CN111136391A

CN111136391A - Stainless steel pipeline processing is with cutting laser device convenient to operation

Info

Publication number: CN111136391A
Application number: CN202010101371.4A
Authority: CN
Inventors: 蒋京锁
Original assignee: Anhui Zhongzai Technology Co Ltd
Current assignee: Anhui Zhongzai Technology Co Ltd
Priority date: 2020-02-19
Filing date: 2020-02-19
Publication date: 2020-05-12
Anticipated expiration: 2040-02-19
Also published as: CN111136391B

Abstract

The invention discloses a cutting laser device for machining a stainless steel pipeline, which is convenient to operate and comprises a machining support and a stainless steel pipe, wherein a numerical control clamping seat is arranged on the machining support, the numerical control clamping seat clamps the stainless steel pipe, the numerical control clamping seat is obliquely arranged, and a laser cutting mechanism is arranged on the machining support; the waste collecting mechanism comprises a collecting tank, a conveying belt is arranged at the bottom of the collecting tank, the conveying belt is connected with a first driving roller and a second driving roller, the first driving roller is connected with a driving motor for driving the first driving roller to rotate, a flattening device is arranged at the lower portion of the conveying belt and comprises a guide square pipe, the guide square pipe is connected with a flat pipe, the flat pipe is connected with a compression cavity, a compression block is arranged in the compression cavity, the compression block is connected with a hydraulic mechanism, an opening and closing door is arranged on the compression cavity, and a waste collecting box is arranged. Through the arrangement, the waste materials of the stainless steel pipe subjected to laser cutting can be efficiently and intensively treated, so that the subsequent processing efficiency of the stainless steel pipe is improved.

Description

Stainless steel pipeline processing is with cutting laser device convenient to operation

Technical Field

The invention relates to the field of steel pipe processing, in particular to a cutting laser device for processing a stainless steel pipeline, which is convenient to operate.

Background

Laser cutting is to irradiate a workpiece with a focused high-power-density laser beam to quickly melt, vaporize and ablate the irradiated material or reach a burning point, and simultaneously blow off the molten material by means of a high-speed airflow coaxial with the beam, thereby realizing the cutting of the workpiece. Laser cutting is one of the thermal cutting methods.

Because stainless steel has good physical properties, heat resistance, high temperature resistance and low temperature resistance, and simultaneously stainless steel also has good chemical properties and good chemical corrosion resistance and electrochemical corrosion resistance, the stainless steel is more and more applied in daily life of people, and the daily life of people can not be separated from the stainless steel. The stainless steel pipe is a hollow long-strip round steel material, and is mainly widely used for industrial conveying pipelines, mechanical structural parts and the like of petroleum, chemical industry, medical treatment, food, light industry, mechanical instruments and the like. In addition, since the steel sheet is light in weight when it is bent and has the same torsional strength, it is widely used for manufacturing machine parts and engineering structures. Also commonly used as furniture and kitchen ware, etc.

Stainless steel pipe cutting equipment has a lot in the existing market, is gear cutting usually, but prior art is not perfect enough, and the steel pipe incision is uneven, has the burr, and the precision of cutting is low simultaneously, takes place situations such as deformation easily. Therefore, in the cutting process of steel pipes, the use of laser cutting is increasingly beginning.

However, in the process of laser cutting, whether the scraps of the cut steel pipe can be discharged in time has an important influence on whether the steel pipe can be expanded in time in the subsequent processing, and therefore the present application is proposed in order to solve the problem.

Disclosure of Invention

The invention aims to provide a conveniently-operated cutting laser device for processing a stainless steel pipeline, which can efficiently and intensively process waste materials of the stainless steel pipe subjected to laser cutting in time, so that the subsequent processing efficiency of the stainless steel pipe is improved.

