CN205764452U - Long tube continuous laser cutting machine - Google Patents

Long tube continuous laser cutting machine Download PDF

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Publication number
CN205764452U
CN205764452U CN201620512161.3U CN201620512161U CN205764452U CN 205764452 U CN205764452 U CN 205764452U CN 201620512161 U CN201620512161 U CN 201620512161U CN 205764452 U CN205764452 U CN 205764452U
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China
Prior art keywords
slide block
cutting machine
laser cutting
long tube
continuous laser
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CN201620512161.3U
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Chinese (zh)
Inventor
孔剑
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Zhejiang Guoyan Laser Technology Co ltd
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Individual
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Abstract

The utility model discloses a kind of long tube continuous laser cutting machine, including base (1), left and right it is provided with to the first slide rail of level on described base (1), the first slide block (2) it is provided with on described first slide rail, described first slide block (2) upper surface is provided with the rotating driving device (3) for clamping tubing (8) one end, it is provided with column (4) on the described base (1) at described first slide rail rear, to the second slide rail of level before and after being provided with on described column (4), the second slide block (5) it is provided with on described second slide rail, the leading flank of described second slide block (5) protrudes the leading flank of described column (4), the leading flank of described second slide block (5) is connected with the Z-direction driving means (6) that upward and downward is vertical, it is provided with cutting head (7) on described Z-direction driving means (6).A kind of long tube continuous laser cutting machine that this utility model provides, it is possible to ensure that the tubing of random length precisely can cut with continuous high-efficient, save manpower.

