CN217701762U - Plasma processing equipment with dustproof structure - Google Patents

Abstract

The utility model provides a plasma processing device with a dustproof structure, wherein a Y-axis dustproof guide rail is arranged on the upper surface of a workbench, a Y-axis movement device comprises a side plate and a Y-axis driving part, and the side plate is matched with the Y-axis dustproof guide rail; the beam device comprises a beam and an X-axis dustproof guide rail, the beam is fixedly arranged above the side plate, and the X-axis dustproof guide rail is fixedly arranged on the beam; the X-axis movement device comprises an X-axis sliding plate, an X-axis driving part and a Z-axis guide rail pair, the X-axis sliding plate is matched with the X-axis dustproof guide rail, and the Z-axis guide rail pair is arranged on the X-axis sliding plate; the Z-axis movement device comprises a Z-axis sliding plate, a Z-axis driving part and a cutting part, the Z-axis sliding plate is matched with the Z-axis guide rail pair, and the cutting part is arranged on the Z-axis sliding plate; the electric control device is respectively and electrically connected with the X-axis movement device, the Y-axis movement device, the Z-axis movement device and the cutting component; the utility model discloses effective protection equipment moving part eliminates the influence of smoke and dust to the processing effect.

Description

Plasma processing equipment with dustproof structure

Technical Field

The utility model relates to a sheet metal cutting process technical field especially relates to a take dustproof construction's plasma processing equipment.

Background

Compared with other cutting modes, the plasma cutting has the characteristics of high speed, large cutting thickness, low cost, wide applicability and the like, is an important branch of general machinery, and a product of the plasma cutting serving as key equipment for metal processing is widely applied to the fields of agricultural machinery manufacturing, mechanical equipment, rail transit, automobile manufacturing, hardware processing and the like.

When the plasma cutting equipment is used for processing a thicker steel plate, larger smoke is easily generated, the cutting effect is influenced, the service life of the equipment is influenced along with pollution to the production environment, and the equipment is difficult to clean; the traditional dust suction device has poor treatment effect on smoke dust, and movement and transmission parts are not provided with protective devices, so that some smoke dust can enter the transmission parts to influence the service life of the cutting machine; in addition, the auxiliary gas in the plasma cutting equipment has limited cleaning effect on the lower part of the cutting opening of the thick steel plate, and slag adhering phenomenon is easy to occur to influence subsequent processing treatment. Therefore, it is desirable to provide a plasma processing apparatus with a dust-proof structure.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art, an object of the utility model is to provide a take dustproof construction's plasma processing equipment for it is difficult to clearance and the smoke and dust gets into the problem that influences the moving part life-span in the moving part to produce the smoke and dust during processing to solve among the prior art plasma cutting equipment.

The utility model provides a take dirt-proof plasma processing equipment, include: the working table is used for placing a workpiece to be processed, and the upper surface of the working table is provided with a Y-axis dustproof guide rail; the Y-axis movement device comprises a side plate and a Y-axis driving part, the side plate is matched with the Y-axis dustproof guide rail, and the Y-axis driving part drives the side plate to reciprocate along the Y-axis dustproof guide rail; the beam device comprises a beam and an X-axis dustproof guide rail, the beam is fixedly arranged above the side plate, and the X-axis dustproof guide rail is fixedly arranged on the beam; the X-axis movement device comprises an X-axis sliding plate, an X-axis driving part and a Z-axis guide rail pair, wherein the X-axis sliding plate is matched with the X-axis dustproof guide rail, and the Z-axis guide rail pair is arranged on the X-axis sliding plate; the X-axis sliding plate driving component drives the X-axis sliding plate to reciprocate along the X-axis dustproof guide rail; the Z-axis movement device comprises a Z-axis sliding plate, a Z-axis driving component and a cutting component; the Z-axis sliding plate is matched with the Z-axis guide rail pair, and the cutting component is arranged on the Z-axis sliding plate; the Z-axis driving component drives the Z-axis sliding plate to reciprocate along the Z-axis guide rail pair; and the electric control device is fixedly arranged at one end of the workbench and is respectively and electrically connected with the X-axis movement device, the Y-axis movement device, the Z-axis movement device and the cutting part.