In order to achieve the purpose, the invention provides the following technical scheme: a cutting laser device convenient to operate and used for machining a stainless steel pipeline comprises a machining support and a stainless steel pipe, wherein a rotatable and telescopic numerical control clamping seat is arranged on the machining support, the stainless steel pipe is clamped by the numerical control clamping seat, an included angle of 10-30 degrees is formed between the center of the numerical control clamping seat and the horizontal direction, a laser cutting mechanism perpendicular to the stainless steel pipe is arranged on the machining support, and a waste collecting mechanism is arranged right below the free end of the stainless steel pipe;

the garbage collection mechanism is including setting up the collecting vat on processing the support, the bottom of collecting vat is provided with transport mechanism, transport mechanism includes the conveyer belt, the conveyer belt is connected with to rotate and is connected first driving roller and second driving roller on the processing support, first driving roller is connected with drives its pivoted driving motor, conveyer belt direction of motion's low reaches are provided with flattening device, flattening device includes the direction side pipe that contacts with the conveyer belt, direction side pipe connection has the flat pipe that the slope set up, the flat pipe is connected with the compression chamber, it is connected with the compression piece to set up to slide in the compression chamber, the compression piece is connected with and is used for driven hydraulic pressure mechanism, be provided with the switch door on the compression chamber, the below of switch door is provided with garbage collection box.

Through the technical scheme, the numerical control clamping seat can complete the operation of two degrees of freedom of rotation and extension, so that the laser cutting mechanism can cut holes of various shapes on the stainless steel pipe; the numerical control clamping seat is obliquely arranged, the stainless steel pipe is also obliquely arranged, so that waste materials formed after the stainless steel pipe is cut fall into the stainless steel pipe, and the waste materials can conveniently enter the waste material collecting mechanism along the hole or the stainless steel pipe formed by cutting under the action of gravity because the stainless steel pipe is obliquely arranged and the stainless steel pipe moves to a certain extent; the waste material with the cambered surface can be flatly laid in the flat tube to move until entering the compression cavity due to the inclined arrangement of the flat tube and the size of the flat tube; in the compression cavity, the hydraulic mechanism can drive the compression block to move, so that pressure is generated on the tiled waste, the waste with the arc surface becomes flat and enters the waste collection box again, and the flat waste occupies a smaller volume in the storage and transportation processes, so that the waste collection and transfer efficiency is higher; therefore, the waste material efficient that this application can in time be with stainless steel pipe after the laser cutting carries out centralized processing to improve the efficiency of stainless steel pipe follow-up processing.

Preferably, a contraction part is connected to the lower part of the collecting tank, the contraction part is connected with a connecting pipe, and the connecting pipe is connected with an air extractor.

Through above-mentioned technical scheme, through air extractor connecting connection pipe and constriction, can make the top of collecting vat whole be in the negative pressure state, consequently make the waste gas that produces in the laser cutting process can be taken away by the air extractor is timely to guarantee operator's operation safety and environmental protection.

Preferably, an inclined baffle is arranged at the joint of the contraction part and the connecting pipe, an air passing hole is formed in the baffle, and a movable door is arranged at the joint of the lower part of the baffle and the connecting pipe.

According to the technical scheme, in order to avoid the situation that the normal work of the air extractor is influenced by the fact that waste materials enter the connecting pipe, the baffle and the air passing hole are arranged to play a certain filtering role; make the baffle slope setting, consequently, the waste material gathers the position in the below under the effect of gravity to avoid stopping up the connecting pipe completely, set up the dodge gate in the lowest position simultaneously, can be timely take out the waste material after filtering, have convenient operation's advantage.

Preferably, be provided with vibration mechanism on the conveyer belt, vibration mechanism is including setting up the vibration area on the another side for conveyer belt and waste material contact surface, the vibration area with conveyer belt parallel arrangement, evenly be provided with profile of tooth portion on the vibration area, be provided with on first driving roller and the second driving roller and hold the groove that passes through of vibration area, the below of conveyer belt be provided with first driving roller parallel arrangement's vibrating arm, the vibrating arm with profile of tooth portion contact.

