CN202928781U

CN202928781U - Automatic platform for detecting conical mirror

Info

Publication number: CN202928781U
Application number: CN 201220570690
Authority: CN
Inventors: 孙建华; 袁科; 程学文
Original assignee: Xian Huanic Optoelectronic Corp Ltd
Current assignee: Xian Huanic Optoelectronic Corp Ltd
Priority date: 2012-11-01
Filing date: 2012-11-01
Publication date: 2013-05-08
Anticipated expiration: 2022-11-01

Abstract

An automatic platform for detecting a conical mirror comprises a rotary motor, a rotating shaft, a conical mirror base and a fixed base. The automatic platform for detecting the conical mirror drives the conical mirror base to rotate through the rotary motor, and further drives the conical mirror to rotate. The conical mirror base comprises an upper two-dimensional angle measuring slipway and a lower two-dimensional angle measuring slipway which are arranged sequentially from top to bottom, and the sliding direction of the upper two-dimensional angle measuring slipway is perpendicular to the sliding direction of the lower two-dimensional angle measuring slipway. The levelness of the automatic platform is adjusted through the upper two-dimensional angle measuring slipway and the lower two-dimensional angle measuring slipway, thereby realizing the level adjustment of the conical mirror. The automatic platform for detecting the conical mirror has the advantages of simple and compact structure, stable operation, high speed, high precision and high efficiency.

Description

A kind of full-automatic cone microscopy is surveyed and is used platform

Technical field

The utility model relates to a kind of conical surface microscopy survey instrument, and specifically a kind of full-automatic cone microscopy is surveyed and used platform.

Background technology

The fine or not degree of conical surface mirror minute surface, directly impact utilizes the quality of the laser rays of its formation, for the different application occasion, different one-tenth line mass requirements is arranged, and at present for the detection of conical surface mirror be confined to generally that naked eyes are directly perceived, the width of checking the laser rays that utilizes its formation, assorted line etc., and in the process of observing, the general position of manual adjustments conical surface mirror that relies on is checked, obviously, manually there is shake, causes the defectives such as conical surface mirror tilts, adjusting is inaccurate, speed is slow, be unfavorable for the objectively quality of real reaction conical surface mirror.

Summary of the invention

The purpose of this utility model is to provide a kind of full-automatic cone microscopy to survey and use platform, with the existing shake in position that overcomes manual adjustments conical surface mirror, cause that conical surface mirror tilts, the inaccurate and slow-paced problem of adjusting.

