CN209363873U - A kind of big width laser carving device - Google Patents

Abstract

The utility model discloses a kind of big width laser carving devices, including rack, the rack is equipped with engraving platform, the rack two sides are equipped with the side plate that can be slided along the length of the rack, it is equipped with fixed mounting plate between two side plates, is equipped with multiple engraving galvanometer mechanisms side by side along rack width direction in the fixed mounting plate.The utility model can be according to the size of workpiece come the quantity of choosing and shaping galvanometer, and the opposite engraving continuous relative motion of platform of multiple engraving galvanometers synthesizes the carving area for covering entire workpiece, realizes the continuous scanning engraving that do not stop.The error because of light channel structure and mechanical precision and the generation of motion control reason is reduced, service life of equipment is improved.The splicing trace generated when avoiding and reduce galvanometer partition domain clearance-type engraving large format figure, improves product quality, product aesthetics is good, and globality perception is strong, while improving production efficiency.

Description

A kind of big width laser carving device

Technical field

The utility model belongs to laser-engraving technique field more particularly to a kind of big width laser carving device.

Background technique

Currently, the product quality that big width laser engraving is produced obtains being widely recognized as market, but existing skill with characteristic The production efficiency of art lowly forms biggish obstruction to large scale application.Marking on the fly technology is just in smaller Data volume, assembly line are worked continuously mode, and the splicing trace to large format figure partition domain engraving can not be eliminated.Only due to galvanometer It can work in a relatively fixed and lesser range, the area of laser institute engraving pattern is limited to, and dimension of picture must Within the scope of galvanometer, in order to realize that big width laser is carved, the method for splicing carving area is mostly used to realize large format pattern Laser engraving, that is, carve a region local figure after, be moved to next carving area and carved, so recycled At the engraving of whole figures.Due to being that clearance-type moves, production efficiency is very low.And due to optical device, light channel structure is mechanical Precision, the presence of motion control equal error, this joining method can lead to the problem of different degrees of lapping defect, shadow in process of production Ring product quality；Also, this clearance-type movement also has larger impact to service life of equipment.

Utility model content

The purpose of this utility model is that in view of the above shortcomings of the prior art, providing a kind of big width laser engraving dress It sets.

To solve the above problems, technical solution adopted in the utility model is:

A kind of big width laser carving device, including rack, the rack are equipped with engraving platform, and the rack two sides are equipped with The side plate that can be slided along the length of the rack is equipped with fixed mounting plate, edge in the fixed mounting plate between two side plates Rack width direction is equipped with multiple engraving galvanometer mechanisms side by side.

Further technical solution is that the fixed mounting plate is equipped with vertical adjustment device, the engraving galvanometer machine Structure is mounted on the vertical adjustment device.

Further technical solution is, the vertical adjustment device include movable installation board, the first vertical adjustment mechanism, Second vertical adjustment mechanism, vertical adjustment motor and lead screw, the movable installation board are arranged in parallel in the fixed mounting plate Side, first vertical adjustment mechanism and the second vertical adjustment mechanism be set to the fixed mounting plate and movable installation board it Between, first vertical adjustment mechanism is including two the first diamond shape body cradles and is set to two the first diamond shape body cradles Between the first lower dolly bar, adjusting rod on first, adjusting rod and the first outer adjusting rod in first, first lower dolly bar is solid Dingan County is loaded in fixed mounting plate, and adjusting rod is fixedly installed on movable installation board on described first, adjusting rod in described first And first outer adjusting rod be set on first lower dolly bar and first between adjusting rod, in described first adjusting rod be located at lean on The side of nearly second vertical adjustment mechanism, the first outer adjusting rod is located remotely from the side of the second vertical adjustment mechanism, described Four hinged ends of the first diamond shape body cradle respectively with adjusting rod and first in adjusting rod on the first lower dolly bar, first, first The end of outer adjusting rod connects, and second vertical adjustment mechanism is including two the second diamond shape body cradles and is set to two institutes State the second lower dolly bar between the second diamond shape body cradle, adjusting rod on second, adjusting rod and the second outer adjusting rod in second, institute The second lower dolly bar is stated to be fixedly installed in fixed mounting plate, adjusting rod is fixedly installed on movable installation board on described second, Adjusting rod and the second outer adjusting rod are set on second lower dolly bar and second between adjusting rod in described second, and described Adjusting rod is located at close to the side of the first vertical adjustment mechanism in two, and the second outer adjusting rod is located remotely from the first vertical adjustment The side of mechanism, four hinged ends of the second diamond shape body cradle respectively with adjusting rod, second on the second lower dolly bar, second The connection of the end of interior adjusting rod and the second outer adjusting rod, it is remote that the vertical adjustment motor is fixedly installed on the described first outer adjusting rod Side from the second vertical adjustment mechanism, described lead screw one end are rotatably dispose in described second on adjusting rod, and the lead screw is another One end is connect after passing through the first outer adjusting rod with vertical adjustment motor drive, and adjusting rod is threadedly connected to the silk in described first On thick stick.

