CN213969558U

CN213969558U - Ultrahigh-power laser cutting working platform

Info

Publication number: CN213969558U
Application number: CN202022819107.2U
Authority: CN
Inventors: 刘光辉; 张辉; 熊元平; 李亚彬
Original assignee: Jiangsu Xunlai Laser Technology Co Ltd; Suzhou Quick Laser Technology Co ltd
Current assignee: Jiangsu Xunlai Laser Technology Co Ltd; Suzhou Quick Laser Technology Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-08-17
Anticipated expiration: 2030-11-30

Abstract

The utility model discloses an ultra-high power laser cutting work platform, including enclosing the platform structure of synthetic frame, locate a plurality of longitudinal arrangement's in the platform structure rack cardboard group, locate a plurality of transversal arrangement's in the platform structure graphite board subassembly and the rack that transversal separation arranged in the corresponding a plurality of rack cardboards of inlay card, the graphite board subassembly includes the baffle group on fixed connection to platform structure both sides limit, and the graphite slat of baffle group inside is located to the centre gripping, rack cardboard group is fixed along same longitudinal position concatenation by a plurality of rack cardboards, rack cardboard both ends can be dismantled respectively through the installed part and be connected to between two baffle groups, or the side of its other end connection platform structure of one end connecting baffle group, be equipped with the red copper backplate that covers the installed part on the rack cardboard. The utility model discloses a dismantle convenient laser cutting work platform that has barrier propterty.

Description

Ultrahigh-power laser cutting working platform

Technical Field

The utility model belongs to the technical field of laser cutting, especially, relate to an ultra-high power laser cutting work platform.

Background

Laser cutting is one of the main application fields of laser processing, presents a vigorous development situation, and gradually replaces the traditional processing mode by virtue of the advantages of the laser cutting. With the continuous breakthrough of laser technology, higher and higher laser power gradually appears on the market, and the power can reach to tens of thousands of watts or even higher. The high heat generated by the high power laser places higher demands on the design of the working platform of the laser cutting machine.

Laser cutting machine work platform often adopts shaped steel tailor-welding in the existing market, and the centre has a plurality of vertical and horizontal supports and for the fixed welded integrative structure of can not dismantling, and long-time high power cutting will directly cut off support rack and the frame backup pad on the work platform, and it is convenient not possible to accomplish to dismantle the change, can not guarantee the stable cutting under the long-time high temperature environment again.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem and providing ultrahigh power laser cutting work platform to realize dismantling the convenient laser cutting work platform that has barrier propterty. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

super high power laser cutting work platform, including enclosing the platform structure of synthetic frame, locate a plurality of longitudinal arrangement's rack cardboard group in the platform structure, locate a plurality of transverse arrangement's graphite board subassembly in the platform structure and inlay the rack that transverse interval arranged in corresponding a plurality of rack cardboards of card, the graphite board subassembly includes the baffle group on fixed connection to platform structure both sides limit, and the graphite slat of baffle group inside is located to the centre gripping, rack cardboard group is fixed along same longitudinal position concatenation by a plurality of rack cardboards, rack cardboard both ends are passed through the installed part and can be dismantled respectively and be connected to between two baffle groups, or the side of its other end connection platform structure of baffle group is connected to one end, be equipped with the red copper backplate that covers the installed part on the rack cardboard.

Specifically, the platform structure is enclosed by the square pipe on two sets of relative limits and closes and constitute.

Specifically, a plurality of wheel sets and a plurality of photoelectric sensing plates are arranged on one opposite side of the platform structure.

Specifically, the side of the platform structure is provided with a backup plate for positioning the plate to be cut.

Specifically, the top angle position of the front end of the platform structure is provided with a brush plate for cleaning the laser cutting head.

Specifically, it is adjacent connect a plurality of rack cardboard between the baffle group, the both sides of baffle group are equipped with a plurality of first supporting blocks respectively, and the both ends of rack cardboard are connected through the installed part respectively and are fixed to first supporting block.

Specifically, be equipped with a plurality of rack cardboard between the side of baffle group and platform structure, the side of platform structure is equipped with a plurality of second supporting shoes, and the both ends of rack cardboard are connected through the installed part respectively and are fixed between first supporting shoe and the second supporting shoe.

