CN210755883U - Laser pipe cutting equipment - Google Patents

Abstract

The utility model provides a laser pipe cutting equipment, which comprises a frame, control mechanism, fixed fixture, activity fixture, laser cutting mechanism, feed mechanism, unloading mechanism and liftout mechanism, the top of frame is located to fixed fixture, activity fixture and unloading mechanism are located the relative both sides of fixed fixture respectively, activity fixture sliding connection is on the top of frame, laser cutting mechanism is close to in fixed fixture, feed mechanism is located the lateral part of frame, the top of frame is located to liftout mechanism equidistance interval, fixed fixture, activity fixture, laser cutting mechanism, feed mechanism, unloading mechanism and liftout mechanism all are connected with the control mechanism electricity. The utility model discloses can solve current laser pipe cutting equipment among the prior art and need the manual work go on unloading in-process, the inefficiency of material loading and unloading has consumeed the problem of a large amount of manpower and materials.

Description

Laser pipe cutting equipment

Technical Field

The utility model relates to a laser pipe cutting equipment technical field especially relates to a laser pipe cutting equipment.

Background

In the prior art, due to the maturity of the laser cutting technology, in a plurality of fields of manufacturing industry, because laser cutting economy saves time, obtains extensive application gradually, consequently brought very big facility for the cutting of tubular product, but current laser pipe cutting equipment need the manual work go on unloading in last unloading process, and the material loading efficiency is low, has consumed a large amount of manpower and materials.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims to provide a laser pipe cutting equipment to solve among the prior art current laser pipe cutting equipment and need the manual work go on going up unloading in-process and go up the unloading, the inefficiency of material loading and unloading has consumeed the problem of a large amount of manpower and materials.

The technical scheme of the utility model is that: the utility model provides a laser pipe cutting equipment, its includes frame, control mechanism, fixed fixture, activity fixture, laser cutting mechanism, feed mechanism, unloading mechanism and liftout mechanism, fixed fixture locates the top of frame, activity fixture with unloading mechanism is located respectively fixed fixture both sides relatively, activity fixture sliding connection in the top of frame, laser cutting mechanism be close to in fixed fixture, feed mechanism is located the lateral part of frame, liftout mechanism equidistance interval is located the top of frame, fixed fixture the activity fixture laser cutting mechanism feed mechanism the unloading mechanism with liftout mechanism all with the control mechanism electricity is connected.

Optionally, the feeding mechanism comprises a feeding frame body;

the first feeding assemblies and the rack are respectively arranged on two opposite sides of the feeding frame body through a first connecting device, and the first feeding assemblies are used for storing pipes to be processed;

the second feeding assemblies are arranged on the feeding frame body and provided with feeding ends and discharging ends, the feeding ends of the second feeding assemblies are close to the first feeding assemblies, and the first feeding assemblies convey pipes to be processed to the second feeding assemblies;

the lifting assemblies are arranged at the discharge ends of the second feeding assemblies and used for lifting the pipes at the discharge ends of the second feeding assemblies;

the height limiting assemblies are arranged at the top end of the feeding frame body and close to the first feeding assembly, and are used for preventing the pipes from being conveyed from the first feeding assembly to the second feeding assembly from stacking;

the pipe fitting lifting device comprises a plurality of clamping assemblies, wherein the clamping assemblies are arranged at the top end of a feeding frame body and have the freedom degrees of vertical movement and longitudinal movement relative to the feeding frame body, and the clamping assemblies are used for conveying the pipe fitting positioned on the lifting assemblies to a machining position of the rack.

Optionally, the first feeding assembly comprises a feeding frame and a first conveying device corresponding to the feeding frame, the feeding frame is connected with a first driving device for driving the first conveying device to operate, the first conveying device comprises a roller and a supporting belt, one end of the supporting belt is wound on the roller, the other end of the supporting belt is arranged on the feeding frame, the supporting belt is connected with the first driving device, and the roller is connected with the first rotating shaft.