Further technical solution is that the first outer adjusting rod is equipped with primary optic axis, and the primary optic axis is another End after adjusting rod in first with second in adjusting rod be connected, adjusting rod is slideably positioned in the primary optic axis in described first On, the second outer adjusting rod is equipped with the second optical axis, and the second optical axis other end passes through in second after adjusting rod with first Interior adjusting rod is connected, and adjusting rod is slideably positioned on second optical axis in described second.

Further technical solution is that there are two the primary optic axis, is symmetrically disposed on the lead screw two sides, described the There are two two optical axises, is symmetrically disposed on the lead screw two sides.

Further technical solution is that the rack two sides are equipped with guide rail along its length, is equipped with below the guide rail Rack gear, the side plate are slideably positioned on the guide rail by sliding block, and the side plate is equipped with Level tune motor and belt pulley, The Level tune motor is connect by transmission belt with pulley drive, and the output shaft of the belt pulley is equipped with tooth after passing through side plate Wheel, the gear are engaged with the rack gear.

The beneficial effects of adopting the technical scheme are that can be according to the size of workpiece come choosing and shaping galvanometer Quantity, the opposite engraving continuous relative motion of platform of multiple engraving galvanometers, synthesis covers the carving area of entire workpiece, and realization does not stop Continuous scanning of pausing engraving.The error because of light channel structure and mechanical precision and the generation of motion control reason is reduced, equipment is improved and uses Service life.The splicing trace generated when avoiding and reduce galvanometer partition domain clearance-type engraving large format figure, improves product quality, Product aesthetics is good, and globality perception is strong, while improving production efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of the utility model other direction；

Fig. 3 is the enlarged diagram in the portion A in Fig. 2；

Fig. 4 is the enlarged diagram in the portion B in Fig. 2；

Fig. 5 is the structural schematic diagram in the yet another direction of the utility model；

Fig. 6 is the enlarged diagram in the portion C in Fig. 5.

1, rack in figure；2, platform is carved；3, side plate；4, fixed mounting plate；5, movable installation board；6, vertical adjustment motor； 7, lead screw；8, the first diamond shape body cradle；9, the first lower dolly bar；10, adjusting rod on first；11, adjusting rod in first；12, One outer adjusting rod；13, the second diamond shape body cradle；14, the second lower dolly bar；15, adjusting rod on second；16, adjusting rod in second； 17, the second outer adjusting rod；18, primary optic axis；19, the second optical axis；20, guide rail；21, rack gear；22, Level tune motor；23, skin Belt wheel；24, transmission belt；25, laser source；26, galvanometer is carved；27, sliding block；28, gear.

Specific embodiment

The embodiments of the present invention is described in further detail with reference to the accompanying drawings and examples.Following embodiment For illustrating the utility model, but cannot be used to limit the scope of the utility model.