Description

Long tube continuous laser cutting machine
Technical field
This utility model relates to a kind of long tube continuous laser cutting machine, belongs to device for cutting pipe technical field.
Background technology
During incising pipes, it is desirable to cutting head is positioned at the top of tubing, and the center that the extended line at its center is by tubing.In cutting process, X-direction slide block moves along tubing axis direction, and tubing is rotatable around its axis.The rotating mechanism of tubing is positioned at one end of tubing, limit owing to pipe-type processed finished products has length direction, conventional laser cutting machine can accomplish the most only to process a station of a tubing, need operator to be taken off by the product machined and put raw material continuation processing again, this processing must distribute one man operation one machine, cause human input excessive, and the production of continuous high-efficient cannot be accomplished.
Utility model content
Technical problem to be solved in the utility model is to provide the long tube continuous laser cutting machine that a kind of tubing that ensure that random length precisely can cut with continuous high-efficient;Further, this utility model provides a kind of linear electric motors good work environment, has the long tube continuous laser cutting machine of dust reduction capability;Further, this utility model provides a kind of level that can accurately regulate tubing and the long tube continuous laser cutting machine of axiality;Further, this utility model provides a kind of that have backstop gripper shoe function, prevents the long tube continuous laser cutting machine that gripper shoe and base excessively collide.
For solving above-mentioned technical problem, the technical solution adopted in the utility model is:
Long tube continuous laser cutting machine, including base, left and right it is provided with to the first slide rail of level on described base, it is provided with the first slide block on described first slide rail, described first slide block upper surface is provided with the rotating driving device for clamping tubing one end, it is provided with column on the described base at described first slide rail rear, to the second slide rail of level before and after being provided with on described column, it is provided with the second slide block on described second slide rail, the leading flank of described second slide block protrudes the leading flank of described column, the leading flank of described second slide block is connected with the Z-direction driving means that upward and downward is vertical, it is provided with cutting head in described Z-direction driving means, described cutting head is positioned at the top of described first slide rail;The other end of described tubing, through being fixed on the tube material supporting device on described column sidewall and spacing, is provided with the clamping device and localization handspike being both secured on described column sidewall between described tube material supporting device and rotating driving device.
One end with two first organ lids respectively, the two ends of described first slide block is connected, and the other end of the first organ lid described in two is connected with two terminations of described first slide rail respectively;Described first slide block is connected with the first linear electric motors being arranged in described first organ lid.
It is provided with splicing pallet on described first organ lid.
It is connected with the second organ lid between rear end and the rear end of described second slide rail of described second slide block;Described second slide block is connected with the second linear electric motors being arranged in described second organ lid.
Described Z-direction driving means includes that servomotor, the telescopic end of described servomotor are connected with gripper shoe, and described gripper shoe is connected with described cutting head, and described cutting head is laser head.
First slide rail, the first slide block and the first linear electric motors constitute X-direction driving means.
Second slide rail, the second slide block and the second linear electric motors constitute Y-direction driving means.
Described rotating driving device is controlled by the electric rotating machine of grating scale reading, and described rotating driving device includes for the chuck assembly of tubing one end described in clamping;Chuck assembly includes air spider.
Rotating driving device uses grating scale structure, it is possible to make machining accuracy and speed be greatly promoted.
The lower section of described gripper shoe is provided with the induction installation for gripper shoe described in backstop.
Described tube material supporting device includes flat board, described flat board is provided with for through described tubing and the through hole that can within it rotate.The material of flat board includes aluminum.
Described clamping device includes gripper cylinder, stroke big more than the 1mm of more described tube outer diameter of described gripper cylinder.
Described gripper cylinder effect is after having cut, and clamps tubing, and electric rotating machine away from cutting head toward X-direction, waits electric rotating machine to move into place and postpones, and the chuck on electric rotating machine can clamp tubing, and now gripper cylinder can unclamp.Big more than the 1mm of gripper cylinder stroke ratio pipe diameter, specifically sees that tubing size chooses cylinder stroke.
Described localization handspike is two orthogonal adjustment platforms, and described adjustment platform uses crossed roller rail structure.
Base and column use marble material, it is possible to the deviation produced due to vibrations during reducing working motion, it is ensured that the degree of accuracy of processing effect.
This utility model at least includes two pipe fitting supporting mechanisms, i.e. tube material supporting device and chuck assembly, base is fixed with can in X direction linear reciprocation slide X-direction driving means;Column is fixed on base, and it is fixed with the Y-direction driving means can slided along Y-direction linear reciprocation, cutting head can slide along Z-direction linear reciprocation and be fixed in gripper shoe, gripper shoe is fixed in Z-direction driving means, Z-direction driving means drives gripper shoe to move along Z-direction, and Z-direction driving means is vertically fixed in Y-direction driving means;Equipped with the rotating driving device that tubing can be driven to rotate in X-direction driving means, tubing can be fixed through the chuck assembly at rotating driving device center and the tube material supporting device being positioned on described column, after a station of tubing machines, gripper cylinder can clamp tubing, chuck assembly on rotating driving device can unclamp tubing, after rotating driving device moves to certain distance the most in X direction, chuck assembly clamps tubing, gripper cylinder unclamps, continue to start to process the next station of tubing, controller controls X-direction driving means, Y-direction driving means, Z-direction driving means and rotating driving device action.
