CN116997130B - Two-stage plasma generator - Google Patents

Abstract

The invention discloses a two-section type plasma generator, which comprises a bearing base with a hollow inside and a plasma generator, wherein the top of the bearing base is fixedly connected with an assembly control box, a movable threaded ring is connected in a sliding way in the assembly control box, the bottom of the movable threaded ring extends into the bearing base, a connecting plate connected with the plasma generator is inserted into the assembly control box, at the moment, the movable threaded ring is controlled to descend by the connecting plate, the movable threaded ring can assist in moving a sliding plate along with the movement of the movable threaded ring, and then the assembly positioning plate is controlled to move, so that the connecting plate is positioned, the assembly of the plasma generator is completed, meanwhile, the sliding plate can assist in moving the movable plate along with the movement of the sliding plate, so that a locking plate of a guiding device moves, the whole device is locked, the assembly stability of the plasma generator is ensured, and the plasma generator is convenient to use.

Description

Two-stage plasma generator

Technical Field

The invention relates to the technical field of plasma generators, in particular to a two-stage plasma generator.

Background

In the prior art, a plasma generator (plasma generator) is an apparatus for obtaining plasma by an artificial method. Plasmas are known as natural plasmas (e.g., northern lights and lightning) that are generated naturally, and as laboratory plasmas that are generated artificially. Laboratory plasma is produced in limited volume's plasma generator, and in prior art, two segmentation plasma generator when using, assembly control is inconvenient, has greatly reduced the convenience of using, is unfavorable for the use.

Accordingly, the present invention provides a two-stage plasma generator for solving the above-mentioned problems.

Disclosure of Invention

Based on the technical problems in the background technology, the invention provides a two-stage plasma generator.

The invention provides a two-section type plasma generator, which comprises a bearing base with hollow inside and a plasma generator, wherein the top of the bearing base is fixedly connected with an assembly control box, a movable threaded ring is connected in a sliding way in the assembly control box, the bottom of the movable threaded ring extends into the bearing base, the inner wall of the rear side of the assembly control box is connected with an assembly positioning plate in a sliding way, the left side of the plasma generator is fixedly connected with a connecting plate, the inner wall of the top of the bearing base is rotationally connected with a threaded pipe, the outer wall of the threaded pipe is in threaded connection with the inner wall of the movable threaded ring, the inner wall of the bottom of the assembly control box is connected with a movable plate with hollow inside in a sliding way, a device locking plate is connected in a sliding way in the movable plate, the inner wall of the left side of the bearing base is connected with the bottom of the threaded pipe in a sliding way, and a positioning mechanism and a locking mechanism are arranged in the bearing base and the assembly control box.

Preferably, the positioning mechanism comprises a push plate, a guide plate, a supporting rotating column, an auxiliary plate, a trapezoid movable plate and a rotating matching plate, wherein the push plate is rotationally connected to the front side of the sliding plate, the guide plate is slidingly connected to the bottom inner wall of the assembling control box, the bottom of the guide plate extends into the bearing base, the front side of the guide plate is rotationally connected to the left side of the push plate, the supporting rotating column is rotationally connected to the bottom inner wall of the assembling control box, the auxiliary plate is slidingly connected to the bottom inner wall of the assembling control box and is positioned on the left side of the supporting rotating column, the trapezoid movable plate is slidingly connected to the left side inner wall of the assembling control box, the rotating matching plate is rotationally connected to the front side of the trapezoid movable plate, and the right side of the rotating matching plate is rotationally connected to the front side of the assembling positioning plate.

Further, the positioning mechanism moves through controlling the push plate, at the moment, the push plate can push the guide plate to move, meanwhile, the guide plate can move to drive the auxiliary plate to move rightwards, along with the movement of the auxiliary plate, the auxiliary plate guides the trapezoid movable plate to descend, and when the trapezoid movable plate moves, the trapezoid movable plate can push the rotating matching plate to move, so that the assembling positioning plate is controlled to move.

Preferably, the right side fixedly connected with guide belt of guide board, and the one end of guide belt and the right side fixed connection of accessory plate, the guide belt contacts with the outer wall that supports the spliced pole.

Further, when the guide plate moves, the guide plate can pull the guide belt to move, and at this time, the guide belt takes the outer wall of the support rotating column as a fulcrum, so that the auxiliary plate is pulled to move rightwards.

