CN203292700U

CN203292700U - Film cutting optical path system

Info

Publication number: CN203292700U
Application number: CN2013202432636U
Authority: CN
Inventors: 彭信翰
Original assignee: SHENZHEN MUSEN TECHNOLOGY Co Ltd
Current assignee: SHENZHEN MUSEN TECHNOLOGY Co Ltd
Priority date: 2013-05-07
Filing date: 2013-05-07
Publication date: 2013-11-20
Anticipated expiration: 2023-05-07

Abstract

The utility model discloses a film cutting optical path system. The film cutting optical path system comprises a laser used for emitting laser light, a first reflecting mirror component matched with the laser, a second reflecting mirror component matched with the first reflecting mirror component, a third reflecting mirror component matched with the second reflecting mirror component, an X-axis guide rail component and a Y-axis guide rail component, wherein the X-axis guide rail component is provided with an X-axis guide rail along the X-axis direction; the Y-axis guide rail component is provided with a Y-axis guide rail along the Y-axis direction; the X-axis guide rail component is movably connected with the Y-axis guide rail component; the X-axis guide rail component is shifted along the Y-axis guide rail; the second reflecting mirror component and the third reflecting mirror component are arranged on the X-axis guide rail component; the third reflecting mirror component is movably connected with the X-axis guide rail; the third reflecting mirror component is shifted along the X-axis guide rail. As the film cutting optical path system adopts the above structure, a reflecting mirror body is simple to install, the production efficiency of film cutting equipment is high, and laser light can be emitted to different positions of a workbench.

Description

A kind of film cutting light path system

Technical field

The utility model relates to laser film cutting equipment field, is specifically related to a kind of film cutting light path system.

Background technology

At present, in existing film cutting device light path system, speculum is all fixed, and this just requires equipment must adjust position when mounted, and speculum and laser instrument are coordinated; Cause that speculum is installed, adjustment difficulty is large, film cutting device production efficiency is low; If while equipment in use speculum is offset, obtain refitting after the speculum dismounting, it is inconvenient to adjust.

Simultaneously fixing speculum cause on laser directive workbench fixing a bit, the laser emitting direction is fixed, cutting inconvenience.

The utility model content

The purpose of this utility model is to provide a kind of film cutting light path system, and the solution speculum is installed, adjustment difficulty is large, the problem that the laser emitting direction is fixing.

For achieving the above object, the utility model adopts following technical scheme:

A kind of film cutting light path system, comprise the laser instrument for Emission Lasers, the first mirror assembly that coordinates with this laser instrument, the second mirror assembly that coordinates with this first mirror assembly, the 3rd mirror assembly, X-axis guide assembly and the Y-axis guide assembly that coordinate with this second mirror assembly; The X-axis guide assembly is provided with the X-axis guide rail along X-direction, and the Y-axis guide assembly is provided with the Y-axis guide rail along Y direction; X-axis guide assembly and Y-axis guide assembly are flexibly connected, and the X-axis guide assembly is along the displacement of Y-axis guide rail; The second mirror assembly and the 3rd mirror assembly are located on the X-axis guide assembly, and the 3rd mirror assembly and the flexible connection of X-axis guide rail, and the 3rd mirror assembly is along the displacement of X-axis guide rail.

Further, the Y-axis guide assembly also comprises the Y-axis drive unit, and the Y-axis drive unit connects the X-axis guide assembly, and the Y-axis drive unit drives the X-axis guide assembly along the displacement of Y-axis guide rail.

Further, the Y-axis guide rail consists of the first Y-axis slide rail and the second Y-axis slide rail, and the first Y-axis slide rail and the second Y-axis slide rail are located at respectively the two ends of X-axis guide assembly bottom, and the first mirror assembly is positioned at the end of the first Y-axis slide rail.

Further, the X-axis guide assembly also comprises the X-axis drive unit, and the X drive unit connects the 3rd mirror assembly, and the X-axis drive unit drives the 3rd mirror assembly along the displacement of X-axis guide rail.