Optionally, the second feeding assembly includes a second conveying device and a supporting block corresponding to the second conveying device, the second conveying device includes a first driving wheel, a second driving wheel and a synchronous belt for connecting the first driving wheel and the second driving wheel, the supporting block is disposed on the surface of the synchronous belt, the first driving wheel is connected through the first driving device, and the second driving wheel is connected through the fifth rotating shaft.

Optionally, the lifting assembly includes a lifting plate and a first connecting block, the lifting plate is slidably connected to the first connecting block, the first connecting block is fixed to the material placing frame, the material loading frame is connected to a second driving device for driving the lifting plate to vertically lift and a third driving device for driving the lifting plate to longitudinally move, the second driving device includes a first motor, a second rotating shaft and a plurality of first gears engaged with the side surface of the lifting plate, the first motor is rotatably connected to the second rotating shaft, and the first gears are connected to the second rotating shaft through the second rotating shaft;

the third drive arrangement include second motor, third axis of rotation and a plurality of with the second gear that the bottom meshing of board is connected lifts, the second motor with the third axis of rotation is rotated and is connected, the second gear passes through the third axis of rotation is connected.

Optionally, the height limiting assembly comprises a height limiting plate and a second connecting block fixed to the top end of the upper material frame, the height limiting plate is connected to the second connecting block in a sliding mode, the upper material frame is connected with a fourth driving device for driving the height limiting plate to vertically lift, the fourth driving device comprises a third motor, a fourth rotating shaft and a third gear connected with the side face of the height limiting plate in a meshed mode, the third motor is connected with the fourth rotating shaft in a rotating mode, and the third gear is connected with the fourth rotating shaft in a rotating mode.

Optionally, the clamping assembly comprises a material clamping arm, a first connecting plate, an upper clamping plate and a lower clamping plate, the material clamping arm is connected with a fifth driving device for driving the material clamping arm to move longitudinally, the material clamping arm is arranged at the top end of the material loading frame body, the first connecting plate is fixed on the material clamping arm, the lower clamping plate is arranged at the bottom end of the material loading frame body, and the top end of the first connecting plate is connected with a driving device for driving the upper clamping plate to slide vertically along the first connecting plate.

Optionally, the feeding frame is connected with a plurality of first limiting plates for preventing the pipe from being separated from the synchronous belt, and the first limiting plates are close to the first driving wheels;

the lifting plate is connected with a second limiting plate for preventing the pipe from being separated from the lifting plate.

Optionally, the blanking mechanism includes a blanking frame, a finished product collection box, a waste product collection box and a plurality of support devices, the finished product collection box is located on one side of the long side of the blanking frame, and the waste product collection box is located on one side of the short side of the blanking frame;

the top end of the blanking frame is obliquely arranged, and the blanking frame is connected with a driving assembly for driving the supporting device to vertically lift.

Optionally, the supporting device includes a second connecting plate, a first cylinder and a second supporting block, the second connecting plate is connected to the driving assembly, the first cylinder is fixed to the second connecting plate, and a piston rod of the first cylinder is connected to the second supporting block.

Implement the embodiment of the utility model provides a, following beneficial effect has:

the utility model discloses a laser pipe cutting equipment, the staff transports tubular product to the processing position department of frame through feed mechanism, fixed fixture presss from both sides tightly tubular product with movable fixture, liftout mechanism provides the support for the tubular product that is in the course of working, laser cutting mechanism cuts tubular product, unloading mechanism collects the finished product after the cutting is accomplished, thereby accomplish automatic feeding and the automatic unloading of tubular product, and then improved the material loading efficiency and the unloading efficiency of tubular product, saved the human cost, thereby have certain popularization nature;

by arranging the finished product collecting box, the waste product collecting box and the plurality of supporting devices, the supporting devices can support the pipe, after the pipe is cut, waste materials fall into the waste product collecting box, the supporting devices move downwards under the driving of the driving assembly, the supporting devices drive finished products to downwards move towards the top end of the blanking frame, and the finished products slide into the finished product collecting box from the top end of the blanking frame due to the inclined arrangement of the top end of the blanking frame, so that the finished products and the waste products are effectively classified in the whole pipe cutting process;

therefore, the utility model discloses an effective separation of finished product and waste material can be realized to unloading mechanism to can reduce staff's intensity of labour, improve the screening efficiency of finished product and waste material and reduce the personnel selection cost.

