Material removing platform of laser pipe cutting machine
Technical Field
The application relates to the field of laser pipe cutting machines, in particular to a material removing platform of a laser pipe cutting machine.
Background
At present, the laser processing technology is more and more favored by the manufacturing industry because of its high efficiency, environmental protection and high automation degree. Along with the popularization of industrial automation, the intelligent degree of laser cutting auxiliary equipment is continuously improved, for example, the auxiliary equipment is used for the steel pipe to connect the additional device of functions such as material and blanking, and production efficiency has also been improved when these auxiliary equipment alleviate artifical intensity of labour.
Chinese patent CN206519662U discloses an automatic lifting material receiving and discharging device for cutting off pipe fittings of a laser pipe cutting machine, which comprises a lifting material receiving device capable of driving materials to go up and down, a chain conveying device for driving the lifting material receiving device to move horizontally and conveying the materials on the lifting material receiving device to the material receiving and returning device on the chain conveying device, and a chain conveying device for conveying the materials to a required position, so that the automatic material receiving and discharging of the pipe fittings of the laser pipe cutting machine can be realized, and the pipe fittings can be reliably conveyed to the required position.
However, the above patent contents only include a material conveying function in a horizontal or vertical space and a material clamping and positioning function, and the feeding direction is limited, so that the requirements of high-precision positioning, multi-directional and multi-angle conveying and simultaneous material storage function in the production process cannot be completely met.
Disclosure of Invention
In order to solve the technical problem, the application provides a material removing platform of a laser pipe cutting machine.
The technical problem of the application is realized through the following technical scheme: a material removing platform of a laser pipe cutting machine comprises a supporting seat, an extension material receiving plate, a material removing mechanism, a material receiving roller set, a rotating shaft mechanism and a driving mechanism; the material taking-off mechanism is movably mounted on the extension material receiving plate through a rotating shaft mechanism, and a driving mechanism used for driving the material taking-off mechanism to perform turnover motion is arranged on the supporting seat.
Furthermore, the supporting seat comprises a vertical guide plate, side plates perpendicular to the vertical guide plate are arranged on the left side and the right side of the vertical guide plate, and the other sides of the two side plates are connected through a back plate to form a supporting cavity; the supporting seat comprises a cover plate at the top, and the extension material receiving plate is fixedly arranged on the cover plate; the driving mechanism is arranged on the side plate.
Furthermore, the stripping mechanism comprises a front stripping plate, two sides of the front stripping plate are respectively provided with a side guide plate which is turned over downwards, and the front side of the front stripping plate is provided with a material receiving guide plate which is turned over downwards; and a material baffle plate which is turned upwards is arranged at the rear side of the front stripper plate.
Further, the material receiving roller group comprises a material receiving roller shaft, the material receiving roller is sleeved outside the material receiving roller shaft, roller clamping blocks are arranged at two ends of the material receiving roller shaft, and the material receiving roller group is installed on a material removing mechanism through the roller clamping blocks.
Furthermore, the rotating shaft mechanism comprises an overturning rotating shaft, and the overturning rotating shaft is movably arranged on the bottom surface of the stripping mechanism through a rotating shaft connecting block; the overturning rotating shaft is movably arranged on the extension material receiving plate through a vertical bearing seat.
Furthermore, the driving mechanism comprises an air cylinder, a cylinder rod is arranged in the air cylinder, and the bottom of the air cylinder is movably arranged on the supporting seat through a bottom connecting seat; the top of the cylinder rod is movably arranged at the bottom of the stripping mechanism through a cylinder connecting seat.
In summary, the present application has the following beneficial effects:
1. this application structural design is reasonable, can realize that the unloading of multiple different model tubular product connects material and dump, falls to taking off the material mechanism after the tubular product cutting on, realizes the tubular product upset by taking off the material mechanism, along processes such as material roller group transport, has simplified process flow, has improved work efficiency, need not manual operation, has reduced manufacturing cost.
2. This application connects the flitch through setting up the extension, makes more firm the installing in the supporting seat of receiving mechanism, has improved overall structure intensity
3. The application connects material roller set unpowered drive, tubular product need transversely carry to next process on taking off material mechanism when, be convenient for make tubular product realize rolling on connecing the material roller set with the help of external force, reduced frictional resistance.
Drawings
FIG. 1 is a schematic structural diagram of the present application;
FIG. 2 is a front view of the present application;
FIG. 3 is a left side view of the present application;
FIG. 4 is a bottom view of the stripping mechanism;
fig. 5 is a schematic structural view of a receiving roller set.
