CN113751847A - Plasma flame cutting machine with cooling protection device - Google Patents

Abstract

The invention discloses a plasma flame cutting machine with a cooling protection device, which comprises a protection frame, a threaded slide block, sliding plates, sliding groove holes, guide posts and track sliding grooves, wherein the top end of the protection frame is fixedly connected with a protection motor, the output end of the protection motor is provided with a protection screw rod for driving the threaded slide block to horizontally slide, two groups of connecting rods for driving two groups of sliding plates to horizontally and relatively slide are respectively screwed at two sides of the top end of the threaded slide block, the plasma flame cutting machine with the cooling protection device is characterized in that the protection plate is arranged, in the protection frame, the threaded slide block drives the two groups of sliding plates to horizontally and relatively slide through the two groups of connecting rods, so that the sliding plates move to drive the two groups of guide posts to horizontally and relatively slide along the two groups of track sliding grooves through the two groups of sliding groove holes, the guide posts move to drive the rotating rods to rotate, so that the rotating rod rotates to drive the protection plate to slide along the side wall of the protection frame, and the protection operation of the jet orifice is realized.

Description

Plasma flame cutting machine with cooling protection device

Technical Field

The invention relates to the field of flame cutting machines, in particular to a plasma flame cutting machine with a cooling protection device.

Background

The flame cutting machine is a cutting equipment for cutting metal material by utilizing gas to distribute oxygen or gasoline to distribute oxygen, mainly used for heavy industry, the plasma cutting is a processing method for melting part of metal of workpiece notch by utilizing heat of plasma arc and removing the molten metal by utilizing momentum of high-speed plasma to form notch, and its main advantages are: through the cooperation of different working gases, can cut various oxygen cutting metals that are difficult to cut, especially to non ferrous metal cutting effect better, consequently, plasma cutting is widely used in fields such as car, pressure vessel.

However, the existing plasma flame cutting machine has the problems that the protection operation is not performed when the plasma flame cutting machine is used, the potential safety hazard is greatly improved, the cooling effect is low, the service life of the flame cutting machine is low, the workpiece is clamped unstably, the cutting precision of the flame cutting machine is reduced, and the requirements of people cannot be met, so that the plasma flame cutting machine with the cooling protection device is provided.

Disclosure of Invention

The invention aims to provide a plasma flame cutting machine with a cooling protection device, which aims to solve the problems of no protection operation, low cooling effect and unstable clamping in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a plasma flame cutting machine with cooling protector, includes protective frame, screw thread slider, sliding plate, slip slotted hole, guide post and orbit spout, protective frame's top fixedly connected with protection motor, the output of protection motor is installed and is used for driving the gliding protective screw of screw thread slider level, the top both sides of screw thread slider all connect soon and are used for driving two sets ofly two sets of connecting rods of sliding plate horizontal relative slip to make the sliding plate move and pass through the slip slotted hole drives the guide post is followed orbit spout horizontal slip, the bottom of guide post connects soon and connects the rotary rod that connects soon with the protective frame outer wall, protective frame's one end fixedly connected with and protective frame lateral wall sliding connection's guard plate is kept away from to the rotary rod.

Preferably, the device comprises a base, the lateral wall fixedly connected with clamping mechanism of base, and clamping mechanism's top be provided with base lateral wall fixed connection place the platform, the top sliding connection of base has the sliding support, the lateral wall sliding connection of sliding support has the locating support, and the lateral wall fixedly connected with of locating support and protective frame outer wall fixed connection's jet, the bottom fixedly connected with cooling mechanism of locating support, protective frame's lateral wall fixedly connected with clearance mechanism.

Preferably, the sliding slot holes are provided in two sets, the position relationship of the two sets of sliding slot holes is symmetrical with respect to the sliding plate, the track sliding chute is in a circular arc shape with an angle of 90 degrees, and the circular arc radius of the track sliding chute is equal to the length from the guide post to the outer wall of the sliding slot hole.

