CN217859402U - Laser cutting machine's two fuselage structures of disconnect-type - Google Patents
Laser cutting machine's two fuselage structures of disconnect-type Download PDFInfo
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- CN217859402U CN217859402U CN202221520595.XU CN202221520595U CN217859402U CN 217859402 U CN217859402 U CN 217859402U CN 202221520595 U CN202221520595 U CN 202221520595U CN 217859402 U CN217859402 U CN 217859402U
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Abstract
The utility model discloses a separate double-bed structure of a laser cutting machine, which comprises an outer bed body and an inner bed body, wherein the outer bed body comprises a plurality of first stand square tubes, a first supporting frame body, a plurality of first supporting square tubes and two first track square tubes; the inner bed body is arranged in the outer bed body, and the inner bed body and the outer bed body are separated from each other; the inner lathe bed comprises a plurality of second vertical foot square tubes, two second track square tubes, two third track supporting frames and a plurality of blanking hoppers. The outer lathe bed and the inner lathe bed are separated from each other, the lathe bed structure corresponding to the cutting area can be integrated into the inner lathe bed, the thermal influence of laser beams in the processing area on the outer lathe bed is avoided, and the processing reliability of the cutting machine is improved; the main framework of the outer lathe bed body is built by adopting square tube welding, the mounting efficiency is high, and the inner lathe bed body is provided with a blanking hopper structure, so that the material receiving is convenient.
Description
Technical Field
The utility model relates to a laser cutting equipment technical field, in particular to laser cutting machine's two fuselage of disconnect-type structure.
Background
The laser cutting is to focus the laser emitted from a laser into a laser beam with high power density through an optical path system. The laser beam irradiates the surface of the workpiece to make the workpiece reach a melting point or a boiling point, and simultaneously, the high-pressure gas coaxial with the laser beam blows away the molten or gasified metal. With the relative position movement of the light beam and the workpiece, the material is finally formed into a kerf, thereby achieving the purpose of cutting. In the actual use process of the machine tool, when the laser beam cuts a workpiece, the residual light after cutting through can be irradiated on the machine tool body below the workpiece. Particularly, a high-power laser irradiates a main body of a machine tool body, so that the local part of the machine tool body is heated, deformed and even burnt through, the cutting precision is influenced slightly, the strength of the machine tool body is damaged seriously, and the service life of the machine tool is influenced.
The applicant filed 2020.10.14 with a patent 202022283769.2, which discloses a laser cutting machine tool body, comprising an inner tool body and an outer tool body, wherein a cavity is arranged in the outer tool body, the inner tool body is positioned in the cavity, and the side wall of the inner tool body is connected with the side wall of the cavity; the inner bed body comprises an inner bed body first supporting seat, an inner bed body second supporting seat, an inner bed body connecting square tube and an inner bed body connecting plate, one end of the inner bed body first supporting seat is connected with one end of the inner bed body second supporting seat through the inner bed body connecting square tube, and the other end of the inner bed body first supporting seat is connected with the other end of the inner bed body second supporting seat through the inner bed body connecting plate. The outer side surface of the inner bed body first supporting seat is connected with the inner side surface of the outer bed body first supporting seat, and the outer side surface of the inner bed body second supporting seat is connected with the inner side surface of the outer bed body second supporting seat; the outer lathe bed includes first guide rail seat and second guide rail seat, and first guide rail seat connection is on the first supporting seat of outer lathe bed, and second guide rail seat connection is on outer lathe bed second supporting seat.
The inner lathe bed of the patent 202022283769.2 can be used for bearing the weight of a plate on a workbench and the influence of heat radiation generated during laser cutting, so that the influence of the factors on the outer lathe bed is reduced, and the dimensional accuracy of the outer lathe bed is improved; however, the patent 202022283769.2 has problems that: the side wall of the inner bed body is connected with the side wall of the cavity of the outer bed body, the outer side surface of the first support seat of the inner bed body is connected with the inner side surface of the first support seat of the outer bed body, and the outer side surface of the second support seat of the inner bed body is connected with the inner side surface of the second support seat of the outer bed body, namely, the inner bed body is still connected with the outer bed body, and the weight of a plate born by the inner bed body and heat radiation generated during laser cutting still influence the outer bed body; secondly, the main bed body framework of the outer bed body is welded and built by adopting a plate structure, so that the mounting efficiency is low, and the production efficiency of the outer bed body is not high; and thirdly, the inner lathe bed is not provided with a blanking hopper structure, so that the material is inconvenient to receive.