Through above-mentioned technical scheme, set up vibration mechanism, consequently when the conveyer belt moves, because profile of tooth portion and vibrating arm contact each other, the rigidity of vibrating arm simultaneously, consequently the conveyer belt is also carrying out the vibration from top to bottom at the in-process of motion, and this vibration can make the waste material that is not in the tiling state become the tiling state to the guarantee waste material can not block up in the position of flat pipe, is favorable to the collection to the waste material.

Preferably, the vibrating rod is rotatably connected with the collecting tank.

Through above-mentioned technical scheme, set the vibrating arm to the rotation and connect, can reduce the frictional force between vibrating arm and profile of tooth portion to increase the life of the two.

Preferably, the conveying belt is uniformly provided with rib rods arranged in parallel with the vibrating rod, and the rib rods are vertically and fixedly connected with the vibrating belt.

Through above-mentioned technical scheme, it is a holistic motion state to set up the upper and lower vibration that the rib pole can ensure the conveyer belt to make the vibration of conveyer belt more even, make the waste material become the effect of tiling better.

Preferably, the bottom of the compression block is uniformly provided with compression teeth.

Through above-mentioned technical scheme, set up the compression tooth because, the characteristic dimension of waste material is generally smaller, consequently sets up the compression tooth, can be better with the strength gathering of compression piece to the arcwall face of waste material to better flatten the waste material.

Preferably, the waste collection bin is provided with wheels.

Through above-mentioned technical scheme, set up the mobility reinforcing that the wheel made garbage collection box, be favorable to the transportation of waste material more, can improve work efficiency.

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

(1) the numerical control clamping seat is obliquely arranged, the stainless steel pipe is also obliquely arranged, so that waste materials formed after the stainless steel pipe is cut fall into the stainless steel pipe, and the waste materials can conveniently enter the waste material collecting mechanism along the hole formed by cutting or the stainless steel pipe under the action of gravity because the stainless steel pipe is obliquely arranged and the stainless steel pipe moves to a certain extent;

(2) the waste material with the cambered surface can be flatly laid in the flat tube to move until entering the compression cavity due to the inclined arrangement of the flat tube and the size of the flat tube;

(3) in the compression cavity, the hydraulic mechanism can drive the compression block to move, so that pressure is generated on the tiled waste, the waste with the arc surface becomes flat and enters the waste collection box again, and the flat waste occupies a smaller volume in the storage and transportation processes, so that the waste collection and transfer efficiency is higher;

(4) set up vibration mechanism, consequently when the conveyer belt moves, because profile of tooth portion and vibrating arm contact each other, the rigidity of vibrating arm simultaneously, consequently the conveyer belt is also carrying out the vibration from top to bottom at the in-process of motion, and this vibration can make the waste material that is not in the tiling state become the tiling state to the guarantee waste material can not block up in the position of flat pipe, is favorable to the collection to the waste material.

Drawings

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

FIG. 2 is a schematic view of the waste collection mechanism of the present invention;

FIG. 3 is a schematic structural view of a connecting tube according to the present invention;

FIG. 4 is a schematic view of the construction of the vibrating band and rib bar of the present invention.

In the figure: 1. processing a bracket; 2. a stainless steel tube; 3. a numerical control clamping seat; 4. a laser cutting mechanism; 5. collecting tank; 6. a conveyor belt; 7. a first drive roller; 8. a second driving roller; 9. a drive motor; 10. guiding a square tube; 11. a flat tube; 12. a compression chamber; 13. compressing the block; 14. a hydraulic mechanism; 15. opening and closing the door; 16. a collection box; 17. a constriction; 18. a connecting pipe; 19. an air extractor; 20. a baffle plate; 21. air passing holes; 22. a movable door; 23. vibrating the belt; 24. a tooth-shaped portion; 25. passing through the slot; 26. a vibrating rod; 27. a rib bar; 28. compressing the teeth; 29. and (4) wheels.

