CN205733476U - The charging clamp structure of laser cutting machine - Google Patents

Abstract

This utility model provides the charging clamp structure of laser cutting machine, and it can complete the feeding on length direction with auto-feed, shortens the process-cycle of light-wall pipe.It includes operating board, the length direction of described operating board is disposed with X axis slide, described X axis slide can move linearly along the length direction of operating board, described operating board two ends alongst are respectively arranged with splicing jaw, V-type support bar, described splicing jaw, described X axis slide it is disposed with in space between V-type support bar, R axle electric rotating machine it is provided with on described X axis slide, the anterior outfan of described R axle electric rotating machine is set with air spider, R axle electric rotating machine be provided centrally with through hole, the claw of described through hole and described air spider is centrally located on same work straight line, and described work straight line parallel is in the moving direction of described X axis slide, the rear end of described R axle electric rotating machine is provided with V-type support bar.

Description

The charging clamp structure of laser cutting machine

Technical field

This utility model relates to the charging clamp structure of the technical field of cut, specially laser cutting machine.

Background technology

During existing Laser cutting light-wall pipe, need light-wall pipe is pre-machined into the single hop thin-walled of designated length Pipe, is then held on the chuck of correspondence, and owing to needs cut in advance, it makes process-cycle of whole light-wall pipe long, The production efficiency making light-wall pipe is low.

Summary of the invention

For the problems referred to above, this utility model provides the charging clamp structure of laser cutting machine, its make light-wall pipe without Need the processing of cutting in advance, the feeding on length direction can be completed with auto-feed, shorten the process-cycle of light-wall pipe so that thin The processing of wall pipe is fast rapid, improves production efficiency.

The charging clamp structure of laser cutting machine, it is characterised in that: it includes operating board, the length direction of described operating board Being disposed with X axis slide, described X axis slide can move linearly along the length direction of operating board, and described operating board is along length The two ends in degree direction are respectively arranged with splicing jaw, V-type support bar, cloth in the space between described splicing jaw, V-type support bar It is equipped with described X axis slide, described X axis slide is provided with R axle electric rotating machine, the anterior output of described R axle electric rotating machine End be set with air spider, R axle electric rotating machine be provided centrally with through hole, described through hole and the claw of described air spider It is centrally located on same work straight line and described work straight line parallel revolves in the moving direction of described X axis slide, described R axle The rear end of rotating motor is provided with V-type support bar, and described V-type support bar extends along the back-end central axle of described R axle electric rotating machine Direction is arranged, the section of the open cavity in the upper end of described V-type support bar is V-type, and the open cavity in described upper end is used for placing thin-walled Pipe, the Clamping Center axle of described splicing jaw coincides with on the extended line of described work straight line.

It is further characterized by

Described splicing jaw, air spider are all by pneumatic control, and described splicing jaw is for clamping correspondence position Light-wall pipe so that R axle electric rotating machine drive air spider along X-axis retreat time, light-wall pipe will not and then retreat；

The installation end of described air spider is set in the outfan of described R axle electric rotating machine, passing through of described R axle electric rotating machine Punch position is provided with cannulated sleeve, and light-wall pipe is clamped by air spider after running through the centre bore of described cannulated sleeve so that R Axle electric rotating machine can drive light-wall pipe to rotate；

The base support of described R axle electric rotating machine is in the X axis slide of X-axis motor, the output shaft fastening of described X-axis motor Connecting described X axis slide, described X-axis motor is installed in the upper surface of described operating board, and described X-axis motor drives X axis slide Do feed motion at X axis, and then drive light-wall pipe in X axis feeding；

Described X axis slide is installed in X-axis guide rail by notch, and X-axis guide rail is installed in described operating board, and it guarantees The straight line of X axis slide is to motion；

Described splicing jaw fastens the upper surface of the front end of described operating board by connecting plate, and it guarantees the folder of splicing jaw Hold the Clamping Center axle of central shaft and described air spider on the same line；

Described V-type support bar is arranged in the rear end of described R axle electric rotating machine by installing rack, and the bottom of described installing rack is solid Being loaded on the rear end of described operating board, described V-type support bar is installed in the upper support position of described installing rack.