SUMMERY OF THE UTILITY MODEL
The technical problem to be solved by the present invention is to provide a separate double-bed structure of a laser cutting machine according to the deficiencies of the prior art, wherein the outer bed and the inner bed of the double-bed structure are separated from each other, the bed structure corresponding to the cutting area is integrated into the inner bed, and the thermal influence of the laser beam of the processing area on the outer bed is avoided; the dust removal and air draft, the upper and lower workbench supports and the blanking hopper structure are integrated on the inner lathe bed, and the laser cutting head and the beam moving system thereof are independently supported on the outer lathe bed, so that the moving shafts influencing the cutting precision are all supported on the outer lathe bed, the thermal deformation influence of laser cutting is avoided, the processing reliability of the cutting machine is improved, and the service life of the machine is prolonged; meanwhile, the bed body main framework of the outer bed body of the double-bed-body structure is built by welding through a square tube, so that the mounting efficiency is high, and the production efficiency of the outer bed body is high; the inner lathe bed is provided with a blanking hopper structure, so that the material receiving is convenient.
In order to solve the technical problem, the technical scheme of the utility model is that: a split double-bed structure of a laser cutting machine, comprising:
the outer lathe bed comprises a plurality of first stand square tubes, a first supporting frame body, a plurality of first supporting square tubes and two first track square tubes, the first supporting frame body is welded on the first stand square tubes, the first supporting square tubes are vertically welded on the left end and the right end of the first supporting frame body, one first track square tube is welded on the upper end of the first supporting square tube at the left end, the other first track square tube is welded on the upper end of the first supporting square tube at the right end, the two first track square tubes are parallel to each other, and first tracks are respectively arranged on the upper sides of the two first track square tubes;
the inner bed body is arranged in the outer bed body, and the inner bed body and the outer bed body are mutually separated; the inner bed body comprises a plurality of second vertical leg square tubes, two second track square tubes, two third track support frames and a plurality of blanking hoppers; the two second track square tubes are respectively welded on the corresponding second vertical foot square tubes, the two second track square tubes are parallel to each other, second tracks are respectively installed at one ends, close to the inner part of the inner lathe bed, of the upper sides of the two second track square tubes, third track supporting frames are respectively installed at one ends, far away from the inner part of the inner lathe bed, of the upper sides of the two second track square tubes, and third tracks are respectively installed at the upper sides of the two third track supporting frames; the plurality of blanking hoppers are arranged between the two second track square tubes.
Preferably, the first supporting frame body comprises two supporting longitudinal beams and two supporting cross beams, the two supporting cross beams are welded at two ends of the two supporting longitudinal beams, and two first connecting cross beams are welded between the middle parts of the two supporting longitudinal beams in parallel; the quantity of first stand foot square tube is eight, and wherein four first stand foot square tube intervals and vertical welding are in the lower extreme of a support longeron, and four other first stand foot square tube intervals and vertical welding are in the lower extreme of another support longeron.
Preferably, the number of the first support square tubes is ten; the five first supporting square tubes are vertically welded to the upper end of one supporting longitudinal beam at intervals, and the upper ends of the five first supporting square tubes are welded with one first track square tube; the other five first supporting square tubes are vertically welded to the upper end of the other supporting longitudinal beam at intervals, and the upper ends of the five first supporting square tubes are welded with the other first rail square tube.
Preferably, the number of the second square tube stand is eight, wherein four second square tube stand are vertically welded to the lower end of one second track square tube at intervals, and the other four second square tube stand are vertically welded to the lower end of the other second track square tube at intervals; and a plurality of air exhaust holes are formed in one side, close to the inner part of the inner bed body, of each of the two second rail square tubes at intervals.
Preferably, be equipped with two second between two second track square tube and connect crossbeam and five connecting plates, two second are connected the crossbeam and are welded in the rear end of two second track square tubes side by side, and five connecting plates interval mount are in the front end of two second track square tubes.
Preferably, the number of the blanking hoppers is four, the left ends and the right ends of the four blanking hoppers are respectively connected with the two second track square tubes, and the front ends and the rear ends of the four blanking hoppers are respectively connected with the corresponding connecting plates; the lower side of the blanking hopper is provided with a reinforcing rib.