Specifically, a plurality of clamping grooves are formed in the rack clamping plate at equal intervals, and the corresponding clamping grooves in the rack clamping plate at the same transverse position are embedded in the racks.

Compared with the prior art, the utility model discloses super high power laser cutting work platform's beneficial effect mainly embodies:

the rack clamping plate structure with a plurality of clamping grooves is arranged in the platform structure, so that a plurality of racks which are orderly arranged at intervals are laid on the surface of the platform structure, and the plate is positioned and stably erected on the surface of the rack through the backup plate, so that the cutting operation of the laser cutting head is facilitated, and the racks are not damaged during cutting; a transverse graphite plate assembly is arranged in the platform structure to form a rib plate for effectively supporting the rack clamping plate, so that the problem that the whole piece falls off due to the fact that the rack clamping plate is cut off by laser energy is avoided, and the graphite plate assembly is effectively protected; the link of rack cardboard is equipped with the red copper backplate that keeps off a position the installed part, and supplementary enhancement rack cardboard structure avoids laser cutting to cut off the pine that the installed part leads to the rack cardboard and takes off to guarantee the stability of laser cutting's long-time operation, rack cardboard is easily dismantled and is changed simultaneously, is convenient for maintain.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a partial enlarged view of a rack chuck assembly according to the present embodiment;

FIG. 3 is a second enlarged view of a portion of the rack card set of the present embodiment;

the figures in the drawings represent:

1 platform structure, 11 square pipes, 12 wheelsets, 13 photoelectric sensing boards, 14 brush boards, 2 rack clamping board groups, 21 rack clamping boards, 22 red copper protective boards, 23 clamping grooves, 3 graphite board groups, 31 baffle groups, 32 graphite strip boards, 33 bottom boards, 4 racks, 41 backup plates, 5 first supporting blocks and 51 second supporting blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1 to 3, the present embodiment is an ultrahigh power laser cutting work platform, which includes a platform structure 1 enclosing to form a frame, a plurality of rack clamping plates 2 longitudinally arranged in the platform structure 1, a plurality of graphite plate assemblies 3 transversely arranged in the platform structure 1, and racks 4 transversely arranged at intervals and embedded into the corresponding rack clamping plates.

Platform structure 1 is enclosed by two sets of square pipes 11 on the relative limit and closes and forms, and platform structure 1 is square frame.

A plurality of wheel sets 12 and a plurality of photoelectric sensing plates 13 are arranged on one opposite side of the platform structure 1.

The side of the platform structure 1 is provided with a backup plate 41 for positioning the sheet to be cut.

The front apex position of the platform construction 1 is provided with a brush plate 14 for cleaning the laser cutting head.

The graphite plate assembly 3 includes baffle groups 31 fixedly connected to two side edges of the platform structure 1, and graphite plates 32 clamped inside the baffle groups 31 for preventing the baffle groups 31 from being burnt out by laser energy. The baffle group 31 is welded and fixed with the side edge of the platform structure 1.

The graphite plate assembly 3 further comprises a bottom plate 33 connected with the supporting baffle group 31 and used for supporting the graphite plate, and the graphite plate 32 is fixedly clamped in the baffle group 31 through locking of mounting pieces.

The rack clamping plate group 2 is formed by splicing and fixing a plurality of rack clamping plates 21 along the same longitudinal position, and two ends of each rack clamping plate 21 are detachably connected between two baffle groups 31 or one end of each rack clamping plate is connected with the side of the other end of each baffle group 31 to be connected with the platform structure 1. The rack cardboard 21 is fixed to the side of baffle group 31 or platform structure 1 through the installed part locking, is equipped with the red copper backplate 22 that covers the installed part on the rack cardboard 21 for the protection installed part prevents that laser from cutting off.

Connect a plurality of rack cardboard 21 between adjacent baffle group 31, the both sides of baffle group 31 are equipped with a plurality of first supporting block 5 respectively, and 5 fixed connection of first supporting block are on bottom plate 33, and the both ends of rack cardboard 21 are connected through the installed part respectively and are fixed to first supporting block 5.

