CN217913319U - Flame cutting machine capable of automatically processing machining chips - Google Patents
Flame cutting machine capable of automatically processing machining chips Download PDFInfo
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- CN217913319U CN217913319U CN202220500289.3U CN202220500289U CN217913319U CN 217913319 U CN217913319 U CN 217913319U CN 202220500289 U CN202220500289 U CN 202220500289U CN 217913319 U CN217913319 U CN 217913319U
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Abstract
The utility model relates to the technical field of flame cutting machines, in particular to a flame cutting machine capable of automatically processing machining scraps, which comprises a frame, a controller arranged on one side of the frame, a cutting funnel arranged on the frame, a flame cutter arranged above the cutting funnel and used for driving the flame cutter to stretch into an electric moving frame adopted by the cutting funnel, wherein the electric moving frame is arranged on the frame; the utility model discloses can clear up the piece while cutting, labour saving and time saving, it is more convenient to use.
Description
Technical Field
The utility model relates to a flame cutting machine technical field specifically is an automatic handle clastic flame cutting machine of processing.
Background
The process of flame cutting machine can produce a lot of pieces, because the piece temperature ratio when dropping than higher, can glue subaerial when falling on the ground, carries out artifical clearance again after mostly waiting flame cutting machine cutting to accomplish among the prior art, wastes time and energy, and hardly clears up after the piece cooling down, and the clearance is got up very inconveniently.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to foretell not enough, provide one kind can be while cutting the piece of clearance, labour saving and time saving uses more convenient automatic processing and processes clastic flame cutting machine.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides an automatic handle clastic flame cutting machine of processing, includes the frame, set up in the controller of frame one side, set up in cutting funnel in the frame, set up in the flame cutter of cutting funnel top for the drive the flame cutter stretches into the electric movable frame that cutting funnel cutting adopted, the electric movable frame is installed in the frame, be provided with cutting bed and clearance mechanism in the cutting funnel, be used for the installation the nearly font link that the cutting bed adopted is used for the installation the mount pad that clearance mechanism adopted is used for connecting the mount pad and the many support frames that cutting funnel adopted, the macrostoma end of cutting funnel is just right up the flame cutter sets up, the osculum end of cutting funnel sets up down, the equal electric connection of flame cutter, electric movable frame and clearance mechanism the controller.
Further, clearance mechanism is including fixing clearance motor in the mount pad, sliding connection is in two scrapers on the cutting funnel inner wall, the vertical upwards drive that stretches out of output shaft of clearance motor is connected with the connecting seat, through clearance leg joint between connecting seat and the scraper.
Further, a top plate is horizontally arranged above the rack, the top plate is connected with the rack through two connecting plates, and the n-shaped connecting frame is fixed between the two connecting plates; the electric movable frame comprises an X-direction adjusting mechanism fixed on the top plate, the X-direction adjusting mechanism is in drive connection with a Y-direction adjusting mechanism, the Y-direction adjusting mechanism is in drive connection with a Z-direction adjusting mechanism, and the Z-direction adjusting mechanism is in drive connection with the flame cutter.
Furthermore, the X-direction adjusting mechanism comprises two X-direction rails on the top plate, an X-direction sliding frame is connected onto the X-direction rails in a sliding mode, an X-direction driving motor is arranged at one end of each X-direction rail, the X-direction sliding frame is opposite to an X-direction driving motor output shaft, an X-direction threaded hole is formed in the X-direction sliding frame, an X-direction lead screw is connected into the X-direction threaded hole in a threaded mode, and the X-direction lead screw is fixedly connected with the X-direction driving motor output shaft.
Furthermore, Y is to adjustment mechanism including locating X is to the Y track of balladeur train one side, Y is to sliding connection Y to the slide on the track, Y is to orbital one end fixedly connected with Y to driving motor, Y is to being provided with the inside screw hole of Y on the slide just to Y to the driving motor output shaft, threaded connection has the Y to the lead screw in the inside screw hole of Y, Y to the lead screw with Y is to driving motor output shaft fixed connection.