Further, the first mirror assembly comprises the first universal adjusting seat structure, also comprises and is located at structural the first speculum body of this first universal adjusting seat; The second mirror assembly comprises the second universal adjusting seat structure, also comprises and is located at structural the second speculum body of this second universal adjusting seat; The 3rd mirror assembly comprises the 3rd universal adjusting seat structure, also comprises and is located at structural the 3rd speculum body of the 3rd universal adjusting seat.

Further, the first universal adjusting seat structure comprises the first Y-axis fine tuning structure, the first reflector mount seat board, the first eyeglass supporting seat and at least one the first regulating wheel; The first Y-axis fine tuning structure is fixed on the laser instrument seat board; The first reflector mount seat board is arranged on the first Y-axis fine tuning structure, and the first eyeglass supporting seat connects the first reflector mount seat board by the first regulating wheel, and the first speculum body is located on the first eyeglass supporting seat; The first Y-axis fine tuning structure drives the first reflector mount seat board along the Y direction displacement, and the first regulating wheel is regulated the position of the first reflector mount seat board, thereby adjusts the position of the first speculum body, and the first speculum body and laser instrument are coordinated.

Further, the second universal adjusting seat structure comprises the L shaped fixed head that is connected with the Y-axis guide assembly, is located at the second reflector mount seat board on L shaped fixed head, is located at the first adjustable plate on the second reflector mount seat board, is located at the second adjustable plate on the first adjustable plate, is located at the second eyeglass fixed block on the second adjustable plate, is located at the second speculum seat board and at least one the second regulating wheel on the second adjustable plate; The second speculum body is located at the second speculum seat board; Be flexibly connected between the second reflector mount seat board, the first adjustable plate and the second adjustable plate, thereby regulate the second eyeglass fixed block and second speculum seat board position on Y direction; The second eyeglass fixed block is flexibly connected by the second regulating wheel and the second speculum seat board, and the second regulating wheel is regulated the position of the second speculum seat board; Thereby the second speculum body and the first speculum body are coordinated.

Further, the 3rd universal adjusting seat comprise the Z axis keyset that is connected with the X-axis guide assembly, the Z axis base plate of being located at the Z axis keyset, the 3rd mirror unit seat board that is flexibly connected with the Z axis base plate and be located at the 3rd mirror unit on the 3rd mirror unit seat board; The 3rd speculum body is connected the 3rd mirror unit by the speculum retainer ring with the speculum adjustable ring; Speculum retainer ring and speculum adjustable ring are regulated the fine adjustment function to the 3rd speculum body position, and the 3rd speculum body and the second speculum body are coordinated.

Further, also comprise the focus lamp assembly, the focus lamp assembly consists of focus lamp fixed cover and focus lamp body, and the focus lamp fixed cover is located at the 3rd mirror assembly below, and the focus lamp body is set in the focus lamp fixed cover.

Further, also comprise the beam expanding lens body, this beam expanding lens body is located between laser instrument and the first mirror assembly, between the first mirror assembly and the second mirror assembly and/or between the second mirror assembly and the 3rd mirror assembly.

Compared with prior art, the beneficial effects of the utility model are as follows:

The utility model adopts above structure, the laser that laser instrument sends successively through the first speculum body, the second speculum body and the 3rd speculum proprioceptive reflex to workbench; The second speculum body, the 3rd speculum body utilize X-axis guide rail, Y-axis guide rail adjusting position, the first speculum body, the second speculum body and the 3rd speculum body utilize respectively the first universal adjusting seat structure, the second universal adjusting seat structure and the 3rd universal adjusting seat structure fine setting self-position simultaneously, thereby adjust the position of the directive workbench of laser, and make between laser instrument and the first speculum body, speculum body location accurate; The utility model overall construction design is reasonable, make the speculum body install simple and easy, film cutting device production efficiency is high, different position on laser energy directive workbench; If while equipment in use speculum is offset, can utilize universal adjusting seat structural adjustment, easy to adjust.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, in below describing embodiment, the accompanying drawing of required use is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the schematic perspective view of a kind of film cutting of the utility model light path system embodiment;

Fig. 2 is the schematic top plan view of Fig. 1;

Fig. 3 is the structural representation of the first mirror assembly in Fig. 1;

Fig. 4 is the structural representation of X-axis guide assembly in Fig. 1;