Preferably, the rear side of auxiliary plate rotates and is connected with the runner, and the runner contacts with the inclined plane of trapezoidal fly leaf, and the bottom fixedly connected with No. two control spring of trapezoidal fly leaf, and No. two control spring's one end and the bottom inner wall fixed connection of assembly control box.

Further, when the auxiliary plate moves, the auxiliary plate drives the rotating wheel to move, and at the moment, the rotating wheel is matched with the inclined plane of the trapezoid movable plate, so that the trapezoid movable plate is conveniently controlled to descend, and meanwhile, the trapezoid movable plate can be pushed to ascend through self elasticity by the aid of the second control spring.

Preferably, the locking mechanism comprises two supporting movable columns, a driving plate, a matching plate, a movable extending plate, a lifting plate, a movable control plate and a limiting plate, wherein the supporting movable columns are rotationally connected to the left inner wall of the bearing base, the driving plate is slidingly connected to the left inner wall of the bearing base, the matching plate is rotationally connected to the rear side of the driving plate, the movable extending plate is slidingly connected to the rear inner wall of the bearing base, the front side of the movable extending plate is rotationally connected to the right side of the matching plate, the lifting plate is rotationally connected to the front side of the movable extending plate, the movable control plate is slidingly connected to the rear inner wall of the bearing base, the rear side of the movable control plate is rotationally connected to the top of the lifting plate, and the limiting plate is rotationally connected to the front side of the movable control plate, and the right side of the limiting plate is rotationally connected to the front side of the movable plate.

Further, the locking mechanism moves through controlling the driving plate, at the moment, the driving plate pushes the matching plate to move, meanwhile, the matching plate pushes the movable extending plate to move rightwards, when the movable extending plate moves, the movable extending plate pushes the lifting plate to move, so that the movable control plate is controlled to lift, and when the movable control plate moves, the movable control plate can push the limiting plate to move, so that the movable plate is controlled to extend out of the assembly control box.

Preferably, the outer walls of the two supporting movable columns are sleeved with the same driving belt, and the outer walls of the driving belts are fixedly connected with the front side of the sliding plate and the rear side of the driving plate.

Further, when the sliding plate moves, the sliding plate can control the transmission belt to rotate, and the transmission belt can control the driving plate to descend along with the rotation of the transmission belt.

Preferably, the bottom fixedly connected with control spring No. one of activity screwed ring, and the one end of control spring and the bottom inner wall fixed connection of assembly control box, the top fixedly connected with No. three control spring of device locking plate, and No. three control spring's one end and the top inner wall fixed connection of fly leaf.

Further, through setting up a control spring, a control spring can promote the activity screwed ring through self elasticity and rise the return, through setting up No. three control springs, no. three control springs play thrust unit locking plate and descend to controlling means locking plate contacts with the outer wall that bears the weight of the base.

Preferably, a positioning hole is formed in the left side of the connecting plate, the assembly positioning plate is movably connected with the positioning hole, a sliding groove is formed in the top of the assembly control box, and the assembly positioning plate is slidably connected with the inner wall of the sliding groove.

Further, through setting up the locating hole, when the assembly locating plate removes, the assembly locating plate can be connected with the locating hole to fix a position the connecting plate, through setting up the spout, the spout plays the effect that the restriction assembly locating plate carries out lateral shifting.

The beneficial effects of the invention are as follows:

1. the connecting plate connected with the plasma generator is inserted into the assembly control box, the connecting plate presses the movable threaded ring to descend at the moment, the movable threaded ring rotates through the self-threaded control threaded pipe along with the movement of the movable threaded ring, the threaded pipe rotates and synchronously ascends through the threaded control threaded column at the moment, when the threaded column moves, the threaded column pulls the sliding plate to ascend, the sliding plate pushes the push plate to move at the moment, when the push plate moves, the push plate pushes the guide plate to move, the guide plate pulls the guide belt to move along with the movement of the guide plate, and the guide belt supports the rotating column to serve as a fulcrum at the moment to pull the auxiliary plate to move rightwards;

