CN201881049U - Laser spiral rotation optical module applied to laser processing device - Google Patents

Abstract

The utility model relates to a laser spiral rotation optical module applied to a laser processing device; a left supporting plate, a middle supporting plate and a right supporting plate are installed on a bottom plate in parallel at intervals; the left supporting plate is internally provided with a first bearing which is internally provided with a first lens group; the middle supporting plate is internally provided with a second bearing which is internally provided with a second lens group; the right supporting plate is internally provided with a third bearing and a fourth bearing which are mutually independent; the third bearing is internally provided with a third lens group; the fourth bearing is internally provided with a fourth lens group; the first bearing is connected with the third bearing by a main shaft; the second bearing is arranged on the main shaft; the main shaft is connected with a first motor in a driving way by a first synchronous belt wheel; the second bearing is connected with a ball screw in a transmission way; the ball screw is connected with a second motor in a driving way by a second synchronous belt wheel; and the fourth bearing is connected with a third motor in a driving way by a third synchronous belt wheel. The laser spiral rotation optical module can be applied to a laser drilling (cutting) device and is used for adjusting the taper of drilling (cutting) and the size of aperture.

Description

Be applied to the laser spiral rotary optical module of laser process equipment

Technical field

The utility model relates to the laser spiral rotary optical module in a kind of Laser Processing (laser drill, laser cutting etc.) equipment, belongs to the laser accurate technical field of processing equipment.

Background technology

At present, conventional process tools can not satisfy as the processing of products such as ceramic boring, glass-cutting, atomizer boring, angiocarpy bracket cutting; The boring of this type product (cutting) has changed into laser processes, some special products are to the circularity of machining hole and the requirement very high (as angiocarpy bracket processing) at edge, and some special applications need be processed back taper hole or back taper limit (hole that needs the processing belt back taper as atomizer); Traditional laser drill (cutting) mode is to use pulse to process, or the mode that adopts laser and motion platform to walk interpolation hole (cutting), the edge effect that this kind processing mode processes is very crude, and there is tapering (positive cone) on the limit of processing, the quality influence of light beam is excited in the hole that processes, circularity is not high, because the characteristic of focus lamp, there is tapering in the hole of processing, can not process little and dark hole, the advantage of constraint Laser Processing, the mode of using pulse to process, its inefficiency occurs the above-mentioned problem of mentioning in order to overcome laser drill (processing) equipment in boring (cutting) process, satisfy the needs of laser drill (processing), be badly in need of developing a cover and be used for the module that laser drill (cutting) equipment allows the laser spiral rotate targetedly.

The utility model content

The purpose of this utility model is to overcome the deficiency that prior art exists, a kind of laser spiral optics module that is applicable to laser process equipment is provided, the tapering that the conventional laser processing mode is difficult to eliminate when being intended to effectively solve deep hole processing, can not process the back taper hole, the footpath is dark in the problem under too small and the working (machining) efficiency; The utility model can rotate light path in process, at any time the tapering of machining hole (cutting) is adjusted, and realizes deep hole machining, can the diameter in the hole of processing be automatically adjusted.

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

Be applied to the laser spiral rotary optical module of laser process equipment, comprise many set of contact lenses group and left gripper shoe and right gripper shoe, characteristics are: described left gripper shoe, middle gripper shoe and right gripper shoe parallel interval are installed on the base plate, in the described left gripper shoe clutch shaft bearing is installed, inner first lens set of installing of clutch shaft bearing, in the gripper shoe second bearing is installed in described, inner second lens set of installing of second bearing, the 3rd separate bearing and the 4th bearing are installed in the described right gripper shoe, the inner prismatic glasses group of installing of the 3rd bearing, inner the 4th lens set of installing of the 4th bearing, be connected by main shaft between described clutch shaft bearing and the 3rd bearing, main shaft passes second bearing, second bearing places on the main shaft, main shaft is connected with first motor-driven on being installed on base plate by first synchronous pulley, described second bearing also is in transmission connection with the ball screw that is installed on the base plate, ball screw is connected with second motor-driven on being installed on base plate by second synchronous pulley, and the 4th bearing is connected with the 3rd motor-driven on being installed on base plate by the 3rd synchronous pulley.