In an embodiment of the present invention, the worktable includes a base, a guard plate, a water tank and a support plate, the water tank is installed above the base for removing smoke and dust and eliminating cutting flash; the supporting plate is arranged inside the water tank, is arranged in an S shape and is used for placing and fixing workpieces; the guard plates are symmetrically arranged on two sides of the base to play a role in protection.

In an embodiment of the present invention, the X-axis moving device includes a third protecting cover, and the third protecting cover is installed outside the X-axis sliding plate for protection.

In an embodiment of the present invention, a smoke exhaust component is disposed on one side of the third shield for collecting smoke, and the smoke exhaust component is an inverted funnel, and the large opening is downward.

In an embodiment of the present invention, the X-axis dustproof guide rail includes an X-axis guide rail pair and a second shield, and the X-axis guide rail pair is symmetrically disposed on the upper surface of the cross beam along the X-axis direction; the X-axis guide rail is mounted inside the second shield; the second shield is respectively connected with two side surfaces of the third shield along the X-axis direction, so that smoke dust generated during machining is prevented from falling into a moving part; the second protective cover is in an organ type structure, and meets the requirements of long stroke, small compression and the like.

In an embodiment of the present invention, the X-axis driving component includes an X-axis transmission unit and an X-axis servo motor, the X-axis transmission unit is installed on the upper surface of the cross beam and is located at the bottom of the X-axis sliding plate; the X-axis sliding plate is arranged in a T shape and is arranged on the upper surface of the cross beam through an X-axis guide rail pair; the X-axis servo motor is fixedly arranged above the horizontal plane of the X-axis sliding plate; the X-axis servo motor is positioned above the X-axis transmission unit and is connected with the X-axis transmission unit; the X-axis servo motor drives the X-axis transmission unit to drive the X-axis sliding plate to reciprocate along the X-axis guide rail pair; the X-axis transmission unit is in transmission fit with a gear and a rack.

In an embodiment of the present invention, the Y-axis dustproof guide rail includes a Y-axis guide rail pair and a first shield, the Y-axis guide rail pair is disposed along the Y-axis direction and symmetrically disposed on the upper surface of the workbench; the Y-axis guide rail pair is positioned inside the first shield; the first protective cover is respectively connected with two side surfaces of the side plates along the Y-axis direction; the first protective cover is in an organ type structure, and meets the requirements of long stroke, small compression and the like.

In an embodiment of the present invention, the Y-axis dustproof guide rail includes a Y-axis transmission unit and a Y-axis servo motor, and the Y-axis transmission unit is mounted on the base and located at the bottom of the side plate; the Y-axis transmission unit is arranged on the base and is positioned at the bottom of the side plate; the Y-axis servo motor is arranged inside the side plate and connected with the Y-axis transmission unit, and the Y-axis servo motor is positioned above the Y-axis transmission unit; the Y-axis servo motor drives the Y-axis transmission unit to drive the side plate to reciprocate along the Y-axis guide rail pair; and the Y-axis transmission unit is in transmission fit with the gear and the rack.

In an embodiment of the present invention, the Z-axis driving component includes a Z-axis servo motor, a Z-axis lead screw pair and a Z-axis synchronous pulley, the Z-axis synchronous pulley is installed on the upper end of the X-axis sliding plate, the Z-axis servo motor is connected to the driving wheel of the Z-axis synchronous pulley and fixed on the X-axis sliding plate, and the Z-axis servo motor is located below the Z-axis synchronous pulley; the Z-axis lead screw pair is vertically arranged on the vertical surface of the X-axis sliding plate and is connected with a driven wheel of the Z-axis synchronous belt wheel; the Z-axis lead screw pair is connected with the Z-axis sliding plate; the Z-axis servo motor drives a driving wheel of the Z-axis synchronous belt pulley to rotate, and the driving wheel of the Z-axis synchronous belt drives a driven wheel of the Z-axis synchronous belt to rotate; the driven wheel of the Z-axis synchronous belt wheel drives the Z-axis lead screw pair to move along the Z-axis direction; and the Z-axis lead screw pair drives the Z-axis sliding plate to reciprocate along the Z-axis direction.