2. When the auxiliary plate moves, the auxiliary plate is matched with the inclined plane of the trapezoid movable plate through the rotating wheel to control the trapezoid movable plate to descend, at the moment, the trapezoid movable plate descends to push the rotating matching plate to move, the rotating matching plate synchronously pushes the assembling and positioning plate to move, and when the assembling and positioning plate moves, the assembling and positioning plate is connected with the positioning hole of the connecting plate, so that the connecting plate is positioned, and the assembling of the plasma generator is completed;

3. Along with the removal of sliding plate, sliding plate control drive belt rotates, drive the board and descend this moment, when the drive board removes, drive the board and promote the collocation board and remove, the collocation board promotes the activity extension board and removes this moment, the activity extension board promotes the lifting board simultaneously and rises, along with the removal of lifting board, the lifting board promotes the movable board and rises this moment, the movable board extends outside the assembly control box through limiting board promotion fly leaf, simultaneously descend through the elasticity thrust unit locking plate of No. three control springs, thereby contact with the right side of bearing the base, thereby lock whole device, thereby guarantee the stability to plasma generator assembly, facilitate the use.

The beneficial effects are that: the connecting plate connected with the plasma generator is inserted into the assembly control box, at the moment, the movable threaded ring is controlled to descend, the movable threaded ring can assist the sliding plate to move along with the movement of the movable threaded ring, and then the assembly positioning plate is controlled to move, so that the connecting plate is positioned, the assembly of the plasma generator is completed, meanwhile, the sliding plate can assist the movable plate to move along with the movement of the sliding plate, the locking plate of the guiding device moves, the whole device is locked, the stability of the assembly of the plasma generator is guaranteed, and the plasma generator is convenient to use.

Drawings

FIG. 1 is a cross-sectional view of a two-stage plasma generator according to the present invention;

FIG. 2 is a three-dimensional view of a movable threaded ring of a two-stage plasma generator according to the present invention;

FIG. 3 is a side view of a two-stage plasma generator with a movable support column, a driving belt, a driving plate and a sliding plate;

FIG. 4 is an enlarged view of the structure A of a two-stage plasma generator according to the present invention;

fig. 5 is an enlarged view of the B structure of a two-stage plasma generator according to the present invention.

In the figure: 1. a load-bearing base; 2. assembling a control box; 3. a plasma generator; 4. a connecting plate; 5. a movable threaded ring; 6. a first control spring; 7. a threaded tube; 8. a threaded column; 9. a sliding plate; 10. a push plate; 11. a guide plate; 12. supporting the rotating column; 13. a guide belt; 14. an auxiliary plate; 15. a trapezoid movable plate; 16. a second control spring; 17. rotating the matched plate; 18. assembling a positioning plate; 19. supporting the movable column; 20. a drive belt; 21. a driving plate; 22. a matching plate; 23. a movable extension plate; 24. a lifting plate; 25. a mobile control panel; 26. a limiting plate; 27. a movable plate; 28. a device locking plate; 29. and a third control spring.

Detailed Description

The invention is further illustrated below in connection with specific embodiments.

Examples

Referring to fig. 1-5, a two-stage plasma generator is proposed in this embodiment, including inside hollow load-bearing base 1 and plasma generator 3, the top of load-bearing base 1 is through welded fixedly connected with assembly control box 2, there is movable screwed ring 5 through slide rail sliding connection in the assembly control box 2, and the bottom of movable screwed ring 5 extends to in load-bearing base 1, there is assembly locating plate 18 through slide rail sliding connection in the rear side inner wall of assembly control box 2, the left side of plasma generator 3 is through welded fixedly connected with connecting plate 4, the top inner wall of load-bearing base 1 is connected with screwed pipe 7 through the pivot rotation, and the outer wall of screwed pipe 7 and the inner wall threaded connection of movable screwed ring 5, screwed column 8 is connected with to screwed pipe 7 internal thread, there is inside hollow fly leaf 27 through slide rail sliding connection in assembly control box 2 bottom inner wall, and there is device locking plate 28 through slide rail sliding connection in the fly leaf 27, the left side inner wall of load-bearing base 1 is slide plate 9 through welded fixedly connected with the bottom of screwed column 8, be equipped with locating mechanism and locking mechanism in load-bearing base 1 and the assembly control box 2.