Detailed Description

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

Referring to fig. 1-4, an embodiment of the present invention is shown:

the utility model provides a stainless steel pipeline processing is with cutting laser device convenient to operation, is including processing support 1 and nonrust steel pipe 2, is provided with the numerical control clamping seat 3 that can rotate and stretch out and draw back on the processing support 1, and the nonrust steel pipe 2 of 3 centre gripping of numerical control clamping seat, and the center and the horizontal direction of numerical control clamping seat 3 are 10 to 30 contained angles, are provided with the laser cutting mechanism 4 with the perpendicular setting of nonrust steel pipe 2 on the processing support 1, are provided with garbage collection mechanism under the free end of nonrust steel pipe 2.

The numerical control clamping seat 3 can complete the operation of two degrees of freedom of rotation and expansion, so that the laser cutting mechanism 4 can cut holes of various shapes on the stainless steel pipe 2; and 3 slope settings with numerical control clamping seat, nonrust steel pipe 2 also slopes to set up, and consequently the waste material that forms after cutting nonrust steel pipe 2 has just fallen into nonrust steel pipe 2, because nonrust steel pipe 2 slope settings simultaneously has certain motion this moment, therefore the waste material can be along cutting the hole or the nonrust steel pipe 2 that forms, under the effect of gravity convenient entering into in the middle of the garbage collection mechanism.

Garbage collection mechanism is including setting up collecting vat 5 on processing support 1, the bottom of collecting vat 5 is provided with transport mechanism, transport mechanism includes conveyer belt 6, conveyer belt 6 is connected with and rotates first driving roller 7 and the second driving roller 8 of connection on processing support 1, first driving roller 7 is connected with its pivoted driving motor 9 of drive, the low reaches of conveyer belt 6 direction of motion are provided with flattening device, flattening device includes the direction side pipe 10 that contacts with conveyer belt 6, direction side pipe 10 is connected with the flat tube 11 that the slope set up, flat tube 11 is connected with compression chamber 12, it is connected with compression piece 13 to set up to slide in the compression chamber 12, compression piece 13 is connected with and is used for driven hydraulic pressure mechanism 14, be provided with switch door 15 on compression chamber 12, the below of switch door 15 is provided with garbage collection box 16.

A conveying mechanism is arranged, the waste material falls onto the conveying belt 6, the waste material gradually moves into the square guide pipe 10 through the movement of the conveying belt 6, and the waste material with the cambered surface can be flatly laid in the flat pipe 11 to move until the waste material enters the compression chamber 12 due to the inclined arrangement of the flat pipe 11 and the size of the flat pipe; in the compression chamber 12, since the hydraulic mechanism 14 can drive the compression block 13 to move, pressure is generated on the flat waste, so that the waste with a cambered surface becomes flat and enters the waste collection box 16 again, and since the volume of the flat waste occupied in the process of storage and transportation is smaller, the waste collection and transportation efficiency is higher; therefore, the waste material efficient that this application can in time be with stainless steel pipe 2 after laser cutting carries out centralized processing to improve the efficiency of 2 subsequent processing of stainless steel pipe.

A contraction part 17 is connected below the collecting tank 5, the contraction part 17 is connected with a connecting pipe 18, and the connecting pipe 18 is connected with an air extractor 19. Connecting pipe 18 and constriction 17 are connected through air extractor 19, can make the whole negative pressure state that is in the top of collecting vat 5, consequently make the waste gas that produces in the laser cutting process can be taken away by air extractor 19 is timely to ensure operator's operation safety and environmental protection.