For reaching above-mentioned purpose, the utility model provides a kind of full-automatic cone microscopy to survey and has used platform, its special character to be, comprise electric rotating machine, turning axle, conical surface mirror microscope base and holder; Described electric rotating machine and turning axle arrange along vertical, the transmission shaft of electric rotating machine is positioned at the upper end of electric rotating machine, the top of this transmission shaft is provided with driving gear, and the top of turning axle is provided with follower gear, and this driving gear connects with this follower gear by driving-belt; Described holder comprises the vertical supporting arm and is arranged on the horizontal mount pad on this vertical supporting arm top; Described turning axle connects by the horizontal mount pad of bearing and this and passes this horizontal mount pad and connects with described conical surface mirror microscope base to downward-extension; Described electric rotating machine is fixed on the outside of described vertical supporting arm; The part that described turning axle is placed between described horizontal mount pad and conical surface mirror microscope base is conductive segment, is provided with a plurality of annular conductive films on this conductive segment outer wall; Be provided with Power Block on inwall corresponding to the vertical supporting arm of this conductive segment, this Power Block by with described a plurality of annular conductive films one to one a plurality of conduction brush connect with these a plurality of annular conductive films; These a plurality of annular conductive films are arranged in order from top to bottom, each other, and turning axle, horizontal mount pad and conical surface mirror microscope base between be provided with insulation course; Described conical surface mirror microscope base comprises upper bidimensional angle measurement slide unit and the lower bidimensional angle measurement slide unit that sets gradually from top to bottom, and makes the glide direction of bidimensional angle measurement slide unit on this vertical with the glide direction of this time bidimensional angle measurement slide unit; Should upper bidimensional angle measurement slide unit comprise upper bed-plate, upper sliding part and be arranged on upper adjusting mechanism on a side of this upper bed-plate, this time bidimensional angle measurement slide unit comprises lower bottom base, lower slider section and is arranged on lower adjusting mechanism on a side of this lower bottom base; The bottom surface of described upper sliding part is fixedly connected with the end face of described lower bottom base; Described upper sliding part comprises a high scale face, and described upper adjusting mechanism is arranged on the first side of the upper bed-plate relative with this high scale face; Should comprise the first guide rail supporting frame, be arranged on the first reducing motor on this first guide rail supporting frame by upper adjusting mechanism, this first guide rail supporting frame comprises transverse part on first, first time transverse part and the first vertical portion, this first vertical portion connects the inner of transverse part on described first and the middle part of first time transverse part, this extends to the transverse edge of described the first side in outer end of transverse part on first, is provided with the first circular hole on this first vertical portion; On described first, the xsect of transverse part takes the shape of the letter U, and the openend of this U-shaped is its inner, and the blind end of U-shaped is its outer end, respectively is provided with first chute that extends to described outer end from described the inner on two relative faces of U-shaped; Described the first reducing motor is arranged on the end face of described first time transverse part and is placed in outside the first semi-surrounding space that is made of transverse part on described first, the first vertical portion and first time transverse part, and the first output shaft of this first reducing motor penetrates this first semi-surrounding space through described the first circular hole; Be provided with first jacking block of thread connection with it on this first output shaft, two transverse sides at the top of this first jacking block respectively are provided with first fin that coincide with described the first chute; The end face that is placed in first time transverse part in described the first semi-surrounding space is provided with the first optoelectronic switch, and the bottom surface of described the first jacking block is provided with the first light barrier of controlling this first optoelectronic switch; Be subjected to described the first jacking block pushing tow and drive the first block that on this, sliding part moves with being provided with on the side of the upper sliding part of the first reducing motor homonymy; Described lower slider section comprises scale face, and described lower adjusting mechanism is arranged on the second side of the lower bottom base relative with this time scale face; This time adjusting mechanism comprises the second guide rail supporting frame, is arranged on the second reducing motor on this second guide rail supporting frame, this second guide rail supporting frame comprises transverse part on second, second time transverse part and the second vertical portion, this second vertical portion connects the inner of transverse part on described second and the middle part of second time transverse part, this extends to the transverse edge of described the second side in outer end of transverse part on second, is provided with the second circular hole on this second vertical portion; On described second, the xsect of transverse part takes the shape of the letter U, and the openend of this U-shaped is its inner, and the blind end of U-shaped is its outer end, respectively is provided with second chute that extends to described outer end from described the inner on two relative faces of U-shaped; Described the second reducing motor is arranged on the end face of described second time transverse part and is placed in outside the second semi-surrounding space that is made of transverse part on described second, the second vertical portion and second time transverse part, and the second output shaft of this second reducing motor penetrates this second semi-surrounding space through described the second circular hole; Be provided with second jacking block of thread connection with it on this second output shaft, two transverse sides at the top of this second jacking block respectively are provided with second fin that coincide with described the second chute; The end face that is placed in second time transverse part in described the second semi-surrounding space is provided with the second optoelectronic switch, and the bottom surface of described the second jacking block is provided with the second light barrier of controlling this second optoelectronic switch; Be subjected to described the second jacking block pushing tow and drive the second block that this lower slider section moves with being provided with on the side of the lower slider section of the second reducing motor homonymy; Described conical surface mirror microscope base also comprises the conical surface mirror picture frame that is arranged on described lower slider section bottom surface, and this conical surface mirror picture frame comprises the end face that is connected with lower slider section bottom surface, this end face is to the first linking arm, second linking arm of downward-extension be placed in top pressure arm between this first linking arm, the second linking arm certainly; The lower end of this first linking arm and the second linking arm is provided with an annulus section of putting conical surface mirror, two relative edges of this annulus section are connected with the lower end inwall of described the first linking arm, the second linking arm respectively, the curved portions of this annulus section is towards the pressure arm setting of described top and be placed in the oblique below of the lower end of this top pressure arm, and this top pressure arm connects with this curved portions by the shell fragment that is arranged on its lower end;

The end face of described upper bed-plate is provided with circuit board, and this circuit board is connected with described a plurality of annular conductive films.

Above-mentioned holder comprises the laser level adjusting seat of the bottom that is arranged on described vertical supporting arm.

Above-mentioned sway brace lower end is provided with the laser line generator for generation of reference laser lines.

The utility model has the advantages that: simple in structure, compact, smooth running, quick, precision is high, efficient is high.

Description of drawings

Fig. 1 is that the full-automatic cone microscopy is surveyed the structural representation with platform.

Fig. 2 is the enlarged drawing of annular conductive segment.

Fig. 3 is that 3 in Fig. 1 is the zoomed-in view of conical surface mirror microscope base.

Fig. 4 is that the A of Fig. 1 is to view.

