CN112571061B

CN112571061B - Cutting compounding machine of tubular product and section bar

Info

Publication number: CN112571061B
Application number: CN202110224461.7A
Authority: CN
Inventors: 梁建冬; 黄思薪; 杨红杰; 严君仪; 练振达; 廖谷祥; 左建林; 罗勇杰; 杨广朝; 林哲; 肖冲; 黄海涛; 王红胜; 吴昌坚
Original assignee: Foshan Huibaisheng Laser Technology Co Ltd
Current assignee: Foshan Huibaisheng Laser Technology Co Ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2021-06-11
Anticipated expiration: 2041-03-01
Also published as: CN112571061A; CN113319584A; CN113319583A; CN113319582A

Abstract

The invention discloses a pipe and section cutting compound machine which comprises a pipe cutting machine main body, wherein the pipe conveying direction of the pipe cutting machine main body is from left to right, the pipe cutting machine main body comprises a rack and a laser cutting assembly arranged on the rack, the pipe cutting machine main body further comprises a section cutting support arranged on the right side of the laser cutting assembly, an angle adjusting device arranged on the section cutting support, an up-and-down adjusting device arranged on the angle adjusting device, a saw blade cutter arranged on the up-and-down adjusting device, a supporting table arranged below the saw blade cutter and a pulling device arranged on the rack, the angle adjusting device drives the up-and-down adjusting device to rotate around the vertical direction, the up-and-down adjusting device drives the saw blade cutter to move up and down, the saw blade cutter is used for cutting a workpiece, the pulling device is arranged on the right side of the. The invention provides equipment capable of cutting and processing pipes and profiles.

Description

Cutting compounding machine of tubular product and section bar

Technical Field

The invention relates to the field of cutting processing, in particular to a cutting compound machine for pipes and sectional materials.

Background

Traditional pipes can be cut by laser processing, such as square pipes, round pipes, etc. At present, the pipe is generally cut by a pipe cutting machine. However, for example, for a pipe material having a multilayer complex structure such as a profile, it is difficult to use laser processing, it is difficult to cut the material inside the profile by using laser processing, and if such a pipe material is cut by using a pipe cutting machine, the pipe cutting machine can only cut a surface layer accurately, and it is necessary to additionally cut the pipe material of the profile by manually operating a saw, which is troublesome and labor-consuming.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the technical problem that the scheme is solved, and the equipment capable of cutting and processing the pipes and the sectional materials is provided.

The solution of the invention for solving the technical problem is as follows:

a cutting compound machine for pipes and profiles comprises a pipe cutting machine main body, wherein the pipe conveying direction of the pipe cutting machine main body is turned right from left, the pipe cutting machine main body comprises a rack, a laser cutting assembly arranged on the rack, the pipe cutting machine main body further comprises a profile cutting support arranged on the right side of the laser cutting assembly, an angle adjusting device arranged on the profile cutting support, an upper adjusting device and a lower adjusting device arranged on the angle adjusting device, a saw blade cutter arranged on the upper adjusting device and the lower adjusting device, a supporting table arranged below the saw blade cutter and a material pulling device arranged on the rack, the angle adjusting device drives the upper adjusting device and the lower adjusting device to rotate vertically, the upper adjusting device and the lower adjusting device drive the saw blade cutter to move vertically, the saw blade cutter is used for cutting workpieces, the material pulling device is arranged on the right side of the profile cutting support, the material pulling device is used for pulling or fixing a workpiece.

As a further improvement of the above technical solution, the angle adjusting device includes an outer gear ring fixedly mounted on the frame, a first gear engaged with the outer gear ring, a first servo motor drivingly connected to the first gear, and a rotary bracket rotatable relative to the frame, the first servo motor is fixed on the rotary bracket, and the up-down adjusting device is disposed on the rotary bracket.

As a further improvement of the above technical solution, the up-down adjusting device includes an up-down slide rail disposed on the angle adjusting device, an up-down slider slidably engaged with the up-down slide rail, and an electric lead screw disposed on the angle adjusting device, the up-down slide rail extends along the up-down direction, the electric lead screw is drivingly connected to the up-down slider, and the saw blade tool is fixedly connected to the up-down slider.

As a further improvement of the technical scheme, the saw blade tool comprises a saw blade and a spindle motor, the spindle motor is connected with the saw blade through a belt in a transmission mode, the saw blade is connected with the upper and lower adjusting devices in a rotating mode, and the spindle motor is fixedly connected with the upper and lower adjusting devices.