Preferably, the clamping mechanism comprises a clamping motor, a clamping screw, a lifting connecting rod, a lifting pore plate, a rotary guide pillar, a swing plate, a sliding pore groove and a clamping plate, the side wall of the clamping mechanism is fixedly connected with the clamping motor, the output end of the clamping motor is provided with the clamping screw, the outer wall of the clamping screw is in threaded connection with the lifting connecting rod in sliding connection with the outer wall of the base, the two ends of the lifting connecting rod are fixedly connected with the lifting pore plate, the inner wall of the lifting pore plate is movably connected with the rotary guide pillar, one end of the rotary guide pillar, far away from the lifting pore plate, is fixedly connected with the swing plate in rotary connection with the side wall of the base, the top end of the swing plate is movably connected with the sliding pore groove in sliding connection with the side wall of the base, and the top end of the sliding pore groove is fixedly connected with the clamping plate in sliding connection with the placing table.

Preferably, the two groups of lifting pore plates are arranged, the position distribution of the two groups of lifting pore plates is symmetrical relative to the base, the swinging plate forms a swinging structure with the base through the lifting pore plates and the rotating guide pillars, the clamping plate forms a sliding structure with the placing table through the swinging plate and the sliding pore grooves, and the sliding length of the swinging plate is equal to that of the swinging plate.

Preferably, the cooling mechanism comprises a swing motor, a rotating plate, a swing orifice plate, a swing chute, a nozzle, a horizontal limiting groove, a horizontal guide pillar, a vertical limiting groove and a vertical guide pillar, the side wall of the cooling mechanism is fixedly connected with the swing motor, and the output end of the swing motor is provided with a rotating plate, one end of the rotating plate far away from the swing motor is movably connected with a swing orifice plate, and the connecting part of the swing orifice plate and the rotating plate is provided with a swing chute, one end of the swing orifice plate is positioned on the side surface of the protective frame and is fixedly connected with a nozzle, one end of the swing orifice plate far away from the nozzle is provided with a horizontal limiting groove fixedly connected with the side wall of the cooling mechanism, and the connecting part of the horizontal limiting groove and the swing pore plate is provided with a horizontal guide pillar, the side wall of the swing pore plate is provided with a vertical limiting groove fixedly connected with the side wall of the cooling mechanism, and the connecting part of the vertical limiting groove and the swing pore plate is provided with a vertical guide pillar.

Preferably, the horizontal guide pillar forms a horizontal sliding structure through the rotating plate and between the swing chute and the horizontal limiting groove, the sliding path of the horizontal guide pillar is equal to the rotating center of the rotating plate in height, and the vertical guide pillar forms a vertical sliding structure through the swing pore plate and between the horizontal guide pillar and the vertical limiting groove.

Preferably, the cleaning mechanism comprises a telescopic push rod, a sliding hole plate, a limiting sliding chute, a lifting guide pillar, a sliding chute, a lifting guide rod and a cleaning rod, the telescopic push rod is fixedly connected with the top end of the sliding plate and is arranged above the cleaning mechanism, the sliding hole plate is fixedly connected with one end of the sliding plate and is far away from the telescopic push rod, the limiting sliding chute is arranged at the connecting part of the top end of the sliding hole plate and the cleaning mechanism, the lifting guide pillar is slidably connected with the side wall of the sliding hole plate, the sliding chute is arranged at the connecting part of the lifting guide pillar and the sliding hole plate, the protective plate is fixedly connected with the outer wall of the lifting guide pillar and the lifting guide rod is slidably connected with the protective frame, and the cleaning rod is attached to the outer wall of the one end of the lifting guide pillar and is far away from the lifting guide rod.

Preferably, the cleaning mechanisms are arranged in two groups, the position distribution of the two groups of cleaning mechanisms is symmetrical about the protective frame, the lifting guide rod forms a lifting structure with the protective frame through the lifting guide pillar and the sliding chute, and the lifting height of the lifting guide rod is equal to the vertical height of the sliding chute.

Compared with the prior art, the invention has the beneficial effects that:

1. this plasma flame cutting machine with cooling protector, through setting up the guard plate, in protective frame, the screw thread slider drives two sets of sliding plate level relative slip through two sets of connecting rods to make the sliding plate motion drive two sets of guide posts along two sets of orbit spout level relative slips through two sets of slip slotted holes, the guide post motion drives the rotary rod and rotates, so that the rotary rod rotates and drives the guard plate and slide along protective frame's lateral wall, realizes the protection operation to the jet.