The beneficial effects of the utility model: a kind of long tube continuous laser cutting machine that this utility model provides, the setting of tube material supporting device, for fixing tubing one end away from rotating driving device, prevent tubing far-end when rotated from swinging, control tubing deformation, prevent tubing because self linearity is bad cutting that is that bring bad, ensure cutting head centrage and tubing center superposition, guaranteeing machining accuracy, processed finished products rate is high, it is adaptable to thin-wall pipes high efficiency cutting is processed;Being applied in combination of tube material supporting device and chuck assembly, it is simple to the continuous cutting of long tube;The setting of gripper cylinder, the stroke of gripper cylinder can be automatically adjusted, thus control gripper cylinder and clamp pipe fitting or unclamp pipe fitting, when gripper cylinder clamps pipe fitting, chuck assembly unclamps, now rotating driving device can realize X to displacement, the i.e. processing stations of pipe fitting changes, and after the processing stations of pipe fitting fixes, chuck assembly clamps tubing, gripper cylinder unclamps, continue to start to process the next station of tubing, the most repeatedly, it is achieved same tubing is without taking off, get final product the purpose of Continuous maching, be greatly saved manpower;The setting of localization handspike, localization handspike can be along Y, Z-direction regulation, and localization handspike axis, respectively at vertical with tubing axis along Y, Z-direction, is used for regulating level and the axiality of tubing, degree of regulation height;The setting of the first organ lid, makes the first linear electric motors be positioned at sealing space, it is ensured that the requirement to environment of first linear electric motors, has dust reduction capability, make the first linear electric motors long for service life;The setting of the second organ lid, substantially prolongs the service life of the second linear electric motors;First organ lid can stretch along with the motion of the first slide block, and the second organ lid can stretch along with the motion of the second slide block, makes motor be positioned at sealing space all the time;The setting of induction installation, has backstop gripper shoe function, prevents gripper shoe from excessively colliding with base;First linear electric motors and the second linear electric motors precision height, speed soon, can accurately and quickly control X of the present utility model to the displacement with Y-direction.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the axonometric chart of Fig. 1;
Fig. 3 is the enlarged drawing of clamping device in Fig. 1.
Detailed description of the invention
Below in conjunction with the accompanying drawings this utility model is further described.
As shown in Fig. 1 ~ Fig. 3, long tube continuous laser cutting machine, including base 1, left and right it is provided with to the first slide rail of level on described base 1, the first slide block 2 it is provided with on described first slide rail, described first slide block 2 upper surface is provided with the rotating driving device 3 for clamping tubing 8 one end, it is provided with column 4 on the described base 1 at described first slide rail rear, to the second slide rail of level before and after being provided with on described column 4, the second slide block 5 it is provided with on described second slide rail, the leading flank of described second slide block 5 protrudes the leading flank of described column 4, the leading flank of described second slide block 5 is connected with the Z-direction driving means 6 that upward and downward is vertical, it is provided with cutting head 7 in described Z-direction driving means 6, described cutting head 7 is positioned at the top of described first slide rail;The other end of described tubing 8, through being fixed on the tube material supporting device 9 on described column 4 sidewall and spacing, is provided with the clamping device 10 and localization handspike 11 being both secured on described column 4 sidewall between described tube material supporting device 9 and rotating driving device 3.
One end with two first organ lids 12 respectively, the two ends of described first slide block 2 is connected, and the other end of the first organ lid 12 described in two is connected with two terminations of described first slide rail respectively;Described first slide block 2 is connected with the first linear electric motors being arranged in described first organ lid 12.
It is provided with splicing pallet 13 on described first organ lid 12.
It is connected with the second organ lid 14 between rear end and the rear end of described second slide rail of described second slide block 5;Described second slide block 5 is connected with the second linear electric motors being arranged in described second organ lid 14.
Described Z-direction driving means 6 includes that servomotor 15, the telescopic end of described servomotor 15 are connected with gripper shoe 16, and described gripper shoe 16 is connected with described cutting head 7, and described cutting head 7 is laser head.
Described rotating driving device 3 is controlled by the electric rotating machine of grating scale reading, and described rotating driving device 3 includes the chuck assembly 17 for tubing described in clamping 8 one end;Chuck assembly 17 includes air spider.
The lower section of described gripper shoe 16 is provided with the induction installation for gripper shoe described in backstop 16.
Described tube material supporting device 9 includes flat board, described flat board is provided with for through described tubing 8 and the through hole that can within it rotate.
Described clamping device 10 includes gripper cylinder, the stroke more described tubing 8 big 1mm of external diameter of described gripper cylinder.
Described localization handspike 11 is two orthogonal adjustment platforms, and described adjustment platform uses crossed roller rail structure.
The above is only preferred implementation of the present utility model; it is noted that, for those skilled in the art; on the premise of without departing from this utility model principle, it is also possible to make some improvements and modifications, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (10)

