CN220679650U - Plasma cutting machine for improving cutting precision of arc half pipe - Google Patents

Abstract

The utility model discloses a plasma cutting machine for improving cutting precision of an arc half pipe, which relates to the technical field of plasma cutting machines and comprises a cutting table and a positioning component, wherein a chip collecting grid plate is arranged on the surface of the cutting table, the positioning component comprises a fixed frame, a servo motor, a threaded screw rod, a moving part, a supporting block, a supporting seat, a sliding rail, a moving cavity and a numerical controller, the fixed frame is arranged on two sides of the surface of the cutting table, the servo motor is arranged on the front side of the fixed frame, the output end of the servo motor is connected with the threaded screw rod, and the surface of the threaded screw rod is provided with the moving part. The plasma cutting machine for improving the cutting precision of the arc half pipe is characterized in that the positioning assembly and the fixing assembly are arranged, so that the cutting precision of the device to the arc half pipe is greatly improved, the quality of a finished product is guaranteed, the device can conveniently and rapidly collect and clean waste scraps through the scrap collecting assembly, and the waste scraps are prevented from influencing the normal operation of the device.

Description

Plasma cutting machine for improving cutting precision of arc half pipe

Technical Field

The utility model relates to the technical field of plasma cutting machines, in particular to a plasma cutting machine for improving cutting precision of a circular arc half pipe.

Background

When the arc half-side tube is processed, a plasma cutting machine is needed to cut the arc half-side tube, the plasma cutting machine is a machine for processing metal by means of a plasma cutting technology, the plasma cutting is a processing method which utilizes the heat of a high-temperature plasma arc to partially or partially melt (and evaporate) the metal at a workpiece notch, and the molten metal is removed by means of the momentum of the high-speed plasma to form the notch, and the plasma cutting machine is widely applied to locomotives and various industries. However, the present plasma cutting machine still has the following disadvantages:

a hand-held plasma cutter for easy maintenance is disclosed in the patent document 202222634120. X. This handheld plasma cutting machine convenient to maintenance, it links to each other with the couple through rings on the plasma cutting head, then slowly moves the second slider, can cut out the straight line on the work piece, has proposed application range, and the part is simple, and it is all very convenient with the maintenance, but it is when cutting the work piece, does not effectively fix the work piece, and cutting accuracy is not enough, causes the finished product quality problem easily.

Accordingly, in view of the above, a plasma cutting machine for improving the cutting accuracy of a circular arc half pipe has been proposed to solve the problems of the conventional structure.

Disclosure of Invention

The utility model aims to provide a plasma cutting machine for improving the cutting precision of an arc half pipe, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a promote plasma cutting machine of circular arc half pipe cutting precision, includes cutting table and locating component, the cutting table surface is provided with album bits board, locating component sets up in the cutting table surface, and locating component includes fixed frame, servo motor, screw thread lead screw, moving part, supporting shoe, supporting seat, slide rail, removal chamber and numerical controller, the fixed frame sets up in cutting table surface both sides, and the fixed frame front side installs servo motor, the servo motor output is connected with screw thread lead screw, and screw thread lead screw surface is provided with the moving part, surface mounting has the supporting shoe on the moving part, and the supporting shoe inboard is provided with the supporting seat, surface mounting has the slide rail before the supporting seat, and slide rail surface sliding connection has the removal chamber, the numerical controller is installed to the removal chamber front side.

Further, the locating component still includes rotation motor, threaded rod and cutterbar, and the supporting shoe top is provided with rotation motor, rotation motor output is connected with the threaded rod, and threaded rod and removal intracavity side threaded connection, the cutterbar is installed to the numerical controller bottom.

Further, the cutting table is integrally of a steel structure, and a scrap collecting assembly for collecting scraps is arranged inside the cutting table.

Further, collect bits subassembly includes braced frame, collection bits filter screen and lower braced frame, and the face is connected with collection bits filter screen, and collection bits filter screen bottom is installed down the braced frame and is gone up the braced frame and set up in the inside upside of cutting table, go up braced frame lower surface.

Further, collect bits subassembly still includes fan, spout and slider, and the inboard bottom of cutting table installs the fan, the spout has all been seted up to the inside both sides surface upper end of cutting table and the inside lower surface of cutting table, and the inside sliding connection of spout has the slider, the slider is connected with last braced frame both sides surface and lower braced frame lower surface.

Further, the chip collecting grating plate is of an integrally formed steel structure, and a fixing assembly used for fixing the arc half pipe is arranged on the upper surface of the chip collecting grating plate.

Further, fixed subassembly includes L type fixed plate, fixing bolt and electric putter, and L type fixed plate sets up in album bits grid board upper surface, L type fixed plate surface threaded connection has fixing bolt, and L type fixed plate upper end is provided with electric putter.