After using structure of the present utility model, whole light-wall pipe is positioned in the installation cavity of V-type support bar, then makes The front end that whole light-wall pipe runs through is positioned at the lower position of anterior laser cutting head after running through air spider, air spider clamping is thin Wall pipe, laser cutting head cuts away the front end redundance of light-wall pipe to be carried out cutter, X axis slide X axis feeding afterwards, the rotation of R axle Rotating motor rotates in a circumferential direction, and coordinates the laser of laser cutting head, completes the processing for one section of light-wall pipe, cut off down afterwards Material, during the charging of back segment light-wall pipe, splicing jaw is for clamping the light-wall pipe of correspondence position, so that R axle electric rotating machine band Dynamic air spider is along X-axis slow astern measured length, and air spider clamps light-wall pipe afterwards, splicing jaw unclamps light-wall pipe, X-axis To the length of feeding light-wall pipe to be formed, X axis slide X axis feeding afterwards, R axle electric rotating machine rotate in a circumferential direction, and coordinate laser The laser of cutting head, completes the processing for next section of light-wall pipe, successively cyclic process light-wall pipe, until the length of whole light-wall pipe The degree processed end in direction, it makes light-wall pipe process without cutting in advance, can complete entering on length direction with auto-feed Give, shorten the process-cycle of light-wall pipe so that the processing of light-wall pipe is fast rapid, improves production efficiency.

Accompanying drawing explanation

Fig. 1 is axonometric chart structural representation of the present utility model (removing machine casing part)；

Fig. 2 is front view broken section structural representation (addition laser cutting head) of the present utility model；

In figure, the title corresponding to sequence number is as follows:

Operating board 1, X axis slide 2, splicing jaw 3, V-type support bar 4, R axle electric rotating machine 5, air spider 6, work are directly Line 7, light-wall pipe 8, cannulated sleeve 9, base 10, notch 11, X-axis guide rail 12, connecting plate 13, installing rack 14, cut 15.

Detailed description of the invention

The charging clamp structure of laser cutting machine, is shown in Fig. 1, Fig. 2: it includes operating board 1, the length direction cloth of operating board 1 Being equipped with X axis slide 2, X axis slide 2 can move linearly along the length direction of operating board 1, and operating board 1 is alongst Two ends be respectively arranged with splicing jaw 3, V-type support bar 4, be disposed with X in the space between splicing jaw 3, V-type support bar 4 Axially slide 2, X axis slide 2 is provided with R axle electric rotating machine 5, and the anterior outfan of R axle electric rotating machine 5 is set with pneumatic clamping Dish 6, R axle electric rotating machine 5 be provided centrally with through hole, it is straight that the claw of through hole and air spider 6 is centrally located at same work On line 7 and work straight line 7 is parallel to the moving direction of X axis slide 2, the rear end of R axle electric rotating machine 5 is provided with V-type support bar 4, V-type support bar 4 is arranged along the back-end central axle extending direction of R axle electric rotating machine 5, the open cavity in the upper end of V-type support bar 4 Section be V-type, the open cavity in upper end is used for placing light-wall pipe 8, and the Clamping Center axle of splicing jaw 3 coincides with work straight line 7 Extended line on.

Splicing jaw 3, air spider 6 are all by pneumatic control, and splicing jaw 3 is for clamping the light-wall pipe of correspondence position 8 so that R axle electric rotating machine 5 drive air spider 6 along X-axis retreat time, light-wall pipe will not and then retreat；

The installation end of air spider 6 is set in the outfan of R axle electric rotating machine 5, the through hole position of R axle electric rotating machine 5 Being provided with cannulated sleeve 9, light-wall pipe 8 is clamped by air spider 6 after running through the centre bore of cannulated sleeve 9 so that R axle electric rotating Machine 5 can drive light-wall pipe 8 to rotate；

The base 10 of R axle electric rotating machine 5 is supported on the X axis of X-axis motor (being not drawn in figure, belong to existing mature structure) Slide 2, the output shaft of X-axis motor is fastenedly connected X axis slide 2, and X-axis motor is installed in the upper surface of operating board 1, X-axis motor Drive X axis slide 2 to do feed motion at X axis, and then drive light-wall pipe 8 in X axis feeding；

X axis slide 2 is installed in X-axis guide rail 12 by notch 11, and X-axis guide rail 12 is installed in operating board 1, and it guarantees The straight line of X axis slide is to motion；

Splicing jaw 3 is by the upper surface of the front end of connecting plate 13 tightening operation platform 1, and it guarantees the clamping of splicing jaw 3 The Clamping Center axle of central shaft and air spider 6 is on the same line；

V-type support bar 4 is arranged in the rear end of R axle electric rotating machine 5 by installing rack 14, and the bottom of installing rack 14 is installed in behaviour The rear end of station 1, V-type support bar 4 is installed in the upper support position of installing rack 14, and it guarantees that the installation of V-type support bar 4 is high Degree.