As shown in figures 1 to 6, a kind of big width laser carving device, including rack 1,1 upper surface of rack are equipped with engraving Platform 2,1 two sides of rack are equipped with the side plate 3 that can be slided along 1 length direction of rack, fixed peace are equipped between two side plates 3 Loading board 4 is equipped with multiple engraving galvanometer mechanisms along 1 width direction of rack in the fixed mounting plate 4 side by side.

Preferably, the fixed mounting plate 4 is equipped with vertical adjustment device, and the engraving galvanometer mechanism is mounted on described perpendicular To in regulating device.The engraving galvanometer mechanism includes laser source 25 and engraving galvanometer 26, and the laser source 25 is installed on described On vertical adjustment device, the engraving galvanometer 26 is set to the output end of the laser source 25.When being carved, according to The size of workpiece carrys out the quantity of choosing and shaping galvanometer, according to the thickness of workpiece, adjusts vertical adjustment device adjustment height, then carves Galvanometer opposite engraving continuous relative motion of platform under the drive of side plate 3 is carved, realizes the continuous scanning engraving that do not stop.

The vertical adjustment device includes movable installation board 5, the first vertical adjustment mechanism, the second vertical adjustment mechanism, erects To motor 6 and lead screw 7 is adjusted, the movable installation board 5 is arranged in parallel in 4 top of fixed mounting plate, and described first is vertical Regulating mechanism and the second vertical adjustment mechanism are set between the fixed mounting plate 4 and movable installation board 5, and described first is vertical Regulating mechanism include two the first diamond shape body cradles 8 and be set between two the first diamond shape body cradles 8 first under Adjusting rod 11 and the first outer adjusting rod 12, first lower dolly bar 9 fix peace in adjusting rod 10, first on adjusting rod 9, first Loaded in fixed mounting plate 4, adjusting rod 10 is fixedly installed on movable installation board 5 on described first, adjusting rod in described first 11 and first outer adjusting rod 12 be set on first lower dolly bar 9 and first between adjusting rod 10, adjust in described first Bar 11 is located at close to the side of the second vertical adjustment mechanism, and the first outer adjusting rod 12 is located remotely from the second vertical adjustment mechanism Side, four hinged ends of the first diamond shape body cradle 8 respectively with adjusting rod 10, first on the first lower dolly bar 9, first Interior adjusting rod 11 is connected with the end of the first outer adjusting rod 12, and second vertical adjustment mechanism includes that two the second diamond shapes are hinged Adjusting rod 15, on frame 13 and the second lower dolly bar 14, second being set between two the second diamond shape body cradles 13 Adjusting rod 16 and the second outer adjusting rod 17, second lower dolly bar 14 are fixedly installed in fixed mounting plate 4 in two, and described Adjusting rod 15 is fixedly installed on movable installation board 5 on two, and adjusting rod 16 and the second outer adjusting rod 17 are set in described second On second lower dolly bar 14 and second between adjusting rod 15, adjusting rod 16 is located at close to the first vertical adjustment in described second The side of mechanism, the second outer adjusting rod 17 are located remotely from the side of the first vertical adjustment mechanism, and second diamond shape is hinged It is transferred respectively with adjusting rod 16 in adjusting rod 15, second on the second lower dolly bar 14, second and second four hinged ends of frame 13 The end of pole 17 connects, and the vertical adjustment motor 6 is fixedly installed on the described first outer adjusting rod 12 far from the second vertical tune The side of mechanism is saved, described 7 one end of lead screw is rotatably dispose in described second on adjusting rod 16, and 7 other end of lead screw passes through It is sequentially connected after first outer adjusting rod 12 with vertical adjustment motor 6, adjusting rod 11 is threadedly connected to the lead screw 7 in described first On.When needing to carve heavy sheet glass, starting vertical adjustment motor 6 drives lead screw 7 to rotate, and adjusting rod 11 is transferred to first in first 12 side of pole is mobile (being left side shown in Fig. 3), and the first outer adjusting rod 12 is under the action of the first diamond shape body cradle 8 in first 11 side of adjusting rod is mobile (being right side shown in Fig. 3), and adjusting rod 16 is under the promotion of lead screw 7 to the second outer adjusting rod 17 in second Side is mobile (being right side shown in Fig. 3), and the second outer adjusting rod 17 is under the action of the second diamond shape body cradle 13 to adjusting in second 16 side of bar is mobile (being left side shown in Fig. 3), raises the height of movable installation board 5, completes to be turned up.When needing to carve thin glass When, vertical adjustment motor 6 is inverted, lead screw 7 is driven to rotate, adjusting rod 11 is to far from the first outer 12 1 sidesway of adjusting rod in first Dynamic (being right side shown in Fig. 3), the first outer adjusting rod 12 is under the action of the first diamond shape body cradle 8 to adjusting rod 11 in separate first Side is mobile (being left side shown in Fig. 3), and adjusting rod 16 is under the pulling of lead screw 7 to far from the second outer 17 side of adjusting rod in second Mobile (being left side shown in Fig. 3), the second outer adjusting rod 17 is under the action of the second diamond shape body cradle 13 to adjusting in separate second 16 side of bar is mobile (being right side shown in Fig. 3), reduces the height of movable installation board 5, completes to turn down.