Further, the above-mentioned laser spiral rotary optical module that is applied to laser process equipment, wherein, described first motor, second motor and the 3rd motor all are equipped with 16 encoders.

The substantive distinguishing features of technical solutions of the utility model and progressive being mainly reflected in:

The utlity model has the function that makes the rotation of laser spiral, being applied to laser drill (cutting) equipment rotates laser in process, at any time the tapering of machining hole (cutting) is adjusted, accurate cone angle, diameter (micron order adjusting), laser spiral rotary speed of regulating boring (cutting), realize deep hole machining, the diameter in hole to processing automatically adjusts, and significantly improves boring (cutting) working (machining) efficiency.

Description of drawings

Below in conjunction with accompanying drawing technical solutions of the utility model are described further:

Fig. 1: the schematic perspective view of the utility model laser spiral rotary optical module;

Fig. 2: the schematic perspective view of Fig. 1 other direction.

The implication of each Reference numeral sees the following form among the figure:

The specific embodiment

As Fig. 1, shown in Figure 2, be applied to the laser spiral rotary optical module of laser process equipment, comprise many set of contact lenses group and left gripper shoe 17, middle gripper shoe 18 and right gripper shoe 19, left side gripper shoe 17, middle gripper shoe 18 and right gripper shoe 19 parallel interval are installed on the base plate 16, in the described left gripper shoe 17 clutch shaft bearing 12 is installed, clutch shaft bearing 12 inner first lens set 1 of installing, in the middle gripper shoe 18 second bearing 13 is installed, second bearing, 13 inner second lens set 2 of installing, the 3rd separate bearing 15 and the 4th bearing 10 are installed in the described right gripper shoe 19, the 3rd bearing 15 inner prismatic glasses groups 14 of installing, the 4th bearing 10 inner the 4th lens set 4 of installing, be connected by main shaft between described clutch shaft bearing 12 and the 3rd bearing 15, main shaft passes second bearing 13, second bearing 13 places on the main shaft, main shaft drives by first synchronous pulley 11 and first motor 3 on being installed on base plate and is connected, second bearing 13 also is in transmission connection with the ball screw 9 that is installed on the base plate 16, ball screw 9 drives by second synchronous pulley 8 and second motor 7 on being installed on base plate and is connected, and the 4th bearing 10 is connected with the 3rd motor 5 drivings on being installed on base plate by the 3rd synchronous pulley 6.First motor 3, second motor 7 and the 3rd motor 5 all are equipped with 16 encoders.

In the middle of clutch shaft bearing 12 and the 3rd bearing 15 main shaft is arranged, main shaft is assembled by 3 pins and axle, main shaft is driven by first motor 3 by first synchronous pulley 11, second bearing 13 is installed on the main shaft, can rotate, first lens set 1 is installed in clutch shaft bearing 12 inside, second lens set 2 is installed in second bearing, 13 inside, prismatic glasses group 14 is installed in the 3rd bearing 15 inside, second bearing 13 is connected with ball-screw 9, ball screw 9 drives with second motor 7 by second synchronous pulley 8 and is connected, driving ball screw 9 by second motor 7 reciprocatingly moves second lens set 2 vertically, the 4th bearing 10 is driven by the 3rd motor 5 by the 3rd synchronous pulley 6, and first motor 3 and the 3rd motor 5, and come controller to rotate synchronously and relatively rotate by electronic gear as feedback by encoder.

Second lens set 2 and first lens set 1 can move to axial, realize the adjusting of laser drill (cutting) tapering, the 4th lens set 4 and first lens set 1, second lens set 2, prismatic glasses group 14 can relatively rotate adjusting, realize the diameter adjusting of institute's machining hole, can recover rotation synchronously after adjusting finishes, realize the rotation of laser spiral.

First lens set 1, prismatic glasses group 14 link together (3 pins of axle employing are as connecting) by bearing and axle, second lens set 2 adopts bearing to install, and pass axle, it can be rotated synchronously with first lens set 1, prismatic glasses group 14, make axial location by linear axis, and use ball screw to drive it to axially move, the 4th lens set 4 usefulness bearings install and fix, and separate control with first lens set 1, second lens set 2, prismatic glasses group 14.

