CN103792068B - A kind of semi-automatic conic mirror detection platform - Google Patents

Abstract

The one semi-automatic conic mirror detection platform that the present invention provides, adjusts seat including electric rotating machine, rotary shaft, conic mirror microscope base, laser level；Electric rotating machine is dragged this rotary shaft rotated by the motor gear on its power transmission shaft, transmission band, the shaft gear on rotary shaft top.This semi-automatic conic mirror detection platform structure is simple, compact, smooth running, quickly, the advantage that precision is high, efficiency is high.

Description

A kind of semi-automatic conic mirror detection platform

Technical field

The present invention relates to a kind of conic mirror detection instrument, a kind of semi-automatic conic mirror detection platform.

Background technology

The fine or not degree of conic mirror minute surface, directly affect the quality of the laser rays utilizing it to be formed, different one-tenth line mass requirements is had for different application occasion, and at present detection for conic mirror is typically limited to, and naked eyes are directly perceived, check the width of the laser rays utilizing it to be formed, miscellaneous line etc., and during observing, the position generally relying on manually regulation conic mirror is checked, obviously, manually exist shake, cause conic mirror to tilt, the speed defect such as slowly, be unfavorable for the most real quality reacting conic mirror.

Summary of the invention

It is an object of the invention to provide a kind of semi-automatic conic mirror detection platform, to overcome shake existing for the position of manually regulation conic mirror, to cause conic mirror to tilt and slow-paced problem.

For reaching above-mentioned purpose, the invention provides a kind of semi-automatic conic mirror detection platform, adjust seat including electric rotating machine, rotary shaft, conic mirror microscope base, laser level；Described electric rotating machine is dragged this rotary shaft rotated by the motor gear on its power transmission shaft, transmission band, the shaft gear on rotary shaft top；Described conic mirror microscope base is arranged on the bottom of this rotary shaft, this conic mirror microscope base includes two connecting rods that an annulus and Symmetrical vertical are arranged in this annulus top edge, these two connecting rods are connected with the bottom surface of described rotary shaft, and the internal edge of this annulus extends internally, forms a toroidal frame identical with the bottom margin of described conic mirror；Described rotary shaft couples with described laser level adjustment seat by being arranged on the link of its periphery, this link includes the housing coupled by bearing with this rotary shaft, the connection ring being connected with bottom and the sidewall thereof of this housing by vertical linking arm, this connection ring is by being vertically set on three connecting pins of its bottom surface, the corresponding described laser level that is arranged on adjusts three holes on seat, the baffle plate being arranged on the bottom surface of this laser level adjustment seat adjusts seat with described laser level and couples, it is provided with inside the bottom of this connecting pin with the gap plugged for described baffle plate；The internal diameter of described connection ring is more than the external diameter of described laser socket；The bidimensional angle measurement slide unit of the level angle of an adjustment described conic mirror microscope base it is provided with between described rotary shaft bottom and described connecting rod.

The axis of above-mentioned conic mirror microscope base and laser level adjust the dead in line pupil of the laser socket on seat.

The axis of above-mentioned electric rotating machine vertically extends, the top of this electric rotating machine is connected with the top of described housing by a plate, this connecting plate is provided above a upper cover, this upper cover is connected with this connecting plate by screw, thus the top of described electric rotating machine, motor gear, transmission band, the shaft gear on rotary shaft top is enclosed in the space being made up of this upper cover and connecting plate.

The invention have the advantage that simple in construction, compact, smooth running, quickly, precision is high, efficiency is high.

Accompanying drawing explanation

Fig. 1 is the structural representation executing the semi-automatic conic mirror detection platform that example one is provided

Fig. 2 is the assembling schematic diagram executing the semi-automatic conic mirror detection platform that example one is provided.

Fig. 3 is the A direction view of Fig. 2.

Description of reference numerals: 1, electric rotating machine；2, rotary shaft；3, conic mirror microscope base；4, laser level adjusts seat；5, motor gear；6, transmission band；7, shaft gear；8, annulus；9, connecting rod；10, laser socket；11, housing；12, linking arm；13, ring is connected；14, connecting pin；15, gap；16, bidimensional angle measurement slide unit；17, X is to regulation handle；18, X is to lock handle；19, Y-direction lock handle；20, Y-direction regulation handle；21,22, angle-regulating block；23, connecting plate；24, upper cover.

Detailed description of the invention

In order to make line array CCD probe can detect that plaque-like laser gets to formed 360 ° of laser rays in conic mirror, present embodiments provide the semi-automatic conic mirror detection platform shown in a kind of Fig. 1,2,3, adjust seat 4 including electric rotating machine 1, rotary shaft 2, conic mirror microscope base 3, laser level；Electric rotating machine 1 is dragged this rotary shaft 2 rotated by the motor gear 5 on its power transmission shaft, transmission band 6, the shaft gear 7 on rotary shaft 2 top；Conic mirror microscope base 3 is arranged on the bottom of this rotary shaft 2, this conic mirror microscope base 3 includes two connecting rods 9 that an annulus 8 and Symmetrical vertical are arranged in this annulus 8 top edge, these two connecting rods 9 are connected with the bottom surface of rotary shaft 2, and the internal edge of this annulus 8 extends internally, forms a toroidal frame identical with the bottom margin of conic mirror；The axis of conic mirror microscope base 3 and laser level adjust the dead in line pupil of the laser socket 10 on seat 4, to guarantee that the laser vertical launched beats the top in conic mirror, are beneficial to produce uniform laser rays.