The first outer adjusting rod 12 is equipped with primary optic axis 18, and 18 other end of primary optic axis is passed through in first and adjusted It is connected after bar 11 with adjusting rod 16 in second, adjusting rod 11 is slideably positioned on the primary optic axis 18 in described first, described Second outer adjusting rod 17 is equipped with the second optical axis 19, and 19 other end of the second optical axis passes through in second after adjusting rod 16 with first Interior adjusting rod 11 is connected, and adjusting rod 16 is slideably positioned on second optical axis 19 in described second.

There are two the primary optic axis 18, is symmetrically disposed on 7 two sides of lead screw, there are two second optical axises 19, right Title is set to 7 two sides of lead screw.The effect of primary optic axis 18 is first is that enhance stability, second is that assisting lead screw during height-regulating 7 push adjusting rod 16 in second mobile (being right side shown in Fig. 3) to the second outer 17 side of adjusting rod, auxiliary wire during turning down Thick stick 7 pulls adjusting rod 16 in second mobile (being left side shown in Fig. 3) to separate second outer 17 side of adjusting rod.Second optical axis 19 Effect is first is that enhance stability, second is that pulling 16 side of adjusting rod in the second outer adjusting rod 17 to second mobile during height-regulating (being left side shown in Fig. 3) pushes the second outer adjusting rod 17 to the mobile (figure in 16 side of adjusting rod in separate second during turning down It is right side shown in 3).

1 two sides of rack are equipped with guide rail 20 along its length, are equipped with rack gear 21, the side plate 3 below the guide rail 20 It is slideably positioned on the guide rail 20 by sliding block 27, the side plate 3 is equipped with Level tune motor 22 and belt pulley 23, described Level tune motor 22 is sequentially connected by transmission belt 24 and belt pulley 23, after the output shaft of the belt pulley 23 passes through side plate 3 Equipped with gear 28, the gear 28 is engaged with the rack gear 21.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: It can still modify to technical solution documented by previous embodiment, or be equal to part of technical characteristic Replacement；And these are modified or replaceed, the utility model embodiment technical solution that it does not separate the essence of the corresponding technical solution Spirit and scope.

Claims (6)

1. a kind of big width laser carving device, including rack (1), the rack (1) is equipped with engraving platform (2), the rack (1) two sides are equipped with the side plate (3) that can be slided along rack (1) length direction, it is characterised in that: set between two side plates (3) Have fixed mounting plate (4), is equipped with multiple engraving galvanometer mechanisms side by side along rack (1) width direction on the fixed mounting plate (4).

2. a kind of big width laser carving device according to claim 1, it is characterised in that: the fixed mounting plate (4) It is equipped with vertical adjustment device, the engraving galvanometer mechanism is mounted on the vertical adjustment device.