In an embodiment of the present invention, the cutting component includes a cutting head and a clamp, and the clamp is mounted on the Z-axis sliding plate; the cutting head is mounted on the clamp and located below the clamp, and the clamp is used for fixing the cutting head.

As above, the utility model provides a pair of take plasma processing equipment of dustproof construction has following beneficial effect:

the utility model controls the cutting part to move above the workpiece through the electric control device, cuts the workpiece, and increases the service life of the equipment, the cutting effect and the requirements of safety and environmental protection performance through the dustproof device; the utility model discloses an adopt the fixed work piece of S-shaped backup pad for processing is more steady, and electrically controlled device sets up integrative with the workstation base, has reduced manufacturing cost, convenient transportation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments of the present application will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive and labor.

Fig. 1 is a schematic structural diagram of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

fig. 2 is a front view of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

fig. 3 is a left side view of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

fig. 4 is a right side view of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

fig. 5 is a top view of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention.

Fig. 6 is a cross-sectional view of a Y-axis motion device of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

fig. 7 is a cross-sectional view of an X-axis and Z-axis movement device of a plasma processing apparatus with a dustproof structure according to an embodiment of the present invention;

element number description:

100, a workbench; 101 a base; 102 guard plates; 103 water tank; 104 a support plate; 200Y-axis motion device; 201Y-axis guide rail pair; 202Y-axis transmission unit; 203Y-axis servo motor; 204 side plates; 300. a cross beam device; 301 a cross beam; a 400X axis motion device; 401X-axis guide rail pairs; 402X-axis transmission unit; 403X axis servo motor; 404X-axis slide; 405 a third shield; a 500Z-axis motion device; 501 cutting head; 502, a clamp; 503Z-axis slide; 504Z-axis guide rail pairs; 505Z-axis lead screw pair; 506Z-axis servo motors; 507Z-axis synchronous pulley; 600Y-axis dust guide rails; 601 an X-axis dustproof guide rail; 602 a first shield; 603 a second shield; 604 a smoke evacuation component; 700 an electric control device.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

Please refer to fig. 1 to 7. It should be understood that the structures, ratios, sizes, etc. shown in the drawings of the present specification are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any modification of the structures, changes of the ratio relationship, or adjustment of the sizes, should still fall within the scope that the technical contents disclosed in the present invention can cover without affecting the efficacy that the present invention can produce and the purpose that can be achieved. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Referring to fig. 1, 6 and 7, an embodiment of the present invention provides a schematic structural diagram of a plasma processing apparatus with a dustproof structure, a cross-sectional view of a Y-axis moving device, a cross-sectional view of an X-axis moving device and a Z-axis moving device, including a worktable 100, a Y-axis moving device 200, a beam device 300, an X-axis moving device 400, a Z-axis moving device 500 and an electric control device 700. The machining device comprises a worktable 100, a Y-axis dustproof guide rail 600, a machining tool and a machining tool, wherein the worktable 100 is used for placing a workpiece to be machined, and the upper surface of the worktable 100 is provided with the Y-axis dustproof guide rail 600; the Y-axis movement device 200 comprises a side plate 204 and a Y-axis driving part 600, wherein the side plate 204 is matched with the Y-axis dustproof guide rail 600, and the Y-axis driving part 600 drives the side plate 204 to reciprocate along the Y-axis dustproof guide rail 600; the beam device 300 comprises a beam 301 and an X-axis dustproof guide rail 601, wherein the beam 301 is fixedly arranged above the side plate 204, and the X-axis dustproof guide rail 601 is fixedly arranged on the upper surface of the beam 301; the X-axis movement device 400 comprises an X-axis sliding plate 404, an X-axis driving part and a Z-axis guide rail pair 504, wherein the X-axis sliding plate 404 is matched with an X-axis dustproof guide rail 601, and the Z-axis guide rail pair 504 is installed on the X-axis sliding plate 404; the X-axis driving component drives the X-axis sliding plate 404 to reciprocate along the X-axis dustproof guide rail 601; a Z-axis moving device 500 including a Z-axis slide 503, a Z-axis driving part, and a cutting part; the Z-axis sliding plate 503 is matched with the Z-axis guide rail pair 504, and the cutting component is installed on the Z-axis sliding plate 503; the Z-axis driving component drives a Z-axis sliding plate 503 to reciprocate along the Z-axis guide rail pair 504; and an electric control device 700 fixedly disposed at one end of the worktable 100 and electrically connected to the X-axis moving device 400, the Y-axis moving device 200, the Z-axis moving device 500, and the cutting member, respectively.