Drawings

Fig. 1 is a schematic structural diagram of the laser pipe cutting equipment of the present invention.

Fig. 2 is a schematic structural diagram of the feeding mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the first feeding assembly of the present invention.

Fig. 4 is a schematic structural diagram of the second feeding assembly of the present invention.

Fig. 5 is a first schematic structural diagram of the lifting assembly of the present invention.

Fig. 6 is a schematic structural diagram of a second lifting assembly according to the present invention.

Fig. 7 is a schematic structural diagram of the height limiting assembly of the present invention.

Fig. 8 is a schematic structural view of the clamping assembly of the present invention.

Fig. 9 is a first schematic structural diagram of the feeding mechanism of the present invention.

Fig. 10 is a schematic structural diagram of the feeding mechanism of the present invention.

Fig. 11 is a schematic view of a connection structure between the supporting device and the driving assembly of the present invention.

Description of reference numerals:

1. a frame; 2. a control mechanism; 3. fixing the clamping mechanism; 4. a movable clamping mechanism; 5. a laser cutting mechanism; 6. a feeding mechanism; 61. a feeding frame body; 62. a first feeding assembly; 621. a material placing frame; 622. a first conveying device; 6221. a drum; 6222. a support band; 63. a second feeding assembly; 631 a first support block; 632. a second conveying device; 6321. a first drive pulley; 6322. a second transmission wheel; 6323. a synchronous belt; 633. a fifth rotating shaft; 64. a lifting assembly; 641. a lifting plate; 642. a first connection block; 65. a height limiting component; 651. a height limiting plate; 652. a second connecting block; 66. a clamping assembly; 661. a material clamping arm; 662. a first connecting plate; 663. an upper clamping plate; 664. summer is nearly half; 67. a first driving device; 68. a second driving device; 681. a first motor; 682. a second rotating shaft; 683. a first gear; 69. a third driving device; 691. a second motor; 692. a third rotating shaft; 693. a second gear; 610. a fourth drive device; 6101. a third motor; 6102. a fourth rotating shaft; 6103. a third gear; 611. a fifth driving device; 612. a sixth driving device; 7. a feeding mechanism; 71. a blanking frame; 72. a finished product collecting box; 73. a waste collection box; 74. a support device; 741. a second connecting plate; 742. a first cylinder; 743. a second support block; 75. a drive assembly; 751. a fourth motor; 752. a fourth gear; 753. a sixth rotating shaft; 38. a material ejecting mechanism; 9. a first limit plate; 10. and a second limiting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1-11, the embodiment of the utility model provides a laser pipe cutting equipment, it includes frame 1, control mechanism 2, fixed fixture 3, activity fixture 4, laser cutting mechanism 5, feed mechanism 6, unloading mechanism 7 and liftout mechanism 8, frame 1's top is located to fixed fixture 3, activity fixture 4 and unloading mechanism 7 are located the relative both sides of fixed fixture 3 respectively, 4 sliding connection in frame 1's top of activity fixture, laser cutting mechanism 5 is close to in fixed fixture 3, feed mechanism 6 is located frame 1's lateral part, frame 1's top is located to liftout mechanism 8 equidistance interval, fixed fixture 3, activity fixture 4, laser cutting mechanism 5, feed mechanism 6, unloading mechanism 7 and liftout mechanism 8 all are connected with 2 electricity of control mechanism.

Based on the above setting, the utility model discloses a laser pipe cutting equipment, the staff transports tubular product to frame 1's processing position department through feed mechanism 6, fixed fixture 3 presss from both sides tightly tubular product with activity fixture 4, liftout mechanism 8 provides the support for the tubular product that is in the course of working, laser cutting mechanism 5 cuts tubular product, finished product after the cutting is accomplished is collected to unloading mechanism 7, thereby accomplish the automatic feeding and the automatic unloading of tubular product, and then improved the material loading efficiency and the unloading efficiency of tubular product, the human cost has been saved, thereby certain popularization nature has.

