CN221773675U - A clamping type flame CNC cutting machine - Google Patents

Abstract

The utility model relates to the technical field of cutting machine equipment, and provides a clamping type flame numerical control cutting machine which comprises a frame, wherein a cutting gun is arranged on the frame, and the clamping type flame numerical control cutting machine further comprises: the displacement unit is arranged on the frame, and the cutting gun is arranged on the displacement unit; a material supporting frame which is arranged on the frame; the clamping unit is arranged on the rack in a sliding manner and comprises a clamping frame which is used for clamping a workpiece; through the technical scheme, the problem that the workpiece is deformed greatly during hot cutting in the related technology is solved.

Description

Clamping type flame numerical control cutting machine

Technical Field

The utility model relates to the technical field of cutting machine equipment, in particular to a clamping type flame numerical control cutting machine.

Background

The numerical control flame cutting machine drives a machine tool to move by using a digital program, a flame cutting system is mounted, and a switch of the flame cutting system is controlled by using the numerical control system to cut metal materials such as steel plates. The electromechanical integrated cutting equipment is a numerical control flame cutting machine. The numerical control flame cutting machine has the characteristics of high-thickness carbon steel cutting capability, low cutting cost, high deformation of a workpiece after cutting, low overall cutting precision, low cutting speed, long cutting preheating time, long perforation time and the like; therefore, the application occasions are mainly limited to cutting carbon steel and large-thickness plates; in order to improve the application range of the cutting machine in the prior art, the prior art needs to be improved and upgraded.

Disclosure of utility model

The utility model provides a clamping type flame numerical control cutting machine, which solves the problem that workpieces deform greatly during hot cutting in the related art.

The technical scheme of the utility model is as follows:

the utility model provides a clamping formula flame numerical control cutting machine, includes the frame, be provided with the cutting rifle in the frame, still include:

the displacement unit is arranged on the frame, and the cutting gun is arranged on the displacement unit;

The material supporting frame is arranged on the rack;

The clamping unit is arranged on the frame in a sliding mode and comprises a clamping frame used for clamping a workpiece.

As a further technical solution, the clamping unit further includes:

The first guide rail is arranged on the rack;

The first sliding block is arranged on the first guide rail in a sliding manner;

the first cross beam is arranged on the first sliding block;

the second sliding block is arranged on the first cross beam in a sliding mode, and the clamping frame is arranged on the second sliding block.

As a further technical scheme, the number of the clamping frames is two, and the clamping frames are diagonally distributed on the rack; the clamping frame is provided with a first guide rod and a second guide rod, and the first guide rod and the second guide rod are mutually perpendicular.

As a further technical scheme, the method further comprises:

The first linear driver is arranged on the rack, and the material supporting frame is arranged at the output end of the first linear driver;

The support column, the support column sets up on the support work or material rest, the upper end of support column is used for supporting the work piece.

As a further technical solution, the displacement unit includes:

The second guide rail is arranged on the rack;

the third sliding block is arranged on the second guide rail in a sliding manner;

The second cross beam is arranged on the third sliding block;

The fourth sliding block is arranged on the second cross beam in a sliding manner, and the cutting gun is arranged on the fourth sliding block;

And the second linear driver is arranged on the second cross beam, and the power provided by the second linear driver is used for driving the fourth sliding block to slide.

As a further technical solution, the displacement unit further includes:

the first rotary driver is arranged on the fourth sliding block;

the driving wheel is arranged on the first rotating driver;

the sliding frame is arranged on the fourth sliding block in a sliding manner, and the cutting gun is arranged on the sliding frame;

The transmission bar is arranged on the sliding frame, and teeth on the transmission bar are meshed with teeth on the driving wheel.

As a further technical solution, the displacement unit further includes:

The sliding rod is arranged on the second cross beam, and a first lock hole is formed in the sliding rod;

The sliding sleeve is arranged on the third sliding block, a second lock hole is formed in the sliding sleeve, and the sliding rod is in sliding connection with the sliding sleeve;

the locking piece is arranged to pass through the first lock hole and the second lock hole.