As a further improvement of the above technical solution, the supporting platform includes a supporting component, a rotating component disposed on the supporting component, and a supporting block disposed on the rotating component, the rotating component drives the supporting block to rotate around the vertical direction, the supporting block is provided with a slot, and the slot is used for inserting a saw blade cutter.

As a further improvement of the technical scheme, a shielding cylinder is arranged on the section bar cutting support, a shielding curtain is connected to the shielding cylinder in a driving mode, the shielding cylinder drives the shielding curtain to reciprocate in the vertical direction, and the shielding curtain is arranged between the laser cutting assembly and the saw blade cutter.

As a further improvement of the above technical solution, the material pulling device comprises a material pulling fixing frame arranged on the right side of the section cutting support, a first material pulling slide rail arranged on the material pulling fixing frame and extending along the front-back direction, a material pulling movable frame in sliding fit with the first material pulling slide rail, a left slide rail and a right slide rail arranged on the material pulling movable frame, a material pulling clamp assembly in sliding fit with the left slide rail and the right slide rail, a left material pulling driving mechanism and a right material pulling driving mechanism arranged on the material pulling movable frame, and a front material pulling driving mechanism and a rear material pulling driving mechanism arranged on the material pulling fixing frame, wherein the front material pulling driving mechanism and the rear material pulling driving mechanism drive the material pulling movable frame to reciprocate along the length direction of the first material pulling slide rail, the left material pulling driving mechanism and the right material pulling driving mechanism drive the material pulling clamp assembly to reciprocate along the left-right direction, and the material pulling clamp, the material pulling clamp assembly clamps the pipe by reducing the width of the clamping channel.

As a further improvement of the technical scheme, the material pulling clamp assembly comprises a material pulling clamping jaw and a left sliding block and a right sliding block, the material pulling clamping jaw is more than two, a left material pulling driving mechanism and a right material pulling clamping jaw are arranged in a one-to-one correspondence mode, each material pulling clamping jaw is fixedly connected with at least one left sliding block and right sliding block, the left sliding block and right sliding block are in sliding fit with the left sliding rail and right sliding rail, and each material pulling left driving mechanism and right driving mechanism drives one material pulling clamping jaw to move back and forth along the length direction of the left sliding rail and right sliding.

As a further improvement of the technical scheme, the material pulling clamping jaw comprises a clamp frame, an upper clamping slide rail, a lower clamping slide rail, an upper clamping slide block, a lower clamping slide block, a clamping block and a clamping driving assembly, wherein the clamp frame is fixedly connected with the left slide block and the right slide block; the upper clamping slide rail and the lower clamping slide rail extend along the up-down direction, the number of the upper clamping slide rail and the lower clamping slide rail is two, and the two upper clamping slide rails and the two lower clamping slide rails are fixedly connected with the clamp frame; each upper clamping slide rail and each lower clamping slide rail are matched with at least one upper clamping slide block and at least one lower clamping slide block in a sliding manner; the two clamping blocks are respectively and fixedly connected with the sliding blocks on the upper clamping slide rail and the lower clamping slide rail, and the two clamping blocks are arranged along the vertical direction, so that a clamping channel is formed between the two clamping blocks; the clamping driving assembly drives the two clamping blocks to move towards or away from each other.

As a further improvement of the technical scheme, the left and right material pulling driving mechanism comprises a left rack, a right rack, a left gear and a right gear which are arranged on the material pulling movable frame and are meshed with the left rack and the right rack, and a second servo motor which is in driving connection with the left gear and the right gear, wherein the second servo motor is fixedly connected with the material pulling clamp assembly, and the left rack and the right rack extend along the left-right direction.

As a further improvement of the technical scheme, the material pulling front-and-back driving mechanism comprises an avoidance motor arranged on the material pulling movable frame, an avoidance gear connected with the avoidance motor, and an avoidance rack arranged on the material pulling fixed frame, wherein the avoidance rack is meshed with the avoidance gear, the avoidance rack extends along the front-and-back direction, and the avoidance motor drives the avoidance gear to rotate.

