CN208929459U - A kind of rotary work station laser marking device - Google Patents

Abstract

The utility model belongs to laser marking device technical field, and in particular to a kind of laser marking device of rotatable station.The rotary work station laser marking device, including base, the base is equipped with workpiece placement station, three axis mobile mechanisms, laser mark printing device, and the workpiece placement station includes table top, C axis rotating mechanism and platform pedestal, and the C axis rotating mechanism includes rotor, stator, C axis main shaft and driving motor；Three axis mobile mechanism is equipped with laser mark printing device.Rotary work station laser marking device provided by the utility model, by the way that a C axis rotating mechanism is respectively set in workpiece placement station and laser mark printing device and rotates the laser galvanometer of angle positioning with B axle, five Shaft fixed position modules are together formed with three shaft moving devices, processing flexibility ratio is improved, so as to more comprehensive processing to workpiece product surface.

Description

A kind of rotary work station laser marking device

Technical field

The utility model belongs to laser marking device technical field, and in particular to a kind of laser marking of rotatable station is set It is standby.

Background technique

Laser marking be using high-energy density laser to workpiece carry out local irradiation, make workpiece surface occur physics or Chemical change, thus the processing method for changing Workpiece structure or forming specific pattern in workpiece surface.

Laser marking device currently on the market mostly uses three axis Three-dimensional movable modes to adjust laser processing station, due to The direction that three axis directions can adjust is limited, causes the output of its laser optical path to be also difficult to flexible angle adjustment, for needing multi-panel The workpiece of processing, then need more processing times, and more complicated process step design can be only achieved ideal processing effect.

Therefore, it is necessary to develop a kind of laser marking device for being applicable to the processing of workpiece multi-panel, to overcome traditional marking machine Defect.

Utility model content

Based on the shortcomings and deficiencies of the above-mentioned prior art, the purpose of this utility model is to provide a kind of rotary work station laser Marking equipment is applicable to the mark operation for the workpiece product for needing multi-panel to process.

The purpose of this utility model is achieved through the following technical solutions:

A kind of rotary work station laser marking device, including base, the base are equipped with workpiece placement station, three axis moving machines Structure, laser mark printing device, the workpiece placement station include table top, C axis rotating mechanism and platform pedestal, the C axis rotating mechanism packet Rotor, stator, C axis main shaft and driving motor are included, wherein rotor is placed in below the table top and is fixedly connected with the table top, fixed Son is placed in below rotor and is fixedly connected with platform pedestal, and C axis main shaft is arranged in stator by C axle bearing, and C axis main shaft one end is fixed It is connected to the central point of rotor, the rotary output connection of the C axis main shaft other end and driving motor drives C axis by driving motor Main shaft drives rotor rotation；Three axis mobile mechanism is equipped with laser mark printing device；The workpiece placement station, three axis move Motivation structure carries out control by control device with the laser mark printing device and connects.

Specifically, the laser mark printing device include optical path, with B axle rotation angle positioning laser galvanometer and lens, The lens are installed on the front end of galvanometer, and the optical path is connect with the laser galvanometer with B axle rotation angle positioning.

Specifically, three axis mobile mechanism includes X-axis mobile mechanism, Y-axis moving mechanism and Z axis mobile mechanism, the X Axis mobile mechanism is installed on the base, and the Y-axis moving mechanism is set up in the X-axis mobile mechanism, and the Z axis is mobile Mechanism rack is set in the Y-axis moving mechanism；The laser mark printing device is installed on the Z axis mobile mechanism.

Specifically, the X-axis mobile mechanism includes the X-axis drive that X-axis guide rail and the driving Y-axis moving mechanism are translated Dynamic device；The Y-axis moving mechanism includes Y-axis guide rail and the Y-axis driving device that the driving Z axis mobile mechanism is translated； The Z axis mobile mechanism includes Z axis guide rail and the Z axis driving device that the driving laser mark printing device is vertically moved.

Specifically, the X-axis mobile mechanism be a pair of parallel arrangement of X-axis guide rail and the driving Y-axis moving mechanism into The X-axis driving device of row translation.

Specifically, the laser mark printing device is installed on the Z axis guide rail by bracket, the bracket is driven by the Z axis Dynamic device driving is vertically moved.