Fig. 5 is the B section enlarged drawing in Fig. 3.

Description of reference numerals: 1, electric rotating machine; 2, turning axle; 3, conical surface mirror microscope base; 4, driving gear; 5, follower gear; 6, driving-belt; 7, vertical supporting arm; 8, horizontal mount pad; 9, conductive segment; 10,11,12,13, annular conductive film; 14, Power Block; 15,16,17,18, conduction brush; 19, upper bidimensional angle measurement slide unit; 20, lower bidimensional angle measurement slide unit; 21, upper bed-plate; 22, upper sliding part; 23, upper bed-plate is positive; 24, lower bottom base; 25, lower slider section; 26, lower bottom base right flank; 27, high scale face; 28, the first reducing motor; 29, transverse part on first; 30, first time transverse part; 31, the first vertical portion; 32, the first output shaft; 33, the first jacking block; 34, the first optoelectronic switch; 35, the first light barrier; 36, the first block; 37, lower slider section; 38, the second reducing motor; 39, transverse part on second; 40, second time transverse part; 41, the second vertical portion; 43, the second jacking block; 44, end face; 45, the first linking arm; 46, the second linking arm; 47, top pressure arm; 48, circuit board; 49, laser level adjusting seat; 50, laser line generator.

Embodiment

For the existing shake in position that overcomes manual adjustments conical surface mirror, cause that conical surface mirror tilts and slow-paced problem, the present embodiment provides a kind of a kind of full-automatic cone microscopy shown in Figure 1 to survey and has used platform, comprises electric rotating machine 1, turning axle 2, conical surface mirror microscope base 3 and holder; Wherein, electric rotating machine 1 and turning axle 2 arrange along vertical, the transmission shaft of electric rotating machine 1 is positioned at the upper end of electric rotating machine 1, the top of this transmission shaft is provided with driving gear 4, the top of turning axle 2 is provided with follower gear 5, this driving gear 4 connects with this follower gear 5 by driving-belt 6, so realizes the rotation of turning axle 2.

And holder comprises vertical supporting arm 7 and be arranged on the horizontal mount pad 8 on this vertical supporting arm 7 tops; Turning axle 2 connects by the horizontal mount pad 8 of bearing and this and passes this horizontal mount pad 8 and connects with conical surface mirror microscope base 3 to downward-extension; Electric rotating machine 1 is fixed on the outside of vertical supporting arm 7.

The part that turning axle 2 is placed between horizontal mount pad 8 and conical surface mirror microscope base 3 is conductive segment 9, is provided with a plurality of annular conductive films (annular

conductive film

10,11 as shown in Figure 2,12 and 13) on these conductive segment 9 outer walls; Be provided with Power Block 14 on inwall corresponding to the vertical supporting arm 7 of this conductive segment 9, this Power Block 14 by with a plurality of annular conductive films (annular

conductive film

10,11 as shown in Figure 2,12 and 13) one to one a plurality of conduction brush (

conduction brush

15,16 as shown in Figure 2,17 and 18) connect with a plurality of annular conductive films (annular

conductive film

10,11 as shown in Figure 2,12 and 13); These a plurality of annular conductive films (annular

conductive film

10,11 as shown in Figure 2,12 and 13) are arranged in order from top to bottom, each other, and turning axle 2, horizontal mount pad 8 and conical surface mirror microscope base 3 between be provided with insulation course.

The structure of conical surface mirror microscope base 3 as shown in Figure 3, comprise the upper bidimensional angle measurement slide unit 19 and the lower bidimensional angle measurement slide unit 20 that set gradually from top to bottom, and make the glide direction of bidimensional angle measurement slide unit 19 on this vertical with the glide direction of this time bidimensional angle measurement slide unit 20 (glide direction of upper bidimensional angle measurement slide unit 19 is the left and right directions of Fig. 3 along the left and right directions of paper, and the glide direction of lower bidimensional angle measurement slide unit 20 is the direction of the left and right directions of vertical in same plane and Fig. 3 along the direction of turnover paper);

Upper bidimensional angle measurement slide unit 19 comprises upper bed-plate 21, upper sliding part 22 and is arranged on a side of this upper bed-plate 21 (is the face towards the viewer in Fig. 3, can be referred to as upper bed-plate front 23) on upper adjusting mechanism, this time bidimensional angle measurement slide unit 20 comprises lower bottom base 24, lower slider section 25 and is arranged on lower adjusting mechanism on the side (being the lower bottom base right flank 26 shown in Fig. 3) of this lower bottom base 24; The bottom surface of described upper sliding part 22 is fixedly connected with the end face of lower bottom base 24;