2. This plasma flame cutting machine with protector cools down, through setting up the clamp plate, in clamping mechanism, the motion of lifting connecting rod drives two sets of lift orifice plate synchronous motion, two sets of lift orifice plate synchronous motion drive two sets of swing board relative oscillations through two sets of rotatory guide pillars, so that two sets of swing board swings and drives two sets of clamp plates through two sets of sliding hole grooves and follow and place a top end relative slip, the clamping operation of the work piece of treating processing is realized, and when not putting and treat the work piece, can pass through clamping mechanism, realize the clearance operation to placing a surface.

3. This plasma flame cutting machine with cooling protector, through setting up the clearance pole, in clearance mechanism, the sliding plate motion drives telescopic push rod and slides along spacing spout, and telescopic push rod motion drives the slip chute motion in the slip orifice plate to make the slip chute motion drive through the lift guide pillar and the vertical slip of lift guide arm along protective frame's lateral wall, the lift guide arm motion drives the clearance pole and slides along the outer wall of guard plate, realizes the clearance operation to the guard plate.

4. This plasma flame cutting machine with cooling protector through setting up horizontal guide pillar and horizontal spacing groove, in cooling mechanism, swing motor drives the rotor plate and rotates, and the rotor plate rotates and drives the horizontal guide pillar of swing orifice plate bottom through the swing spout and slide along horizontal spacing groove, realizes the control operation to the motion of horizontal guide pillar.

5. This plasma flame cutting machine with cooling protector, through setting up vertical guide pillar along vertical spacing groove, in cooling mechanism, horizontal guide pillar motion drives vertical guide pillar through the swing orifice plate and follows vertical slip of vertical spacing groove, and the motion through horizontal guide pillar and vertical guide pillar drives the nozzle along the vertical slip of protective frame's outer wall, realizes the cooling operation to the jet.

Drawings

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

FIG. 2 is a schematic view of a first view angle connection structure of the protection frame, the cooling mechanism and the cleaning mechanism of the present invention;

FIG. 3 is a schematic view of a second perspective connecting structure of the protection frame, the cooling mechanism and the cleaning mechanism according to the present invention;

FIG. 4 is a schematic view of a first perspective connection of the containment frame and the cleaning mechanism of the present invention;

FIG. 5 is a schematic view of a second perspective connecting structure of the protection frame and the cleaning mechanism of the present invention;

FIG. 6 is a schematic view of a connection structure of the cooling mechanism according to the present invention;

FIG. 7 is a schematic view of the connection structure of the clamping mechanism of the present invention;

FIG. 8 is a schematic view of a part of the connection structure of the clamping mechanism of the present invention.

In the figure: 1. a protective frame; 2. a protection motor; 3. a protective screw; 4. a threaded slider; 5. connecting the connecting rod; 6. sliding the orifice plate; 7. a sliding hole groove; 8. a guide post; 9. a trajectory chute; 10. rotating the rod; 11. a protection plate; 12. a base; 13. a clamping mechanism; 1301. clamping the motor; 1302. clamping the screw rod; 1303. a lifting connecting rod; 1304. lifting the pore plate; 1305. rotating the guide post; 1306. a swing plate; 1307. a sliding hole groove; 1308. a clamping plate; 14. a placing table; 15. a sliding support; 16. positioning the bracket; 17. an ejection port; 18. a cooling mechanism; 1801. a swing motor; 1802. a rotating plate; 1803. oscillating the orifice plate; 1804. a swing chute; 1805. a nozzle; 1806. a horizontal limiting groove; 1807. a horizontal guide post; 1808. a vertical limiting groove; 1809. a vertical guide post; 19. a cleaning mechanism; 1901. a telescopic push rod; 1902. sliding the orifice plate; 1903. a limiting chute; 1904. a lifting guide post; 1905. a sliding chute; 1906. a lifting guide rod; 1907. and cleaning the rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, in an embodiment of the present invention, a plasma flame cutting machine with a cooling protection device includes a protection frame 1, a threaded slider 4, a sliding plate 6, a sliding slot 7, a guide post 8 and a track chute 9, a protection motor 2 is fixedly connected to a top end of the protection frame 1, a protection screw 3 for driving the threaded slider 4 to horizontally slide is installed at an output end of the protection motor 2, two sets of connecting links 5 for driving two sets of sliding plates 6 to horizontally and relatively slide are respectively screwed to two sides of the top end of the threaded slider 4, so that the sliding plate 6 moves to drive the guide post 8 to horizontally slide along the track sliding chute 9 through the sliding slot hole 7, the bottom end of the guide post 8 is screwed with a rotating rod 10 screwed with the outer wall of the protection frame 1, and one end of the rotating rod 10 far away from the protection frame 1 is fixedly connected with a protection plate 11 slidably connected with the side wall of the protection frame 1.