Fig. 5 is the structural representation one of the second mirror assembly and the 3rd mirror assembly in Fig. 1;

Fig. 6 is the structural representation two of Fig. 5;

In figure, the 1-laser instrument; 2-the first mirror assembly; 21-the first speculum body; 22-the first Y-axis fine tuning structure; 221-finely tunes swing arm; 23-the first reflector mount seat board; 24-the first eyeglass supporting seat; 25-the first regulating wheel; 26-the first extension spring; 3-the second mirror assembly; 31-the second speculum body; 32-L shape fixed head; 33-the second reflector mount seat board; 34-the first adjustable plate; 35-the second adjustable plate; 36-the second eyeglass fixed block; 37-the second speculum seat board; 38-the second regulating wheel; 4-the 3rd mirror assembly; 41-the 3rd speculum body; 42-Z axle keyset; 43-Z axle base plate; 44-the 3rd mirror unit seat board; 45-the 3rd mirror unit; 46-speculum retainer ring; 47-speculum adjustable ring; 5-X axis rail assembly; The 51-X axis rail; 52-module connecting plate; 53-X axial filament bar; The 54-X axial brake device; 55-X axle clamp plate shaft coupling; 6-Y axis rail assembly; The 61-Y axis rail; 611-the first Y-axis slide rail; 612-the second Y-axis slide rail; 62-Y axle protecting cover seat; The 63-Y axial brake device; 64-Y axle clamp plate shaft coupling; 65-Y axial filament bar; 66-Y axle slide block; The 7-workbench; The 8-beam expanding lens is adjusted assembly; 81-beam expanding lens body; 9-laser instrument seat board; 10-focus lamp assembly; 101-focus lamp fixed cover; The 11-sealing shroud; The 12-stationary magazine creel; 13-lens barrel grip slipper; 14-nozzle holder; The 15-nozzle; The 16-CCD positioning component.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.

A kind of film cutting light path system as shown in Fig. 1 to Fig. 6 embodiment, comprise the laser instrument 1 for Emission Lasers, the first mirror assembly 2 that coordinates with this laser instrument 1, the second mirror assembly 3 that coordinates with this first mirror assembly 2, the 3rd mirror assembly 4, X-axis guide assembly 5 and the Y-axis guide assembly 6 that coordinate with this second mirror assembly 3.X-axis guide assembly 5 is provided with the X-axis guide rail 51 along X-direction, and Y-axis guide assembly 6 is provided with the Y-axis guide rail 61 along Y direction.X-axis guide assembly 5 and Y-axis guide assembly 6 are flexibly connected, and X-axis guide assembly 5 is along 61 displacements of Y-axis guide rail; The second mirror assembly 3 and the 3rd mirror assembly 4 are located on X-axis guide assembly 5, and the

3rd mirror assembly

4 and 51 flexible connections of X-axis guide rail, and the 3rd mirror assembly 4 is along 51 displacements of X-axis guide rail; The laser that laser instrument 1 sends reflexes to workbench 7 for bearing film through the first mirror assembly 2, the second mirror assembly 3 and the 3rd mirror assembly 4 successively.In the present embodiment, X-direction, Y direction and Z-direction are mutually vertical.

Further, can be provided with beam expanding lens between laser instrument 1 and the first mirror assembly 2 and adjust assembly 8.Laser instrument 1, beam expanding lens adjust assembly 8 and the first mirror assembly 2 is arranged on laser instrument seat board 9, and laser instrument 1, beam expanding lens adjust assembly 8 and the first mirror assembly 2 is arranged along X-direction.Beam expanding lens is adjusted assembly 8 and is comprised beam expanding lens body 81.As further illustrating the present embodiment, beam expanding lens is adjusted assembly 8 and is not limited to and is arranged between laser instrument 1 and the first mirror assembly 2, also can be arranged between the first mirror assembly 2 and the second mirror assembly 3 and/or between the second mirror assembly 3 and the 3rd mirror assembly 4.