Preferably, the third track support frame comprises a support side plate, a support top plate and a plurality of C-shaped support plates, the support side plate is welded on one end, far away from the inner part of the bed body, of the upper side of the second track square tube, the support top plate is welded at the upper end of the support side plate, and the C-shaped support plates are respectively welded with the second track square tube, the support side plate and the support top plate.
Preferably, a first mounting fixing plate is welded at the lower end of the first vertical leg square tube, the first mounting fixing plate is provided with a first mounting fixing hole, and a first square hole is formed in the outer side of the first vertical leg square tube; the lower extreme welding of second footing square tube has second installation fixed plate, and second installation fixed plate is equipped with second installation fixed orifices, and the second quad slit has been seted up in the outside of second footing square tube.
The utility model has the advantages that: the outer lathe bed and the inner lathe bed of the utility model are mutually separated, the lathe bed structure corresponding to the cutting area is integrated into the inner lathe bed, and the heat influence of the laser beam of the processing area on the outer lathe bed is avoided; the dust removal and air draft, the upper and lower workbench supports and the blanking hopper structure are integrated on the inner lathe bed, and the outer lathe bed is used for supporting the laser cutting head and the beam moving system thereof, so that the movement axes influencing the cutting precision are all supported on the outer lathe bed, the thermal deformation influence of laser cutting is avoided, the processing reliability of the cutting machine is improved, and the service life of the machine is prolonged; secondly, the main framework of the outer bed body of the utility model is built by welding through a square tube, so that the installation efficiency is higher, and the production efficiency of the outer bed body is higher; thirdly, the inner bed body of the utility model is provided with a blanking hopper structure, which is convenient for receiving materials.
Drawings
Fig. 1 is a perspective view of the overall structure of the present invention.
Fig. 2 is a top view of the overall structure of the present invention.
Fig. 3 is a structural view of the outer bed.
Fig. 4 is one of the structural views of the inner bed.
Fig. 5 is a second structural view of the inner bed.
Detailed Description
The structure and operation of the present invention will be further described in detail with reference to the accompanying drawings.
As shown in fig. 1-5, the present invention relates to a split double-bed structure of a laser cutting machine, which comprises an outer bed 100 and an inner bed 200; the outer lathe bed 100 comprises a plurality of first stand square tubes 1, a first supporting frame body 2, a plurality of first supporting square tubes 3 and two first track square tubes 4, the first supporting frame body 2 is welded on the first stand square tubes 1, the first supporting square tubes 3 are vertically welded on the left end and the right end of the first supporting frame body 2, one first track square tube 4 is welded on the upper end of the first supporting square tube 3 at the left end, the other first track square tube 4 is welded on the upper end of the first supporting square tube 3 at the right end, the two first track square tubes 4 are parallel to each other, and first tracks 41 are respectively installed on the upper sides of the two first track square tubes 4; the inner bed 200 is installed in the outer bed 100, and the inner bed 200 and the outer bed 100 are separated from each other; the inner lathe bed 200 comprises a plurality of second vertical square tubes 5, two second track square tubes 6, two third track support frames 7 and a plurality of blanking hoppers 8; the two second track square tubes 6 are respectively welded on the corresponding second vertical foot square tubes 5, the two second track square tubes 6 are parallel to each other, the second tracks 61 are respectively installed at one ends, close to the inner part of the inner machine body 200, of the upper sides of the two second track square tubes 6, the third track support frames 7 are respectively installed at one ends, far away from the inner part of the inner machine body 200, of the upper sides of the two second track square tubes 6, and the third tracks 71 are respectively installed at the upper sides of the two third track support frames 7; a plurality of blanking hoppers 8 are arranged between the two second track square tubes 6. The utility model discloses an outer lathe bed 100 and interior lathe bed 200 are separated from each other, the utility model discloses when the installation, will remove dust the convulsions, go up lower work platform support, blanking hopper structure integration installation in interior lathe bed 200, will laser cutting head (not shown in the figure) and crossbeam moving system (not shown in the figure) install at outer lathe bed 100, influence like this cutting accuracy moving axis all on outer lathe bed supports, avoided the thermal deformation influence of laser cutting, improved the reliability of cutting machine processing, prolonged the life of machine; the main framework of the outer bed body 100 of the utility model is built by square tube welding, the installation efficiency is higher, and the production efficiency of the outer bed body 100 is higher; the utility model discloses an interior lathe bed 200 sets up blanking fill 8 structures, conveniently connects the material.