As a further technical scheme, the number of the first lock holes is a plurality of, the number of the second lock holes is a plurality of, and the displacement unit further comprises:

And the third linear driver is arranged on the sliding sleeve, and the output end of the third linear driver is in sliding connection with the sliding rod.

The working principle and the beneficial effects of the utility model are as follows:

The utility model provides a clamping type flame numerical control cutting machine, which specifically comprises a frame, a cutting gun, a displacement unit, a material supporting frame and a clamping unit; when the work machine works, a workpiece is placed on the material supporting frame, and the workpiece is suspended in the midair through the lifting of the material supporting frame; then, fixing the workpiece through a clamping frame on the clamping unit, preventing the workpiece from moving in a staggered manner during processing, and reducing the deformation risk of the workpiece; the cutting effect is improved; meanwhile, the position of the cutting gun can be continuously adjusted through the displacement unit, so that continuous cutting is realized, cutting of various pattern styles is realized, and the application range of the device is enlarged.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of the overall (with workpiece) structure of the present utility model;

FIG. 2 is a schematic view of the overall (without the workpiece) structure of the present utility model;

FIG. 3 is a schematic view of the second angle (without the workpiece) structure of the whole present utility model;

FIG. 4 is a schematic view of the structure of the second beam of the present utility model;

In the figure: 1. the cutting machine comprises a frame, 2, a cutting gun, 3, a displacement unit, 4, a material supporting frame, 5, a clamping unit, 6, a clamping frame, 7, a first guide rail, 8, a first sliding block, 9, a first cross beam, 10, a second sliding block, 11, a first guide rod, 12, a second guide rod, 13, a first linear driver, 14, a supporting column, 15, a second guide rail, 16, a third sliding block, 17, a second cross beam, 18, a fourth sliding block, 19, a second linear driver, 20, a first rotary driver, 21, a driving wheel, 22, a sliding frame, 23, a driving bar, 24, a sliding rod, 25, a first lock hole, 26, a sliding sleeve, 27, a second lock hole, 28, a locking piece, 29 and a third linear driver.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, this embodiment provides a clamping type flame numerical control cutting machine.

The utility model provides a clamping type flame numerical control cutting machine, includes frame 1, is provided with cutting gun 2 on the frame 1, still includes:

The displacement unit 3, the displacement unit 3 is arranged on the frame 1, and the cutting gun 2 is arranged on the displacement unit 3;

The material supporting frame 4 is arranged on the frame 1;

The clamping unit 5, the clamping unit 5 slides and sets up on frame 1, and clamping unit 5 includes clamping frame 6, and clamping frame 6 is used for the centre gripping work piece.

In this embodiment, as shown in fig. 1 to 4, a clamping type flame numerical control cutting machine is provided, which specifically includes a frame 1, a cutting gun 2, a displacement unit 3, a material supporting frame 4 and a clamping unit 5; during working, a workpiece is placed on the material supporting frame 4, and the workpiece is suspended in the midair through the lifting of the material supporting frame 4; then, the workpiece is fixed through a clamping frame 6 on the clamping unit 5, so that the workpiece is prevented from moving in a staggered manner during processing, and the deformation risk of the workpiece is reduced; the cutting effect is improved; meanwhile, the position of the cutting gun 2 can be continuously adjusted through the displacement unit 3, so that continuous cutting is realized, cutting of various pattern styles is realized, and the application range of the device is enlarged.

Further, the gripping unit 5 further includes:

A first guide rail 7, the first guide rail 7 being provided on the frame 1;

the first sliding block 8 is arranged on the first guide rail 7 in a sliding way;

a first cross beam 9, the first cross beam 9 being arranged on the first slider 8;

The second slider 10, the second slider 10 slides and sets up on first crossbeam 9, and clamping frame 6 sets up on the second slider 10.