In this embodiment, as shown in fig. 1, the ejector mechanism 8 is used for supporting the pipe.

In this embodiment, as shown in fig. 1 to 8, in order to improve the feeding efficiency of the feeding mechanism 6 of the present invention, the feeding mechanism 6 includes a feeding frame 61;

the first feeding assemblies 62 and the rack 1 are respectively arranged on two opposite sides of the feeding rack body 61, and the first feeding assemblies 62 are used for storing pipes to be processed;

the second feeding assemblies 63 are arranged on the feeding frame body 61, each second feeding assembly 63 is provided with a feeding end and a discharging end, the feeding ends of the second feeding assemblies 63 are close to the first feeding assembly 62, and the first feeding assembly 62 conveys the pipes to be processed to the second feeding assemblies 63;

the lifting assemblies 64 are arranged at the discharge ends of the second feeding assemblies 63, and the lifting assemblies 64 are used for lifting the pipes at the discharge ends of the second feeding assemblies 63;

the height limiting assemblies 65 are arranged at the top ends of the feeding frame bodies 61, the height limiting assemblies 65 are close to the first feeding assembly 62, and the height limiting assemblies 65 are used for preventing the pipes from being transported from the first feeding assembly 62 to the second feeding assembly 63 to be stacked;

a plurality of clamping assemblies 66, the clamping assemblies 66 are arranged at the top end of the upper rack body 61, the clamping assemblies 66 have the freedom of vertical movement and horizontal movement relative to the upper rack body 61, and the clamping assemblies 66 are used for conveying the pipes positioned on the lifting assemblies 64 to the processing position of the frame 1. Specifically, a batch of pipes are placed on the first feeding assembly 62, the first feeding assembly 62 conveys the pipes to the second feeding assembly 63, the lifting assembly 64 conveys the pipes located at the discharge end of the second feeding assembly 63 to the clamping assembly 66, the clamping assembly 66 conveys the pipes in a clamping state to the fixed clamping mechanism 3 and the movable clamping mechanism 4, finally, the laser cutting mechanism 5 cuts the pipes clamped between the fixed clamping mechanism 3 and the movable clamping mechanism 4, and finished products and waste materials after cutting are collected by the discharging mechanism 7, so that the pipes are processed.

In this embodiment, as shown in fig. 3, in order to facilitate the first feeding assembly 62 to transfer the tube to the second feeding assembly 63, the first feeding assembly 62 includes a feeding frame 621 and a first transfer device 622 corresponding to the feeding frame 621, the feeding frame 61 is connected to a first driving device 67 for driving the first transfer device 622 to operate, the first transfer device 622 includes a roller 6221 and a supporting belt 6222, one end of the supporting belt 6222 is wound around the roller 6221, the other end of the supporting belt 6222 is disposed on the feeding frame 621, the supporting belts 22 are connected by the first driving device 67, and the rollers 6221 are connected by a first rotating shaft. Specifically, by arranging the material placing frame 621, the material placing frame 621 provides a space for placing the pipe; by arranging the roller 6221 and the supporting belt 6222, when the pipe placed on the discharging rack 621 needs to be conveyed to the second feeding assembly 63, the roller 6221 rotates clockwise, and the supporting belt 6222 is tightened under the driving action of the roller 6221, so that the pipe placed on the discharging rack 621 can be conveyed to the second feeding assembly 63; when the roller 6221 rotates counterclockwise, the supporting belt 6222 drives the tube to be placed on the rack 621;

the first drive mechanism 67 includes a motor and a rotatable shaft, and the plurality of rollers 6221 are coupled by the rotatable shaft, and the motor powers rotation of the rotatable shaft so that all of the rollers 6221 can rotate synchronously.