Further, including base 12, the lateral wall fixedly connected with clamping mechanism 13 of base 12, and clamping mechanism 13's top is provided with the platform 14 of placing with base 12 lateral wall fixed connection, base 12's top sliding connection has sliding support 15, sliding support 15's lateral wall sliding connection has locating support 16, and locating support 16's lateral wall fixedly connected with and protective frame 1 outer wall fixed connection's jet 17, locating support 16's bottom fixedly connected with cooling mechanism 18, protective frame 1's lateral wall fixedly connected with clearance mechanism 19, through setting up clamping mechanism 13, be favorable to realizing the clamping operation to the work piece and the clearance operation of placing platform 14 surface, through setting up cooling mechanism 18, be favorable to realizing the cooling operation to jet 17, through setting up clearance mechanism 19, realize the clearance operation to protective plate 11.

Further, the sliding slot 7 is provided with two sets of, and the position relation of two sets of sliding slot 7 is symmetrical about sliding plate 6, orbit spout 9 is 90 circular-arcly, and the circular arc radius of orbit spout 9 equals with the length of guide post 8 to sliding slot 7 outer wall, through setting up two sets of sliding slot 7, be favorable to sliding plate 6 motion to drive two sets of guide posts 8 through two sets of sliding slot 7 and follow two sets of orbit spout 9 horizontal relative sliding, the guide post 8 motion drives rotary rod 10 and rotates, so that rotary rod 10 rotates and drives guard plate 11 and slide along the lateral wall of protective frame 1, the realization is to the control operation of guard plate 11 motion.

Further, the clamping mechanism 13 comprises a clamping motor 1301, a clamping screw 1302, a lifting link 1303, a lifting orifice plate 1304, a rotating guide pillar 1305, a swinging plate 1306, a sliding orifice slot 1307 and a clamping plate 1308, the side wall of the clamping mechanism 13 is fixedly connected with the clamping motor 1301, the output end of the clamping motor 1301 is provided with the clamping screw 1302, the outer wall of the clamping screw 1302 is in threaded connection with the lifting link 1303 slidably connected with the outer wall of the base 12, both ends of the lifting link 1303 are fixedly connected with the lifting orifice plate 1304, the inner wall of the lifting orifice plate 1304 is movably connected with the rotating guide pillar 1305, one end of the rotating guide pillar 1305, far away from the lifting orifice plate 1304, is fixedly connected with the swinging plate 1306 rotatably connected with the side wall of the base 12, the top end of the swinging plate 1306 is movably connected with the sliding orifice slot 1307 slidably connected with the side wall of the base 12, and the top end of the sliding orifice slot 1307 is fixedly connected with the clamping plate 1308 slidably connected with the placing table 14, through setting up clamping mechanism 13, be favorable to the motion of lift connecting rod 1303 to drive two sets of lift orifice plate 1304 synchronous motion, two sets of lift orifice plate 1304 synchronous motion drives two sets of swing boards 1306 relative oscillation through two sets of rotatory guide pillars 1305, so that two sets of swing boards 1306 oscillate and drive two sets of clamping plates 1308 along placing platform 14 top relative slip through two sets of sliding hole grooves 1307, realize treating the clamping operation of processing the work piece, and when not placing the work piece of treating processing, can pass through clamping mechanism 13, realize placing the clearance operation on platform 14 surface.

