CN205393799U - Carving machine in super large breadth laser - Google Patents
Carving machine in super large breadth laser Download PDFInfo
- Publication number
- CN205393799U CN205393799U CN201620170722.6U CN201620170722U CN205393799U CN 205393799 U CN205393799 U CN 205393799U CN 201620170722 U CN201620170722 U CN 201620170722U CN 205393799 U CN205393799 U CN 205393799U
- Authority
- CN
- China
- Prior art keywords
- lifting
- frame
- assembly
- crossbeam
- loading
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Laser Beam Processing (AREA)
Abstract
The utility model relates to a carving machine especially relates to a carving machine in super large breadth laser in the laser. Which comprises a frame, but the frame in be equipped with the transport lifting unit of workstation planar component and oscilaltion, the frame on be equipped with with frame looks sliding connection's beam assembly, beam assembly carry out reciprocating motion through skewed tooth drive assembly along the frame, the afterbody of frame be equipped with the last unloading platform subassembly that matches and connect with the frame, transport lifting unit, beam assembly, skewed tooth drive assembly, go up unloading platform subassembly and pass through control system control. Carving machine in super large breadth laser compact structure, degree of automation is high, and is adjustable.
Description
Technical field
This utility model relates to a kind of laser sub-marker, particularly relates to a kind of super large breadth laser sub-marker.
Background technology
The existing big width laser internal carving machine drive system in market is ball wire bar pair, range is typically in 2m to 3m, because horizontal span is big during more than 3m, deadweight sagging deflections is big, limit speed reduces, screw mandrel being produced during transmission shake thus affecting transmission accuracy, time serious, causing that screw mandrel bending, deformation are even ruptured.
So existing big width laser internal carving machine stroke is all less than 3m, it is impossible to the glass (such as large glass curtain wall, large glass screen etc.) of the processing super large space of a whole page.
Big width laser internal carving machine is to be controlled light path system by computer to move relative to crystal or glass, and carves out the dot pattern of two dimension or three-dimensional at crystal or inside glass.
In large format glass in carving processing, light path system needs to do xyz three-axis moving relative to workpiece, substantially adopts ball wire bar pair as transmission scheme at present.When processing breadth and being little, ball leading screw driving efficiency is significantly high, can reach significantly high precision, noise is also only small;But being as the increase of processing breadth, in order to improve rigidity to resist deadweight sagging deflections, the diameter of ball screw needs corresponding increase, and cost is also high therewith.Even so, when processing breadth more than 3m, because of the not eliminable sagging deflections of the excessive generation of span, limit speed reduces, and screw mandrel produces shake, and transmission accuracy also decreases, and causes that screw mandrel bending, deformation are even ruptured time serious.Therefore, being limited by the limit transmission stroke of ball screw, the processing stroke of big width laser internal carving machine cannot arbitrarily expand.
Maximum processing breadth is by the limit transmission travel limit of ball screw, it is impossible to the processing book size glass more than 3m.When processing breadth and be bigger, it is very big that the diameter of ball-screw also must select, and limit speed reduces, and shake increases.Screw mandrel diameter increases, and cost ramps therewith;Limit speed reduces, and working (machining) efficiency decreases;Shake increases, and machining accuracy reduces.
Chinese patent 201210291057.2, open a kind of big width laser internal carving machine, including lathe bed and be located at lathe bed both sides Y-axis track and by support can along the X-axis track of Y-axis slide, X-axis track is provided with laser Machining head, laser Machining head is provided with the catotropic dial gauge of measurement, lathe bed is equipped with many parallel to each other and be provided with the base bar of chute, base bar and X-axis parallel track, the bed surface laid by base bar is provided with polylith support plate, polylith support plate is scattered in rectangular, every piece of support plate is respectively provided with a Z-direction governor motion near its four angles place, four Z-direction governor motions are symmetrical arranged between two, the bottom of Z-direction governor motion is inserted in the chute of base bar.This structure cannot meet existing demand, and operates relative deficiency.
Utility model content
This utility model mainly solves the deficiencies in the prior art, it is provided that a kind of structure letter compactness is high, it is possible to the glass of the processing super large space of a whole page (3m*6m), and process velocity is fast, and precision is high, and device fabrication cost is low, the super large breadth laser sub-marker of simple operation.