Its operation principle is as follows: be positioned in the installation cavity of V-type support bar 4 by whole light-wall pipe, then make whole thin The front end that wall pipe 8 runs through is positioned at the lower position of anterior laser cutting head 15 after running through air spider 6, air spider 6 clamps thin Wall pipe, laser cutting head 15 cuts away the front end redundance of light-wall pipe to be carried out cutter, X axis slide 2X axial feed, R axle afterwards Electric rotating machine 5 rotates in a circumferential direction, and coordinates the laser of laser cutting head 15, completes the processing for one section of light-wall pipe, cut off afterwards Becoming blanking, during the charging of back segment light-wall pipe, splicing jaw 3 is for clamping the light-wall pipe of correspondence position, so that R axle electric rotating Machine 5 drives air spider 6 along X-axis slow astern measured length, and air spider 6 clamps light-wall pipe afterwards, splicing jaw 3 unclamps thin Wall pipe, the length of X axis feeding light-wall pipe to be formed, afterwards X axis slide 2X axial feed, the circumference rotation of R axle electric rotating machine 5 Turn, coordinate the laser of laser cutting head, complete the processing for next section of light-wall pipe, successively cyclic process light-wall pipe, until whole The processed end of length direction of root light-wall pipe, it makes light-wall pipe process without cutting in advance, can complete with auto-feed long Feeding on degree direction, shortens the process-cycle of light-wall pipe so that the processing of light-wall pipe is fast rapid, improves production effect Rate.

Above specific embodiment of the utility model is described in detail, but content has been only what this utility model was created Preferred embodiment, it is impossible to be considered for limiting the practical range that this utility model is created.All creation according to this utility model is applied for Equalization change and the improvement etc. that scope is made, within all should still belonging to patent covering scope of the present utility model.

Claims (7)

1. the charging clamp structure of laser cutting machine, it is characterised in that: it includes operating board, the length direction cloth of described operating board Being equipped with X axis slide, described X axis slide can move linearly along the length direction of operating board, and described operating board is along length The two ends in direction are respectively arranged with splicing jaw, V-type support bar, arrange in the space between described splicing jaw, V-type support bar There is described X axis slide, described X axis slide is provided with R axle electric rotating machine, the anterior outfan of described R axle electric rotating machine Be set with air spider, R axle electric rotating machine be provided centrally with through hole, in the claw of described through hole and described air spider The heart is positioned on same work straight line and described work straight line parallel rotates in the moving direction of described X axis slide, described R axle The rear end of motor is provided with V-type support bar, and described V-type support bar is along the back-end central axle prolongation side of described R axle electric rotating machine To layout, the section of the open cavity in the upper end of described V-type support bar is V-type, and the open cavity in described upper end is used for placing light-wall pipe, The Clamping Center axle of described splicing jaw coincides with on the extended line of described work straight line.

2. the charging clamp structure of laser cutting machine as claimed in claim 1, it is characterised in that: described splicing jaw, pneumatic Chuck is all by pneumatic control, and described splicing jaw is for clamping the light-wall pipe of correspondence position.

3. the charging clamp structure of laser cutting machine as claimed in claim 1, it is characterised in that: the installation of described air spider End is set in the outfan of described R axle electric rotating machine, and the through hole position of described R axle electric rotating machine is provided with cannulated sleeve, thin Wall pipe is clamped by air spider after running through the centre bore of described cannulated sleeve.

4. the charging clamp structure of laser cutting machine as claimed in claim 1, it is characterised in that: described R axle electric rotating machine Base support is fastenedly connected described X axis slide, described X-axis in the X axis slide of X-axis motor, the output shaft of described X-axis motor Motor is installed in the upper surface of described operating board.

5. the charging clamp structure of laser cutting machine as claimed in claim 4, it is characterised in that: described X axis slide passes through Notch is installed in X-axis guide rail, and X-axis guide rail is installed in described operating board.

6. the charging clamp structure of laser cutting machine as claimed in claim 1, it is characterised in that: described splicing jaw is by even Fishplate bar fastens the upper surface of the front end of described operating board.

7. the charging clamp structure of laser cutting machine as claimed in claim 1, it is characterised in that: described V-type support bar passes through Installing rack is arranged in the rear end of described R axle electric rotating machine, and the bottom of described installing rack is installed in the rear end of described operating board, described V-type support bar is installed in the upper support position of described installing rack.