In the present embodiment, Y-axis guide rail 61 consists of the first Y-axis slide rail 611 of being located at respectively X-axis guide assembly 5 two ends, bottom and the second Y-axis slide rail 612, and the first mirror assembly 2 is positioned at the end of the first Y-axis slide rail 611.Y-axis guide assembly 6 also comprises Y-axis drive unit 63, and Y-axis drive unit 63 is connected with Y-axis protecting cover seat and is connected X-axis guide assembly 5 by Y-axis clamping plate shaft coupling 64, Y-axis screw mandrel 65, Y-axis slide block 66 successively, and Y-axis screw mandrel 65 is located in the first Y-axis slide rail 611.Y-axis drive unit 63 drives X-axis guide assembly 5 along 61 displacements of Y-axis guide rail.

X-axis guide rail 51 is connected connection by module connecting plate 52 with Y-axis protecting cover seat.The second mirror assembly 3 is located on module connecting plate 52, and the 3rd mirror assembly 3 and X-axis guide rail 51 are flexibly connected.X-axis guide assembly 5 also comprises X-axis drive unit 54, and X drive unit 54 connects the 3rd mirror assembly 4 by X-axis clamping plate shaft coupling 55, X-axis screw mandrel 53 successively, and X-axis screw mandrel 53 is located in X-axis guide rail 51.

X-axis drive unit 54 and Y-axis drive unit 63 can be servomotor, cylinder, fluid pressure drive device or manual driving device.

In the present embodiment, the first mirror assembly 2 comprises the first universal adjusting seat structure, also comprises and is located at structural the first speculum body 21 of this first universal adjusting seat.The first universal adjusting seat structure comprises the first Y-axis fine tuning structure 22, the first reflector mount seat board 23, the first eyeglass supporting seat 24, three the first regulating wheels 25 and first extension spring 26 of being triangularly arranged.The first Y-axis fine tuning structure 22 is fixed on laser instrument seat board 9; The first reflector mount seat board 23 is arranged on the first Y-axis fine tuning structure 22; The first eyeglass supporting seat 24 passes through the first regulating wheel 25 and is connected extension spring 26 connection the first reflector mount seat boards 23; The first speculum body 21 is located on the first eyeglass supporting seat 24.The fine setting swing arm 221 of being located at the first Y-axis fine tuning structure 22 drives the first reflector mount seat board 23 along the Y direction displacement; Three the first regulating wheels 25 can be regulated the position of the first reflector mount seat board 23, and it is swung around vertical direction Z axis and/or horizontal plane; Adopt above structure, the position of capable of regulating the first speculum body 21, make the first speculum body 21 and laser instrument 1 precision-fit.

The second mirror assembly 3 comprises the second universal adjusting seat structure, also comprises and is located at structural the second speculum body 31 of this second universal adjusting seat.The second universal adjusting seat structure comprises the L shaped fixed head 32 be located on the module connecting plate, be located at the second reflector mount seat board 33 on L shaped fixed head 32, be located at the first adjustable plate 34 on the second reflector mount seat board 33, be located at the second adjustable plate 35 on the first adjustable plate 34, be located at the second eyeglass fixed block 36 on the second adjustable plate 35, be located at the second speculum seat board 37 on the second adjustable plate 36, three the second regulating wheels 38 that are triangularly arranged.The second speculum body 31 is located at the second speculum seat board 37.Be flexibly connected between the second reflector mount seat board 37, the first adjustable plate 34 and the second adjustable plate 35, thereby can finely tune the second eyeglass fixed block 36 and the second speculum seat board 37 at the Y direction top offset.The second eyeglass fixed block 36 is flexibly connected by the second regulating wheel 35 and the second speculum seat board 37, and three the second regulating wheels 35 can be regulated the position of the second speculum seat board 37, and it is swung around vertical direction Z axis and/or horizontal plane.Adopt above structure, the position of capable of regulating the second speculum body 31, make the second speculum body 31 and the first speculum body 21 precision-fit.