First lens set 1, prismatic glasses group 14 drive sources adopt first synchronous pulley 11 to be connected with first motor 1, encoder is as feedback, second lens set 2 adopts ball screw 9 transmissions, second synchronous pulley 8 is connected with second motor 7, encoder is as feedback, and the 4th lens set 4 drive sources adopt the 3rd synchronous pulley and the 3rd to advance motor 3 to be connected, and encoder is as feedback, first motor 3 and second motor 7 adopt the control of electronic gear system, make it can do relative rotation and rotation control synchronously accurately.

During concrete the application, laser is by first lens set 1, second lens set 2 produces a deflection angle, first lens set 1 and second lens set 2 move to axial, can regulate the size of deflection angle, by first lens set 1, the laser of second lens set 2, again by prismatic glasses group 14, in the time of the 4th lens set 4, make it produce a deflection by the 4th lens set 4 with respect to prismatic glasses group 14, can regulate the focus of this laser after and depart from central point by focus lamp, be used to regulate the size of the bore dia of processing, regulate the relative distance between first lens set 1 and second lens set 2, laser is by prismatic glasses group 14, after the 4th lens set 4, see through focus lamp, regulate the processing tapering of laser.Four lens set concentrics are arranged, first lens set 1, second lens set 2, prismatic glasses group 14 is passed through the timing belt pulley driven rotary by first motor 3, second lens set 2 drives ball screw by second motor 7 by timing belt pulley makes it do translation along the axle center, the 4th lens set 4 is driven by timing belt pulley by the 3rd motor 5 and rotates, second lens set 2 is used for boring (cutting) cone angle with respect to first lens set 1 translation vertically and regulates, prismatic glasses group 14 and the 4th lens set 4 relatively rotate the adjusting of (cutting) diameter that is used for holing, first lens set 1, second lens set 2, prismatic glasses group 14, the 4th lens set 4 is rotated synchronously, and laser is rotated twist.

In sum, the utility model equipment is implemented in and regulates boring (cutting) tapering and pore diameter size in laser drill (cutting) equipment, has the function that makes the rotation of laser spiral, in process, light path is rotated, realize deep hole machining, the diameter in the hole of processing is automatically adjusted.

What need understand is: the above only is a preferred implementation of the present utility model; for those skilled in the art; under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (2)

1. be applied to the laser spiral rotary optical module of laser process equipment, comprise many set of contact lenses group and left gripper shoe (17), middle gripper shoe (18) and right gripper shoe (19), it is characterized in that: described left gripper shoe (17), middle gripper shoe (18) and right gripper shoe (19) parallel interval are installed on the base plate (16), clutch shaft bearing (12) is installed in the described left gripper shoe (17), inner first lens set (1) of installing of clutch shaft bearing (12), in the gripper shoe (18) second bearing (13) is installed in described, inner second lens set (2) of installing of second bearing (13), separate the 3rd bearing (15) and the 4th bearing (10) are installed in the described right gripper shoe (19), the inner prismatic glasses group (14) of installing of the 3rd bearing (15), inner the 4th lens set (4) of installing of the 4th bearing (10), be connected by main shaft between described clutch shaft bearing (12) and the 3rd bearing (15), main shaft passes second bearing (13), second bearing (13) places on the main shaft, main shaft drives by first synchronous pulley (11) and first motor (3) on being installed on base plate and is connected, described second bearing (13) also is in transmission connection with the ball screw (9) that is installed on the base plate (16), ball screw (9) drives by second synchronous pulley (8) and second motor (7) on being installed on base plate and is connected, and the 4th bearing (10) is connected with the 3rd motor (5) driving on being installed on base plate by the 3rd synchronous pulley (6).

2. the laser spiral rotary optical module that is applied to laser process equipment according to claim 1, it is characterized in that: described first motor (3), second motor (7) and the 3rd motor (5) all are equipped with 16 encoders.

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