In this embodiment, as shown in fig. 4, for the second feeding assembly 63 to transport the tube, the second feeding assembly 63 includes a second conveyer 632 and a first supporting block 631 corresponding to the second conveyer 632, the second conveyer 632 includes a first driving wheel 6321, a second driving wheel 6322 and a synchronous belt 6323 for connecting the first driving wheel 6321 and the second driving wheel 6322, the first supporting block 631 is disposed on a surface of the synchronous belt 6323, the first driving wheel 6321 is connected by a first driving device 67, and the second driving wheel 6322 is connected by a fifth rotating shaft 633. Specifically, when the first driving device 67 drives the first driving wheel 6321 to rotate, the first driving wheel 6321 can drive the second rotating wheel to rotate, so as to drive the synchronous belt 6323 to slide, and the synchronous belt 6323 drives the tube to move in a direction close to the rack 1;

the first driving device 67 can simultaneously drive the supporting belt 6222 and the timing belt 6323 to synchronously rotate in the same direction, thereby facilitating the synchronous operation of the first feeding assembly 62 and the second feeding assembly 63.

In this embodiment, as shown in fig. 5, in order to facilitate the lifting assembly 64 to transfer the tube located at the discharging end of the second feeding assembly 63 to the clamping assembly 66, the lifting assembly 64 includes a lifting plate 641 and a first connecting block 642, the lifting plate 641 is slidably connected to the first connecting block 642, the first connecting block 642 is fixed to the upper rack body 61, the upper rack body 61 is connected to a second driving device 68 for driving the lifting plate 641 to vertically lift and a third driving device 69 for driving the lifting plate 641 to longitudinally move, the second driving device 68 includes a first motor 681, a second rotating shaft 682 and a plurality of first gears 683 engaged with the side surface of the lifting plate 641, the first motor 681 is rotatably connected to the second rotating shaft 682, and the plurality of first gears 683 are connected to the second rotating shaft 682;

the third driving device 69 includes a second motor 691, a third rotating shaft 692, and a plurality of second gears 693 engaged with the bottom end of the lifting plate 641, wherein the second motor 691 is rotatably connected to the third rotating shaft 692, and the plurality of second gears 693 are connected to the third rotating shaft 692. Specifically, racks are disposed on the side surface and the bottom end of the lifting plate 641, the first motor 681 drives the second rotating shaft to rotate, and the first gear 683 is engaged with the side surface of the lifting plate 641, so as to lift the lifting plate 641; the second motor 691 rotates with the third rotating shaft, and the second gear 693 is engaged with the bottom end of the lifting plate 641, so that the longitudinal movement of the lifting plate 641 is realized;

when it is desired to lift a tube, the lifting plate 641 is moved to below the tube at the discharge end of the second feeding assembly 63, and then the tube is lifted upward, and the third driving device 69 adjusts the distance between the lifting plate 641 and the clamping assembly 66 in the longitudinal direction.

In this embodiment, as shown in fig. 6 and 7, in order to prevent the tubes from being stacked when being transferred from the first feeding assembly 62 to the second feeding assembly 63, the height limiting assembly 65 includes a height limiting plate 651 and a second connecting block 652 fixed at the top end of the upper material frame 61, the height limiting plate 651 is slidably connected to the second connecting block 652, the upper material frame 61 is connected to a fourth driving device 610 for driving the height limiting plate 651 to vertically move up and down, the fourth driving device 610 includes a third motor 6101, a fourth rotating shaft 6102 and a third gear 6103 engaged with the side surface of the height limiting plate 651, the third motor 6101 is rotatably connected to the fourth rotating shaft 6102, and a plurality of third gears 6103 are connected to the fourth rotating shaft 6102. Specifically, the third motor 6101 can rotate forward and backward to drive the fourth rotating shaft 6102, and the fourth rotating shaft 6102 can rotate clockwise or counterclockwise to drive the third gear 6103, so as to achieve the elevation of the height limiting plate 651 in the vertical direction, and further enable the worker to adjust the height of the height limiting plate 651 according to the pipes with different cross-sectional shapes.