Furthermore, two sets of lifting orifice plates 1304 are arranged, the two sets of lifting orifice plates 1304 are symmetrically distributed relative to the base 12, the swinging plates 1306 form a swinging structure with the base 12 through the lifting orifice plates 1304 and the rotating guide posts 1305, the clamping plates 1308 form a sliding structure with the placing table 14 through the swinging plates 1306 and the sliding hole grooves 1307, the sliding length of the swinging plates 1306 is equal to that of the swinging plates 1306, the two sets of lifting orifice plates 1304 are arranged, the lifting connecting rods 1303 are favorably moved to drive the two sets of lifting orifice plates 1304 to synchronously move, the two sets of lifting orifice plates 1304 synchronously move to drive the two sets of swinging plates 1306 to relatively swing through the two sets of rotating guide posts 1305, so that the two sets of swinging plates 1306 swing to drive the two sets of clamping plates 1308 to relatively slide through the two sets of sliding hole grooves 1307, and the control operation of the relative sliding of the two sets of clamping plates 1308 is realized.

Further, the cooling mechanism 18 includes a swing motor 1801, a rotation plate 1802, a swing orifice plate 1803, a swing chute 1804, a nozzle 1805, a horizontal limit groove 1806, a horizontal guide pillar 1807, a vertical limit groove 1808 and a vertical guide pillar 1809, the side wall of the cooling mechanism 18 is fixedly connected with the swing motor 1801, the rotation plate 1802 is installed at the output end of the swing motor 1801, one end of the rotation plate 1802, which is far away from the swing motor 1801, is movably connected with the swing orifice plate 1803, the connection portion of the swing orifice plate 1803 and the rotation plate 1802 is provided with the swing chute 1804, one end of the swing orifice plate 1803, which is located at the side surface of the protection frame 1, is fixedly connected with the nozzle 1805, one end of the swing orifice plate 1803, which is far away from the nozzle 1805, is provided with the horizontal limit groove 1806 fixedly connected with the side wall of the cooling mechanism 18, the connection portion of the horizontal limit groove 1806 and the swing orifice plate 1803 is provided with the horizontal guide pillar 1807, the side wall of the swing orifice plate 1803 is provided with the vertical limit groove 1808 fixedly connected with the side wall of the cooling mechanism 18, and the position of being connected of vertical spacing groove 1808 and swing orifice plate 1803 is provided with vertical guide pillar 1809, through setting up cooling mechanism 18, rotor plate 1802 rotates and drives horizontal guide pillar 1807 that swings orifice plate 1803 bottom through swing spout 1804 and slides along horizontal spacing groove 1806, so that swing orifice plate 1803 moves and drives vertical guide pillar 1809 and vertically slides along vertical spacing groove 1808, the motion through horizontal guide pillar 1807 and vertical guide pillar 1809 drives nozzle 1805 and vertically slides along the outer wall of protective frame 1, realize the cooling operation to jet 17.

Further, horizontal guide pillar 1807 constitutes horizontal sliding structure through rotating plate 1802 and between swing spout 1804 and the horizontal spacing groove 1806, and horizontal guide pillar 1807's slip path is as high as the rotation center of rotating plate 1802, vertical guide pillar 1809 constitutes vertical sliding structure through swinging between orifice plate 1803 and horizontal guide pillar 1807 and the vertical spacing groove 1808, be favorable to rotating plate 1802 to rotate and drive horizontal guide pillar 1807 that swings orifice plate 1803 bottom through swing spout 1804 and slide along horizontal spacing groove 1806, so that swing orifice plate 1803 moves and drives vertical guide pillar 1809 and vertically slide along vertical spacing groove 1808, the realization is to the control operation of horizontal guide pillar 1807 and the motion of vertical guide pillar 1809.