Above-mentioned technical problem of the present utility model is addressed mainly by following technical proposals:
A kind of super large breadth laser sub-marker, including frame, described frame is provided with table plane assembly and can the conveying lifting assembly of oscilaltion, described frame is provided with the transverse beam assembly being slidably connected mutually with frame, described transverse beam assembly is moved back and forth along frame by helical teeth transmission component, the afterbody of described frame is provided with the loading and unloading platform assembly matched with frame, and described conveying lifting assembly, transverse beam assembly, helical teeth transmission component, loading and unloading platform assembly are controlled by control system;
Described table plane assembly includes the table plane being located in frame, and described table plane is made up of equally distributed honeycomb aluminum plate, and described honeycomb aluminum plate regulates location by adjusting part;
Described conveying lifting assembly includes lifting assembly and conveying assembly, and described conveying assembly carries out upper and lower displacement by lifting assembly;Described lifting assembly includes lifting longitudinal drive shaft, lifting decelerator, the horizontal power transmission shaft of lifting and lifting platform, described lifting longitudinal drive shaft carries out transmission with lifting decelerator, described lifting decelerator passes through lifting motor phase transmission, the two side ends of described lifting longitudinal drive shaft is fixedly connected by the horizontal power transmission shaft of diverter and lifting, described diverter is provided with the horizontal power transmission shaft of lifting, described lifting transverse direction power transmission shaft is provided with equally distributed worm speed reducer, described worm speed reducer drives elevating screw to rotate, described lifting platform carries out upper and lower displacement by elevating screw;Described conveying assembly includes the delivery platform being located in table plane, described delivery platform carries out upper and lower displacement by lifting platform, described delivery platform is provided with conveying axis, described conveying axis rotates by carrying motor, described conveying axis is provided with equally distributed round belt wheel, the top of described delivery platform is provided with equally distributed conveying roller, and described conveying roller is taken turns by round belt phase transmission with round belt;
Described transverse beam assembly includes line slideway and crossbeam, described line slideway is located at the top of frame, described frame is provided with the crossbeam that linearly guide rail carries out sliding, and described crossbeam is provided with the Z axis slided mutually with crossbeam, is provided with light path part in described Z axis;
Described helical teeth transmission component includes the crossbeam servomotor being located at crossbeam outer wall, described crossbeam servomotor drives main synchronous pulley to rotate, described main synchronous pulley is meshed with driven synchronous pulley transmission, described line slideway be connected with helical rack, be meshed transmission by helical gear between described helical rack with driven synchronous pulley;
Described loading and unloading platform assembly includes the loading and unloading platform of distribution corresponding to delivery platform, described loading and unloading platform is provided with loading and unloading driving motor, described loading and unloading driving motor drives driving shaft to rotate, described driving shaft is provided with equally distributed loading and unloading round belt wheel, the top of described loading and unloading platform is provided with equally distributed loading and unloading conveying roller, and described loading and unloading conveying roller takes turns phase transmission by loading and unloading round belt with loading and unloading round belt.
As preferably, described adjusting part includes adjusting bolt and installs bolt, and described honeycomb aluminum plate fixes with frame by installing bolt, and described honeycomb aluminum plate regulates location mutually by adjusting bolt with frame;
Described lifting longitudinal drive shaft is "working"-shaped with the horizontal power transmission shaft of lifting;
The lateral wall of described crossbeam is provided with crossbeam oblique tooth bar, and the top of described crossbeam is provided with crossbeam line slideway, and described Z axis is slided with crossbeam line slideway mutually by crossbeam oblique tooth bar.
Described worm speed reducer is fixed by worm speed reducer installing plate and frame.
It is across the crossbeam above frame to move along line slideway under the helical gear being installed on cross beam and upright post drives.Z axis can move along beam guideway under the helical gear being installed on Z axis drives.Light path system is fixed on Z axis slide carriage, and can along with Z axis slide carriage under the driving of Z axis ball wire bar pair along Z axis guide rail movement.