Be equipped with a plurality of rack cardboard 21 between the side of baffle group 31 and platform structure 1, the side of platform structure 1 is equipped with a plurality of second supporting shoes 51, and the both ends of rack cardboard 21 are connected through the installed part respectively and are fixed between first supporting shoe 5 and the second supporting shoe 51.

The mounting members in this embodiment are screws.

The rack clamping plate 21 is provided with a plurality of clamping grooves 23 which are arranged at equal intervals, the corresponding clamping grooves in the rack clamping plate 21 at the same transverse position are embedded into the rack 4, and the top of the rack 4 is provided with a plate for laser cutting operation.

When the embodiment is applied, the rack clamping plate 21 structure with the clamping grooves 23 is arranged in the platform structure 1, so that the racks 4 which are orderly arranged at intervals are laid on the surface of the platform structure 1, the plate is positioned and stably erected on the surfaces of the racks 4 through the backup plate 41, the cutting operation of the laser cutting head is facilitated, and the racks 4 are not damaged during cutting; the transverse graphite plate assembly 3 is arranged in the platform structure 1 to form a rib plate for effectively supporting the rack clamping plate 21, so that the problem that the whole piece falls off due to the fact that the rack clamping plate 21 is cut off by laser energy is solved, and the graphite plate assembly 3 is effectively protected; the link of rack cardboard 21 is equipped with the red copper backplate 22 that keeps off a position the installed part, and supplementary reinforcing rack cardboard 21 structure avoids laser cutting to cut off the pine that the installed part leads to rack cardboard 21 and takes off to guarantee the stability of the long-time operation of laser cutting, rack cardboard 21 is easily dismantled and is changed simultaneously, is convenient for maintain.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims

1. Super high power laser cutting work platform, its characterized in that: including enclosing the platform structure of synthetic frame, locate a plurality of longitudinal arrangement's in the platform structure rack cardboard group, locate a plurality of transverse arrangement's in the platform structure graphite board subassembly and the rack that transverse interval arranged in the corresponding a plurality of rack cardboards of inlay card, the graphite board subassembly includes the baffle group on fixed connection to platform structure both sides limit, and the graphite slat of baffle group inside is located to the centre gripping, rack cardboard group is fixed along same longitudinal position concatenation by a plurality of rack cardboards, rack cardboard both ends are passed through the installed part and can be dismantled respectively and be connected to between two baffle groups, or the side of its other end connection platform structure of baffle group is connected to one end, be equipped with the red copper backplate that covers the installed part on the rack cardboard.

2. The ultra-high power laser cutting work platform of claim 1, wherein: the platform structure is enclosed by two sets of square pipes on the opposite sides and is closed.

3. The ultra-high power laser cutting work platform of claim 1, wherein: and a plurality of wheel sets and a plurality of photoelectric induction plates are arranged on one opposite edge of the platform structure.

4. The ultra-high power laser cutting work platform of claim 1, wherein: the side of the platform structure is provided with a backup plate for positioning the plate to be cut.

5. The ultra-high power laser cutting work platform of claim 1, wherein: the top angle position of the front end of the platform structure is provided with a brush plate used for cleaning the laser cutting head.

6. The ultra-high power laser cutting work platform of claim 1, wherein: adjacent connect a plurality of rack cardboard between the baffle group, the both sides of baffle group are equipped with a plurality of first supporting blocks respectively, and the both ends of rack cardboard are connected through the installed part respectively and are fixed to first supporting block.

7. The ultra-high power laser cutting work platform of claim 6, wherein: a plurality of rack clamping plates are arranged between the baffle group and the side edge of the platform structure, a plurality of second supporting blocks are arranged on the side edge of the platform structure, and the two ends of each rack clamping plate are connected and fixed between the first supporting block and the second supporting block through mounting parts respectively.

8. The ultra-high power laser cutting work platform of claim 1, wherein: the rack clamping plate is provided with a plurality of clamping grooves which are arranged at equal intervals, and the clamping grooves in the rack clamping plate corresponding to the same transverse position are embedded into the racks.