An inclined baffle 20 is arranged at the joint of the contraction part 17 and the connecting pipe 18, an air passing hole 21 is arranged on the baffle 20, and a movable door 22 is arranged at the joint of the lower part of the baffle 20 and the connecting pipe 18. In order to prevent waste materials from entering the connecting pipe 18 and affecting the normal operation of the air pump 19, the baffle 20 and the air passing hole 21 are arranged to play a certain filtering role; the baffle 20 is inclined, so that the waste materials are collected at the lower position under the action of gravity, the connecting pipe 18 is prevented from being completely blocked, and meanwhile, the movable door 22 is arranged at the lowest position, so that the filtered waste materials can be taken out in time, and the automatic waste material filtering device has the advantage of convenience in operation.

Be provided with vibration mechanism on the conveyer belt 6, vibration mechanism is including setting up the vibration area 23 on the another side for conveyer belt 6 and waste material contact surface, vibration area 23 and conveyer belt 6 parallel arrangement, evenly be provided with tooth form portion 24 on the vibration area 23, be provided with the groove 25 that passes through that holds vibration area 23 on first driving roller 7 and the second driving roller 8, the below of conveyer belt 6 is provided with the vibrating arm 26 with first driving roller 7 parallel arrangement, vibrating arm 26 and tooth form portion 24 contact.

Set up vibration mechanism, consequently when conveyer belt 6 moves, because profile of tooth portion 24 and vibrating arm 26 contact each other, the rigidity of vibrating arm 26 simultaneously, consequently conveyer belt 6 is also carrying out the vibration from top to bottom at the in-process of motion, and this vibration can make the waste material that is not in the tiling state become the tiling state to the guarantee waste material can not block up in the position of flat pipe 11, is favorable to the collection to the waste material.

The oscillating bar 26 is rotatably connected to the collecting gutter 5. The arrangement of the oscillating rod 26 in a rotatable connection reduces the friction between the oscillating rod 26 and the toothed portion 24, thereby increasing the service life of both. The conveying belt 6 is uniformly provided with rib rods 27 which are arranged in parallel with the vibrating rods 26, and the rib rods 27 are vertically and fixedly connected with the vibrating belt 23. Set up rib 27 and can ensure that the upper and lower vibration of conveyer belt 6 is a holistic motion state to make conveyer belt 6's vibration more even, make the waste material become the effect of tiling better.

The bottom of the compression block 13 is uniformly provided with compression teeth 28. The compression teeth 28 are arranged because the characteristic size of the waste is generally smaller, so that the compression teeth 28 can better gather the force of the compression block 13 to the arc-shaped surface of the waste, and the waste can be better flattened.

The waste collection tank 16 is provided with wheels 29. The provision of the wheels 29 enhances the mobility of the waste collection box 16, which is more advantageous for the transfer of waste and can improve the working efficiency.

In conclusion, the beneficial effects of the invention are as follows:

(1) the numerical control clamping seat 3 is obliquely arranged, the stainless steel pipe 2 is also obliquely arranged, so that waste materials formed after the stainless steel pipe 2 is cut fall into the stainless steel pipe 2, and the waste materials can conveniently enter the waste material collecting mechanism along the hole formed by cutting or the stainless steel pipe 2 under the action of gravity because the stainless steel pipe 2 is obliquely arranged and the stainless steel pipe 2 moves to a certain extent;

(2) a conveying mechanism is arranged, the waste material falls onto the conveying belt 6, the waste material gradually moves into the square guide pipe 10 through the movement of the conveying belt 6, and the waste material with the cambered surface can be flatly laid in the flat pipe 11 to move until the waste material enters the compression chamber 12 due to the inclined arrangement of the flat pipe 11 and the size of the flat pipe;

(3) in the compression chamber 12, since the hydraulic mechanism 14 can drive the compression block 13 to move, pressure is generated on the flat waste, so that the waste with a cambered surface becomes flat and enters the waste collection box 16 again, and since the volume of the flat waste occupied in the process of storage and transportation is smaller, the waste collection and transportation efficiency is higher;