In this embodiment, positioning mechanism includes push pedal 10, guide board 11, support rotation post 12, auxiliary plate 14, trapezoidal fly leaf 15 and rotation joining in marriage board 17, push pedal 10 rotates the front side of connecting at slide plate 9 through the pivot, guide board 11 passes through slide rail sliding connection at the bottom inner wall of assembly control box 2, and the bottom of guide board 11 extends to bear in the base 1, the front side of guide board 11 is rotated through the pivot with the left side of push pedal 10 and is connected, support rotation post 12 rotates the bottom inner wall of connecting at assembly control box 2 through the pivot, auxiliary plate 14 passes through slide rail sliding connection at the bottom inner wall of assembly control box 2, and be located the left side of support rotation post 12, trapezoidal fly leaf 15 passes through slide rail sliding connection at the left side inner wall of assembly control box 2, rotate joining in marriage board 17 and rotate the front side of connecting at trapezoidal fly leaf 15 through the pivot, and the right side of rotating joining in marriage board 17 and the front side of assembly positioning plate 18 pass through the pivot and rotate and be connected, positioning mechanism moves through control push pedal 10, at this moment, guide board 11 can promote to move, simultaneously 11 removal can drive auxiliary plate 14 to move right, along with the removal of auxiliary plate 14, when auxiliary plate 14 carries out trapezoidal fly leaf 15 and moves 15, trapezoidal fly leaf 15 when auxiliary plate 15 is moved down, move in order to carry out trapezoidal fly leaf 15, and move in order to carry out moving in order to match moving in.

In this embodiment, the right side of the guide plate 11 is fixedly connected with the guide belt 13 through welding, and one end of the guide belt 13 is fixedly connected with the right side of the auxiliary plate 14 through welding, the guide belt 13 contacts with the outer wall of the supporting rotating column 12, when the guide plate 11 moves, the guide plate 11 can pull the guide belt 13 to move, and at this time, the guide belt 13 takes the outer wall of the supporting rotating column 12 as a fulcrum, so that the auxiliary plate 14 is pulled to move rightward.

In this embodiment, the rear side of the auxiliary plate 14 is rotatably connected with a rotating wheel through a rotating shaft, the rotating wheel contacts with the inclined plane of the trapezoid movable plate 15, the bottom of the trapezoid movable plate 15 is fixedly connected with a second control spring 16 through welding, one end of the second control spring 16 is fixedly connected with the inner wall of the bottom of the assembly control box 2 through welding, when the auxiliary plate 14 moves, the auxiliary plate 14 drives the rotating wheel to move, at the moment, the rotating wheel is matched with the inclined plane of the trapezoid movable plate 15, the trapezoid movable plate 15 is conveniently controlled to descend, and meanwhile, the second control spring 16 can push the trapezoid movable plate 15 to ascend through self elasticity through the second control spring 16.

In this embodiment, the locking mechanism includes two support movable columns 19, the driving plate 21, the collocation plate 22, the activity extension plate 23, the lifting plate 24, the motion control board 25 and limiting plate 26, support movable columns 19 and rotate through the pivot and connect the left side inner wall at the bearing base 1, the driving plate 21 passes through slide rail sliding connection at the left side inner wall at the bearing base 1, the collocation plate 22 rotates through the pivot and connects the rear side at the driving plate 21, the activity extension plate 23 passes through slide rail sliding connection at the rear side inner wall at the bearing base 1, and the front side of activity extension plate 23 rotates through the pivot with the right side of collocation plate 22 to be connected, the lifting plate 24 rotates through the pivot and connects the front side at the activity extension plate 23, the motion control board 25 passes through slide rail sliding connection at the rear side inner wall at the bearing base 1, and the rear side of motion control board 25 rotates through the pivot with the top of lifting plate 24 to be connected, and limiting plate 26's right side and the front side at the activity plate 27 rotate through the pivot and connect, locking mechanism carries out the removal through control driving plate 21, the driving plate 21 promotes the collocation plate 22 and carries out the motion control board 23 when the collocation plate 23 carries out motion control plate 23, thereby carries out motion control plate 25 and carries out motion control plate 23 when the motion control plate 23 carries out motion control plate 23, and carries out motion control plate 25 and carries out motion control plate 23, when the motion control plate 25 carries out motion control plate 23, and carries out motion control plate 25, and carries out control plate 25, when the motion control plate 23 carries out control plate 23, and carries out control plate 25, and when motion control plate 25 carries out motion control plate 23, and when carrying out control plate 2, and when carrying out control plate carries out motion control plate 2.