Referring to fig. 1 and 5, an embodiment of the present invention provides a schematic structural diagram and a top view of a plasma processing apparatus with a dustproof structure, the workstation 100 further includes a base 101, a guard plate 102, a water tank 103 and a support plate 104, the water tank 103 is installed above the base 101, and water is injected into the water tank 103 during use, so as to facilitate dust removal and weld nugget removal; the supporting plates 104 are arranged inside the water tank 103 in an S shape, so that workpieces can be conveniently placed and fixed, and the protective plates are symmetrically arranged on two sides of the base 101 to play a role in protection.

Referring to fig. 3 and 4, an embodiment of the present invention provides a left side view and a right side view of a plasma processing apparatus with a dust-proof structure, an X-axis moving device 400 includes a third shield 405, the third shield 405 is installed outside an X-axis sliding plate 404 to protect X-axis and Z-axis moving components from being affected by smoke generated by processing, one side of the third shield 405 is provided with a smoke exhaust component 604, the smoke exhaust component 604 is located above a cutting head 501, the smoke exhaust component 604 is an inverted funnel, and a large opening is downward for intensively exhausting smoke above and protecting a production environment.

Referring to fig. 1, fig. 6 and fig. 7, an embodiment of the present invention provides a schematic structural diagram of a plasma processing apparatus with a dustproof structure, a cross-sectional view of a Y-axis moving device, a cross-sectional view of an X-axis moving device and a cross-sectional view of a Z-axis moving device, wherein an X-axis dustproof guide rail 601 includes an X-axis guide rail pair 401 and a second shield 603, and is symmetrically disposed on an upper surface of a cross beam 301 along an X-axis direction; the X-axis guide rail pair 401 is installed inside the second shield 603, the second shield 603 is respectively connected with two side faces of the third shield 405 along the X-axis direction, the X-axis stroke is 1400mm, and the second shield 603 is in an organ type structure, so that the characteristics of stable operation, long stroke, small compression and the like are met. The Y-axis dustproof guide rail 600 comprises a Y-axis guide rail pair 201 and a first shield 602, wherein the Y-axis guide rail pair 201 is arranged along the Y-axis direction and symmetrically arranged on the upper surface of the workbench 100; the Y-axis guide rail pair 201 is located inside the first shield 602, the first shield 602 is respectively connected with two side faces of the side plate 204 along the Y-axis direction, the Y-axis stroke is 2600mm, and the first shield 602 is arranged in an organ type structure, so that the characteristics of stable operation, long stroke, small compression and the like are met.