Further, the cleaning mechanism 19 includes a telescopic push rod 1901, a sliding hole plate 1902, a limit sliding chute 1903, a lifting guide pillar 1904, a sliding chute 1905, a lifting guide rod 1906 and a cleaning rod 1907, the telescopic push rod 1901 fixedly connected with the top end of the sliding plate 6 is arranged above the cleaning mechanism 19, one end of the telescopic push rod 1901 far away from the sliding plate 6 is fixedly connected with the sliding hole plate 1902, the limit sliding chute 1903 is arranged at the connecting part of the top end of the sliding hole plate 1902 and the cleaning mechanism 19, the side wall of the sliding hole plate 1902 is slidably connected with the lifting guide pillar 1904, the connecting part of the lifting guide pillar 1904 and the sliding hole plate 1902 is provided with the sliding chute 1905, the outer wall of the lifting guide pillar 1904 is fixedly connected with the lifting guide rod 1906 slidably connected with the protective frame 1, one end of the lifting guide rod 1906 far away from the lifting guide pillar 1904 is fixedly connected with the cleaning rod 1907 attached to the outer wall of the protective plate 11, by arranging the cleaning mechanism 19, the sliding plate 6 is favorable for driving the telescopic push rod 1901 to slide along the limit sliding chute 1903, the telescopic push rod 1901 moves to drive the sliding chute 1905 in the sliding hole plate 1902 to move so that the sliding chute 1905 moves to drive and slide the lifting guide rod 1906 along the vertical sliding of the side wall of the protection frame 1 through the lifting guide pillar 1904, and the lifting guide rod 1906 moves to drive the cleaning rod 1907 to slide along the outer wall of the protection plate 11, thereby realizing the cleaning operation of the protection plate 11.

Further, clearance mechanism 19 is provided with two sets ofly, and two sets of clearance mechanism 19's position distribution is symmetrical about protective frame 1, lift guide 1906 passes through and constitutes elevation structure between lift guide pillar 1904 and slip chute 1905 and the protective frame 1, and lift guide 1906's lift height equals with the vertical height of slip chute 1905, through setting up two sets of clearance mechanism 19, be favorable to the synchronous clearance operation of guard plate 11 to protective frame 1 both sides, be favorable to flexible push rod 1901 to move the slip chute 1905 motion in driving slip orifice plate 1902, so that the motion of slip chute 1905 drives through lift guide pillar 1904 and follows the vertical slip of protective frame 1's lateral wall with lift guide 1906, the control operation to the motion of lift guide pillar 1906 is realized.

The working principle of the invention is as follows: this plasma flame cutting machine with protector cools down, when using, at first, treat the processing work piece and carry out the clamping operation, in clamping mechanism 13, clamping motor 1301 work drives lifting connecting rod 1303 along the outer wall of base 12 through clamping screw 1302, so that lifting connecting rod 1303 moves and drives two sets of lifting orifice plates 1304 synchronous motion, two sets of lifting orifice plates 1304 synchronous motion drive two sets of swing boards 1306 relative oscillation through two sets of rotatory guide pillars 1305, so that two sets of swing boards 1306 oscillate and drive two sets of clamping plates 1308 along placing platform 14 top relative slip through two sets of sliding hole grooves 1307, realize treating the clamping operation of processing work piece, and when not placing the processing work piece, can pass through clamping mechanism 13, realize the cleaning operation to placing platform 14 surface.

Then, carry out the protection operation to jet 17, in protection frame 1, protection motor 2 work drives screw slider 4 through protection screw 3 and slides along the top of protection frame 1, screw slider 4 drives two sets of sliding plates 6 horizontal relative slip through two sets of connecting rod 5, so that sliding plate 6 moves and drives two sets of guide posts 8 along two sets of orbit spouts 9 horizontal relative slip through two sets of sliding slotted holes 7, guide posts 8 move and drive rotary rod 10 and rotate, so that rotary rod 10 rotates and drives protection plate 11 to slide along the lateral wall of protection frame 1, realize the protection operation to jet 17.

Then, the jet orifice 17 is cooled, in the cooling mechanism 18, the swing motor 1801 drives the rotation plate 1802 to rotate, the rotation plate 1802 rotates to drive the horizontal guide pillar 1807 at the bottom end of the swing orifice plate 1803 to slide along the horizontal limit groove 1806 through the swing sliding groove 1804, so that the swing orifice plate 1803 moves to drive the vertical guide pillar 1809 to vertically slide along the vertical limit groove 1808, the movement through the horizontal guide pillar 1807 and the vertical guide pillar 1809 drives the nozzle 1805 to vertically slide along the outer wall of the protection frame 1, and the cooling operation of the jet orifice 17 is realized.