In this embodiment, the same driving belt 20 is sleeved on the outer walls of the two supporting movable columns 19, and the outer walls of the driving belt 20 are fixedly connected with the front side of the sliding plate 9 and the rear side of the driving plate 21 through welding, when the sliding plate 9 moves, the sliding plate 9 can control the driving belt 20 to rotate, and along with the rotation of the driving belt 20, the driving belt 20 can control the driving plate 21 to descend.

In this embodiment, the bottom of the movable thread ring 5 is fixedly connected with a first control spring 6 through welding, one end of the first control spring 6 is fixedly connected with the inner wall of the bottom of the assembly control box 2 through welding, the top of the device locking plate 28 is fixedly connected with a third control spring 29 through welding, one end of the third control spring 29 is fixedly connected with the inner wall of the top of the movable plate 27 through welding, the first control spring 6 is arranged, the first control spring 6 can push the movable thread ring 5 to ascend and return through self elasticity, the third control spring 29 is arranged, the third control spring 29 plays a role in pushing the device locking plate 28 to descend, and accordingly the control device locking plate 28 is in contact with the outer wall of the bearing base 1.

In this embodiment, the left side of connecting plate 4 is equipped with the locating hole, and assembly locating plate 18 and locating hole swing joint, and the top of assembly control box 2 is equipped with the spout, and assembly locating plate 18 and the inner wall of spout pass through slide rail sliding connection, through setting up the locating hole, when assembly locating plate 18 removes, assembly locating plate 18 is in order to be connected with the locating hole to fix a position connecting plate 4, through setting up the spout, the spout plays the effect that restriction assembly locating plate 18 carries out lateral shifting.

Working principle: in actual operation, by inserting the connection plate 4 connected with the plasma generator 3 into the assembly control box 2, at this time, the connection plate 4 presses the movable threaded ring 5 to descend, along with the movement of the movable threaded ring 5, the movable threaded ring 5 rotates by self-threading control of the threaded pipe 7, at this time, the rotation of the threaded pipe 7 synchronously ascends by threading control of the threaded column 8, when the threaded column 8 moves, the threaded column 8 pulls the sliding plate 9 to ascend, at this time, the sliding plate 9 pushes the push plate 10 to move, when the push plate 10 moves, the push plate 10 pushes the guide plate 11 to move, along with the movement of the guide plate 11, the guide plate 11 pulls the guide belt 13 to move, at this time, the guide belt 13 pulls the auxiliary plate 14 to move rightward by supporting the rotating column 12 as a fulcrum, when the auxiliary plate 14 moves, the auxiliary plate 14 cooperates with the inclined surface of the trapezoid movable plate 15 through the rotating wheel, the trapezoid movable plate 15 is controlled to descend, at the moment, the trapezoid movable plate 15 descends to push the rotary matching plate 17 to move, the rotary matching plate 17 synchronously pushes the assembly positioning plate 18 to move, when the assembly positioning plate 18 moves, the assembly positioning plate 18 is connected with the positioning hole of the connecting plate 4 to position the connecting plate 4, the assembly of the plasma generator 3 is completed, meanwhile, the sliding plate 9 controls the driving belt 20 to rotate along with the movement of the sliding plate 9, at the moment, the driving belt 20 controls the driving plate 21 to descend, when the driving plate 21 moves, the driving plate 21 pushes the matching plate 22 to move, at the moment, the matching plate 22 pushes the movable extending plate 23 to move, meanwhile, the movable extending plate 23 pushes the lifting plate 24 to ascend, along with the movement of the lifting plate 24, the lifting plate 24 pushes the movable control plate 25 to ascend, at this time, the movable control plate 25 pushes the movable plate 27 to extend out of the assembly control box 2 through the limiting plate 26, and simultaneously pushes the device locking plate 28 to descend through the elastic force of the third control spring 29, so as to contact with the right side of the bearing base 1, thereby locking the whole device, ensuring the stability of the assembly of the plasma generator 3, and being convenient to use.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a two segmentation plasma generator, includes inside hollow load-bearing base (1) and plasma generator (3), its characterized in that, the top fixedly connected with assembly control box (2) of load-bearing base (1), sliding connection has movable threaded ring (5) in assembly control box (2), and the bottom of movable threaded ring (5) extends to in load-bearing base (1), the rear side inner wall sliding connection of load-bearing base (2) has assembly locating plate (18), the left side fixedly connected with connecting plate (4) of plasma generator (3), the top inner wall rotation of load-bearing base (1) is connected with screwed pipe (7), and the outer wall of screwed pipe (7) and the inner wall threaded connection of movable threaded ring (5), screwed pipe (7) internal thread connection has threaded column (8), and sliding connection has device locking plate (28) in inner wall sliding connection has inside hollow movable plate (27) in assembly control box (2), the left side inner wall sliding connection of load-bearing base (1) has sliding plate (9), and sliding connection with push pedal (9) and the inner wall of load-bearing base (1) is equipped with locking mechanism (10) and is equipped with in fixed connection with push pedal (10) and fixed establishment of position mechanism (10) and load-bearing base (1) The device comprises a guide plate (11), a supporting rotating column (12), an auxiliary plate (14), a trapezoid movable plate (15) and a rotating matching plate (17), wherein the push plate (10) is rotationally connected to the front side of a sliding plate (9), the guide plate (11) is slidingly connected to the bottom inner wall of an assembling control box (2), the bottom of the guide plate (11) extends into a bearing base (1), the front side of the guide plate (11) is rotationally connected with the left side of the push plate (10), the supporting rotating column (12) is rotationally connected to the bottom inner wall of the assembling control box (2), the auxiliary plate (14) is slidingly connected to the bottom inner wall of the assembling control box (2) and is positioned on the left side of the supporting rotating column (12), the trapezoid movable plate (15) is slidingly connected to the left side inner wall of the assembling control box (2), the rotating matching plate (17) is rotationally connected to the front side of the trapezoid movable plate (15), the right side of the rotating matching plate (17) is rotationally connected to the front side of the assembling positioning plate (18), the locking mechanism comprises two supporting movable plates (19), a driving plate (22), a lifting limiting plate (24) and a lifting base (25) which are matched with the inner wall (25) of the supporting movable plate (23), the utility model discloses a movable control board, including base (1) and movable control board (27), drive board (21) sliding connection is at the left side inner wall that bears base (1), collocation board (22) rotate and connect the rear side at drive board (21), movable extension board (23) sliding connection is at the rear side inner wall that bears base (1), and the front side of movable extension board (23) rotates and is connected with the right side of collocation board (22), lifting board (24) rotate and connect the front side at movable extension board (23), movable control board (25) sliding connection is at the rear side inner wall that bears base (1), and the rear side of movable control board (25) rotates with the top of lifting board (24) and is connected, limiting board (26) rotate and connect the front side at movable control board (25), and limiting board (26) right side rotates with the front side of movable plate (27).