Furthermore, the Z-direction adjusting mechanism is a Z-direction electric telescopic rod fixed in the Y-direction sliding seat, a piston rod head of the Z-direction electric telescopic rod vertically extends downwards to drive and is connected with a cutting seat, the flame cutter is fixed on the cutting seat, and a cutting end of the flame cutter vertically extends downwards.
The utility model has the advantages that:
in practical application, when the cutting machine is used, a workpiece is placed on the cutting table, the controller controls the electric movable frame to drive the flame cutter to move, the workpiece on the cutting table is cut through the flame cutter, chips generated in the cutting process are cleaned through the cleaning mechanism, and the cleaned chips are discharged from a small opening end of the cutting funnel; the utility model discloses can clear up the piece while cutting, labour saving and time saving uses more conveniently.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic structural view of the electric movable frame of the present invention;
FIG. 3 is a schematic structural view of the middle cutting table and the connecting frame shaped like Chinese character 'ji';
reference numerals are as follows: a frame 1; a n-shaped connecting frame 101; a controller 2; cutting the funnel 3; a mount 301; a support frame 302; a flame cutter 4; a cutting table 5; cleaning the motor 601; a scraper 602; a connecting seat 603; a cleaning support 604; an X-direction adjusting mechanism 71; an X-direction track 711; an X-direction carriage 712; an X-direction drive motor 713; an X-direction lead screw 714; a Y-direction adjusting mechanism 72; a Y-direction track 721; a Y-direction slider 722; a Y-direction drive motor 723; a Y-direction lead screw 724; a Z-direction electric telescopic handle 731; cutting block 732.
Detailed Description
As shown in fig. 1, 2 and 3, an automatic handle clastic flame cutting machine of processing, including frame 1, set up in controller 2 of frame 1 one side, set up in cutting funnel 3 in the frame 1, set up in flame cutter 4 of cutting funnel 3 top, be used for the drive flame cutter 4 stretches into the electric movable frame that cutting funnel 3 cutting adopted, electric movable frame installs in the frame 1, be provided with cutting bed 5 and clearance mechanism in the cutting funnel 3, be used for the installation the nearly font link 101 that cutting bed 5 adopted is used for the installation mount pad 301 that clearance mechanism adopted is used for connecting mount pad 301 and many support frames 302 that cutting funnel 3 adopted, the macrostoma end of cutting funnel 3 is just up right flame cutter 4 sets up, the osculum end of cutting funnel 3 sets up down, the equal electric connection of flame cutter 4, electric movable frame and clearance mechanism controller 2.
When the cutting table is used, a workpiece is placed on the cutting table 5, the controller 2 controls the electric movable frame to drive the flame cutter 4 to move, the workpiece on the cutting table 5 is cut through the flame cutter 4, chips generated in the cutting process are cleaned through the cleaning mechanism, and the cleaned chips are discharged from a small opening end of the cutting funnel 3; the utility model discloses can clear up the piece while cutting, labour saving and time saving, it is more convenient to use.
As shown in fig. 1, 2 and 3, the cleaning mechanism includes a cleaning motor 601 fixed in the mounting seat 301, and two scrapers 602 slidably connected to the inner wall of the cutting hopper 3, an output shaft of the cleaning motor 601 vertically extends upwards to be drivingly connected with a connecting seat 603, and the connecting seat 603 and the scrapers 602 are connected through a cleaning bracket 604; in this embodiment, when flame cutter 4 cuts the work piece on the beveling header 5, the piece splashes on the 3 inner walls of cutting funnel, and cleaning motor 601 drive connecting seat 603 is rotatory, and connecting seat 603 drives scraper 602 through clearance support 604 and scrapes along the 3 inner walls of cutting funnel, scrapes the piece on the 3 inner walls of cutting funnel, and the piece of scraping is discharged from the small-mouth end of cutting funnel 3.