The utility model has the advantage that compared with the existing technology and effect:

Rotary work station laser marking device provided by the utility model, by workpiece placement station and laser mark printing device point Not She Zhi C axis rotating mechanism and the laser galvanometer with B axle rotation angle positioning, together formed with three shaft moving devices Five Shaft fixed position modules improve processing flexibility ratio, so as to more comprehensive processing to workpiece product surface, effectively Enhance machining accuracy, improve processing efficiency, at the same different configuration can be better adapted to, size has other workpiece product.

Detailed description of the invention

Fig. 1 is the schematic perspective view of rotary work station laser marking device in embodiment.

Fig. 2 is the main view of rotary work station laser marking device in embodiment.

Specific embodiment

The present invention will be further described in detail with reference to the embodiments and the accompanying drawings, but the implementation of the utility model Mode is without being limited thereto.

Embodiment

As shown in Figure 1, Figure 2, rotary work station laser marking device, including base 1, the base 1 are equipped with for putting Workpiece placement station 2, the three axis mobile mechanisms 3, laser mark printing device 4 of workpiece 6 are set, the workpiece placement station 2 includes table top 210, C Axis rotating mechanism 220 and platform pedestal 230, the C axis rotating mechanism 220 include rotor 221, stator 222, C axis main shaft 223 and drive Dynamic motor 224, wherein rotor 221 is placed in 210 lower section of table top and is fixedly connected with the table top 210, and stator 222, which is placed in, to be turned 221 lower section of son is simultaneously fixedly connected with platform pedestal 230, and C axis main shaft 223 is arranged in stator by C axle bearing (not shown) 222, C axis main shaft, 223 one end is fixedly connected on the central point of rotor 221, the rotation of C axis main shaft 223 other end and driving motor 224 Outlet connection is transferred, drives C axis main shaft 223 that rotor 221 is driven to rotate by driving motor 224, to drive the table top 210 Rotation；Three axis mobile mechanism 3 is equipped with laser mark printing device 4；The workpiece placement station 2, three axis mobile mechanism, 3 and The laser mark printing device 4 carries out control connection by control device 5.

Specifically, the laser mark printing device 4 includes optical path 401, the laser galvanometer 402 with B axle rotation angle positioning And lens 403, the lens 403 are installed on the front end of the laser galvanometer 402 with B axle rotation angle positioning, the optical path 401 It is connect with the laser galvanometer 402 with B axle rotation angle positioning.

Specifically, three axis mobile mechanism 3 includes X-axis mobile mechanism 310, Y-axis moving mechanism 320 and Z axis moving machine Structure 330, the X-axis mobile mechanism 310 are installed on the base 1, and the Y-axis moving mechanism 320 sets up mobile with the X-axis In mechanism 310, in the erection of Z axis mobile mechanism 330 and the Y-axis moving mechanism 320；The laser mark printing device 4 is installed In the Z axis mobile mechanism 330.

Specifically, the X-axis mobile mechanism 310 include X-axis guide rail 311 and the driving Y-axis moving mechanism 320 carry out it is flat The X-axis driving device 312 of shifting；The Y-axis moving mechanism 320 include Y-axis guide rail 321 and the driving Z axis mobile mechanism 330 into The Y-axis driving device 322 of row translation；The Z axis mobile mechanism 330 includes Z axis guide rail 331 and the driving laser mark printing device The 4 Z axis driving devices 332 vertically moved.

Specifically, the X-axis mobile mechanism 310 is that a pair of parallel arrangement of X-axis guide rail 311 and the driving Y-axis are mobile The X-axis driving device 312 that mechanism 320 is translated.

Specifically, the laser mark printing device 4 is installed on the Z axis guide rail 331 by bracket 404, the bracket 404 by The driving of Z axis driving device 332 is vertically moved.

Specifically, the X-axis driving device 312 is servo motor or cylinder.

Specifically, the Y-axis driving device 322 is servo motor or cylinder.

Specifically, the Z axis driving device 332 is servo motor or cylinder.

The working mechanism of this rotary work station laser marking machine are as follows:

Workpiece 6 is placed in workpiece placement station 2, three axis mobile mechanisms 3 are controlled by control device 5 and carry out positional operand Make, by the running fix of X-axis mobile mechanism 310, Y-axis moving mechanism 320 and Z axis mobile mechanism 330, so that laser marking fills 4 are set to be moved near position of the workpiece 6 to mark surface；Controlling, there is the laser galvanometer 402 of B axle rotation angle positioning to carry out angle Then degree variation carries out laser marking operation so that galvanometer 402 is vertical to mark surface with workpiece 6；One side mark is completed to make After industry, the C axis rotating mechanism 220 of workpiece placement station 2 is controlled, workpiece 6 is rotated, the mark operation of its lap is carried out.