In this embodiment, as shown in fig. 1 to 3, the clamping unit 5 is thinned, and the specific clamping unit 5 includes a first guide rail 7, a first slider 8, a first cross beam 9, and a second slider 10; when the workpiece is required to be clamped during operation, the first sliding block 8 is pushed to slide on the first guide rail 7 by external power, and meanwhile, the second sliding block 10 is pushed to slide on the first cross beam 9 by external power; the first cross beam 9 and the first guide rail 7 are vertically distributed; the clamping frame 6 gradually approaches to the workpiece through the sliding of the first sliding block 8 and the second sliding block 10; the whole clamping frame 6 is of a right-angle structure; meanwhile, a chamfer is arranged on the clamping frame 6 near the edge of the workpiece, so that the material supporting frame 4 is conveniently clamped below and around the workpiece; and (5) fixing the workpiece.

Further, the number of the clamping frames 6 is two, and the clamping frames 6 are distributed on the frame 1 in a pair of angles; the clamping frame 6 is provided with a first guide rod 11 and a second guide rod 12, and the first guide rod 11 and the second guide rod 12 are mutually perpendicular.

In this embodiment, as shown in fig. 1 to 3, the number of the clamping frames 6 is two, namely a frame a and a frame B, which are distributed on the frame 1 in a right angle manner, the clamping frames 6 are integrally in a right angle structure, two right angle sides of the clamping frames 6 are respectively a right angle side a and a right angle side B, the first guide rod 11 is arranged on the right angle side a, and the second guide rod 12 is arranged on the right angle side B; simultaneously, the first guide rods 11 of the frame A and the second guide rods 12 of the frame B are distributed in a staggered manner; the second guide rods 12 of the frame A are staggered with the first guide rods 11 of the frame B; the frame A and the frame B are quickly clamped to two opposite angles of a workpiece by pushing the movement of the frame A and the frame B through an external power source, and the periphery of the workpiece is clamped and restrained through the first guide rod 11 and the second guide rod 12; especially in the process of processing square workpieces, the first guide rod 11 and the second guide rod 12 on the clamping frame 6 can be in extrusion contact with the outer edges of the workpieces, and the placing state of the workpieces can be adjusted by means of the first guide rod 11 and the second guide rod 12 which are perpendicular to each other, so that the inclined placing of the workpieces is avoided, and cutting errors are caused.

Further, the method further comprises the following steps:

The first linear driver 13, the first linear driver 13 is arranged on the frame 1, and a material supporting frame 4 is arranged at the output end of the first linear driver 13;

The support column 14, the support column 14 sets up on holding in the palm work or material rest 4, and the upper end of support column 14 is used for supporting the work piece.

In this embodiment, as shown in fig. 1 to 3, a first linear driver 13 and a supporting column 14 are added, wherein the first linear driver 13 is preferably a hydraulic telescopic cylinder, the first linear driver 13 works by power provided by an external hydraulic station, and the first linear driver 13 is electrically connected with an external controller; by controllably regulating the start and stop of the first linear drive 13; the height of the material supporting frame 4 can be adjusted through the first linear driver 13, so that the workpiece can be rapidly ejected; simultaneously, through setting up support column 14 on holding in the palm work or material rest 4, realize the lifting of work piece, avoid cutting gun 2 to cause the damage to holding in the palm work or material rest 4 when cutting.

Further, the displacement unit 3 includes:

a second guide rail 15, the second guide rail 15 being arranged on the frame 1;

The third sliding block 16, the third sliding block 16 is slidably arranged on the second guide rail 15;

A second cross beam 17, the second cross beam 17 being arranged on the third slider 16;

A fourth slider 18, the fourth slider 18 being slidably disposed on the second cross member 17, the cutting gun 2 being disposed on the fourth slider 18;

And the second linear driver 19, the second linear driver 19 is arranged on the second cross beam 17, and the power provided by the second linear driver 19 is used for driving the fourth sliding block 18 to slide.

In this embodiment, as shown in fig. 1 to 4, the displacement unit 3 is thinned, and the specific displacement unit 3 includes a second guide rail 15, a third slider 16, a second cross beam 17, a fourth slider 18, and a second linear driver 19; the second linear driver 19 is preferably an electric motor, the output end of the second linear driver 19 is provided with a lead screw, and the lead screw is in threaded connection with the fourth sliding block 18; the second linear driver 19 is electrically connected with an external controller, and the start and stop of the second linear driver 19 are regulated and controlled through the external controller; when in work; according to the requirements of cutting patterns, the third sliding block 16 is pushed by an external power source to slide on the second guide rail 15; the fourth sliding block 18 is pushed by an external power source to slide on the second cross beam 17, so that the multi-angle movement of the horizontal plane of the cutting gun 2 is realized, and the cutting with various pattern requirements is realized.