2. A two-stage plasma generator according to claim 1, characterized in that the right side of the guide plate (11) is fixedly connected with a guide belt (13), and one end of the guide belt (13) is fixedly connected with the right side of the auxiliary plate (14), and the guide belt (13) is in contact with the outer wall of the supporting rotating column (12).

3. The two-stage plasma generator according to claim 1, wherein the rear side of the auxiliary plate (14) is rotatably connected with a rotating wheel, the rotating wheel is in contact with an inclined plane of the trapezoid movable plate (15), a second control spring (16) is fixedly connected to the bottom of the trapezoid movable plate (15), and one end of the second control spring (16) is fixedly connected with the inner wall of the bottom of the assembly control box (2).

4. A two-stage plasma generator according to claim 1, characterized in that the outer walls of the two supporting movable columns (19) are sleeved with the same driving belt (20), and the outer wall of the driving belt (20) is fixedly connected with the front side of the sliding plate (9) and the rear side of the driving plate (21).

5. The two-stage plasma generator according to claim 1, wherein the bottom of the movable threaded ring (5) is fixedly connected with a first control spring (6), one end of the first control spring (6) is fixedly connected with the bottom inner wall of the assembly control box (2), the top of the device locking plate (28) is fixedly connected with a third control spring (29), and one end of the third control spring (29) is fixedly connected with the top inner wall of the movable plate (27).

6. The two-stage plasma generator according to claim 1, wherein a positioning hole is formed in the left side of the connecting plate (4), the assembly positioning plate (18) is movably connected with the positioning hole, a sliding groove is formed in the top of the assembly control box (2), and the assembly positioning plate (18) is slidably connected with the inner wall of the sliding groove.