The invention has the beneficial effects that: when the pipe cutting machine is used, a pipe material is driven by the pipe cutting machine main body to be conveyed along the left-right direction, the pipe materials such as a square pipe and a round pipe are cut and processed by the laser cutting assembly on the pipe cutting machine main body, when the pipe materials of the type of the profile are required to be cut, a user can utilize the angle adjusting device on the profile cutting support to adjust the angle of the vertical adjusting device, so as to adjust the angle of the saw blade cutter and the length direction of the pipe material to be cut, which extends along the left-right direction, the saw blade cutter is driven by the vertical adjusting device to move up and down, the saw blade cutter can rotate to cut the profile on the support platform, the support platform is used for supporting the profile, as the cutting support is arranged on the right side of the laser cutting assembly, the saw blade cutter is relatively far away from a component which is used for driving the pipe material to move left, the pipe material can be clamped, positioned and fixed through the material pulling device, meanwhile, when the pipe material or the section material with short length is processed, the right end part of the section material can be clamped and fixed in an auxiliary mode through the material pulling device, and the positioning accuracy is higher.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is an enlarged view of B of FIG. 1 of the present invention;

FIG. 4 is an enlarged view of A of FIG. 2 of the present invention;

FIG. 5 is a first isometric view of the up-down adjustment device, the angle adjustment device, the saw blade cutter, and the support table of the present invention;

FIG. 6 is a side view of the up-down adjusting device, the angle adjusting device, the blade cutter, and the supporting base of the present invention;

FIG. 7 is a second perspective view of the vertical adjustment device, the angular adjustment device, the saw blade tool, and the support table of the present invention;

FIG. 8 is a perspective view III of the vertical adjustment device, the angular adjustment device, the saw blade cutter, and the support table of the present invention;

FIG. 9 is a side view of the pulling device of the present invention;

FIG. 10 is a front view of the pulling device of the present invention;

fig. 11 is an isometric view of the pulling device of the present invention.

In the drawings: 1-a frame, 2-a laser cutting assembly, 31-an outer gear ring, 32-a first gear, 33-a first servo motor, 34-a rotating bracket, 4-a supporting table, 41-a supporting assembly, 411-a lifting movable frame, 412-a lifting fixed frame, 413-a lifting rack, 414-a lifting motor, 415-a lifting gear, 42-a rotating assembly, 421-a rotating gear, 422-a rotating motor, 43-a supporting block, 431-a slot, 51-a saw blade, 52-a spindle motor, 6-an up-and-down adjusting device, 61-an up-and-down sliding rail, 62-an up-and-down sliding block, 63-an electric screw rod, 71-a shielding air cylinder, 72-a shielding curtain, 81-a material pulling fixed frame, 811-a material pulling front-and-back driving mechanism and 8111-an avoiding motor, 8112-avoiding gear, 8113-avoiding rack, 82-first material pulling slide rail, 83-material pulling movable frame, 831-left and right slide rails, 833-material pulling left and right driving mechanism, 8331-left and right racks, 8332-left and right gears, 8333-second servo motor, 8341-left and right slide blocks, 8342-clamp frame, 8343-upper and lower clamping slide rails, 8344-upper and lower clamping slide blocks, 8345-clamping block, 8346-clamping driving component, 8347-upper and lower racks, 8348-clamping gear and 8349-lower pressing cylinder.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Please refer to fig. 1 to 11. A cutting compound machine for pipes and sectional materials comprises a pipe cutting machine main body, wherein the pipe material conveying direction of the pipe cutting machine main body is turned right from left, the pipe cutting machine main body comprises a rack 1, a laser cutting assembly 2 arranged on the rack 1, the pipe cutting machine main body further comprises a sectional material cutting support arranged on the right side of the laser cutting assembly 2, an angle adjusting device arranged on the sectional material cutting support, an upper adjusting device 6 and a lower adjusting device 6 arranged on the angle adjusting device, a saw blade cutter arranged on the upper adjusting device 6, a supporting table 4 arranged below the saw blade cutter and a material pulling device arranged on the rack 1, the angle adjusting device drives the upper adjusting device 6 and the lower adjusting device 6 to rotate vertically, the upper adjusting device 6 and the lower adjusting device 6 drive the saw blade cutter to move vertically, the saw blade cutter is used for cutting workpieces, and the material pulling device is arranged on the right side of the sectional material cutting support, the material pulling device is used for pulling or fixing a workpiece.