Finally, clear up the operation to guard plate 11, in clearance mechanism 19, the motion of sliding plate 6 drives flexible push rod 1901 and slides along spacing spout 1903, flexible push rod 1901 moves the motion of sliding chute 1905 that drives in the slip orifice plate 1902, so that the motion of sliding chute 1905 drives through lift guide pillar 1904 and follows the vertical slip of guard frame 1's lateral wall with lift guide arm 1906, lift guide arm 1906 moves the outer wall that drives clearance pole 1907 and follow guard plate 11 and slides, the realization is to the clearance operation of guard plate 11.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a plasma flame cutting machine with cooling protector, includes protecting frame (1), screw slider (4), sliding plate (6), slip slotted hole (7), guide post (8) and orbit spout (9), its characterized in that: the top fixedly connected with protection motor (2) of protective frame (1), the output of protection motor (2) is installed and is used for driving screw slider (4) horizontal slip's protection screw rod (3), the top both sides of screw slider (4) all connect soon and are used for driving two sets ofly sliding plate (6) horizontal relative slip's two sets of connecting rod (5), so that sliding plate (6) motion passes through slip slotted hole (7) drive guide post (8) are followed orbit spout (9) horizontal slip, the bottom of guide post (8) connects soon rotary rod (10) that connect soon with protective frame (1) outer wall, protective frame (1)'s one end fixedly connected with and protective frame (1) lateral wall sliding connection's guard plate (11) are kept away from in rotary rod (10).

2. The plasma torch cutting machine with the cooling protection device according to claim 1, wherein: including base (12), the lateral wall fixedly connected with clamping mechanism (13) of base (12), and the top of clamping mechanism (13) be provided with base (12) lateral wall fixed connection place platform (14), the top sliding connection of base (12) has sliding bracket (15), the lateral wall sliding connection of sliding bracket (15) has locating support (16), and the lateral wall fixedly connected with of locating support (16) and protective frame (1) outer wall fixed connection's jet (17), the bottom fixedly connected with cooling mechanism (18) of locating support (16), the lateral wall fixedly connected with clearance mechanism (19) of protective frame (1).

3. The plasma torch cutting machine with the cooling protection device according to claim 1, wherein: the sliding groove holes (7) are arranged in two groups, the position relation of the two groups of sliding groove holes (7) is symmetrical relative to the sliding plate (6), the track sliding groove (9) is in a 90-degree arc shape, and the arc radius of the track sliding groove (9) is equal to the length from the guide column (8) to the outer wall of the sliding groove hole (7).

4. The plasma torch cutting machine with the cooling protection device according to claim 2, wherein: the clamping mechanism (13) comprises a clamping motor (1301), a clamping screw (1302), a lifting connecting rod (1303), a lifting pore plate (1304), a rotary guide post (1305), a swinging plate (1306), a sliding pore groove (1307) and a clamping plate (1308), the side wall of the clamping mechanism (13) is fixedly connected with the clamping motor (1301), the clamping screw (1302) is installed at the output end of the clamping motor (1301), the outer wall of the clamping screw (1302) is in threaded connection with the lifting connecting rod (1303) in sliding connection with the outer wall of the base (12), the two ends of the lifting connecting rod (1303) are both fixedly connected with the lifting pore plate (1304), the inner wall of the lifting pore plate (1304) is movably connected with the rotary guide post (1305), one end of the rotary guide post (1305), which is far away from the lifting pore plate (1304), is fixedly connected with the swinging plate (1306) in screwing connection with the side wall of the base (12), the top end of the swinging plate (1306) is movably connected with the sliding pore groove (1307) in sliding connection with the side wall of the base (12), and the top end of the sliding hole groove (1307) is fixedly connected with a clamping plate (1308) which is connected with the placing platform (14) in a sliding way.