The 3rd mirror assembly 4 comprises the 3rd universal adjusting seat structure, also comprises and is located at structural the 3rd speculum body 41 of the 3rd universal adjusting seat.The 3rd mirror unit seat board 44 that the 3rd universal adjusting seat comprises the Z axis keyset 42 that is connected with X-axis screw mandrel 53, the Z axis base plate 43 of being located at Z axis keyset 42, be flexibly connected with Z axis base plate 43, be located at the 3rd mirror unit 45 on the 3rd mirror unit seat board 44.The 3rd speculum body 41 is connected with the speculum adjustable ring and is connected the 3rd mirror unit 45 by speculum retainer ring 46, the fine adjustment function that speculum retainer ring 46 and speculum adjustable ring 47 are realized the 3rd speculum body 41 positions.The 3rd speculum body 41 makes laser along Z-direction directive workbench 7.

Further, the present embodiment also comprises focus lamp assembly 10, focus lamp fixed cover 101 and sheathed focus lamp body in it, consists of.Focus lamp assembly 10 is positioned at the below of the 3rd mirror assembly 4, and focus lamp body and the 3rd speculum body 41 are arranged along Z-direction.Are connected connection with stationary magazine creel by sealing shroud 11 successively between the 3rd mirror unit seat board 45 and focus lamp fixed cover 101 upper ends.Flexible being connected between sealing shroud 11 and stationary magazine creel 12, stationary magazine creel 12 and focus lamp fixed cover 101, to adjust the distance between focus lamp body and the 3rd speculum body 41.Further, connect by lens barrel grip slipper 13 between stationary magazine creel 12 and focus lamp fixed cover 101, lens barrel grip slipper 13 is connected connections with the Z axis base plate, further fixed-focus mirror assembly 10.Focus lamp fixed cover 101 lower ends connect nozzle holder 14 and are used for workbench is sent the nozzle 15 of laser.

Further, the present embodiment also comprises CCD positioning component 16(CCD:Charge-coupledDevice, charge coupled cell), this CCD positioning component 16 is positioned at focus lamp assembly 10 1 sides, and along Z-direction, places.

Other structure of a kind of film cutting of the present embodiment light path system is referring to prior art.

As to the further illustrating of the present embodiment, its operation principle now is described: the laser that laser instrument 1 sends reflexes to workbench 7 through the first speculum body 21, the second speculum body 31 and the 3rd speculum body 41 successively; The second speculum body 31, the 3rd speculum body 41 utilize X-axis guide assembly 5, Y-axis guide assembly 6 adjusting positions, the first speculum body 21, the second speculum body 31 and the 3rd speculum body 41 utilize respectively the first universal adjusting seat structure, the second universal adjusting seat structure and the 3rd universal adjusting seat structure fine setting self-position simultaneously, thereby adjust the position of the directive workbench 7 of laser, and make between laser instrument 1 and the first speculum body, speculum body location accurate.

The present embodiment adopts above structure, make the speculum body install simple and easy, film cutting device production efficiency is high, different position on laser energy directive workbench; If while equipment in use speculum is offset, can utilize universal adjusting seat structural adjustment, easy to adjust.

The utility model is not limited to above-mentioned embodiment, if various changes of the present utility model or modification are not broken away from spirit and scope of the present utility model, if within these changes and modification belonged to claim of the present utility model and equivalent technologies scope, the utility model also was intended to comprise these changes and modification.

Claims

1. film cutting light path system is characterized in that: comprise the laser instrument for Emission Lasers, the first mirror assembly that coordinates with this laser instrument, the second mirror assembly that coordinates with this first mirror assembly, the 3rd mirror assembly, X-axis guide assembly and the Y-axis guide assembly that coordinate with this second mirror assembly; The X-axis guide assembly is provided with the X-axis guide rail along X-direction, and the Y-axis guide assembly is provided with the Y-axis guide rail along Y direction; X-axis guide assembly and Y-axis guide assembly are flexibly connected, and the X-axis guide assembly is along the displacement of Y-axis guide rail; The second mirror assembly and the 3rd mirror assembly are located on the X-axis guide assembly, and the 3rd mirror assembly and the flexible connection of X-axis guide rail, and the 3rd mirror assembly is along the displacement of X-axis guide rail.

2. a kind of film cuts light path system according to claim 1, and it is characterized in that: the Y-axis guide assembly also comprises the Y-axis drive unit, and the Y-axis drive unit connects the X-axis guide assembly, and the Y-axis drive unit drives the X-axis guide assembly along the displacement of Y-axis guide rail.