As shown in fig. 1, fig. 2 and fig. 3, a top plate 102 is horizontally arranged above the rack 1, the top plate 102 is connected with the rack 1 through two connecting plates 103, and the n-shaped connecting frame 101 is fixed between the two connecting plates 103; the electric moving frame comprises an X-direction adjusting mechanism 71 fixed on the top plate 102, the output end of the X-direction adjusting mechanism 71 is connected with a Y-direction adjusting mechanism 72 in a driving way, the output end of the Y-direction adjusting mechanism 72 is connected with a Z-direction adjusting mechanism 73 in a driving way, and the output end of the Z-direction adjusting mechanism 73 is connected with the flame cutter 4 in a driving way; in this embodiment, the X-direction adjustment mechanism 71 is attached to the top plate 102, the Y-direction adjustment mechanism 72 is driven by the X-direction adjustment mechanism 71 to move laterally, the Z-direction adjustment mechanism 73 is driven by the Y-direction adjustment mechanism 72 to move longitudinally, and the flame cutter 4 is driven by the Z-direction adjustment mechanism 73 to move vertically.
As shown in fig. 1, 2 and 3, the X-direction adjusting mechanism 71 includes two X-direction rails 711 on the top plate 102, an X-direction carriage 712 is connected to the X-direction rails 711 in a sliding manner, an X-direction driving motor 713 is arranged at one end of the X-direction rails 711, an X-direction threaded hole is formed in the position, facing the output shaft of the X-direction driving motor 713, of the X-direction carriage 712, an X-direction lead screw 714 is connected to the X-direction threaded hole in a threaded manner, and the X-direction lead screw 714 is fixedly connected to the output shaft of the X-direction driving motor 713; in this embodiment, the X-direction driving motor 713 drives the X-direction lead screw 714 to rotate, and the X-direction lead screw 714 drives the X-direction sliding frame 712 to slide along the X-direction track 711 through an X-direction inner threaded hole.
As shown in fig. 1, fig. 2 and fig. 3, the Y-direction adjusting mechanism 72 includes a Y-direction rail 721 arranged on one side of the X-direction carriage 712, the Y-direction rail 721 is slidably connected to a Y-direction sliding seat 722, one end of the Y-direction rail 721 is fixedly connected to a Y-direction driving motor 723, a Y-direction threaded hole is arranged on the Y-direction sliding seat 722 opposite to an output shaft of the Y-direction driving motor 723, a Y-direction lead screw 724 is threadedly connected to the Y-direction threaded hole, and the Y-direction lead screw 724 is fixedly connected to an output shaft of the Y-direction driving motor 723; in this embodiment, the Y-direction driving motor 723 drives the Y-direction lead screw 724 to rotate, and the Y-direction lead screw 724 drives the Y-direction sliding seat 722 to slide along the Y-direction rail 721 through the Y-direction inner threaded hole.
As shown in fig. 1, fig. 2 and fig. 3, the Z-direction adjustment mechanism 73 is a Z-direction electric telescopic rod 731 fixed in the Y-direction sliding seat 722, a rod head of a piston rod of the Z-direction electric telescopic rod 731 extends downwards vertically to drive and connect with a cutting seat 732, the torch cutter 4 is fixed on the cutting seat 732, and a cutting end of the torch cutter 4 extends downwards vertically; in this embodiment, the cutting base 732 is driven by the extension and retraction of the rod head of the Z-direction electric telescopic rod 731 to drive the torch cutter 4 to slide up and down.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.
Claims (6)
1. The utility model provides an automatic handle flame cutting machine of processing piece which characterized in that: including frame (1), set up in controller (2) of frame (1) one side, set up in cutting funnel (3) on frame (1), set up in flame cutter (4) of cutting funnel (3) top, be used for the drive flame cutter (4) stretch into the electric movable frame that cutting funnel (3) cutting adopted, electric movable frame installs in frame (1), be provided with cutting bed (5) and clearance mechanism in cutting funnel (3), be used for the installation a few font link (101) that cutting bed (5) adopted are used for the installation mount pad (301) that clearance mechanism adopted are used for connecting many support frames (302) that mount pad (301) and cutting funnel (3) adopted, the macrostoma end of cutting funnel (3) is just right up flame cutter (4) sets up, the osculum end of cutting funnel (3) sets up down, flame cutter (4), electric movable frame and the equal electric connection of clearance mechanism controller (2).