(4) set up vibration mechanism, consequently when conveyer belt 6 moves, because profile of tooth portion 24 and vibrating arm 26 contact each other, the rigidity of vibrating arm 26 simultaneously, consequently conveyer belt 6 is also carrying out the vibration from top to bottom at the in-process of motion, and this vibration can make the waste material that is not in the tiling state become the tiling state to the guarantee waste material can not block up in the position of flat pipe 11, is favorable to the collection to the waste material.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a stainless steel pipeline processing is with cutting laser device convenient to operation which characterized in that: the processing device comprises a processing support (1) and a stainless steel pipe (2), wherein a numerical control clamping seat (3) capable of rotating and stretching is arranged on the processing support (1), the stainless steel pipe (2) is clamped by the numerical control clamping seat (3), an included angle of 10-30 degrees is formed between the center of the numerical control clamping seat (3) and the horizontal direction, a laser cutting mechanism (4) perpendicular to the stainless steel pipe (2) is arranged on the processing support (1), and a waste collecting mechanism is arranged right below the free end of the stainless steel pipe (2);

the waste collecting mechanism comprises a collecting tank (5) arranged on a processing support (1), a conveying mechanism is arranged at the bottom of the collecting tank (5), the conveying mechanism comprises a conveying belt (6), the conveying belt (6) is connected with a first driving roller (7) and a second driving roller (8) which are rotatably connected onto the processing support (1), the first driving roller (7) is connected with a driving motor (9) for driving the first driving roller to rotate, a flattening device is arranged at the downstream of the movement direction of the conveying belt (6), the flattening device comprises a guide square pipe (10) which is in contact with the conveying belt (6), the guide square pipe (10) is connected with a flat pipe (11) which is obliquely arranged, the flat pipe (11) is connected with a compression cavity (12), a compression block (13) is arranged in the compression cavity (12) in a sliding manner, and the compression block (13) is connected with a hydraulic mechanism (14) for driving, the compression cavity (12) is provided with a switch door (15), and a waste collection box (16) is arranged below the switch door (15).

2. The cutting laser device for processing stainless steel pipes according to claim 1, wherein: the collecting tank is characterized in that a contraction part (17) is connected to the lower portion of the collecting tank (5), the contraction part (17) is connected with a connecting pipe (18), and the connecting pipe (18) is connected with an air extractor (19).

3. The cutting laser device for processing stainless steel pipes, which is convenient to operate, according to claim 2, is characterized in that: the connecting part of the contraction part (17) and the connecting pipe (18) is provided with an inclined baffle plate (20), the baffle plate (20) is provided with an air passing hole (21), and the connecting part of the lower part of the baffle plate (20) and the connecting pipe (18) is provided with a movable door (22).

4. The cutting laser device for processing stainless steel pipes according to claim 1, wherein: be provided with vibration mechanism on conveyer belt (6), vibration mechanism is including setting up vibration area (23) on the another side for conveyer belt (6) and waste material contact surface, vibration area (23) with conveyer belt (6) parallel arrangement, evenly be provided with profile of tooth portion (24) on vibration area (23), be provided with on first driving roller (7) and second driving roller (8) and hold pass through groove (25) of vibration area (23), the below of conveyer belt (6) be provided with vibrating arm (26) of first driving roller (7) parallel arrangement, vibrating arm (26) with profile of tooth portion (24) contact.

5. The cutting laser device for processing stainless steel pipes according to claim 4, wherein: the vibrating rod (26) is rotatably connected with the collecting tank (5).

6. The cutting laser device for processing stainless steel pipes according to claim 5, wherein: evenly be provided with on conveyer belt (6) with vibration rod (26) parallel arrangement's rib pole (27), rib pole (27) with vibration area (23) perpendicular fixed connection.

7. The cutting laser device for processing stainless steel pipes according to claim 1, wherein: the bottom of the compression block (13) is uniformly provided with compression teeth (28).

8. The cutting laser device for processing stainless steel pipes according to claim 1, wherein: the waste collection tank (16) is provided with wheels (29).