Work platforms face is made up of some pieces of honeycomb aluminum plates, every honeycomb aluminum plate all has screwed hole and unthreaded hole, in screwed hole, loading regulates stud and adjusts its relative distance with welding machine frame table top to make up mismachining tolerance, loads installation bolt and be fixed in frame by honeycomb aluminum plate in unthreaded hole.Thus can ensure work platforms face flatness and and the perpendicularity of initial point laser beam, and then guarantee crudy.
Control system includes control chamber and controls computer.
Therefore, super large breadth laser sub-marker of the present utility model, compact conformation, automaticity is high, scalable.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model;
Fig. 2 is the structural representation of table plane assembly in this utility model;
Fig. 3 is the sectional structure schematic diagram of Fig. 2;
Fig. 4 is the structural representation carrying lifting assembly in this utility model;
Fig. 5 is the perspective view of lifting assembly in utility model;
Fig. 6 is lifting platform sectional structure schematic diagram in Fig. 5;
Fig. 7 is the perspective view of helical teeth transmission component in this utility model;
Fig. 8 is the perspective view of loading and unloading platform assembly in this utility model.
Detailed description of the invention
By the examples below, and in conjunction with accompanying drawing, the technical solution of the utility model is described in further detail.
Embodiment 1: such as Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, shown in Fig. 7 and Fig. 8, a kind of super large breadth laser sub-marker, including frame 1, described frame 1 is provided with table plane assembly 2 and can the conveying lifting assembly 3 of oscilaltion, described frame 1 is provided with the transverse beam assembly 4 being slidably connected with frame 1 phase, described transverse beam assembly 4 is moved back and forth along frame 1 by helical teeth transmission component 5, the afterbody of described frame 1 is provided with the loading and unloading platform assembly 6 matched with frame 1, described conveying lifting assembly 3, transverse beam assembly 4, helical teeth transmission component 5, loading and unloading platform assembly 6 is controlled by control system 7;
Described table plane assembly 2 includes the table plane 8 being located in frame 1, and described table plane 8 is made up of equally distributed honeycomb aluminum plate 9, and described honeycomb aluminum plate 9 regulates location by adjusting part;
Described conveying lifting assembly 3 includes lifting assembly and conveying assembly, and described conveying assembly carries out upper and lower displacement by lifting assembly;Described lifting assembly includes lifting longitudinal drive shaft 10, lifting decelerator 11, the horizontal power transmission shaft 12 of lifting and lifting platform 13, described lifting longitudinal drive shaft 10 carries out transmission with lifting decelerator 11, described lifting decelerator 11 is by lifting motor 15 phase transmission, the two side ends of described lifting longitudinal drive shaft 10 is fixedly connected by the horizontal power transmission shaft 12 of diverter 16 and lifting, described diverter 16 is provided with the horizontal power transmission shaft 12 of lifting, described lifting transverse direction power transmission shaft 12 is provided with equally distributed worm speed reducer 17, described worm speed reducer 17 drives elevating screw 18 to rotate, described lifting platform 13 carries out upper and lower displacement by elevating screw 18;Described conveying assembly includes the delivery platform 19 being located in table plane 8, described delivery platform 19 carries out upper and lower displacement by lifting platform 20, described delivery platform 19 is provided with conveying axis 21, described conveying axis 21 rotates by carrying motor 22, described conveying axis 21 is provided with equally distributed round belt wheel 23, the top of described delivery platform 19 is provided with equally distributed conveying roller 24, and described conveying roller 24 and round belt take turns 23 by round belt phase transmission;
Described transverse beam assembly includes line slideway 25 and crossbeam 26, described line slideway 25 is located at the top of frame 1, described frame 1 is provided with the crossbeam 26 that linearly guide rail 25 carries out sliding, described crossbeam 26 is provided with the Z axis 27 slided with crossbeam 26 phase, is provided with light path part 28 in described Z axis 27;
Described helical teeth transmission component includes the crossbeam servomotor 29 being located at crossbeam 26 outer wall, described crossbeam servomotor 29 drives main synchronous pulley 30 to rotate, described main synchronous pulley 30 is meshed with driven synchronous pulley 31 transmission, described line slideway 25 be connected with helical rack 32, be meshed transmission by helical gear 33 between described helical rack 32 with driven synchronous pulley 31;
Described loading and unloading platform assembly includes the loading and unloading platform 34 of distribution corresponding to delivery platform 19, described loading and unloading platform 34 is provided with loading and unloading driving motor 35, described loading and unloading driving motor 35 drives driving shaft 36 to rotate, described driving shaft 36 is provided with equally distributed loading and unloading round belt wheel 37, the top of described loading and unloading platform 34 is provided with equally distributed loading and unloading conveying roller 38, and described loading and unloading conveying roller 38 takes turns 37 phase transmissions by loading and unloading round belt and loading and unloading round belt.