3. a kind of film cuts light path system according to claim 2, it is characterized in that: the Y-axis guide rail consists of the first Y-axis slide rail and the second Y-axis slide rail, the first Y-axis slide rail and the second Y-axis slide rail are located at respectively the two ends of X-axis guide assembly bottom, and the first mirror assembly is positioned at the end of the first Y-axis slide rail.

4. a kind of film cuts light path system according to claim 1, and it is characterized in that: the X-axis guide assembly also comprises the X-axis drive unit, and the X drive unit connects the 3rd mirror assembly, and the X-axis drive unit drives the 3rd mirror assembly along the displacement of X-axis guide rail.

5. the described a kind of film of according to claim 1 to 4 any one cuts light path system, and it is characterized in that: the first mirror assembly comprises the first universal adjusting seat structure, also comprises and is located at structural the first speculum body of this first universal adjusting seat; The second mirror assembly comprises the second universal adjusting seat structure, also comprises and is located at structural the second speculum body of this second universal adjusting seat; The 3rd mirror assembly comprises the 3rd universal adjusting seat structure, also comprises and is located at structural the 3rd speculum body of the 3rd universal adjusting seat.

6. a kind of film cuts light path system according to claim 5, and it is characterized in that: the first universal adjusting seat structure comprises the first Y-axis fine tuning structure, the first reflector mount seat board, the first eyeglass supporting seat and at least one the first regulating wheel; The first Y-axis fine tuning structure is fixed on the laser instrument seat board; The first reflector mount seat board is arranged on the first Y-axis fine tuning structure, and the first eyeglass supporting seat connects the first reflector mount seat board by the first regulating wheel, and the first speculum body is located on the first eyeglass supporting seat; The first Y-axis fine tuning structure drives the first reflector mount seat board along the Y direction displacement, and the first regulating wheel is regulated the position of the first reflector mount seat board, thereby adjusts the position of the first speculum body, and the first speculum body and laser instrument are coordinated.

7. a kind of film cutting light path system according to claim 5 is characterized in that: the second universal adjusting seat structure comprises the L shaped fixed head that is connected with the Y-axis guide assembly, be located at the second reflector mount seat board on L shaped fixed head, be located at the first adjustable plate on the second reflector mount seat board, be located at the second adjustable plate on the first adjustable plate, be located at the second eyeglass fixed block on the second adjustable plate, be located at the second speculum seat board and at least one the second regulating wheel on the second adjustable plate; The second speculum body is located at the second speculum seat board; Be flexibly connected between the second reflector mount seat board, the first adjustable plate and the second adjustable plate, thereby regulate the second eyeglass fixed block and second speculum seat board position on Y direction; The second eyeglass fixed block is flexibly connected by the second regulating wheel and the second speculum seat board, and the second regulating wheel is regulated the position of the second speculum seat board; Thereby the second speculum body and the first speculum body are coordinated.

8. a kind of film cutting light path system according to claim 5 is characterized in that: the 3rd universal adjusting seat comprises the Z axis keyset that is connected with the X-axis guide assembly, the Z axis base plate of being located at the Z axis keyset, with the 3rd mirror unit seat board of Z axis base plate flexible connection be located at the 3rd mirror unit on the 3rd mirror unit seat board; The 3rd speculum body is connected the 3rd mirror unit by the speculum retainer ring with the speculum adjustable ring; Speculum retainer ring and speculum adjustable ring are regulated the fine adjustment function to the 3rd speculum body position, and the 3rd speculum body and the second speculum body are coordinated.

9. a kind of film cuts light path system according to claim 1, it is characterized in that: also comprise the focus lamp assembly, the focus lamp assembly consists of focus lamp fixed cover and focus lamp body, and the focus lamp fixed cover is located at the 3rd mirror assembly below, and the focus lamp body is set in the focus lamp fixed cover.

10. according to claim 1 or 9 described a kind of films cut light path systems, it is characterized in that: also comprise the beam expanding lens body, this beam expanding lens body is located between laser instrument and the first mirror assembly, between the first mirror assembly and the second mirror assembly and/or between the second mirror assembly and the 3rd mirror assembly.