3. a kind of big width laser carving device according to claim 2, it is characterised in that: the vertical adjustment device packet Include movable installation board (5), the first vertical adjustment mechanism, the second vertical adjustment mechanism, vertical adjustment motor (6) and lead screw (7), institute It states movable installation board (5) to be arranged in parallel in above the fixed mounting plate (4), first vertical adjustment mechanism and second is vertically Regulating mechanism is set between the fixed mounting plate (4) and movable installation board (5), and first vertical adjustment mechanism includes two A first diamond shape body cradle (8) and the first lower dolly bar (9) being set between two the first diamond shape body cradles (8), Adjusting rod (10) on first, adjusting rod (11) and the first outer adjusting rod (12) in first, the fixed peace of first lower dolly bar (9) Loaded on fixed mounting plate (4), adjusting rod (10) is fixedly installed on movable installation board (5) on described first, in described first Adjusting rod (11) and the first outer adjusting rod (12) are set on first lower dolly bar (9) and first between adjusting rod (10), Adjusting rod (11) is located at close to the side of the second vertical adjustment mechanism in described first, and the first outer adjusting rod (12) is located at remote Side from the second vertical adjustment mechanism, four hinged ends of the first diamond shape body cradle (8) respectively with the first lower dolly bar (9), adjusting rod (10) on first, adjusting rod (11) is connected with the end of the first outer adjusting rod (12) in first, described second is perpendicular It including two the second diamond shape body cradles (13) and is set between two the second diamond shape body cradles (13) to regulating mechanism The second lower dolly bar (14), adjusting rod (15) on second, adjusting rod (16) and the second outer adjusting rod (17) in second, described Two lower dolly bars (14) are fixedly installed on fixed mounting plate (4), and adjusting rod (15) is fixedly installed in movable peace on described second In loading board (5), in described second adjusting rod (16) and the second outer adjusting rod (17) be set to second lower dolly bar (14) and On second between adjusting rod (15), adjusting rod (16) is located at close to the side of the first vertical adjustment mechanism in described second, described Second outer adjusting rod (17) is located remotely from the side of the first vertical adjustment mechanism, four hinges of the second diamond shape body cradle (13) Connect end respectively with adjusting rod (16) and the second outer adjusting rod in adjusting rod (15) on the second lower dolly bar (14), second, second (17) end connection, it is vertical far from second that the vertical adjustment motor (6) is fixedly installed on the described first outer adjusting rod (12) The side of regulating mechanism, described lead screw (7) one end are rotatably dispose in described second on adjusting rod (16), and the lead screw (7) is another One end passes through the first outer adjusting rod (12) and is sequentially connected afterwards with vertical adjustment motor (6), adjusting rod (11) screw thread in described first It is connected on the lead screw (7).

4. a kind of big width laser carving device according to claim 3, it is characterised in that: the first outer adjusting rod (12) be equipped with primary optic axis (18), primary optic axis (18) other end pass through first in adjusting rod (11) afterwards with second in adjust Pole (16) is connected, and adjusting rod (11) is slideably positioned on the primary optic axis (18) in described first, adjusts outside described second Bar (17) be equipped with the second optical axis (19), the second optical axis (19) other end pass through second in adjusting rod (16) afterwards with first in Adjusting rod (11) is connected, and adjusting rod (16) is slideably positioned on second optical axis (19) in described second.

5. a kind of big width laser carving device according to claim 4, it is characterised in that: the primary optic axis (18) has Two, the lead screw (7) two sides are symmetrically disposed on, there are two second optical axises (19), is symmetrically disposed on the lead screw (7) two Side.

6. a kind of big width laser carving device according to claim 1-5, it is characterised in that: the rack (1) two sides are equipped with guide rail (20) along its length, are equipped with rack gear (21) below the guide rail (20), and the side plate (3) passes through cunning Block (27) is slideably positioned on the guide rail (20), and the side plate (3) is equipped with Level tune motor (22) and belt pulley (23), The Level tune motor (22) is sequentially connected by transmission belt (24) and belt pulley (23), the output shaft of the belt pulley (23) Gear (28) are equipped with afterwards across side plate (3), the gear (28) is engaged with the rack gear (21).