In this embodiment, as shown in fig. 8, in order to facilitate the clamping of the clamping assembly 66 on the tube, the clamping assembly 66 includes a material clamping arm 661, a first connecting plate 662, an upper clamping plate 663 and a lower clamping plate 664, the upper material frame 61 is connected to a fifth driving device 611 for driving the material clamping arm 661 to move longitudinally, the material clamping arm 661 is disposed at the top end of the upper material frame 61, the first connecting plate 662 is fixed to the material clamping arm 661, the lower clamping plate 664 is disposed at the bottom end of the upper material frame 61, and the top end of the first connecting plate 662 is connected to a sixth driving device 612 for driving the upper clamping plate 663 to slide vertically along the first connecting plate 662. Specifically, by arranging the fifth driving device 611, the fifth driving device 611 includes a motor, a driving transmission wheel, a driven transmission wheel and a belt connected to the driving transmission wheel and the driven transmission wheel, an output shaft of the motor is connected to the driving transmission wheel, the driving transmission wheel is connected to the driven transmission wheel, the driven transmission wheel is connected to the first connecting plate 662, and the movement of the belt in different directions can realize that the first connecting plate 662 is close to or far away from the rack 1;

the sixth driving device 612 is a second cylinder, when the lifting assembly 64 places the tube on the lower clamping plate 664, the sixth driving device 612 drives the upper clamping plate 663 to descend, so that the upper clamping plate 663 and the lower clamping plate 664 can clamp the tube, and after the tube is clamped, the fifth driving device 611 drives the first connecting plate 662 to be close to the machine frame 1, so that the tube can be close to a processing station of the machine frame 1, and the tube can be conveniently processed.

The feeding frame 61 is connected with a plurality of first limiting plates 9 for preventing the pipes from being separated from the synchronous belts 6323, and the first limiting plates 9 are close to the first driving wheels 6321;

the board 641 of lifting is connected with the second limiting plate 10 that is used for preventing tubular product from breaking away from the board 641 of lifting, and first limiting plate 9 can make placing in second material loading subassembly 63 that tubular product can be stable, and second limiting plate 10 can make tubular product can place in the board 641 of lifting steadily, and then makes the material loading and the lifting of tubular product can go on steadily.

In this embodiment, as shown in fig. 9 to 11, in order to facilitate blanking of the pipes, the blanking mechanism 7 includes a blanking frame 71, a finished product collection box 72, a waste collection box 73, and a plurality of support devices 74, where the finished product collection box 72 is located on one side of a long side of the blanking frame 71, and the waste collection box 73 is located on one side of a short side of the blanking frame 71;

the top end of the blanking frame 71 is obliquely arranged, and the blanking frame 71 is connected with a driving component 75 for driving the supporting device 74 to vertically lift. Specifically, by arranging the finished product collecting box 72, the waste collecting box 73 and the plurality of supporting devices 74, the supporting devices 74 support the pipe fittings, after pipe fitting cutting is completed, waste materials fall into the waste collecting box 73, the supporting devices 74 move downwards under the driving of the driving assembly 75, the supporting devices 74 drive the finished products to downwards move towards the top end of the blanking frame 71, and as the top end of the blanking frame 71 is obliquely arranged, the finished products slide into the finished product collecting box 72 from the top end of the blanking frame 71, and the effective classification of the finished products and the waste products is realized in the whole pipe fitting cutting process;

therefore, the utility model discloses an effective separation of finished product and waste material can be realized to unloading mechanism 7 to can reduce staff's intensity of labour, improve the screening efficiency of finished product and waste material and reduce the personnel selection cost.