From the above, when in use, the pipe cutting machine main body drives the pipe material to be conveyed along the left-right direction, the pipe materials such as a square pipe and a round pipe are cut and processed by the laser cutting component 2 on the pipe cutting machine main body, when the pipe materials of the section class need to be cut, a user can utilize the angle adjusting device on the section cutting support to adjust the angle of the up-down adjusting device 6, thereby adjusting the angle of the saw blade cutter and the length direction of the pipe materials to be cut extending along the left-right direction, the saw blade cutter is driven to move up and down by the up-down adjusting device 6, the saw blade cutter can rotate to cut the section materials on the support table 4, the support table 4 is used for supporting the section materials, as the cutting support is arranged at the right side of the laser cutting component 2, the saw blade cutter has a relatively far distance from a component used for driving the pipe materials to, the accessible draws the material device to pull in advance on a supporting bench 4 to the accessible draws the material device to press from both sides tight location fixed to the pipe material, simultaneously, when carrying out the processing of the short tubular product of some length or section bar, still can assist through this material device to press from both sides tight fixedly to the right-hand member portion of section bar, and positioning accuracy is higher.

In some embodiments, the angle adjusting device comprises an external gear ring 31 fixedly mounted on the frame 1, a first gear 32 engaged with the external gear ring 31, a first servo motor 33 in driving connection with the first gear 32, and a rotating bracket 34 capable of rotating relative to the frame 1, wherein the first servo motor 33 is fixed on the rotating bracket 34, and the up-down adjusting device 6 is arranged on the rotating bracket 34. This simple structure, convenient to set up, during the use, the first gear 32 of accessible 33 drive rotates, under the meshing of first gear 32 and outer ring gear 31, realizes the relative rotation of runing rest 34 and frame 1, and then, can realize the angular adjustment of saw bit cutter.

In some embodiments, the up-down adjusting device 6 includes an up-down slide rail 61 disposed on the angle adjusting device, an up-down slider 62 slidably engaged with the up-down slide rail 61, and an electric lead screw 63 disposed on the angle adjusting device, wherein the up-down slide rail 61 extends in an up-down direction, the electric lead screw 63 is drivingly connected to the up-down slider 62, and the saw blade tool is fixedly connected to the up-down slider 62. The structure is simple, the arrangement is convenient, and in some embodiments, the electric screw 63 is fixedly connected with the rotating bracket 34. When the cutting machine is used, the electric screw 63 drives the upper and lower sliding blocks 62 to move up and down along the upper and lower sliding rails 61, so that the upper and lower sliding blocks 62 drive the saw blade cutter to move up and down to cut a tube material.

In some embodiments, the saw blade tool includes a saw blade 51 and a spindle motor 52, the spindle motor 52 is connected to the saw blade 51 through a belt transmission, the saw blade 51 is disposed on the up-down adjusting device 6 and can rotate relative to the up-down adjusting device 6, and the spindle motor 52 is fixedly connected to the up-down adjusting device 6. This simple structure, convenient to set up, during the use, spindle motor 52 drives saw bit 51 with belt drive's mode and rotates, thereby accessible saw bit 51 cuts the pipe material, in addition, spindle motor 52 drives saw bit 51 with belt drive's mode and rotates, make spindle motor 52 can be close to the middle part of slider 62 about at the position of slider 62 about the actual installation, and saw bit 51 can set up in slider 62's lower part about, the distribution of quality is more reasonable, in some embodiments, this saw bit 51 is established on slider 62 about and slider 62 rotates about can being relative.

In some embodiments, the support table 4 includes a support assembly 41, a rotating assembly 42 disposed on the support assembly 41, and a support block 43 disposed on the rotating assembly 42, wherein the rotating assembly 42 drives the support block 43 to rotate vertically, and a slot 431 is formed in the support block 43, and the slot 431 is used for inserting a saw blade cutter. In some embodiments, the slot 431 is used for insertion of the saw blade 51.

The rotating assembly 42 comprises a rotating motor 422 and a rotating gear 421, the rotating motor 422 is fixedly connected with the supporting assembly 41, the rotating motor 422 is in driving connection with the rotating gear 421, the supporting block 43 is arranged on the rotating gear 421, and the rotating gear 421 is rotatably connected with the supporting assembly 41.

This supporting component 41 includes lift mount 412 and lift adjustable shelf 411, and lift adjustable shelf 411 and lift mount 412 pass through lift slide rail sliding fit, and the lift slide rail is provided with elevator motor 414 along vertical extension on the lift mount 412, elevator motor 414 drive is connected with lifting gear 415, is equipped with the lifting rack 413 that meshes lifting gear 415 on the lift adjustable shelf 411 to accessible elevator motor 414 drives lifting gear 415 and rotates, and drives lifting rack 413 up-and-down motion. The rotating gear 421 is rotatably connected to the movable lifting frame 411.

