechanism can fix the upper end and the lower end of the cathode wire on the upper hanging beam and the lower hanging beam respectively to realize the adjustment and fixation of the cathode wire.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is an exploded view of the lower adjustment mechanism and drive mechanism of fig. 1.

FIG. 3 is an exploded view of the mounting mechanism and positioning plate of FIG. 1.

Fig. 4 is an exploded view of the upper adjustment mechanism and tensioner of fig. 1.

Reference numerals: 1. hanging the beam down; 11. a lower adjustment mechanism; 111. an adjusting seat; 112. a second locking bolt; 12. a second guide rail; 13. a third guide rail; 14. a support bar; 2. mounting a plate; 21. a first V-shaped plate; 22. a second V-shaped plate; 23. a drive mechanism; 231. a drive rod; 232. a drive cap; 24. a threaded seat; 3. an anode tube; 31. an installation mechanism; 311. a first guide rail; 312. a first locking bolt; 32. positioning a plate; 321. a first positioning plate; 322. a second positioning plate; 33. positioning holes; 4. hanging a beam; 41. a tensioning device; 411. a tension plate; 412. a guide bar; 413. a spring; 42. an upper adjustment mechanism; 421. adjusting the nut; 422. adjusting the gasket; 43. clamping a nut; 5. a cathode line; 6. a first regulating through hole; 7. a second regulating through hole; 8. and locking the nut.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses an electrostatic precipitator negative pole line mounting structure with adjustable position, including the tower body, the lower beam 1 that hangs that the tower body internal fixation is connected with the level and sets up, hang 1 upper surface of roof beam down and be provided with adjustment mechanism 11 down, adjustment mechanism 11 is including adjusting seat 111 and second locking bolt 112 down, hang 1 upper surface of roof beam down and offer along hanging 1 length direction's of roof beam second guide rail 12 down, adjust and offer the third guide rail 13 of perpendicular to second guide rail 12 on the seat 111, second locking bolt 112 passes second guide rail 12 and third guide rail 13 downwards and stretches out third guide rail 13, second locking bolt 112 bottom threaded connection has locking nut 8, locking nut 8 upper surface is inconsistent with hanging 1 lower surface of roof beam down, second locking bolt 112 head is inconsistent with adjustment seat 111 upper surface.

Referring to fig. 1 and 2, four vertically arranged support rods 14 are fixedly connected to the adjusting seat 111, a horizontally arranged mounting plate 2 is fixedly connected to the upper surface of each support rod 14, a first V-shaped plate 21 and a second V-shaped plate 22 are vertically arranged on the upper surface of the mounting plate 2, openings of the first V-shaped plate 21 and the second V-shaped plate 22 are oppositely arranged to form a clamping opening for clamping the cathode wire 5, anti-slip rubber is arranged on the contact surfaces of the first V-shaped plate 21 and the second V-shaped plate 22 and the cathode wire 5, the bottom surface of the second V-shaped plate 22 is fixedly connected to the upper surface of the mounting plate 2, the bottom surface of the first V-shaped plate 21 contacts the mounting plate 2, a driving mechanism 23 is arranged on the first V-shaped plate 21, the driving mechanism 23 comprises a driving rod 231 and a driving cap 232, the driving rod 231 is horizontally arranged, and one end of the driving rod, the other end is sleeved on the driving cap 232, one end of the driving rod 231, which is far away from the first V-shaped plate 21, is rotatably connected to the end surface of the driving cap 232, the upper surface of the mounting plate 2 is fixedly connected with a threaded seat 24 which protrudes upwards and the threaded seat 24 is perpendicular to the driving rod 231, and the outer wall of the driving cap 232 is in threaded connection with the threaded seat 24.

Referring to fig. 1 and 3, an anode tube 3 vertically arranged is fixedly connected in the tower body, the anode tube 3 is located above the lower hanging beam 1, an installation mechanism 31 is arranged on the anode tube 3, the installation mechanism 31 includes a first guide rail 311 and a first locking bolt 312, the first guide rail 311 is slidably connected with a positioning plate 32, and the positioning plate 32 is divided into a first positioning plate 321 and a second positioning plate 322.