In this embodiment, as shown in fig. 9 to 11, the supporting device 74 includes a second connecting plate 741, a first cylinder 742 and a second supporting block 743, the second connecting plate 741 is connected to the driving component 75, the first cylinder 742 is fixed to the second connecting plate 741, a piston rod of the first cylinder 742 is connected to the second supporting block 743, and by providing the first cylinder 742, the first cylinder 742 can further expand the range of movement of the second supporting block 743 in the vertical direction; by arranging the second supporting block 743, the top end of the second supporting block 743 is provided with a groove for placing a pipe, so that the pipe is stably placed; the driving assembly 75 comprises a fourth motor 751, a plurality of fourth gears 752 and a sixth rotating shaft 753, a rack is arranged on the side surface of the second connecting block 652, the fourth motor 751 is in transmission connection with the sixth rotating shaft 753, the fourth motor 751 is in meshing connection with the rack of the second connecting block 652, and when the sixth rotating shaft 753 rotates, the meshing connection between the gears of the fourth gears 752 and the rack of the second connecting block 652 can realize the lifting of the second connecting block 652, so that the lifting of the second supporting block 743 is realized;

preferably, the rotation shaft is connected with a plurality of third connecting plates corresponding to the second connecting plates 741, and the third connecting plates are slidably connected with the second connecting plates 741 through a sliding device, so that the second connecting plates 741 can be lifted and lowered conveniently.

In the embodiment, as shown in fig. 9 to 11, the length of the finished product is longer than the width of the waste, and the length of the finished product collecting box 72 is longer than the length of the waste collecting box 73, so that the finished product and the waste can be conveniently collected.

To sum up, the utility model discloses a laser pipe cutting equipment, the staff transports tubular product to frame 1's processing position department through feed mechanism 6, fixed fixture 3 presss from both sides tightly tubular product with activity fixture 4, liftout mechanism 8 provides the support for the tubular product that is in the course of working, laser cutting mechanism 5 cuts tubular product, finished product after the cutting is accomplished is collected to unloading mechanism 7, thereby accomplish the automatic feeding and the automatic unloading of tubular product, and then improved the material loading efficiency and the unloading efficiency of tubular product, the human cost has been saved, thereby certain popularization nature has.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the principle of the present invention, and these modifications and variations are also considered as the protection scope of the present invention.

Claims (10)

1. A laser pipe cutting device is characterized by comprising a rack, a control mechanism, a fixed clamping mechanism, a movable clamping mechanism, a laser cutting mechanism, a feeding mechanism, a discharging mechanism and an ejection mechanism, wherein the fixed clamping mechanism is arranged at the top end of the rack, the movable clamping mechanism and the discharging mechanism are respectively arranged at two opposite sides of the fixed clamping mechanism, the movable clamping mechanism is connected to the top end of the rack in a sliding manner, the laser cutting mechanism is close to the fixed clamping mechanism, the feeding mechanism is arranged at the side part of the rack, the ejection mechanism is arranged at the top end of the rack at equal intervals, and the fixed clamping mechanism, the movable clamping mechanism, the laser cutting mechanism, the feeding mechanism, the discharging mechanism and the ejection mechanism are all electrically connected with the control mechanism;

the blanking mechanism comprises a blanking frame, a finished product collecting box, a waste product collecting box and a plurality of supporting devices, wherein the finished product collecting box is positioned on one side of a long edge of the blanking frame, the waste product collecting box is positioned on one side of a short edge of the blanking frame, the top end of the blanking frame is obliquely arranged, and the blanking frame is connected with a driving component for driving the supporting devices to vertically lift.

2. The laser pipe cutting apparatus as claimed in claim 1, wherein the feed mechanism includes a feed block body;

the first feeding assemblies and the rack are respectively arranged on two opposite sides of the feeding rack body, and the first feeding assemblies are used for storing pipes to be processed;

the second feeding assemblies are arranged on the feeding frame body and provided with feeding ends and discharging ends, the feeding ends of the second feeding assemblies are close to the first feeding assemblies, and the first feeding assemblies convey pipes to be processed to the second feeding assemblies;

the lifting assemblies are arranged at the discharge ends of the second feeding assemblies and used for lifting the pipes at the discharge ends of the second feeding assemblies;

the height limiting assemblies are arranged at the top end of the feeding frame body and close to the first feeding assembly, and are used for preventing the pipes from being conveyed from the first feeding assembly to the second feeding assembly from stacking;

the pipe fitting lifting device comprises a plurality of clamping assemblies, wherein the clamping assemblies are arranged at the top end of a feeding frame body and have the freedom degrees of vertical movement and longitudinal movement relative to the feeding frame body, and the clamping assemblies are used for conveying the pipe fitting positioned on the lifting assemblies to a machining position of the rack.