Referring to fig. 7, an embodiment of the present invention provides a cross-sectional view of an X-axis motion device and a Z-axis motion device of a plasma processing apparatus with a dustproof structure, wherein an X-axis driving component includes an X-axis transmission unit 402 and an X-axis servo motor 403, the X-axis transmission unit 402 is mounted on an upper surface of a cross beam 301, is located at the bottom of an X-axis sliding plate 404, and is located between an X-axis guide rail pair 401; the X-axis sliding plate 404 is arranged in a T shape, is matched with the X-axis guide rail pair 401 and is arranged on the upper surface of the cross beam 301, the X-axis servo motor 403 is fixedly arranged above the horizontal plane of the X-axis sliding plate 404 and is positioned above the X-axis transmission unit 402 and connected with the X-axis transmission unit 402, and the X-axis servo motor 403 drives the X-axis transmission unit 402 to drive the X-axis sliding plate 404 to reciprocate along the X-axis guide rail pair 401; the X-axis transmission unit 402 is in transmission fit with a gear rack, wherein the gear rack is a helical gear, is arranged at the bottom of the X-axis sliding plate 404 and is connected with the X-axis servo motor 403, the rack is arranged on a cross beam corresponding to the bottom of the X-axis sliding plate, the rack and the cross beam are meshed with each other, and the rack moves along the X-axis guide rail pair 401 under the driving of the X-axis servo motor 403, so that the transmission efficiency and the precision are effectively improved.

Referring to fig. 6, an embodiment of the present invention provides a cross-sectional view of a Y-axis motion device of a plasma processing apparatus with a dustproof structure, wherein a Y-axis driving component includes a Y-axis transmission unit 202 and a Y-axis servo motor 203, the Y-axis transmission unit 202 is installed on the base 101 and is located at the bottom of a side plate 204; the Y-axis servo motor 203 is arranged inside the side plate 204 and connected with the Y-axis transmission unit 202, and the Y-axis servo motor 203 is positioned above the Y-axis transmission unit 202; the Y-axis servo motor 203 drives the Y-axis transmission unit 202 to drive the side plate 204 to reciprocate along the Y-axis guide rail pair 201; the Y-axis transmission unit 202 is in transmission fit with a gear and a rack, wherein the gear is also in transmission through a bevel gear, the Y-axis transmission unit is installed at the bottom of the side plate 204 and used for connecting the Y-axis servo motor 203, the rack is installed on a base corresponding to the bottom of the side plate 204, the rack and the base are in transmission in a meshed mode, the Y-axis servo motor 203 drives the rack to move along the Y-axis guide rail pair 201, and transmission efficiency and accuracy are effectively improved.

Referring to fig. 7, an embodiment of the present invention provides a cross-sectional view of an X-axis moving device and a Z-axis moving device of a plasma processing apparatus with a dustproof structure, a Z-axis driving component includes a Z-axis servo motor 506, a Z-axis screw pair 505 and a Z-axis synchronous pulley 507, the Z-axis synchronous pulley 507 is installed on an upper end of an X-axis sliding plate 404, the Z-axis servo motor 506 is connected to a driving wheel of the Z-axis synchronous pulley 507 and fixed on the X-axis sliding plate 404, and the Z-axis servo motor 506 is located below the Z-axis synchronous pulley 507; a Z-axis lead screw pair 505 is vertically arranged on the vertical surface of the X-axis sliding plate 404, is connected with a driven wheel of a Z-axis synchronous pulley 507 and is connected with a Z-axis sliding plate 503; a Z-axis servo motor 506 drives a Z-axis synchronous belt wheel 507 driving wheel to rotate, the Z-axis synchronous belt wheel 507 driving wheel drives a Z-axis lead screw pair 505 to move along the Z-axis direction, so that a slide block of the Z-axis lead screw pair 505 drives a Z-axis sliding plate 503 to reciprocate along the Z-axis direction, and the Z-axis stroke is 200mm; the cutting part comprises a cutting head 501 and a clamp 502, the cutting head 501 adopts a plasma cutting head, and the clamp is arranged on a Z-axis sliding plate 503; the cutting head 501 is mounted on and below a fixture 502 for holding the cutting head 501.