In some embodiments, a shielding cylinder 71 is disposed on the profile cutting bracket, the shielding cylinder 71 is connected to a shielding curtain 72 in a driving manner, the shielding cylinder 71 drives the shielding curtain 72 to reciprocate in an up-down direction, and the shielding curtain 72 is disposed between the laser cutting assembly 2 and the saw blade cutter. With this configuration, the shielding curtain 72 can shield the spark generated during the processing of the saw blade 51 from being splashed to the left side of the cutting portion of the pipe material, thereby reducing the area of the impact of the spark generated during the cutting on the surface of the pipe material.

In some embodiments, the material pulling device includes a material pulling fixing frame 81 disposed on the right side of the profile cutting support, a first material pulling slide rail 82 disposed on the material pulling fixing frame 81 and extending in the front-rear direction, a material pulling movable frame 83 slidably engaged with the first material pulling slide rail 82, a left slide rail 831 disposed on the material pulling movable frame 83, a material pulling clamp assembly slidably engaged with the left slide rail 831, a left material pulling driving mechanism 833 disposed on the material pulling movable frame 83, and a front material pulling driving mechanism 811 disposed on the material pulling fixing frame 81, the front material pulling driving mechanism 811 drives the material pulling movable frame 83 to reciprocate along the length direction of the first material pulling slide rail 82, the left material pulling driving mechanism 833 drives the material pulling clamp assembly to reciprocate along the left-right direction, the material pulling clamp assembly is provided with a clamping channel extending in the left-right direction, the material pulling clamp assembly clamps the pipe by reducing the width of the clamping channel. This simple structure, convenient to set up, draw material anchor clamps subassembly can be along controlling the length direction of slide rail 831 and controlling the side-to-side motion under actuating mechanism's drive, control slide rail 831 and extend along controlling the direction, draw around the material actuating mechanism 811 to drive draw the material adjustable shelf 83 to follow the first length direction reciprocating motion who draws material slide rail 82 before utilizing laser cutting subassembly 2 to process the tubular product, can make and draw around the material actuating mechanism 811 to drive draw the material adjustable shelf 83 to follow the first length direction who draws material slide rail 82 is the back motion to can dodge the tubular product, when needs adopt to draw the material device to press from both sides the clamp or draw the material, the accessible should draw material around actuating mechanism 811 drive this and draw material adjustable shelf 83 to the forward motion.

Preferably, the material pulling fixing frame 81 is fixedly connected with the frame 1. Of course, the material pulling fixing frame 81 may also be disposed at the side of the frame 1 as an external component.

In some embodiments, the material pulling clamp assembly includes material pulling clamping jaws and left and right sliding blocks 8341, the material pulling clamping jaws are more than two, the left and right material pulling driving mechanisms and the material pulling clamping jaws are arranged in a one-to-one correspondence manner, each material pulling clamping jaw is fixedly connected with at least one left and right sliding block 8341, the left and right sliding blocks 8341 are in sliding fit with the left and right sliding rails 831, and each left and right material pulling driving mechanism drives one material pulling clamping jaw to reciprocate along the length direction of the left and right sliding rails 831. This simple structure, setting up conveniently, two clamping jaws can be by independent control respectively, and it uses more in a flexible way, and in addition, when adopting two clamping jaws to press from both sides tight pipe material simultaneously, its fixed effect is better, more stable.

In some embodiments, the pulling jaw comprises a clamp frame 8342, upper and lower clamp rails 8343, upper and lower clamp sliders 8344, a clamp block 8345, and a clamp driving assembly 8346, wherein the clamp frame 8342 is fixedly connected to the left and right sliders 8341; the upper and lower clamping slide rails 8343 extend in the up-down direction, two upper and lower clamping slide rails 8343 are provided, and the two upper and lower clamping slide rails 8343 are both fixedly connected with the clamp frame 8342; each upper and lower clamping slide rail 8343 is matched with at least one upper and lower clamping slide block 8344 in a sliding way; the two clamping blocks 8345 are arranged, the two clamping blocks 8345 are respectively and fixedly connected with the sliding blocks on the two upper and lower clamping sliding rails 8343, and the two clamping blocks 8345 are arranged along the up-down direction, so that the clamping channel is formed between the two clamping blocks 8345; the clamp drive assembly 8346 moves the two clamp blocks 8345 toward or away from each other. This simple structure, setting are convenient, through the setting of this structure, can realize pressing from both sides the tight of pipe material, when using, drive two through the clamping unit and press from both sides tight block 8345 motion towards each other to reduce the width that presss from both sides tight passageway and press from both sides tightly the pipe material.