5. The plasma torch cutting machine with the cooling protection device according to claim 4, wherein: the two groups of lifting orifice plates (1304) are arranged, the position distribution of the two groups of lifting orifice plates (1304) is symmetrical relative to the base (12), the swinging plate (1306) forms a swinging structure with the base (12) through the lifting orifice plates (1304) and the rotating guide columns (1305), the clamping plate (1308) forms a sliding structure with the placing platform (14) through the swinging plate (1306) and the sliding orifice grooves (1307), and the sliding length of the swinging plate (1306) is equal to that of the swinging plate (1306).

6. The plasma torch cutting machine with the cooling protection device according to claim 2, wherein: the cooling mechanism (18) comprises a swing motor (1801), a rotating plate (1802), a swing orifice plate (1803), a swing chute (1804), a nozzle (1805), a horizontal limit groove (1806), a horizontal guide pillar (1807), a vertical limit groove (1808) and a vertical guide pillar (1809), wherein the side wall of the cooling mechanism (18) is fixedly connected with the swing motor (1801), the rotating plate (1802) is installed at the output end of the swing motor (1801), one end, far away from the swing motor (1801), of the rotating plate (1802) is movably connected with the swing orifice plate (1803), the connecting part of the swing orifice plate (1803) and the rotating plate (1802) is provided with a swing chute (1804), one end of the swing orifice plate (1803) is located on the side face of the protective frame (1) and is fixedly connected with the nozzle (1805), one end, far away from the nozzle (1805), of the swing orifice plate (1803) is provided with the horizontal limit groove (1806) fixedly connected with the side wall of the cooling mechanism (18), and the connecting part of the horizontal limiting groove (1806) and the swinging pore plate (1803) is provided with a horizontal guide pillar (1807), the side wall of the swinging pore plate (1803) is provided with a vertical limiting groove (1808) fixedly connected with the side wall of the cooling mechanism (18), and the connecting part of the vertical limiting groove (1808) and the swinging pore plate (1803) is provided with a vertical guide pillar (1809).

7. The plasma torch cutting machine with the cooling protection device according to claim 6, wherein: the horizontal guide post (1807) forms a horizontal sliding structure through the rotating plate (1802) and the swinging sliding groove (1804) and the horizontal limiting groove (1806), the sliding path of the horizontal guide post (1807) is equal to the rotating center of the rotating plate (1802), and the vertical guide post (1809) forms a vertical sliding structure through the swinging pore plate (1803) and the space between the horizontal guide post (1807) and the vertical limiting groove (1808).

8. The plasma torch cutting machine with the cooling protection device according to claim 2, wherein: the cleaning mechanism (19) comprises a telescopic push rod (1901), a sliding pore plate (1902), a limiting sliding groove (1903), a lifting guide pillar (1904), a sliding chute (1905), a lifting guide rod (1906) and a cleaning rod (1907), the telescopic push rod (1901) fixedly connected with the top end of the sliding plate (6) is arranged above the cleaning mechanism (19), one end of the telescopic push rod (1901) far away from the sliding plate (6) is fixedly connected with the sliding pore plate (1902), the limiting sliding groove (1903) is arranged at the connecting part of the top end of the sliding pore plate (1902) and the cleaning mechanism (19), the lifting guide pillar (1904) is slidably connected with the side wall of the sliding pore plate (1902), the sliding chute (1905) is arranged at the connecting part of the lifting guide pillar (1904) and the sliding pore plate (1902), the lifting guide rod (1906) slidably connected with the protective frame (1) is fixedly connected with the outer wall of the lifting guide pillar (1904), one end of the lifting guide rod (1906) far away from the lifting guide column (1904) is fixedly connected with a cleaning rod (1907) which is attached to the outer wall of the protection plate (11).

9. The plasma torch cutting machine with the cooling protection device according to claim 8, wherein: the cleaning mechanisms (19) are arranged in two groups, the position distribution of the two groups of cleaning mechanisms (19) is symmetrical about the protective frame (1), the lifting guide rod (1906) forms a lifting structure with the protective frame (1) through the lifting guide pillar (1904) and the sliding chute (1905), and the lifting height of the lifting guide rod (1906) is equal to the vertical height of the sliding chute (1905).

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