When the device is used, a workpiece to be machined is placed on an S-shaped supporting plate on a workbench 100, a certain amount of water is injected into a water tank 103 on the workbench before machining, a machining origin coordinate is set through an electric control device 700, the electric control device 700 drives an X/Y/Z shaft driving component to drive an X/Y/Z movement device to move, a Y-axis servo motor is connected with a high-precision Y-axis transmission unit 202 to drive a side plate 204 to move along a Y-axis guide rail pair 201 to the Y-axis coordinate of the machining origin, an X-axis servo motor 403 is connected with a high-precision X-axis transmission unit 402 to drive an X-axis sliding plate 404 to move along an X-axis guide rail pair 401 to the X-axis coordinate of the machining origin, a cutting head is moved to the position above the machining origin and above the workpiece, the Z-axis servo motor 506 drives a driving wheel of a Z-axis synchronous belt pulley 507 to drive a Z-axis lead screw pair 505 connected with a driven wheel, the Z-axis sliding plate 503 is moved to the workpiece to a safe distance from the workpiece, and the cutting head is started to machine according to a set machining path program; during processing, smoke and cutting welding beading are easily generated during plasma cutting, processing water in the water tank 103 plays a role in eliminating the smoke and the cutting welding beading which are positioned below the water tank, the smoke and the dust which are positioned above the Z axis are exhausted through the smoke exhaust part 604, and the smoke and the dust are effectively prevented from entering the transmission part of the Z axis to reduce the service life; the X-axis guide rail pair 401 and the Y-axis guide rail pair 600 are both positioned in the second shield 603 and the first shield 602, so that a large amount of smoke generated when the equipment processes a workpiece can be effectively prevented from entering X-axis and Y-axis moving parts, and the service life is shortened.

In conclusion, the utility model controls the cutting part to move above the workpiece through the electric control device, performs cutting processing on the workpiece, and increases the service life of the equipment, the cutting processing effect and the requirements of safety and environmental protection performance through the dustproof device; the utility model discloses an adopt the fixed work piece of S-shaped backup pad for processing is more steady, and electrically controlled device sets up integrative with the workstation base, has reduced manufacturing cost, convenient transportation. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention shall be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a take plasma processing equipment of dustproof construction which characterized in that includes:

the working table is used for placing a workpiece to be processed, and the upper surface of the working table is provided with a Y-axis dustproof guide rail;

the Y-axis movement device comprises a side plate and a Y-axis driving part, the side plate is matched with the Y-axis dustproof guide rail, and the Y-axis driving part drives the side plate to reciprocate along the Y-axis dustproof guide rail;

the beam device comprises a beam and an X-axis dustproof guide rail, the beam is fixedly arranged above the side plate, and the X-axis dustproof guide rail is fixedly arranged on the beam;

the X-axis movement device comprises an X-axis sliding plate, an X-axis driving part and a Z-axis guide rail pair, wherein the X-axis sliding plate is matched with the X-axis dustproof guide rail, and the Z-axis guide rail pair is arranged on the X-axis sliding plate; the X-axis sliding plate driving component drives the X-axis sliding plate to reciprocate along the X-axis dustproof guide rail;

the Z-axis movement device comprises a Z-axis sliding plate, a Z-axis driving component and a cutting component; the Z-axis sliding plate is matched with the Z-axis guide rail pair, and the cutting component is arranged on the Z-axis sliding plate; the Z-axis driving component drives the Z-axis sliding plate to reciprocate along the Z-axis guide rail pair;

and the electric control device is fixedly arranged at one end of the workbench and is respectively and electrically connected with the X-axis movement device, the Y-axis movement device, the Z-axis movement device and the cutting part.

2. The plasma process apparatus with a dust-proof structure according to claim 1, wherein the work table comprises a base, a shield plate, a water tank, and a support plate,

the water tank is arranged above the base;

the supporting plate is arranged inside the water tank and is arranged in an S shape and used for placing and fixing workpieces;

the guard plates are symmetrically arranged on two sides of the base.

3. The plasma process apparatus with a dust-proof structure according to claim 1, wherein the X-axis moving device includes a third shield installed outside the X-axis slide plate.