The rotational workpieces laser marking device of the present embodiment to the rotation of workpiece 6 and has B by C axis rotating mechanism 220 The laser galvanometer 402 that axis rotates angle positioning adjusts the angle of laser mark printing device 4, can form five with three axis mobile mechanisms 3 Shaft fixed position module, so that laser mark printing device 4 can be with more flexible adjustment direction, thus the table of comprehensive workpieces processing 6 Face, while preferably commensurate structure difference, size can have other work pieces process demand.

The above, the only preferred embodiment of the utility model not make in any form the utility model Limitation；The those of ordinary skill of all industry can be shown in by specification attached drawing and described above and swimmingly to implement this practical It is novel；But all those skilled in the art are not departing within the scope of technical solutions of the utility model, using the above institute The technology contents of announcement and the equivalent variations of a little variation, modification and evolution made, are the equivalence enforcement of the utility model Example；Meanwhile the changes of all substantial technological any equivalent variationss to the above embodiments according to the utility model, modification with Develop etc., within the protection scope for still falling within the technical solution of the utility model.

Claims (9)

1. a kind of rotational workpieces laser marking device, including base, it is characterised in that: the base be equipped with workpiece placement station, Three axis mobile mechanisms, laser mark printing device, the workpiece placement station include table top, C axis rotating mechanism and platform pedestal, the C axis Rotating mechanism includes rotor, stator, C axis main shaft and driving motor, wherein rotor be placed in below the table top and with the table top It is fixedly connected, stator is placed in below rotor and is fixedly connected with platform pedestal, and C axis main shaft is arranged in stator, C axis by C axle bearing Main shaft one end is fixedly connected on the central point of rotor, the rotary output connection of the C axis main shaft other end and driving motor, by driving Motor driven C axis main shaft drives rotor rotation；Three axis mobile mechanism is equipped with laser mark printing device；The workpiece is placed Platform, three axis mobile mechanism and the laser mark printing device carry out control by control device and connect.

2. rotational workpieces laser marking device according to claim 1, it is characterised in that: the laser mark printing device includes Optical path, laser galvanometer and lens with B axle rotation angle positioning, the lens are installed on the front end of galvanometer, the optical path with The laser galvanometer connection with B axle rotation angle positioning.

3. rotational workpieces laser marking device according to claim 1, it is characterised in that: three axis mobile mechanism includes X-axis mobile mechanism, Y-axis moving mechanism and Z axis mobile mechanism, the X-axis mobile mechanism are installed on the base, the Y-axis In mobile mechanism's erection and the X-axis mobile mechanism, in the Z axis mobile mechanism erection and the Y-axis moving mechanism；It is described to swash Light marking device is installed on the Z axis mobile mechanism.

4. rotational workpieces laser marking device according to claim 3, it is characterised in that: the X-axis mobile mechanism includes X The X-axis driving device that axis rail and the driving Y-axis moving mechanism are translated；The Y-axis moving mechanism include Y-axis guide rail and The Y-axis driving device for driving the Z axis mobile mechanism to be translated；The Z axis mobile mechanism includes described in Z axis guide rail and driving The Z axis driving device that laser mark printing device is vertically moved.

5. rotational workpieces laser marking device according to claim 4, it is characterised in that: the X-axis mobile mechanism is one The X-axis driving device that parallel arrangement of X-axis guide rail and the driving Y-axis moving mechanism are translated.

6. rotational workpieces laser marking device according to claim 4, it is characterised in that: the laser mark printing device passes through Bracket is installed on the Z axis guide rail, and the bracket is vertically moved by Z axis driving device driving.

7. rotational workpieces laser marking device according to claim 4, it is characterised in that: the X-axis driving device is to watch Take motor or cylinder.

8. rotational workpieces laser marking device according to claim 4, it is characterised in that: the Y-axis driving device is to watch Take motor or cylinder.

9. rotational workpieces laser marking device according to claim 4, it is characterised in that: the Z axis driving device is to watch Take motor or cylinder.