  1. null1. long tube continuous laser cutting machine,It is characterized in that: include base (1),Left and right it is provided with to the first slide rail of level on described base (1),The first slide block (2) it is provided with on described first slide rail,Described first slide block (2) upper surface is provided with the rotating driving device (3) for clamping tubing (8) one end,It is provided with column (4) on the described base (1) at described first slide rail rear,To the second slide rail of level before and after being provided with on described column (4),The second slide block (5) it is provided with on described second slide rail,The leading flank of described second slide block (5) protrudes the leading flank of described column (4),The leading flank of described second slide block (5) is connected with the Z-direction driving means (6) that upward and downward is vertical,It is provided with cutting head (7) on described Z-direction driving means (6),Described cutting head (7) is positioned at the top of described first slide rail;The other end of described tubing (8) is spacing through the tube material supporting device (9) being fixed on described column (4) sidewall, is provided with the clamping device (10) and localization handspike (11) being both secured on described column (4) sidewall between described tube material supporting device (9) and rotating driving device (3).
  2. Long tube continuous laser cutting machine the most according to claim 1, it is characterized in that: one end with two first organ lids (12) respectively, the two ends of described first slide block (2) is connected, and described in two, the other end of the first organ lid (12) is connected with two terminations of described first slide rail respectively;Described first slide block (2) is connected with the first linear electric motors being arranged in described first organ lid (12).
  3. Long tube continuous laser cutting machine the most according to claim 2, it is characterised in that: it is provided with splicing pallet (13) on described first organ lid (12).
  4. Long tube continuous laser cutting machine the most according to claim 1, it is characterised in that: it is connected with the second organ lid (14) between rear end and the rear end of described second slide rail of described second slide block (5);Described second slide block (5) is connected with the second linear electric motors being arranged in described second organ lid (14).
  5. Long tube continuous laser cutting machine the most according to claim 1, it is characterized in that: described Z-direction driving means (6) includes servomotor (15), the telescopic end of described servomotor (15) is connected with gripper shoe (16), being connected with described cutting head (7) in described gripper shoe (16), described cutting head (7) is laser head.
  6. Long tube continuous laser cutting machine the most according to claim 1, it is characterized in that: described rotating driving device (3) is controlled by the electric rotating machine of grating scale reading, and described rotating driving device (3) includes the chuck assembly (17) for tubing described in clamping (8) one end;Chuck assembly (17) includes air spider.
  7. Long tube continuous laser cutting machine the most according to claim 5, it is characterised in that: the lower section of described gripper shoe (16) is provided with the induction installation for gripper shoe described in backstop (16).
  8. Long tube continuous laser cutting machine the most according to claim 1, it is characterised in that: described tube material supporting device (9) includes flat board, described flat board is provided with for through described tubing (8) and the through hole that can within it rotate.
  9. Long tube continuous laser cutting machine the most according to claim 1, it is characterised in that: described clamping device (10) includes gripper cylinder, stroke big more than the 1mm of more described tubing (8) external diameter of described gripper cylinder.
  10. Long tube continuous laser cutting machine the most according to claim 1, it is characterised in that: described localization handspike (11) is two orthogonal adjustment platforms, and described adjustment platform uses crossed roller rail structure.
CN201620512161.3U 2016-05-31 2016-05-31 Long tube continuous laser cutting machine Active CN205764452U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201620512161.3U CN205764452U (en) 2016-05-31 2016-05-31 Long tube continuous laser cutting machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201620512161.3U CN205764452U (en) 2016-05-31 2016-05-31 Long tube continuous laser cutting machine

Publications (1)

Publication Number Publication Date
CN205764452U true CN205764452U (en) 2016-12-07

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Application Number Title Priority Date Filing Date
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Country Status (1)

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CN (1) CN205764452U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105880846A (en) * 2016-05-31 2016-08-24 孔剑 Continuous laser cutting machine for long pipe

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105880846A (en) * 2016-05-31 2016-08-24 孔剑 Continuous laser cutting machine for long pipe
CN105880846B (en) * 2016-05-31 2018-02-23 孔剑 Long tube continuous laser cutting machine

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
TR01 Transfer of patent right

Effective date of registration: 20221108

Address after: 310000 Room 1103, Building 5, Xinghui City, No. 123, Dayuan Road, Lin'an District, Hangzhou, Zhejiang

Patentee after: Zhejiang Guoyan Laser Technology Co.,Ltd.

Address before: Factory Building 3, No. 189, Zhangji Road, SME Park, Kunshan Development Zone, Suzhou City, Jiangsu Province 215300

Patentee before: Kong Jian

TR01 Transfer of patent right