The first guide rail 311 is arranged on the upper surface of the anode tube 3 along the length direction of the anode tube 3, the first positioning plate 321 and the second positioning plate 322 are connected to the first guide rail 311 in a sliding manner, when the first positioning plate 321 abuts against the second positioning plate 322, the abutting part of the first positioning plate 321 and the second positioning plate 322 forms a positioning hole 33 for the cathode wire 5 to pass through, half of the positioning hole 33 is arranged on the first positioning plate 321, the other half of the positioning hole is arranged on the second positioning plate 322, two first locking bolts 312 are arranged, the two first locking bolts 312 are respectively arranged on the first positioning plate 321 and the second positioning plate 322, the bottom ends of the two first locking bolts are in threaded connection with the anode tube 3, and when the first positioning plate 321 abuts against the second positioning plate 322 and is fixed by the first locking bolts 312, the positioning hole 33 is located at the axial center of the anode tube 3.

Referring to fig. 1 and 4, an upper hanging beam 4 horizontally arranged is fixedly connected in the tower body, the upper hanging beam 4 is located above the anode tube 3, a tensioning device 41 is arranged on the upper hanging beam 4, the tensioning device 41 comprises a tensioning plate 411, a guide rod 412 and a spring 413, an upper adjusting mechanism 42 is arranged on the tensioning plate 411, and the upper adjusting mechanism 42 comprises an adjusting nut 421 and an adjusting gasket 422.

Two guide rods 412 are arranged, one end of each of the two guide rods 412 is vertically and slidably connected to the upper hanging beam 4, the other end of each of the two guide rods 412 is fixedly connected to the bottom surface of the horizontally arranged tensioning plate 411, a clamping nut 43 is connected to the upper guide rod 412 in a threaded manner, the clamping nut 43 is positioned below the upper hanging beam 4, the top surface of the clamping nut 43 is abutted to the bottom surface of the upper hanging beam 4, a spring 413 is sleeved on each guide rod 412, one end of each spring 413 is fixedly connected to the bottom surface of the tensioning plate 411, the other end of each spring 413 is fixedly connected to the top surface of the upper hanging beam 4, a first adjusting through hole 6 and a second adjusting through hole 7 are respectively formed in the upper hanging beam 4 and the tensioning plate 411, the first adjusting through hole 6 and the second adjusting through hole 7 are coaxially arranged and are positioned right above the positioning hole 33, the diameters of the first adjusting through hole 6 and the second adjusting, The first adjusting through hole 6, the positioning hole 33 and the anode tube 3 fix the lower end of the cathode line 5 on the clamping opening between the first V-shaped plate 21 and the second V-shaped plate 22, and the adjusting nut 421 is abutted to the upper surface of the tensioning plate 411 through the adjusting gasket 422.

The implementation principle of the embodiment is as follows: when the cathode fluorescent lamp is installed, the first positioning plate 321 and the second positioning plate 322 are connected to the first guide rail 311 in a sliding manner, the first positioning plate 321 and the second positioning plate 322 are fixed on the upper surface of the anode tube 3 by the first locking bolt 312, the positioning hole 33 formed by the first positioning plate 321 and the second positioning plate 322 is located at the axial center position of the anode tube 3, the cathode wire 5 is connected with the adjusting nut 421 by a screw thread, the adjusting gasket 422 is sleeved, the cathode wire 5 downwardly passes through the second adjusting through hole 7, the first adjusting through hole 6, the positioning hole 33 and the anode tube 3, the bottom surface of the adjusting gasket 422 abuts against the top surface 411 of the tensioning plate, the cathode wire 5 is drawn downwardly by a certain distance, the cathode wire 5 generates a certain tensile force, the lower end of the cathode wire 5 is placed in a clamping opening between the first V-shaped plate 21 and the second V-shaped plate 22, the driving cap 232 is rotated, the driving cap 232 drives the driving rod 231 and the first V-shaped plate 21 to move in a direction close to the second V, thereby fixing the lower end of the cathode line 5 in the clamping opening between the first V-shaped plate 21 and the second V-shaped plate 22.

After the installation, the first locking bolt 312 is screwed out, and the first positioning plate 321 and the second positioning plate 322 are slid out of the first guide rail 311.

When the adjusting device is used, the clamping nut 43 can be rotated to realize the adjustment of the acting force of the spring 413 on the adjusting nut 421.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides an electrostatic precipitator negative pole line mounting structure with adjustable position, includes the tower body, sets up last string roof beam (4) and hang roof beam (1) down in the tower body, it is located hangs roof beam (1) top down to go up string roof beam (4), go up and hang anode tube (3) that are provided with vertical setting between roof beam (4) and the lower string roof beam (1), be provided with locating plate (32) on anode tube (3), wear to be equipped with negative pole line (5) and negative pole line (5) of vertical setting in anode tube (3) and pass locating plate (32), negative pole line (5) upper end sets up on last string roof beam (4) through last adjustment mechanism (42), and the lower extreme sets up on hanging roof beam (1) down through lower adjustment mechanism (11), its characterized in that: locating plate (32) components of a whole that can function independently set to first locating plate (321) and second locating plate (322), first locating plate (321) and second locating plate (322) can be dismantled through installation mechanism (31) and connect on positive pole pipe (3), first locating plate (321) contradicts with second locating plate (322) and locates to form locating hole (33) that supply negative pole line (5) to pass, locating hole (33) are half seted up on first locating plate (321) on half set up on second locating plate (322).