As seen from Figure 4, upper sliding part 22 comprises that a high scale face 27(is the opposite face in upper bed-plate front 23), the first side that upper adjusting mechanism is arranged on the upper bed-plate 21 relative with this high scale face 27 is on upper bed-plate shown in Figure 3 front 23.

as seen from Figure 3, upper adjusting mechanism comprises the first guide rail supporting frame, be arranged on the first reducing motor 28 on this first guide rail supporting frame, this first guide rail supporting frame comprises transverse part 29 on first, first time transverse part 30 and the first vertical portion 31, this first vertical portion 31 connects the inner of transverse part 29 on first and the middle part of first time transverse part 30, to extend to the first side be that the transverse edge in upper bed-plate shown in Figure 3 front 23 is the right hand edge (seeing figure person's right-hand side) in the upper bed-plate front 23 shown in Fig. 3 in outer end of transverse part 29 on first for this, be provided with the first circular hole on this first vertical portion 31.

On first, the xsect of transverse part 29 takes the shape of the letter U, and the openend of this U-shaped is its inner, and the blind end of U-shaped is its outer end, respectively is provided with first chute that extends outward from its inner on two relative faces of U-shaped.

The first reducing motor 28 is arranged on the end face of first time transverse part 30 and is placed in outside the first semi-surrounding space that is made of transverse part 29 on first, the first vertical portion 31 and first time transverse part 30, and the first output shaft 32(of this first reducing motor 28 sees Fig. 5) penetrate this first semi-surrounding space through the first circular hole; Be provided with first jacking block 33 of thread connection with it on this first output shaft 32, two transverse sides at the top of this first jacking block 33 respectively are provided with the first fin that the one and first chute coincide.

See Fig. 5, the bottom surface that the end face that is placed in first time transverse part 30 in the first semi-surrounding space is provided with the first optoelectronic switch 34, the first jacking blocks 33 is provided with the first light barrier 35 of controlling these the first optoelectronic switch 34 switches.

be subjected to the first jacking block 33 pushing tows and drive the first block 36 that on this, sliding part 22 moves with being provided with on the side of the upper sliding part 22 of the first reducing motor 28 homonymies, when the first reducing motor 28 rotates, the first jacking block 33 just can the direction along the first output shaft 32 to the first block 36 move, when it with after this first block 36 contacts, in the process that it continues to move forward, just can be to this first block 36 of its direction of motion pushing tow, thereby driving the upper sliding part 22 that is fixedly connected with the first block 36 slides along the relative upper bed-plate 21 of its direction of motion, and then drive is moved with lower bidimensional angle measurement slide unit 20 direction of motion along the first jacking block 33 that this upper sliding part 22 is fixedly connected with.The first light barrier 35 is the restriction of distance that the first jacking block 33 is moved to the direction of the first block 36, when displacement reaches maximal value, the light path that the first light barrier 35 breaks away from the first optoelectronic switch 34 namely no longer stops light wherein, make the first optoelectronic switch 34 connect, to give circuit board one feedback signal, make circuit board send and stop the signal that the first reducing motor 28 rotates, the first jacking block 33 no longer moves.

As seen from Figure 4, lower slider section 25 comprises scale face 37, and lower adjusting mechanism is arranged on second side (being lower bottom base right flank 26 shown in Figure 3) of the lower bottom base 24 relative with this time scale face 37.

see Fig. 3, lower adjusting mechanism comprises the second guide rail supporting frame, be arranged on the second reducing motor 38 on this second guide rail supporting frame, this second guide rail supporting frame comprises transverse part 39 on second, second time transverse part 40 and the second vertical portion 41, this second vertical portion 41 connects the inner (end over against person with the aid of pictures is inner) of transverse part 39 on second and the middle part of second time transverse part 40, this extends to the transverse edge (edge at the end place in the paper) of the second side (being lower bottom base right flank 26 shown in Figure 3) in outer end of transverse part 39 on second, be provided with the second circular hole on this second vertical portion 41.