As shown in fig. 1 to 3, the first supporting frame 2 includes two supporting longitudinal beams 21 and two supporting cross beams 22, the two supporting cross beams 22 are welded at two ends of the two supporting longitudinal beams 21, and two first connecting cross beams 23 are welded in parallel between the middle portions of the two supporting longitudinal beams 21; the quantity of first stand square tube 1 is eight, and wherein four first stand square tube 1 intervals and vertical welding are in the lower extreme of a support longeron 21, and four first stand square tube 1 intervals and vertical welding are in the lower extreme of another support longeron 21 in addition. The number of the first supporting square tubes 3 is ten; the five first supporting square tubes 3 are vertically welded to the upper end of one supporting longitudinal beam 21 at intervals, and the upper ends of the five first supporting square tubes 3 are welded with one first track square tube 4; the other five first supporting square tubes 3 are vertically welded at the upper end of the other supporting longitudinal beam 21 at intervals, and the other first track square tube 4 is welded at the upper ends of the five first supporting square tubes 3.
As shown in fig. 1-2 and 4-5, the number of the second square standing tube 5 is eight, wherein four second square standing tube 5 are vertically welded to the lower end of one second rail square tube 6 at intervals, and the other four second square standing tube 5 are vertically welded to the lower end of the other second rail square tube 6 at intervals; and a plurality of air draft holes 62 are formed in one sides, close to the inner part of the inner bed body, of the two second track square tubes 6 at intervals. Two second connecting beams 63 and five connecting plates 64 are arranged between the two second track square tubes 62, the two second connecting beams 63 are welded at the rear ends of the two second track square tubes 6 in parallel, and the five connecting plates 64 are installed at the front ends of the two second track square tubes 6 at intervals.
As shown in fig. 1-2 and 4-5, the number of the blanking hoppers 8 is four, the left ends and the right ends of the four blanking hoppers 8 are respectively connected with the two second track square tubes 6, and the front ends and the rear ends of the four blanking hoppers 8 are respectively connected with the corresponding connecting plates 64; the lower side of the blanking hopper 8 is provided with a reinforcing rib 81.
As shown in fig. 1 and 3, the third rail supporting frame 7 includes a supporting side plate 75, a supporting top plate 73 and a plurality of "C" shaped supporting plates 74, the supporting side plate 72 is welded to one end of the upper side of the second rail square tube 6 far away from the inside of the inner bed 200, the supporting top plate 73 is welded to the upper end of the supporting side plate 72, and the "C" shaped supporting plates 74 are respectively welded to the second rail square tube 6, the supporting side plate 72 and the supporting top plate 73. In actual installation and use, the second rail 61 and the third rail 71 are used for slidably mounting the two work tables.
As shown in fig. 1, 3-5, a first mounting and fixing plate 11 is welded at the lower end of the first stand square tube 1, the first mounting and fixing plate 11 is provided with a first mounting and fixing hole 12, and a first square hole 13 is formed on the outer side of the first stand square tube 1; the lower end of the second vertical leg square tube 5 is welded with a second mounting and fixing plate 51, the second mounting and fixing plate 51 is provided with a second mounting and fixing hole 52, and the outer side of the second vertical leg square tube 5 is provided with a second square hole 53. Therefore, a worker can insert a screw twisting tool from the first square hole 13 or the second square hole 53, and after the screw passes through the first mounting and fixing hole 12 or the second mounting and fixing hole 52, the first mounting and fixing plate 11 or the second mounting and fixing plate 51 is locked on the floor.
The above, only the utility model discloses preferred embodiment, all be according to the utility model discloses a technical scheme does any slight modification, the equivalent change and the modification to above embodiment, all belong to the utility model discloses technical scheme's within range.