2. The cathode wire mounting structure of the position-adjustable electric dust collector of claim 1, wherein: installation mechanism (31) include first guide rail (311) and first locking bolt (312), anode tube (3) length direction is seted up at anode tube (3) upper surface is followed in first guide rail (311), slide and connect on first guide rail (311) first locating plate (321) and second locating plate (322), first locking bolt (312) are provided with two, two first locking bolt (312) are worn to establish respectively on first locating plate (321) and second locating plate (322), and the bottom all with anode tube (3) threaded connection.

3. The cathode wire mounting structure of the position-adjustable electric dust collector of claim 1, wherein: lower adjustment mechanism (11) is including adjusting seat (111) and second locking bolt (112), adjust seat (111) and set up under hanging roof beam (1) upper surface, set up second guide rail (12) that run through under hanging roof beam (1) on hanging roof beam (1) down, set up third guide rail (13) that run through and adjust seat (111) on adjusting seat (111), second locking bolt (112) head is inconsistent with regulation seat (111) upper surface, and second guide rail (12) and third guide rail (13) and threaded connection have lock nut (8) are passed to the bottom, lock nut (8) upper surface is inconsistent with under hanging roof beam (1) lower surface, negative pole line (5) lower extreme sets up on adjusting seat (111).

4. The cathode wire installation structure of the position-adjustable electric dust collector as claimed in claim 3, wherein: adjust seat (111) upper surface and be provided with first V template (21) and second V template (22), first V template (21), second V template (22) opening part are placed relatively, form the centre gripping mouth that supplies negative pole line (5) centre gripping, it is provided with drive mechanism (23) that first V template (21) of drive is close to, keeps away from second V template (22) and removes to adjust seat (111) upper surface.

5. The cathode wire installation structure of the position-adjustable electric dust collector as claimed in claim 4, wherein: actuating mechanism (23) are including actuating lever (231) and drive cap (232), drive cap (232) outer wall threaded connection is on adjusting seat (111), actuating lever (231) level sets up, and actuating lever (231) one end sets up on first V template (21), and the other end wears to establish on drive cap (232) and rotates to be connected on drive cap (232), actuating lever (231) are along drive cap (232) length direction joint on drive cap (232), first V template (21) bottom surface is inconsistent with regulation seat (111) upper surface.

6. The cathode wire mounting structure of the position-adjustable electric dust collector of claim 1, wherein: go up adjustment mechanism (42) including adjusting nut (421) and adjusting shim (422), go up and hang and seted up first adjusting through hole (6) on roof beam (4), first adjusting through hole (6) diameter is greater than negative pole line (5) diameter, negative pole line (5) are worn to establish on first adjusting through hole (6), adjusting nut (421) threaded connection is in negative pole line (5) upper end, adjusting shim (422) are worn to establish on negative pole line (5) and are located adjusting nut (421) and hang between roof beam (4).

7. The cathode wire installation structure of the position-adjustable electric dust collector as claimed in claim 6, wherein: adjusting nut (421) and last string of being provided with overspeed device tensioner (41) between roof beam (4), overspeed device tensioner (41) are including tensioning plate (411), guide arm (412) and spring (413), guide arm (412) are vertical and one end sliding connection is on last string of roof beam (4), and the other end setting is in tensioning plate (411) bottom surface that the level set up, set up second regulation through-hole (7) that supply negative pole line (5) to pass on tensioning plate (411), negative pole line (5) are worn to establish on second regulation through-hole (7), adjusting shim (422) are located between tensioning plate (411) and adjusting nut (421), spring (413) one end sets up in tensioning plate (411) bottom surface, and the other end sets up and hangs roof beam (4) top surface last.

8. The cathode wire installation structure of the position-adjustable electric dust collector as claimed in claim 7, wherein: the guide rod (412) is connected with a clamping nut (43) in a threaded mode, and the clamping nut (43) is located below the upper hanging beam (4).

9. The cathode wire installation structure of the position-adjustable electric dust collector as claimed in claim 4, wherein: the anti-skidding rubber is arranged on the abutting surfaces of the first V-shaped plate (21) and the second V-shaped plate (22) and the cathode line (5).

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