In practical use, the clamping driving assembly 8346 comprises two upper and lower racks 8347 extending in the up-down direction, a clamping gear 8348 is disposed between the two upper and lower racks 8347, the clamping gear 8348 engages the two upper and lower racks 8347, the two upper and lower racks 8347 are respectively fixedly connected to the two clamping blocks 8345 in a one-to-one correspondence manner, the clamping driving assembly 8346 further comprises a down-pressing cylinder 8349 installed on the clamp frame 8342, the down-pressing cylinder 8349 drives the upper clamping block 8345 to move downwards, so that the lower clamping block 8345 moves in the opposite direction to the upper clamping block 8345 in the engagement between the clamping gear 8348 and the upper and lower racks 8347.

In some embodiments, the left and right material pulling driving mechanism 833 comprises a left and right rack 8331 disposed on the material pulling movable frame 83, a left and right gear 8332 engaged with the left and right rack 8331, and a second servo motor 8333 drivingly connected to the left and right gear 8332, wherein the second servo motor 8333 is fixedly connected to the material pulling clamp assembly, and the left and right rack 8331 extends in the left and right direction. This simple structure, convenient to set up, during the use, gear 8332 rotation about second servo motor 8333 drives, about gear 8332 with about rack 8331 meshing to the drive draws the horizontal motion of material anchor clamps subassembly. In some embodiments, a second servo motor 8333 is fixedly attached to the clamp bracket 8342.

In some embodiments, the material pulling front-back driving mechanism 811 includes an avoidance motor 8111 disposed on the material pulling movable frame 83, an avoidance gear 8112 connected to the avoidance motor 8111, and an avoidance rack 8113 disposed on the material pulling fixed frame 81, where the avoidance rack 8113 is engaged with the avoidance gear 8112, the avoidance rack 8113 extends in the front-back direction, and the avoidance motor 8111 drives the avoidance gear 8112 to rotate. This simple structure, it is convenient to set up, setting through this structure, it dodges gear 8112 to dodge motor 8111 drive, dodge gear 8112 and dodge under the meshing of rack 8113, draw the material adjustable shelf 83 can move along the fore-and-aft direction, when carrying out for example square pipe, pipe etc. cutting, can adopt laser cutting subassembly 2 to cut this type of tubular product, it can drive to draw the material adjustable shelf 83 rearward movement to dodge motor 8111, and make and press from both sides tight block 8345 and dodge this type of tubular product, when needs cut the section bar, the accessible dodge motor 8111 and drive and draw the material adjustable shelf 83 forward movement, and press from both sides tight block 8345 and press from both sides the section bar through pressing from both sides tight block 8345, simultaneously, accessible actuating mechanism drives and presss from both sides tight block 83.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention as set forth in the claims appended hereto.

Claims

1. A cutting compound machine for pipes and profiles comprises a pipe cutting machine main body, wherein the pipe conveying direction of the pipe cutting machine main body is turned right from left, the pipe cutting machine main body comprises a rack, a laser cutting assembly arranged on the rack, and is characterized in that the pipe cutting machine main body further comprises a profile cutting support arranged on the right side of the laser cutting assembly, an angle adjusting device arranged on the profile cutting support, an upper adjusting device and a lower adjusting device arranged on the angle adjusting device, a saw blade cutter arranged on the upper adjusting device and the lower adjusting device, a supporting table arranged below the saw blade cutter, and a material pulling device arranged on the rack, the angle adjusting device drives the upper adjusting device and the lower adjusting device to rotate vertically, the upper adjusting device and the lower adjusting device drive the saw blade cutter to move vertically, the saw blade cutter is used for cutting workpieces, and the material pulling device is arranged on the right side of the profile cutting support, the material pulling device is used for pulling or fixing a workpiece; the material pulling device comprises a material pulling fixed frame arranged on the right side of the section bar cutting bracket, a first material pulling slide rail arranged on the material pulling fixed frame and extending along the front-back direction, a material pulling movable frame in sliding fit with the first material pulling slide rail, a left slide rail and a right slide rail arranged on the material pulling movable frame, a material pulling clamp assembly in sliding fit with the left slide rail and the right slide rail, a material pulling left-right driving mechanism arranged on the material pulling movable frame, and a material pulling front-back driving mechanism arranged on the material pulling fixed frame, the material pulling front-back driving mechanism drives the material pulling movable frame to reciprocate along the length direction of the first material pulling slide rail, the material pulling left and right driving mechanism drives the material pulling clamp assembly to reciprocate along the left and right directions, a clamping channel extending along the left and right directions is arranged on the material pulling clamp assembly, and the material pulling clamp assembly clamps the pipe by reducing the width of the clamping channel.