Further, the fixed subassembly still includes solid fixed ring and spacing claw, and electric putter inner rotates to be connected with solid fixed ring, gu fixed ring surface is provided with spacing claw.

The utility model provides a plasma cutting machine for improving the cutting precision of an arc half pipe, which has the following beneficial effects:

1. the utility model sets up locating component and fixed component, locating component includes fixed frame, servo motor, screw thread lead screw, moving part, supporting shoe, supporting seat, slide rail, moving cavity and numerical controller, locating component still includes rotating motor, threaded rod and cutterbar, fixed component includes L type fixed plate, fixing bolt and electric putter, fixed component still includes fixed ring and spacing claw, when using, through setting up cutting position on numerical controller, the numerical controller connects servo motor and rotating motor, numerical controller control rotating motor and servo motor start, servo motor drives screw thread lead screw to rotate, further drive moving part to suitable position, rotating motor drives the threaded rod to rotate, further drive moving cavity along the slide rail removes, in order to guarantee that the cutterbar is in the cutting position that sets for, improve cutting accuracy, fix L type fixed plate at the suitable position of album bits grid upper surface through fixing bolt, rotate fixed ring, make spacing claw be in suitable angle, start electric putter, make fixed ring and spacing claw move to the inboard, until fix the arc half-edge pipe, prevent the skew when cutting, further improve cutting accuracy, thereby make the device to cut the big arc, the quality of cutting accuracy is improved for the big arc.

2. According to the utility model, the chip collecting assembly comprises the upper supporting frame, the chip collecting filter screen and the lower supporting frame, the chip collecting assembly further comprises the fan, the sliding groove and the sliding block, when the chip collecting assembly is used, the fan is started, the suction force of the fan enables the scraps generated during cutting to pass through the chip collecting grid plate and fall into the chip collecting filter screen, the chip collecting filter screen intercepts and collects the scraps, so that the scraps cannot enter the fan to cause blockage, when the scraps in the chip collecting filter screen are too much, the chip collecting filter screen can be pulled out through the upper supporting frame and the lower supporting frame, and the upper supporting frame and the lower supporting frame slide along the inner side of the sliding groove respectively in the pulling-out process, so that the chip collecting filter screen is conveniently and rapidly cleaned, and the device can conveniently and rapidly collect and clean the scraps, and the normal operation of the device is prevented from being influenced by the scraps.

Drawings

FIG. 1 is a schematic view of the overall perspective structure of a plasma cutting machine for improving the cutting precision of a circular arc half pipe;

FIG. 2 is a schematic diagram showing the overall front view structure of a plasma cutting machine for improving the cutting precision of a circular arc half pipe;

FIG. 3 is a schematic view of a fixing assembly of a plasma cutting machine for improving cutting accuracy of arc half tubes according to the present utility model;

fig. 4 is a schematic diagram of an operation flow of a positioning assembly of a plasma cutting machine for improving cutting accuracy of arc half tubes according to the present utility model.

In the figure: 1. a cutting table; 2. a chip collecting grid plate; 3. a positioning assembly; 301. a fixed frame; 302. a servo motor; 303. a threaded screw rod; 304. a moving member; 305. a support block; 306. a support base; 307. a slide rail; 308. a moving chamber; 309. a numerical controller; 310. a rotating motor; 311. a threaded rod; 312. a cutter; 4. a chip collecting assembly; 401. an upper support frame; 402. a scraps collecting filter screen; 403. a lower support frame; 404. a blower; 405. a chute; 406. a slide block; 5. a fixing assembly; 501. an L-shaped fixing plate; 502. a fixing bolt; 503. an electric push rod; 504. a fixing ring; 505. and a limit claw.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 4, a plasma cutting machine for improving cutting precision of a circular arc half pipe comprises a cutting table 1 and a positioning component 3, wherein a chip collecting grid plate 2 is arranged on the surface of the cutting table 1, the positioning component 3 comprises a fixed frame 301, a servo motor 302, a threaded screw rod 303, a moving part 304, a supporting block 305, a supporting seat 306, a sliding rail 307, a moving cavity 308 and a numerical controller 309, the fixed frame 301 is arranged on two sides of the surface of the cutting table 1, the servo motor 302 is arranged on the front side of the fixed frame 301, the output end of the servo motor 302 is connected with the threaded screw rod 303, the surface of the threaded screw rod 303 is provided with the moving part 304, the supporting block 305 is arranged on the upper surface of the moving part 304, the inner side of the supporting block 305 is provided with the supporting seat 306, the front surface of the supporting seat 306 is provided with the sliding rail 307, the surface of the sliding rail 307 is slidingly connected with the moving cavity 308, and the front side of the moving cavity 308 is provided with the numerical controller 309.