Further, the displacement unit 3 further includes:

a first rotary actuator 20, the first rotary actuator 20 being provided on the fourth slider 18;

A driving wheel 21, the driving wheel 21 being provided on the first rotary driver 20;

a carriage 22, the carriage 22 being slidably disposed on the fourth slider 18, the cutting gun 2 being disposed on the carriage 22;

The transmission bar 23, the transmission bar 23 sets up on the balladeur train 22, and the tooth on the transmission bar 23 meshes with the tooth on the drive wheel 21 and connects.

In the embodiment, as shown in fig. 1 to 4, the displacement unit 3 is thinned, and a first rotation driver 20, a driving wheel 21, a sliding frame 22 and a driving bar 23 are added; the first rotary drive 20 is preferably an electrically driven motor; the first rotary driver 20 is electrically connected with an external controller, and the start and stop of the first rotary driver 20 are regulated and controlled through the external controller; in the working process, when the distance between the cutting gun 2 and a workpiece needs to be adjusted, the first rotary driver 20 is started through the external controller, the first rotary driver 20 drives the driving wheel 21 to rotate after being started, the driving wheel 21 drives the driving strip 23 in meshed connection to slide up and down when rotating, the driving strip 23 drives the sliding frame 22 to synchronously move when sliding up and down, and the sliding frame 22 drives the cutting gun 2 to synchronously move; the adjustment of the distance between the cutting gun 2 and the workpiece is completed by the up-and-down sliding of the transmission bar 23.

Further, the displacement unit 3 further includes:

the sliding rod 24 is arranged on the second cross beam 17, and a first lock hole 25 is formed in the sliding rod 24;

The sliding sleeve 26 is arranged on the third sliding block 16, a second lock hole 27 is formed in the sliding sleeve 26, and the sliding rod 24 is in sliding connection with the sliding sleeve 26;

The locking member 28, the locking member 28 is disposed through the first lock hole 25 and the second lock hole 27.

In this embodiment, as shown in fig. 1 to 3, the displacement unit 3 is thinned, and the slide rod 24, the slide sleeve 26 and the locking piece 28 are added; when the size and thickness of the workpiece are increased more, the up-and-down sliding of the transmission bar 23 can not meet the space requirement; and then can slide bar 24 upwards along sliding sleeve 26, when first lockhole 25 and second lockhole 27 coincide, penetrate second lockhole 27 and first lockhole 25 with locking piece 28 in, accomplish the quick adjustment of cutting rifle 2 height.

Further, the number of the first lock holes 25 is a plurality, the number of the second lock holes 27 is a plurality, and the displacement unit 3 further includes:

The third linear driver 29, the third linear driver 29 is set up on slide sleeve 26, the output end of the third linear driver 29 is connected with slide bar 24 slidably.

