CN201065027Y - Multi-object carrying unit gyration exchange type laser carving machine - Google Patents

Abstract

The utility model relates to multi-load unit revolution exchange type laser carving machine, which comprises a laser operation device and a revolution exchange loading device, the laser operation device is composed of a main housing, a laser, an optical path and a laser operation head, the laser operation head is arranged on the main housing; the revolution exchange loading device is composed of a revolution housing, a revolution mechanism and a loading mechanism controlled by the revolution mechanism, the revolution mechanism and the loading mechanism are arranged on the revolution housing, the loading mechanism is arranged with two or more loading units, each loading unit is corresponding to a work position, moreover each loading unit enters and exits the laser work position below the laser operation head in the laser operation device in order by the means of revolution exchange. The utility model replaces the prior single work-position operation structure, i.e continuous exchange operation mode is used to replace the intermittent operation mode, so as to raise synthetic efficiency of laser operation.

Description

The multi-loading-unit rotary exchange type laser engraving machine

Technical field

The utility model relates to a kind of laser engraving machine, is meant a kind of multi-loading-unit rotary exchange type laser engraving machine especially.

Background technology

At present, the application of Laser Processing more and more widely, many fields such as dress ornament, case and bag, handicraft and electronics, machine-building have been spread to such as laser engraving machine, but practise the laser engraving machine application that has at present and still be in unit list station work pattern, the material equipment that its plenty of time in operation is used for laser work early stage prepare and laser work after finished product under unload work, owing to be batch operation production, its work efficiency also is difficult to improve.Thus, the comprehensive work efficiency that how to break through unit list station work pattern and then promote laser work becomes the lifting target of pursuing in the industry.

The utility model content

The utility model is at the existing disappearance of above-mentioned prior art, and main purpose is to provide a kind of multi-loading-unit rotary exchange type laser engraving machine, saves forward and backward time of laser work by the operation same period, promotes the overall efficiency of laser work.

The utility model is realized by following technical proposal:

A kind of multi-loading-unit rotary exchange type laser engraving machine, comprise the laser work device, it is by mainframe, laser instrument, light path and laser work head are formed, this laser work head is arranged on this mainframe, also comprise single-revolution exchange carrying apparatus, it is by rotary rack, slew gear and the loading mechanism that is rotated by this slew gear control form, this slew gear, loading mechanism is located on this rotary rack, this loading mechanism is provided with two or more loading-units, the corresponding station of each loading-unit, and each loading-unit passes in and out the laser station of the laser work head below that is arranged in above-mentioned laser work device successively in the mode of revolution exchange, certainly, this loading mechanism is relevant also can enter other outer stations of engraving machine etc., is not promptly described in detail at this.

The utility model preferred version is as follows:

Be provided with galvanometer, field lens or convex lens in the described laser work head.

Loading-unit in the described loading mechanism is clamp structure, clamping rotational structure, clamping rotary oscillation structure or clamping rotary extension swinging structure.Above-mentioned clamping rotary extension swinging structure comprises telescopic joint, swinging joint, rotary joint, clamper, this swinging joint and slew gear are coupling, rotary joint is fixed on the telescopic joint, and telescopic joint is fixed in swinging joint top, and clamper is fixed in the rotary joint top.

Loading-unit in the described loading mechanism can also be planar structure.

Between described mainframe and the rotary rack disjunctor or same body structure.

It between described mainframe and the rotary rack isolating construction.

Described laser instrument is located on the mainframe.

Described laser instrument is separately set in outside the mainframe, and has light-conducting arm in this light path.

The utility model compared with prior art, its advantage is that the revolution exchange carrying apparatus that has multi-loading-unit by this substitutes existing single station work pattern, make it when laser work, can carry out the multistation operation of associated front and back operation the same period, especially the material loading operation in early stage or the upstream preparation work of laser work, the time of the front and back operation of laser work is saved in relevant operation in the downstream in later stage or blanking operation, the utilization multistation work pattern same period, make it when carrying out laser work, operations such as early-stage preparations of being correlated with at other stations and post-processed, and then save laser work before, after operation time, promote the overall efficiency of laser work.