Described adjusting part includes adjusting bolt 39 and installs bolt 40, and described honeycomb aluminum plate 9 fixes with frame 1 by installing bolt 40, and described honeycomb aluminum plate 9 regulates location by adjusting bolt 39 with frame 1 phase;
Described lifting longitudinal drive shaft 10 is "working"-shaped with the horizontal power transmission shaft 12 of lifting;
The lateral wall of described crossbeam 26 is provided with crossbeam oblique tooth bar 41, and the top of described crossbeam 26 is provided with crossbeam line slideway 42, and described Z axis 27 is slided with crossbeam line slideway 42 phase by crossbeam oblique tooth bar 41.
Described worm speed reducer 17 is fixed by worm speed reducer installing plate 43 and frame 1.
Claims (2)
1. a super large breadth laser sub-marker, it is characterized in that: include frame (1), described frame (1) is provided with table plane assembly (2) and can the conveying lifting assembly (3) of oscilaltion, described frame (1) is provided with the transverse beam assembly (4) being slidably connected mutually with frame (1), described transverse beam assembly (4) is moved back and forth along frame (1) by helical teeth transmission component (5), the afterbody of described frame (1) is provided with loading and unloading platform assembly (6) matched with frame (1), described conveying lifting assembly (3), transverse beam assembly (4), helical teeth transmission component (5), loading and unloading platform assembly (6) are controlled by control system (7);
Described table plane assembly (2) includes the table plane (8) being located in frame (1), and described table plane (8) is made up of equally distributed honeycomb aluminum plate (9), and described honeycomb aluminum plate (9) regulates location by adjusting part;
Described conveying lifting assembly (3) includes lifting assembly and conveying assembly, and described conveying assembly carries out upper and lower displacement by lifting assembly;nullDescribed lifting assembly includes lifting longitudinal drive shaft (10)、Lifting decelerator (11)、The horizontal power transmission shaft (12) of lifting and lifting platform (13),Described lifting longitudinal drive shaft (10) carries out transmission with lifting decelerator (11),Described lifting decelerator (11) is by lifting motor (15) phase transmission,The two side ends of described lifting longitudinal drive shaft (10) is fixedly connected by the horizontal power transmission shaft (12) of diverter (16) and lifting,Described diverter (16) is provided with the horizontal power transmission shaft (12) of lifting,Described lifting transverse direction power transmission shaft (12) is provided with equally distributed worm speed reducer (17),Described worm speed reducer (17) drives elevating screw (18) to rotate,Described lifting platform (13) carries out upper and lower displacement by elevating screw (18);Described conveying assembly includes the delivery platform (19) being located in table plane (8), described delivery platform (19) carries out upper and lower displacement by lifting platform (20), described delivery platform (19) is provided with conveying axis (21), described conveying axis (21) rotates by carrying motor (22), described conveying axis (21) is provided with equally distributed round belt wheel (23), the top of described delivery platform (19) is provided with equally distributed conveying roller (24), described conveying roller (24) and round belt take turns (23) by round belt phase transmission;
Described transverse beam assembly includes line slideway (25) and crossbeam (26), described line slideway (25) is located at the top of frame (1), described frame (1) is provided with the crossbeam (26) that linearly guide rail (25) carries out sliding, described crossbeam (26) is provided with the Z axis (27) slided mutually with crossbeam (26), is provided with light path part (28) in described Z axis (27);
Described helical teeth transmission component includes the crossbeam servomotor (29) being located at crossbeam (26) outer wall, described crossbeam servomotor (29) drives main synchronous pulley (30) to rotate, described main synchronous pulley (30) is meshed with driven synchronous pulley (31) transmission, described line slideway (25) be connected with helical rack (32), described helical rack (32) is meshed transmission by helical gear (33) with between driven synchronous pulley (31);
Described loading and unloading platform assembly includes the loading and unloading platform (34) of distribution corresponding to delivery platform (19), described loading and unloading platform (34) is provided with loading and unloading driving motor (35), described loading and unloading driving motor (35) drives driving shaft (36) to rotate, described driving shaft (36) is provided with equally distributed loading and unloading round belt wheel (37), the top of described loading and unloading platform (34) is provided with equally distributed loading and unloading conveying roller (38), described loading and unloading conveying roller (38) takes turns (37) phase transmission by loading and unloading round belt with loading and unloading round belt.