Rotary shaft 2 couples with laser level adjustment seat 4 by being arranged on the link of its periphery, this link includes the housing 11 coupled by bearing with this rotary shaft 2, the connection ring 13 being connected with bottom and the sidewall of this housing 11 by linking arm 12, this connection ring 13 is by being vertically set on three connecting pins 14 of its bottom surface, the corresponding laser level that is arranged on adjusts three holes on seat 4, the baffle plate being arranged on the bottom surface of this laser level adjustment seat 4 adjusts seat 4 with laser level and couples, it is provided with inside the bottom of this connecting pin 14 with the gap 15 plugged for baffle plate；Connect the internal diameter external diameter more than this laser socket of ring 13.

The adjustment block 16 of the level angle of an adjustment conic mirror microscope base 3 it is provided with between rotary shaft 2 bottom and connecting rod, it is not difficult to find out by Fig. 1, this bidimensional angle measurement slide unit 16 includes that X is to regulating handle 17, X to lock handle 18, Y-direction lock handle 19, Y-direction regulation handle 20 and angle-regulating block 21,22 as seen from Figure 3, the adjustment of the level angle to conic mirror microscope base 3 is realized by these handles and regulating block, laser rays is made to try one's best level, so that line array CCD probe can detect line.

The axis of electric rotating machine 1 vertically extends, the top of this electric rotating machine 1 is connected with the top of housing 11 by a plate 23, this connecting plate 23 is provided above a upper cover 24, this upper cover 24 is connected with this connecting plate 23 by screw, thus the top of electric rotating machine 1, motor gear 5, transmission band 6, the shaft gear 7 on rotary shaft 2 top is enclosed in the space being made up of this upper cover 24 and connecting plate 23.

The work process of the semi-automatic conic mirror detection platform that the present embodiment provides is:

Open electric rotating machine 1 and drag rotary shaft 2 quick rotation, and then drive conic mirror microscope base 3 to rotate, conic mirror placed on it forms a laser rays by beating in the laser-bounce on its surface, by checking that the position of conic mirror can be adjusted by this laser rays, the laser rays as far as possible formed it into is level, certainly, before opening electric rotating machine 1, be accomplished by adjusting seat 4 by laser level, the horizontal plane of conic mirror is adjusted by bidimensional angle measurement slide unit 16, make its axis vertical bottom face, line array CCD probe whole piece laser rays can be detected.

Claims (3)

1. a semi-automatic conic mirror detection platform, it is characterised in that: include that electric rotating machine, rotary shaft, conic mirror microscope base, laser level adjust seat；Described electric rotating machine is dragged this rotary shaft rotated by the motor gear on its power transmission shaft, transmission band, the shaft gear on rotary shaft top；Described conic mirror microscope base is arranged on the bottom of this rotary shaft, this conic mirror microscope base includes two connecting rods that an annulus and Symmetrical vertical are arranged in this annulus top edge, these two connecting rods are connected with the bottom surface of described rotary shaft, and the internal edge of this annulus extends internally, forms a toroidal frame identical with the bottom margin of described conic mirror；Described rotary shaft couples with described laser level adjustment seat by being arranged on the link of its periphery, this link includes the housing coupled by bearing with this rotary shaft, the connection ring being connected with bottom and the sidewall thereof of this housing by vertical linking arm, this connection ring is by being vertically set on three connecting pins of its bottom surface, the corresponding described laser level that is arranged on adjusts three holes on seat, the baffle plate being arranged on the bottom surface of this laser level adjustment seat adjusts seat with described laser level and couples, it is provided with inside the bottom of this connecting pin with the gap plugged for described baffle plate；The internal diameter of described connection ring adjusts the external diameter of seat more than described laser level；

The bidimensional angle measurement slide unit of the level angle of an adjustment described conic mirror microscope base it is provided with between described rotary shaft bottom and described connecting rod.

2. the semi-automatic conic mirror detection platform as described in claim 1, it is characterised in that: the axis of described conic mirror microscope base and laser level adjust the dead in line pupil of the laser socket on seat.

3. the semi-automatic conic mirror detection platform as described in claim 1 or 2, it is characterized in that: the axis of described electric rotating machine vertically extends, the top of this electric rotating machine is connected with the top of described housing by a plate, this connecting plate is provided above a upper cover, this upper cover is connected with this connecting plate by screw, thus the top of described electric rotating machine, motor gear, transmission band, the shaft gear on rotary shaft top is enclosed in the space being made up of this upper cover and connecting plate.