3. The laser pipe cutting apparatus according to claim 2, wherein the first feeding assembly includes a feeding frame and a first conveying device corresponding to the feeding frame, the feeding frame is connected to a first driving device for driving the first conveying device to operate, the first conveying device includes rollers and supporting belts, one end of each supporting belt is wound around the roller, the other end of each supporting belt is disposed on the feeding frame, a plurality of the supporting belts are connected by the first driving device, and a plurality of the rollers are connected by the first rotating shaft.

4. The laser pipe cutting apparatus according to claim 3, wherein the second feeding assembly includes a second conveyer and a supporting block corresponding to the second conveyer, the second conveyer includes a first driving wheel, a second driving wheel and a synchronous belt for connecting the first driving wheel and the second driving wheel, the supporting block is disposed on a surface of the synchronous belt, the first driving wheel is connected by the first driving device, and the second driving wheel is connected by a fifth rotating shaft.

5. The laser pipe cutting apparatus according to claim 4, wherein the lifting assembly comprises a lifting plate and a first connecting block, the lifting plate is slidably connected to the first connecting block, the first connecting block is fixed to the discharging rack, the upper rack is connected to a second driving device for driving the lifting plate to vertically lift and a third driving device for driving the lifting plate to longitudinally move, the second driving device comprises a first motor, a second rotating shaft and a plurality of first gears engaged with the side surfaces of the lifting plate, the first motor is rotatably connected to the second rotating shaft, and the first gears are connected to the second rotating shaft through the second rotating shaft;

the third drive arrangement include second motor, third axis of rotation and a plurality of with the second gear that the bottom meshing of board is connected lifts, the second motor with the third axis of rotation is rotated and is connected, the second gear passes through the third axis of rotation is connected.

6. The laser pipe cutting device according to claim 5, wherein the height limiting assembly comprises a height limiting plate and a second connecting block fixed at the top end of the upper material frame, the height limiting plate is slidably connected to the second connecting block, the upper material frame is connected with a fourth driving device for driving the height limiting plate to vertically lift, the fourth driving device comprises a third motor, a fourth rotating shaft and a third gear engaged with the side surface of the height limiting plate, the third motor is rotatably connected with the fourth rotating shaft, and a plurality of the third gears are connected through the fourth rotating shaft.

7. The laser pipe cutting device according to claim 5, wherein the clamping assembly comprises a material clamping arm, a first connecting plate, an upper clamping plate and a lower clamping plate, the upper material frame is connected with a fifth driving device for driving the material clamping arm to move longitudinally, the material clamping arm is arranged at the top end of the material loading frame, the first connecting plate is fixed on the material clamping arm, the lower clamping plate is arranged at the bottom end of the material loading frame, and the top end of the first connecting plate is connected with a sixth driving device for driving the upper clamping plate to slide vertically along the first connecting plate.

8. The laser pipe cutting equipment as claimed in claim 5, wherein a plurality of first limiting plates for preventing the pipe from being separated from the synchronous belt are connected to the feeding rack, and the first limiting plates are close to the first driving wheel;

the lifting plate is connected with a second limiting plate for preventing the pipe from being separated from the lifting plate.

9. The laser pipe cutting apparatus according to claim 1, wherein the supporting means includes a second connecting plate, a first cylinder, and a second supporting block, the second connecting plate is connected to the driving assembly, the first cylinder is fixed to the second connecting plate, and a piston rod of the first cylinder is connected to the second supporting block.

10. The laser pipe cutting apparatus of claim 1, wherein the length of the product collection bin is longer than the length of the waste collection bin.

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