2. super large breadth laser sub-marker according to claim 1, it is characterized in that: described adjusting part includes adjusting bolt (39) and installs bolt (40), described honeycomb aluminum plate (9) fixes with frame (1) by installing bolt (40), and described honeycomb aluminum plate (9) regulates location by adjusting bolt (39) mutually with frame (1);
Described lifting longitudinal drive shaft (10) is "working"-shaped with the horizontal power transmission shaft (12) of lifting;
The lateral wall of described crossbeam (26) is provided with crossbeam oblique tooth bar (41), the top of described crossbeam (26) is provided with crossbeam line slideway (42), and described Z axis (27) is slided with crossbeam line slideway (42) mutually by crossbeam oblique tooth bar (41);
Described worm speed reducer (17) is fixed by worm speed reducer installing plate (43) and frame (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620170722.6U CN205393799U (en) | 2016-03-07 | 2016-03-07 | Carving machine in super large breadth laser |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620170722.6U CN205393799U (en) | 2016-03-07 | 2016-03-07 | Carving machine in super large breadth laser |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205393799U true CN205393799U (en) | 2016-07-27 |
Family
ID=56442530
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620170722.6U Withdrawn - After Issue CN205393799U (en) | 2016-03-07 | 2016-03-07 | Carving machine in super large breadth laser |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205393799U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598590B (en) * | 2016-03-07 | 2017-06-20 | 南京宝岩自动化有限公司 | Super large breadth laser sub-marker and its operating method |
-
2016
- 2016-03-07 CN CN201620170722.6U patent/CN205393799U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105598590B (en) * | 2016-03-07 | 2017-06-20 | 南京宝岩自动化有限公司 | Super large breadth laser sub-marker and its operating method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105598590B (en) | Super large breadth laser sub-marker and its operating method | |
CN109227322B (en) | Multi-degree-of-freedom robot for polishing | |
CN204894519U (en) | 3D printer of resultant motion formula structure | |
CN107335931A (en) | A kind of laser cutting device | |
CN102365149A (en) | Ram guiding apparatus of machine tool | |
CN106736796B (en) | Four motor-driven mechanisms of the bilateral large span slide of large-sized numerical control horizontal machine tool | |
CN109160258A (en) | A kind of automatic thread replacing mechanism of production line part | |
CN211539956U (en) | Two-way cutting equipment is used in panel production | |
CN103817370B (en) | Three axle bull gantry process equipments | |
CN203636034U (en) | Three-axis multi-head gantry machining equipment | |
CN205393799U (en) | Carving machine in super large breadth laser | |
CN215617970U (en) | Electric workbench for contour measuring instrument | |
CN211915079U (en) | Bending machine for processing distribution box plates | |
CN103612170B (en) | Column longitudinal movement surface grinder | |
CN102873408A (en) | Six-shaft helical bevel gear mill machining tool | |
CN110181611A (en) | A kind of five axis engraving machines | |
CN105290612A (en) | Novel multifunctional cantilever laser cutting machine | |
CN115770915A (en) | Gantry machining unit of electric discharge machine tool | |
CN202292241U (en) | Horizontal movement device in gear machining machine | |
CN214109088U (en) | Novel rack shaping special grinding machine | |
CN211387476U (en) | Bidirectional size synchronous adjustment welding tool | |
CN204397217U (en) | A kind of cutting aluminium sheet Full-automatic numerical control cutting machine | |
CN207358390U (en) | A kind of laser cutting device | |
CN207841773U (en) | A kind of stone slab groover | |
CN203125274U (en) | Plane milling grinding machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160727 Effective date of abandoning: 20170620 |