Description of drawings

Fig. 1 is the schematic perspective view of the utility model embodiment 1;

Fig. 2 is the schematic side view of Fig. 1;

Fig. 3 is the schematic top plan view of Fig. 1;

Fig. 4 is the schematic perspective view of the utility model embodiment 2;

Fig. 5 is the schematic perspective view at another visual angle of Fig. 4;

Fig. 6 is the side view of the utility model embodiment 3;

Fig. 7 is the schematic top plan view of Fig. 6.

The bis explanation:

1. laser work device

2. mainframe

3. laser instrument

4. light path

5. laser work head

The 5a galvanometer; The 5b field lens; The 5c lens

6. revolution exchanges carrying apparatus

7. rotary rack

8. slew gear

9. loading mechanism

9a. loading-unit a; 9b. loading-unit b; 9c. loading-unit c;

9d. loading-unit d; 9e. loading-unit e;

9f. loading-unit f; 9g. loading-unit g; 9h. loading-unit h;

10. swinging joint

11. telescopic joint

12. rotary joint

13. clamper

14. laser work head driving mechanism

15. light-conducting arm

16. laser station

The specific embodiment

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is further described.

As Fig. 1, Fig. 2, Fig. 3, be respectively schematic perspective view, side view and the vertical view of the utility model embodiment 1.

As shown in Figure 1, the utility model multi-loading-unit rotary exchange type laser engraving machine comprises laser work device 1 and revolution exchange carrying apparatus 6, wherein:

Laser work device 1 is made up of frame 2, laser instrument 3, light path 4, laser work head 5, and this laser work head 5 is arranged on this mainframe 2; Described laser instrument 3 is located on the mainframe 1; Be provided with galvanometer 5a, field lens 5b or convex lens 5c in the described laser work head 5.

Revolution exchange carrying apparatus 6 is made up of rotary rack 7, slew gear 8 and loading mechanism 9, and this slew gear 8, loading mechanism 9 are located on this rotary rack 7, and loading mechanism 9 is rotated by slew gear 8 controls.Be conjoined structure between above-mentioned rotary rack 7 and the mainframe 2.

By 5 loading-units that can turn round exchange, is respectively 9a, 9b, 9c, 9d, 9e by the visible loading of Fig. 2, Fig. 3 mechanism 9, and it can be used for laser work station, material loading station, blanking station or the like.Each loading-unit 9 is clamping rotary extension swinging structure in the present embodiment, be that each loading-unit 9 is made up of swinging joint 10, telescopic joint 11, rotary joint 12, clamper 13, wherein machining object is fixed on the clamper 13, and cooperates the operation running of each station under the acting in conjunction of swinging joint 10, telescopic joint 11 and rotary joint 12.Above-mentioned each loading-unit 9a, 9b, 9c, 9d, 9e pass in and out the laser station 16 of laser work head 5 belows that are arranged in above-mentioned laser work device 1 successively in the mode of revolution exchange.

The operation principle of present embodiment is: the laser work principle of laser work device 1 promptly will not be given unnecessary details at this for now using technology; When laser work, rotate through slew gear 8 controls by each loading-unit 9a, 9b of each loading mechanism 9,9c, 9d, 9e, make each loading-unit 9a, 9b, 9c, 9d, 9e pass in and out the laser station 16 of laser work head 5 belows in the laser work device 1 successively; Simultaneously, other loading-units also enter material loading operation or upstream preparation work district, the relevant operation in downstream or blanking operation area, the time of operation before and after the operation same period of a plurality of working position and then saving successively.The utilization multistation work pattern same period, make it when carrying out laser work, forward and backward operation time of laser work is saved in operations such as early-stage preparations of being correlated with the same period at other working positions and post-processed, promotes the overall efficiency of laser work.

As Fig. 4, Fig. 5 is the schematic perspective view at two kinds of visual angles of embodiment 2.