4. The plasma process apparatus with a dustproof structure according to claim 3, wherein a smoke exhaust part is provided at one side of the third shield to collect smoke;

the smoke exhaust component is arranged in an inverted funnel mode, and a large opening faces downwards.

5. The plasma processing apparatus with a dust-proof structure according to claim 3, wherein the X-axis dust-proof guide rail includes an X-axis guide rail pair and a second shield,

the X-axis guide rail pair is symmetrically arranged on the upper surface of the cross beam along the X-axis direction;

the X-axis guide rail pair is arranged inside the second shield;

the second shield is respectively connected with two side surfaces of the third shield along the X-axis direction;

the second shield is arranged in an organ type structure.

6. The plasma process apparatus with dust-proof structure according to claim 1, wherein the X-axis driving part includes an X-axis transmission unit and an X-axis servo motor,

the X-axis transmission unit is arranged on the upper surface of the cross beam and is positioned at the bottom of the X-axis sliding plate;

the X-axis sliding plate is arranged in a T shape and is arranged on the upper surface of the cross beam through an X-axis guide rail pair;

the X-axis servo motor is fixedly arranged above the horizontal plane of the X-axis sliding plate;

the X-axis servo motor is positioned above the X-axis transmission unit and is connected with the X-axis transmission unit;

the X-axis servo motor drives the X-axis transmission unit to drive the X-axis sliding plate to reciprocate along the X-axis guide rail pair;

the X-axis transmission unit is in transmission fit with a gear and a rack.

7. The plasma processing apparatus with a dust-proof structure according to claim 1, wherein the Y-axis dust-proof guide rail includes a Y-axis guide rail pair and a first shield,

the Y-axis guide rail pair is arranged along the Y-axis direction and symmetrically arranged on the upper surface of the workbench;

the Y-axis guide rail pair is positioned in the first shield;

the first protective cover is respectively connected with two side surfaces of the side plate along the Y-axis direction;

the first protective cover is arranged in an organ type structure.

8. The plasma process apparatus with dust-proof structure according to claim 7, wherein the Y-axis driving part includes a Y-axis transmission unit and a Y-axis servo motor,

the Y-axis transmission unit is arranged on the base and is positioned at the bottom of the side plate;

the Y-axis servo motor is arranged inside the side plate and connected with the Y-axis transmission unit, and the Y-axis servo motor is positioned above the Y-axis transmission unit;

the Y-axis servo motor drives the Y-axis transmission unit to drive the side plate to reciprocate along the Y-axis guide rail pair;

and the Y-axis transmission unit is in transmission fit with the gear and the rack.

9. The plasma process apparatus with a dust-proof structure according to claim 1, wherein the Z-axis driving part includes a Z-axis servomotor, a Z-axis screw pair, and a Z-axis timing pulley,

the Z-axis synchronous belt wheel is arranged at the upper end of the X-axis sliding plate, the Z-axis servo motor is connected with a driving wheel of the Z-axis synchronous belt wheel and is fixed on the X-axis sliding plate, and the Z-axis servo motor is positioned below the Z-axis synchronous belt wheel;

the Z-axis lead screw pair is vertically arranged on the vertical surface of the X-axis sliding plate and is connected with a driven wheel of the Z-axis synchronous belt wheel; the Z-axis screw pair is connected with the Z-axis sliding plate;

the Z-axis servo motor drives a driving wheel of the Z-axis synchronous belt pulley to rotate, and the driving wheel of the Z-axis synchronous belt pulley drives a driven wheel of the Z-axis synchronous belt pulley to rotate; the driven wheel of the Z-axis synchronous belt wheel drives the Z-axis lead screw pair to move along the Z-axis direction; and the Z-axis lead screw pair drives the Z-axis sliding plate to reciprocate along the Z-axis direction.

10. The plasma process apparatus with a dust-proof structure according to claim 1, wherein the cutting means includes a cutting head and a jig, the jig being mounted on the Z-axis slide plate;

the cutting head is arranged on the clamp and is positioned below the clamp, and the clamp is used for fixing the cutting head.

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