2. A torch cutting machine for automatically processing machining chips as set forth in claim 1, wherein: clearance mechanism is including fixing clearance motor (601) in mount pad (301), sliding connection be in two scraper (602) on cutting funnel (3) inner wall, the vertical upwards drive that stretches out of output shaft of clearance motor (601) is connected with connecting seat (603), be connected through clearance support (604) between connecting seat (603) and scraper (602).
3. A torch cutting machine for automatically processing machining chips as set forth in claim 1, wherein: a top plate (102) is horizontally arranged above the rack (1), the top plate (102) is connected with the rack (1) through two connecting plates (103), and the inverted V-shaped connecting frame (101) is fixed between the two connecting plates (103); the electric movable frame comprises an X-direction adjusting mechanism (71) fixed on the top plate (102), the X-direction adjusting mechanism (71) is connected with a Y-direction adjusting mechanism (72) in a driving mode, the Y-direction adjusting mechanism (72) is connected with a Z-direction adjusting mechanism (73) in a driving mode, and the Z-direction adjusting mechanism (73) is connected with the flame cutter (4) in a driving mode.
4. A torch cutting machine for automatically processing machining chips as set forth in claim 3, wherein: the X-direction adjusting mechanism (71) comprises two X-direction rails (711) on a top plate (102), an X-direction sliding frame (712) is connected onto the X-direction rails (711) in a sliding mode, an X-direction driving motor (713) is arranged at one end of each X-direction rail (711), an X-direction threaded hole is formed in the position, right opposite to an output shaft of the X-direction driving motor (713), of each X-direction sliding frame (712), an X-direction threaded screw (714) is connected into the X-direction threaded hole in a threaded mode, and the X-direction threaded screw (714) is fixedly connected with the output shaft of the X-direction driving motor (713).
5. A torch cutting machine for automatically handling machining chips as set forth in claim 4, wherein: the Y-direction adjusting mechanism (72) comprises a Y-direction track (721) arranged on one side of the X-direction sliding frame (712), the Y-direction track (721) is connected with a Y-direction sliding seat (722) in a sliding mode, one end of the Y-direction track (721) is fixedly connected with a Y-direction driving motor (723), a Y-direction threaded hole is formed in the Y-direction sliding seat (722) and is opposite to an output shaft of the Y-direction driving motor (723), a Y-direction lead screw (724) is connected in the Y-direction threaded hole in a threaded mode, and the Y-direction lead screw (724) is fixedly connected with an output shaft of the Y-direction driving motor (723).
6. A torch cutting machine for automatically handling machining chips as set forth in claim 5, wherein: the Z-direction adjusting mechanism (73) is a Z-direction electric telescopic rod (731) fixed in the Y-direction sliding seat (722), a piston rod head of the Z-direction electric telescopic rod (731) vertically extends downwards to be driven and connected with a cutting seat (732), the flame cutter (4) is fixed on the cutting seat (732), and a cutting end of the flame cutter (4) vertically extends downwards.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220500289.3U CN217913319U (en) | 2022-03-09 | 2022-03-09 | Flame cutting machine capable of automatically processing machining chips |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220500289.3U CN217913319U (en) | 2022-03-09 | 2022-03-09 | Flame cutting machine capable of automatically processing machining chips |
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CN217913319U true CN217913319U (en) | 2022-11-29 |
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CN202220500289.3U Active CN217913319U (en) | 2022-03-09 | 2022-03-09 | Flame cutting machine capable of automatically processing machining chips |
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CN (1) | CN217913319U (en) |
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2022
- 2022-03-09 CN CN202220500289.3U patent/CN217913319U/en active Active
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