Its laser work device 1 is made up of frame 2, laser instrument 3, light path 4, laser work head driving mechanism 14, laser work head 5 as we know from the figure; Revolution exchange carrying apparatus 6 is made up of rotary rack 7, slew gear 8 and loading mechanism 9; Loading mechanism 9 is made up of 3 plane loading-units such as 9f, 9g, 9h; Wherein loading-unit 9f is positioned at that laser work station 16, loading-unit 9g are positioned at unloading station, the 9h of loading mechanism is positioned at the material loading station; 9f, 9g, 9h can carry out the operation of place station the same period, and exchange the station operation through the turning anticlockwise of slew gear 8.Be to use the galvanometer 5a and the field lens 5b of laser work head 5 instead laser work head driving mechanism 14 and lens 5c with the difference of embodiment 1, loading mechanism 9 is transferred to by 3 plane loading modes that the plane loading-unit is formed such as 9f, 9g, 9h by the clamping rotary extension swing loading-unit of embodiment 1.Embodiment 2 can carry out cam plane engraving, cutting and weld job owing to used laser work head driving mechanism 14 and lens 5c instead.

As Fig. 6, Fig. 7 is side view and the vertical view of embodiment 3.

Embodiment 3 is similar to embodiment 2, different just separates placement by the shown laser instrument 3 of Fig. 7 with laser work device 1, and consider in light path 4, to have increased light-conducting arm 15 for safety work, make laser be shielded operation in light-conducting arm 15, this security protection for the high power laser operation is necessary.

Each embodiment to sum up, the utility model design focal point is to substitute existing single station operation structure by the revolution exchange carrying apparatus of this band multi-loading-unit, promptly replace interrupted batch operation pattern with continuous exchanging operation pattern, make it when laser work, can carry out the multistation operation of associated front and back operation the same period, especially the material loading operation in early stage or the upstream preparation work of laser work, the time of the front and back operation of laser work is saved in relevant operation in the downstream in later stage or blanking operation, the utilization multistation work pattern same period, make it when carrying out laser work, operations such as early-stage preparations of being correlated with at other stations and post-processed, and then save laser work before, the time of back operation, the overall efficiency of lifting laser work.The utility model is widely used in aspects such as laser engraving, laser cutting, laser marking, laser weld or the quick appearance of laser.

The above, it only is the preferred embodiment of a kind of multi-loading-unit rotary exchange type laser engraving machine of the utility model, be not that technical scope of the present utility model is imposed any restrictions, so every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any trickle modification, equivalent variations and modification that above embodiment did.

Claims (9)

1. multi-loading-unit rotary exchange type laser engraving machine, comprise the laser work device, it is by mainframe, laser instrument, light path and laser work head are formed, this laser work head is arranged on this mainframe, it is characterized in that: also comprise single-revolution exchange carrying apparatus, it is by rotary rack, slew gear and the loading mechanism that is rotated by this time mechanism controls form, this slew gear, loading mechanism is located on this rotary rack, this loading mechanism is provided with two or more loading-units, the corresponding station of each loading-unit, and each loading-unit debouches the laser station of the laser work head below in the above-mentioned laser work device successively in the mode of revolution exchange.

2. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 is characterized in that: be provided with galvanometer, field lens or convex lens in the described laser work head.

3. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: the loading-unit in the described loading mechanism is clamp structure, clamping rotational structure, clamping rotary oscillation structure or clamping rotary extension swinging structure.

4. multi-loading-unit rotary exchange type laser engraving machine according to claim 3, it is characterized in that: above-mentioned clamping rotary extension swinging structure comprises telescopic joint, swinging joint, rotary joint, clamper, this swinging joint and slew gear are coupling, rotary joint is fixed on the telescopic joint, and telescopic joint is fixed in the swinging joint top, and clamper is fixed in the rotary joint top.

5. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: the loading-unit in the described loading mechanism is a planar structure.

6. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: be disjunctor or same body structure between described mainframe and the rotary rack.

7. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: be isolating construction between described mainframe and the rotary rack.

8. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: described laser instrument is located on the mainframe.

9. multi-loading-unit rotary exchange type laser engraving machine according to claim 1 and 2 is characterized in that: described laser instrument is separately set in outside the mainframe, and has light-conducting arm in this light path.

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