The specific operation is as follows, when in use, through setting a cutting position on the numerical controller 309, the numerical controller 309 is connected with the servo motor 302 and the rotating motor 310, the numerical controller 309 controls the rotating motor 310 and the servo motor 302 to start, the servo motor 302 drives the threaded screw 303 to rotate, further drives the moving member 304 to move to a proper position, the rotating motor 310 drives the threaded rod 311 to rotate, and further drives the moving cavity 308 to move along the sliding rail 307, so as to ensure that the cutter 312 is in a set cutting position.

Referring to fig. 1 to 2, the positioning assembly 3 further includes a rotating motor 310, a threaded rod 311 and a cutter 312, the top of the supporting block 305 is provided with the rotating motor 310, the output end of the rotating motor 310 is connected with the threaded rod 311, the threaded rod 311 is in threaded connection with the inner side of the moving cavity 308, the cutter 312 is installed at the bottom of the numerical controller 309, the chip collecting grating 2 is of an integrally formed steel structure, the upper surface of the chip collecting grating 2 is provided with a fixing assembly 5 for fixing the circular arc half pipe, the fixing assembly 5 includes an L-shaped fixing plate 501, a fixing bolt 502 and an electric push rod 503, the L-shaped fixing plate 501 is arranged on the upper surface of the chip collecting grating 2, the surface of the L-shaped fixing plate 501 is in threaded connection with the fixing bolt 502, the upper end of the L-shaped fixing plate 501 is provided with the electric push rod 503, the fixing assembly 5 further includes a fixing ring 504 and a limiting claw 505, and the inner end of the electric push rod 503 is in rotary connection with the fixing ring 504, and the outer surface of the fixing ring 504 is provided with the limiting claw 505;

the method specifically comprises the following steps that when the chip collecting plate is used, the L-shaped fixing plate 501 is fixed at a proper position on the upper surface of the chip collecting plate 2 through the fixing bolt 502, the fixing ring 504 is rotated to enable the limiting claw 505 to be located at a proper angle, the electric push rod 503 is started, the electric push rod 503 drives the fixing ring 504 and the limiting claw 505 to move inwards until the arc half side pipe is fixed, deviation is prevented during cutting, and cutting accuracy is further improved.

Referring to fig. 2, the cutting table 1 is integrally of a steel structure, a chip collecting assembly 4 for collecting scraps is arranged inside the cutting table 1, the chip collecting assembly 4 comprises an upper supporting frame 401, a chip collecting filter screen 402 and a lower supporting frame 403, the chip collecting filter screen 402 is connected to the surface of the chip collecting assembly 4, the lower supporting frame 403 is arranged at the bottom of the chip collecting filter screen 402, the upper supporting frame 401 is arranged at the upper side inside the cutting table 1, the chip collecting assembly 4 further comprises a fan 404, a chute 405 and a slide block 406, the fan 404 is arranged at the bottom inside the cutting table 1, the chute 405 is arranged at the upper ends of the two side surfaces inside the cutting table 1 and the lower surface inside the cutting table 1, the slide block 406 is connected to the two side surfaces of the upper supporting frame 401 and the lower surface of the lower supporting frame 403 in a sliding manner;

the specific operation is as follows, when in use, the fan 404 is started, the suction of the fan 404 enables the scraps generated during cutting to fall into the scraps collecting filter screen 402 through the scraps collecting grid plate 2, the scraps collecting filter screen 402 intercepts and collects the scraps, so that the scraps cannot enter the fan 404 to cause blockage, when the scraps in the scraps collecting filter screen 402 are too much, the scraps collecting filter screen 402 is pulled out through the upper supporting frame 401 and the lower supporting frame 403, and the upper supporting frame 401 and the lower supporting frame 403 slide along the inner side of the sliding groove 405 respectively through the sliding blocks 406 in the pulling-out process, so that the scraps collecting filter screen 402 is cleaned conveniently.