Description of reference numerals:
1. a supporting seat; 101. a vertical guide plate; 102. a side plate; 103. a back plate; 104. a cover plate;
2. extending the material receiving plate;
3. a material stripping mechanism; 301. a front stripper plate; 302. a side guide plate; 303. a material receiving guide plate; 304. a striker plate;
4. a material receiving roller set; 401. a receiving roller; 402. a receiving roll shaft; 403. a roll shaft clamping block;
5. a rotating shaft mechanism; 501. turning over the rotating shaft; 502. a vertical bearing seat; 503. a rotating shaft connecting block;
6. a drive mechanism; 601. a cylinder; 602. a cylinder rod; 603. a bottom connecting seat; 604. air cylinder connecting seat.
Detailed Description
The present application is described in further detail below with reference to the attached drawings. Referring to fig. 1-5, the application discloses a material removing platform of a laser pipe cutting machine, which comprises a supporting seat 1, an extension material receiving plate 2, a material removing mechanism 3, a material receiving roller set 4, a rotating shaft mechanism 5 and a driving mechanism 6; the top of supporting seat 1 sets up the extension and connects flitch 2, the extension connects flitch 2 top to set up takes off material mechanism 3, take off to be equipped with the mounting hole on the material mechanism 3, the installation connects material roller set 4 in the mounting hole, connects material roller set 4 to set up side by side, can be two sets of, three groups or more, this application chooses for use four groups to connect material roller set 4 equidistant arranging, makes tubular product roll transport more stable.
The stripping mechanism 3 is movably mounted on the extension material receiving plate 2 through a rotating shaft mechanism 5, the rotating shaft mechanism 5 comprises an overturning rotating shaft 501, and the overturning rotating shaft 501 is movably arranged on the bottom surface of the stripping mechanism 3 through a rotating shaft connecting block 503; the turning rotating shaft 501 is movably arranged on the extension material receiving plate 2 through a vertical bearing seat 502.
The supporting seat 1 is provided with a driving mechanism 6 for driving the stripping mechanism 3 to turn, the driving mechanism 6 comprises an air cylinder 601, a cylinder rod 602 is arranged in the air cylinder 601, and the bottom of the air cylinder 601 is movably arranged on the supporting seat 1 through a bottom connecting seat 603; the top of the cylinder rod 602 is movably arranged at the bottom of the stripping mechanism 3 through a cylinder connecting seat 604, and the driving mechanism 6 is driven by the cylinder rod 602 to provide turning power for the stripping mechanism 3.
As shown in fig. 2-3, the supporting seat 1 includes a vertical guiding plate 101, side plates 102 perpendicular to the vertical guiding plate 101 are disposed on the left and right sides of the vertical guiding plate 101, and the other sides of the two side plates 102 are connected by a back plate 103 to form a supporting cavity; the supporting seat 1 comprises a cover plate 104 at the top, and the extension material receiving plate 2 is fixedly arranged on the cover plate 104; the drive mechanism 6 is provided on the side plate 102.
As shown in fig. 2-4, the stripping mechanism 3 includes a front stripping plate 301, two sides of the front stripping plate 301 are respectively provided with a side guide plate 302 turned over downward to facilitate blanking of the pipe to two sides, and the front side of the front stripping plate 301 is provided with a material receiving guide plate 303 turned over downward to facilitate receiving of the pipe; the rear side of the front stripper plate 301 is provided with a material baffle plate 304 which is turned upwards to prevent the pipe from rolling off from the stripper mechanism 3.
As shown in fig. 5, the receiving roller set 4 includes a receiving roller shaft 402, the receiving roller 401 is sleeved outside the receiving roller shaft 402, roller clamping blocks 403 are arranged at two ends of the receiving roller shaft 402, and the receiving roller set 4 is installed on the stripping mechanism 3 through the roller clamping blocks 403.
The working principle of this application does: the cut pipes fall onto the stripping mechanism 3, are stacked and temporarily stored on the front stripping plate 301, the overturning angle of the front stripping plate 301 is adjusted by adjusting the ejection distance of the cylinder rod 602 of the driving mechanism 6, so that the pipes are better stored on the front stripping plate 301, and when the pipes are required to be conveyed to the next process, the pipes can easily roll and displace along the material receiving roller set 4 by means of external force, and are discharged and conveyed away from the side edge of the front stripping plate 301.
The above is a preferred embodiment of the present application, and the present application is not limited to the above-mentioned structure, and may have various modifications, and may be applied to more similar fields, and in short, all modifications and changes that do not depart from the design idea, mechanical structure form, and intelligent driving control manner of the present application fall within the scope of the present application.