Claims (8)
1. The utility model provides a two bed body structures of disconnect-type of laser cutting machine which characterized in that includes:
the outer lathe bed comprises a plurality of first stand square tubes, a first supporting frame body, a plurality of first supporting square tubes and two first track square tubes, the first supporting frame body is welded on the first stand square tubes, the first supporting square tubes are vertically welded on the left end and the right end of the first supporting frame body, one first track square tube is welded on the upper end of the first supporting square tube at the left end, the other first track square tube is welded on the upper end of the first supporting square tube at the right end, the two first track square tubes are parallel to each other, and first tracks are respectively arranged on the upper sides of the two first track square tubes;
the inner bed body is arranged in the outer bed body, and the inner bed body and the outer bed body are separated from each other; the inner bed body comprises a plurality of second vertical leg square tubes, two second track square tubes, two third track support frames and a plurality of blanking hoppers; the two second track square tubes are respectively welded on the corresponding second vertical foot square tubes, the two second track square tubes are parallel to each other, second tracks are respectively installed at one ends, close to the inner part of the inner lathe bed, of the upper sides of the two second track square tubes, third track supporting frames are respectively installed at one ends, far away from the inner part of the inner lathe bed, of the upper sides of the two second track square tubes, and third tracks are respectively installed at the upper sides of the two third track supporting frames; the plurality of blanking hoppers are arranged between the two second track square tubes.
2. The split type double-bed structure of the laser cutting machine according to claim 1, wherein: the first supporting frame body comprises two supporting longitudinal beams and two supporting cross beams, the two supporting cross beams are welded at two ends of the two supporting longitudinal beams, and two first connecting cross beams are welded between the middle parts of the two supporting longitudinal beams in parallel; the quantity of first stand foot square tube is eight, and wherein four first stand foot square tube intervals and vertical welding are in the lower extreme of a support longeron, and four other first stand foot square tube intervals and vertical welding are in the lower extreme of another support longeron.
3. The split type double-bed structure of the laser cutting machine according to claim 2, wherein: the number of the first supporting square tubes is ten; the five first supporting square tubes are vertically welded to the upper end of one supporting longitudinal beam at intervals, and the upper ends of the five first supporting square tubes are welded with one first track square tube; the other five first supporting square tubes are vertically welded to the upper end of the other supporting longitudinal beam at intervals, and the upper end of the five first supporting square tubes is welded with the other first rail square tube.
4. The split type double-bed structure of the laser cutting machine according to claim 1, wherein: the number of the second vertical foot square tubes is eight, wherein four second vertical foot square tubes are vertically welded to the lower end of one second track square tube at intervals, and the other four second vertical foot square tubes are vertically welded to the lower end of the other second track square tube at intervals; and a plurality of air exhaust holes are formed in one side, close to the inner part of the inner bed body, of each of the two second rail square tubes at intervals.
5. The split type double-bed structure of the laser cutting machine according to claim 1, wherein: be equipped with two second between two second track square tubes and connect crossbeam and five connecting plates, two second are connected the crossbeam and are welded in the rear end of two second track square tubes side by side, and five connecting plates interval mount are in the front end of two second track square tubes.
6. The split type double-bed structure of the laser cutting machine according to claim 5, wherein: the number of the blanking hoppers is four, the left ends and the right ends of the four blanking hoppers are respectively connected with the two second track square tubes, and the front ends and the rear ends of the four blanking hoppers are respectively connected with the corresponding connecting plates; the lower side of the blanking hopper is provided with a reinforcing rib.
7. The split type double-bed structure of the laser cutting machine according to claim 1, wherein: the third track support frame comprises a support side plate, a support top plate and a plurality of C-shaped support plates, the support side plate is welded to one end, far away from the inner part of the lathe bed, of the upper side of the second track square tube, the support top plate is welded to the upper end of the support side plate, and the C-shaped support plates are welded to the second track square tube, the support side plate and the support top plate respectively.
8. The split type double-bed structure of the laser cutting machine according to claim 1, wherein: the lower end of the first stand foot square tube is welded with a first mounting fixing plate, the first mounting fixing plate is provided with a first mounting fixing hole, and the outer side of the first stand foot square tube is provided with a first square hole; the lower extreme welding of second footing square tube has second installation fixed plate, and second installation fixed plate is equipped with second installation fixed orifices, and the second quad slit has been seted up in the outside of second footing square tube.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221520595.XU CN217859402U (en) | 2022-06-17 | 2022-06-17 | Laser cutting machine's two fuselage structures of disconnect-type |
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CN202221520595.XU CN217859402U (en) | 2022-06-17 | 2022-06-17 | Laser cutting machine's two fuselage structures of disconnect-type |
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CN217859402U true CN217859402U (en) | 2022-11-22 |
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CN202221520595.XU Active CN217859402U (en) | 2022-06-17 | 2022-06-17 | Laser cutting machine's two fuselage structures of disconnect-type |
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- 2022-06-17 CN CN202221520595.XU patent/CN217859402U/en active Active
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