In this embodiment, as shown in fig. 1 to 3, the number of the first lock holes 25 is increased to a plurality of first lock holes 27, and the number of the second lock holes 27 is increased to a plurality of second lock holes; a plurality of combinations can be formed between the first lock hole 25 and the second lock hole 27, so that the device is suitable for workpieces with various thickness specifications; meanwhile, a third linear driver 29 is added on the sliding sleeve 26, the third linear driver 29 is preferably an electric drive motor, the output end of the third linear driver 29 is provided with a lead screw, and the lead screw is in threaded connection with the sliding rod 24; the third linear driver 29 is electrically connected with an external controller, and the start and stop of the third linear driver 29 are regulated and controlled through the external controller; when the position of the slide bar 24 needs to be adjusted, a third linear driver 29 is started through an external controller, the third linear driver 29 drives a screw rod to rotate, and the screw rod drives the threaded slide bar 24 to slide upwards, so that a boosting force is provided for the sliding of the slide bar 24; stopping the operation of the third linear driver 29 when the first lock hole 25 coincides with the second lock hole 27; then the locking piece 28 penetrates into the first lock hole 25 and the second lock hole 27 to complete connection between the slide bar 24 and the slide sleeve 26, the screw rod on the third linear driver 29 is stressed for a long time, the phenomenon of running frustration occurs, and the service lives of the third linear driver 29 and the screw rod are prolonged.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. A clamping type flame CNC cutting machine, comprising a frame (1), on which a cutting gun (2) is arranged, characterized in that it also comprises: A displacement unit (3), the displacement unit (3) being arranged on the frame (1), and the cutting gun (2) being arranged on the displacement unit (3); A material support frame (4), the material support frame (4) being arranged on the frame (1); A clamping unit (5), the clamping unit (5) being slidably arranged on the frame (1), the clamping unit (5) comprising a clamping frame (6), the clamping frame (6) being used to clamp a workpiece; The clamping unit (5) further comprises: A first guide rail (7), wherein the first guide rail (7) is arranged on the frame (1); A first sliding block (8), the first sliding block (8) being slidably disposed on the first guide rail (7); a first crossbeam (9), the first crossbeam (9) being arranged on the first sliding block (8); a second sliding block (10), the second sliding block (10) being slidably disposed on the first crossbeam (9), and the clamping frame (6) being disposed on the second sliding block (10); The number of the clamping frames (6) is two, and the clamping frames (6) are distributed diagonally on the frame (1); a first guide rod (11) and a second guide rod (12) are provided on the clamping frames (6), and the first guide rod (11) and the second guide rod (12) are arranged perpendicular to each other. 2. The clamping type flame CNC cutting machine according to claim 1, characterized in that it also includes: A first linear drive (13), wherein the first linear drive (13) is arranged on the frame (1), and the support frame (4) is arranged on the output end of the first linear drive (13); A support column (14), wherein the support column (14) is arranged on the support frame (4), and the upper end of the support column (14) is used to support a workpiece. 3. The clamping type flame CNC cutting machine according to claim 1, characterized in that the displacement unit (3) comprises: A second guide rail (15), the second guide rail (15) being arranged on the frame (1); a third sliding block (16), the third sliding block (16) being slidably disposed on the second guide rail (15); a second cross beam (17), the second cross beam (17) being arranged on the third sliding block (16); a fourth sliding block (18), the fourth sliding block (18) being slidably disposed on the second cross beam (17), and the cutting gun (2) being disposed on the fourth sliding block (18); A second linear drive (19), wherein the second linear drive (19) is arranged on the second crossbeam (17), and power provided by the second linear drive (19) is used to drive the fourth sliding block (18) to slide. 4. The clamping type flame CNC cutting machine according to claim 3, characterized in that the displacement unit (3) further comprises: a first rotary drive (20), the first rotary drive (20) being arranged on the fourth slide block (18); a transmission wheel (21), the transmission wheel (21) being arranged on the first rotary driver (20); a slide (22), the slide (22) being slidably disposed on the fourth sliding block (18), and the cutting gun (2) being disposed on the slide (22); A transmission bar (23), wherein the transmission bar (23) is arranged on the slide (22), and the teeth on the transmission bar (23) are meshedly connected with the teeth on the transmission wheel (21). 5. The clamping type flame CNC cutting machine according to claim 3, characterized in that the displacement unit (3) further comprises: A sliding rod (24), the sliding rod (24) being arranged on the second cross beam (17), and the sliding rod (24) being provided with a first locking hole (25); a sliding sleeve (26), the sliding sleeve (26) being arranged on the third sliding block (16), the sliding sleeve (26) being provided with a second locking hole (27), the sliding rod (24) being slidably connected to the sliding sleeve (26); A locking member (28), wherein the locking member (28) is arranged to pass through the first locking hole (25) and the second locking hole (27). 6. A clamping type flame CNC cutting machine according to claim 5, characterized in that the number of the first locking holes (25) is a plurality, the number of the second locking holes (27) is a plurality, and the displacement unit (3) further comprises: A third linear driver (29), wherein the third linear driver (29) is arranged on the sliding sleeve (26), and an output end of the third linear driver (29) is slidably connected to the sliding rod (24).