2. The pipe and profile cutting compound machine as claimed in claim 1, wherein the angle adjusting device comprises an outer gear ring fixedly mounted on the frame, a first gear engaged with the outer gear ring, a first servo motor drivingly connected with the first gear, and a rotary bracket rotatable relative to the frame, the first servo motor is fixed on the rotary bracket, and the up-down adjusting device is arranged on the rotary bracket.

3. The pipe and profile cutting compound machine as claimed in claim 1, wherein the up-down adjusting device comprises an up-down slide rail disposed on the angle adjusting device, an up-down slide block slidably engaged with the up-down slide rail, and an electric screw rod disposed on the angle adjusting device, the up-down slide rail extends along the up-down direction, the electric screw rod is drivingly connected with the up-down slide block, and the saw blade tool is fixedly connected with the up-down slide block.

4. The pipe and section cutting compound machine as claimed in claim 1, wherein the support table comprises a support assembly, a rotation assembly arranged on the support assembly, and a support block arranged on the rotation assembly, the rotation assembly drives the support block to rotate vertically, the support block is provided with a slot, and the slot is used for inserting a saw blade cutter.

5. The pipe and section cutting compound machine as claimed in claim 1, wherein a shielding cylinder is disposed on the section cutting support, the shielding cylinder is connected with a shielding curtain in a driving manner, the shielding cylinder drives the shielding curtain to reciprocate along an up-down direction, and the shielding curtain is disposed between the laser cutting assembly and the saw blade cutter.

6. The pipe and section cutting compound machine according to claim 1, wherein the material pulling clamp assembly comprises two or more material pulling clamping jaws and left and right sliding blocks, the left and right material pulling clamping jaws are arranged in a one-to-one correspondence, each material pulling clamping jaw is fixedly connected with at least one of the left and right sliding blocks, the left and right sliding blocks are in sliding fit with the left and right sliding rails, and each left and right material pulling driving mechanism drives one material pulling clamping jaw to reciprocate along the length direction of the left and right sliding rails.

7. The pipe and section cutting compound machine according to claim 6, wherein the material pulling clamping jaw comprises a clamp frame, an upper clamping slide rail, a lower clamping slide rail, an upper clamping slide block, a lower clamping slide block, a clamping block and a clamping driving assembly, wherein the clamp frame is fixedly connected with the left slide block and the right slide block; the upper clamping slide rail and the lower clamping slide rail extend along the up-down direction, the number of the upper clamping slide rail and the lower clamping slide rail is two, and the two upper clamping slide rails and the two lower clamping slide rails are fixedly connected with the clamp frame; each upper clamping slide rail and each lower clamping slide rail are matched with at least one upper clamping slide block and at least one lower clamping slide block in a sliding manner; the two clamping blocks are respectively and fixedly connected with the sliding blocks on the upper clamping slide rail and the lower clamping slide rail, and the two clamping blocks are arranged along the vertical direction, so that a clamping channel is formed between the two clamping blocks; the clamping driving assembly drives the two clamping blocks to move towards or away from each other.

8. The pipe and section cutting compound machine according to claim 1, wherein the left and right material pulling driving mechanism comprises left and right racks disposed on the material pulling movable frame, left and right gears engaged with the left and right racks, and a second servo motor drivingly connected to the left and right gears, the second servo motor is fixedly connected to the material pulling clamp assembly, and the left and right racks extend in the left and right directions.

9. The pipe and section cutting compound machine according to claim 1, wherein the material pulling front and rear driving mechanism comprises an avoidance motor arranged on the material pulling movable frame, an avoidance gear connected with the avoidance motor, and an avoidance rack arranged on the material pulling fixed frame, the avoidance rack is meshed with the avoidance gear, the avoidance rack extends along the front and rear direction, and the avoidance motor drives the avoidance gear to rotate.