In summary, as shown in fig. 1 to 4, when the plasma cutting machine for improving the cutting precision of the circular arc half-tube is used, firstly, by setting a cutting position on the numerical controller 309, the numerical controller 309 is connected with the servo motor 302 and the rotating motor 310, the numerical controller 309 controls the rotating motor 310 and the servo motor 302 to start, the servo motor 302 drives the threaded screw 303 to rotate, further drives the moving member 304 to move to a proper position, the rotating motor 310 drives the threaded rod 311 to rotate, further drives the moving cavity 308 to move along the sliding rail 307 so as to ensure that the cutter 312 is at the set cutting position, then, the fixing plate 501 is fixed at the proper position on the upper surface of the chip collecting grid plate 2 through the fixing bolt 502, the fixing ring 504 is rotated, the limiting claw 505 is positioned at a proper angle, the electric push rod 503 is started, the electric push rod 503 drives the fixing ring 504 and the limiting claw 505 to move inwards until the circular arc half-tube is fixed, the chip collecting grid plate is prevented from shifting during cutting, further improving the cutting precision, the suction force of the fan 404 makes the chip produced during cutting pass through the chip collecting grid plate 2 to fall into the chip collecting grid plate 402, the filter screen 402 falls into the chip collecting frame, and the chip collecting frame is prevented from being blocked by the filter screen 402, and the filter screen 402 is prevented from sliding down along the filter screen 402, and the filter screen 402 is prevented from being pulled down by the filter screen 402 to the filter screen frame to be supported by the filter screen frame to be convenient, and the filter screen 402 is pulled down to be blocked by the filter screen 402, and the filter screen 402 is supported by the filter screen frame to be held by the filter screen 402.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a promote plasma cutting machine of circular arc half pipe cutting precision, includes cutting table (1) and locating component (3), its characterized in that: cutting table (1) surface is provided with album bits board (2), locating component (3) set up in cutting table (1) surface, and locating component (3) are including fixed frame (301), servo motor (302), screw thread lead screw (303), moving part (304), supporting shoe (305), supporting seat (306), slide rail (307), remove chamber (308) and numerical controller (309), fixed frame (301) set up in cutting table (1) surface both sides, and servo motor (302) are installed to fixed frame (301) front side, servo motor (302) output is connected with screw thread lead screw (303), and screw thread lead screw (303) surface is provided with moving part (304), surface mounting has supporting shoe (305) on moving part (304), and supporting shoe (305) inboard is provided with supporting seat (306), surface mounting has slide rail (307) before supporting seat (306), and slide rail (307) surface sliding connection has remove chamber (308), numerical controller (309) are installed to remove chamber (308) front side.

2. The plasma cutting machine for improving the cutting precision of the arc half pipe according to claim 1, wherein the positioning assembly (3) further comprises a rotating motor (310), a threaded rod (311) and a cutter (312), the rotating motor (310) is arranged at the top of the supporting block (305), the threaded rod (311) is connected to the output end of the rotating motor (310), the threaded rod (311) is in threaded connection with the inner side of the movable cavity (308), and the cutter (312) is arranged at the bottom of the numerical controller (309).

3. The plasma cutting machine for improving the cutting precision of the arc half pipe according to claim 1, wherein the cutting table (1) is integrally of a steel structure, and a scrap collecting assembly (4) for collecting scraps is arranged inside the cutting table (1).

4. A plasma cutting machine for improving cutting accuracy of arc half pipes according to claim 3, characterized in that the chip collecting assembly (4) comprises an upper supporting frame (401), a chip collecting filter screen (402) and a lower supporting frame (403), the chip collecting filter screen (402) is connected to the surface, the lower supporting frame (403) is mounted at the bottom of the chip collecting filter screen (402), the upper supporting frame (401) is arranged on the upper side inside the cutting table (1), and the upper supporting frame (401) is arranged on the lower surface.

5. The plasma cutting machine for improving cutting precision of circular arc half pipes according to claim 4, wherein the chip collecting assembly (4) further comprises a fan (404), a sliding groove (405) and a sliding block (406), the fan (404) is installed at the bottom of the inner side of the cutting table (1), the sliding groove (405) is formed in the upper end of the upper surfaces of the two sides of the inner side of the cutting table (1) and the lower surface of the inner side of the cutting table (1), the sliding block (406) is connected in a sliding manner in the sliding groove (405), and the sliding block (406) is connected with the two side surfaces of the upper supporting frame (401) and the lower surface of the lower supporting frame (403).

6. The plasma cutting machine for improving the cutting precision of the arc half pipe according to claim 1, wherein the chip collecting grating plate (2) is of an integrally formed steel structure, and a fixing component (5) for fixing the arc half pipe is arranged on the upper surface of the chip collecting grating plate (2).

7. The plasma cutting machine for improving cutting precision of circular arc half pipes according to claim 6, wherein the fixing assembly (5) comprises an L-shaped fixing plate (501), a fixing bolt (502) and an electric push rod (503), the L-shaped fixing plate (501) is arranged on the upper surface of the chip collecting grid plate (2), the fixing bolt (502) is connected to the surface of the L-shaped fixing plate (501) in a threaded manner, and the electric push rod (503) is arranged at the upper end of the L-shaped fixing plate (501).

8. The plasma cutting machine for improving the cutting precision of the circular arc half pipe according to claim 7, wherein the fixing assembly (5) further comprises a fixing ring (504) and a limiting claw (505), the fixing ring (504) is rotatably connected to the inner end of the electric push rod (503), and the limiting claw (505) is arranged on the outer surface of the fixing ring (504).