On described second, the xsect of transverse part 39 takes the shape of the letter U, the openend of this U-shaped is that its inner is the inner over against end person with the aid of pictures, untight), the blind end of U-shaped is its outer end, respectively is provided with second chute 42 that extends to described outer end from described the inner on two relative faces of U-shaped;

Described the second reducing motor 38 is arranged on the end face of second time transverse part 40 and is placed in outside the second semi-surrounding space that is made of transverse part 39 on second, the second vertical portion 41 and second time transverse part 40, and the second output shaft of this second reducing motor 38 penetrates this second semi-surrounding space through the second circular hole;

Be provided with second jacking block 43 of thread connection with it on this second output shaft, two transverse sides at the top of this second jacking block 43 respectively are provided with the second fin that the one and second chute 42 coincide;

The end face that is placed in second time transverse part 40 in the second semi-surrounding space is provided with the second optoelectronic switch, and the bottom surface of the second jacking block 43 is provided with the second light barrier of controlling this second optoelectronic switch switch;

Be subjected to the second jacking block 43 pushing tows and drive the second block that this lower slider section 25 moves with being provided with on the side of the lower slider section 25 of the second reducing motor 38 homonymies;

Conical surface mirror microscope base also comprises the conical surface mirror picture frame of the bottom surface that is arranged on described lower slider section 25, and this conical surface mirror picture frame comprises the end face 44 that is connected with the bottom surface of lower slider section 25, this end face 44 is to the first linking arm 45, second linking arm 46 of downward-extension be placed in top pressure arm 47 between this first linking arm 45, the second linking arm 46 certainly; The lower end of this first linking arm 45 and the second linking arm 46 is provided with an annulus section of putting conical surface mirror, two relative edges of this U-shaped sheet are connected with the lower end inwall of the first linking arm 45, the second linking arm 46 respectively, the curved portions of this annulus section arranges and is placed in the oblique below of the lower end of this top pressure arm 47 towards top pressure arm 47, this top pressure arm 47 connects with this curved portions by the shell fragment that is arranged on its lower end; The end face of upper bed-plate 21 is provided with circuit board 48, and this circuit board 48 connects 2 to obtain electric energy or control signal with a plurality of annular conductive films 9.Be not difficult to find out by Fig. 1, the full-automatic cone microscopy that the present embodiment provides is surveyed and is used platform, its holder comprises the laser level adjusting seat 49 of the bottom that is arranged on vertical supporting arm 7, be used for adjusting whole instrument, make its horizontal positioned, especially adjust the laser line generator 50 for generation of reference laser lines that is arranged on sway brace 7 lower ends, laser level adjusting seat 49 commonly used has a variety of, as A-frame, have the base of automatic adjustable level degree etc., be all to know technology.

Claims

1. a full-automatic cone microscopy is surveyed and is used platform, it is characterized in that: comprise electric rotating machine, turning axle, conical surface mirror microscope base and holder;

Described electric rotating machine and turning axle arrange along vertical, the transmission shaft of electric rotating machine is positioned at the upper end of electric rotating machine, the top of this transmission shaft is provided with driving gear, and the top of turning axle is provided with follower gear, and this driving gear connects with this follower gear by driving-belt;

Described holder comprises the vertical supporting arm and is arranged on the horizontal mount pad on this vertical supporting arm top; Described turning axle connects by the horizontal mount pad of bearing and this and passes this horizontal mount pad and connects with described conical surface mirror microscope base to downward-extension; Described electric rotating machine is fixed on the outside of described vertical supporting arm;

The part that described turning axle is placed between described horizontal mount pad and conical surface mirror microscope base is conductive segment, is provided with a plurality of annular conductive films on this conductive segment outer wall; Be provided with Power Block on inwall corresponding to the vertical supporting arm of this conductive segment, this Power Block by with described a plurality of annular conductive films one to one a plurality of conduction brush connect with these a plurality of annular conductive films;

These a plurality of annular conductive films are arranged in order from top to bottom, each other, and turning axle, horizontal mount pad and conical surface mirror microscope base between be provided with insulation course;

Described conical surface mirror microscope base comprises upper bidimensional angle measurement slide unit and the lower bidimensional angle measurement slide unit that sets gradually from top to bottom, and makes the glide direction of bidimensional angle measurement slide unit on this vertical with the glide direction of this time bidimensional angle measurement slide unit;

Should upper bidimensional angle measurement slide unit comprise upper bed-plate, upper sliding part and be arranged on upper adjusting mechanism on a side of this upper bed-plate, this time bidimensional angle measurement slide unit comprises lower bottom base, lower slider section and is arranged on lower adjusting mechanism on a side of this lower bottom base; The bottom surface of described upper sliding part is fixedly connected with the end face of described lower bottom base;

Described upper sliding part comprises a high scale face, and described upper adjusting mechanism is arranged on the first side of the upper bed-plate relative with this high scale face;

Should comprise the first guide rail supporting frame, be arranged on the first reducing motor on this first guide rail supporting frame by upper adjusting mechanism, this first guide rail supporting frame comprises transverse part on first, first time transverse part and the first vertical portion, this first vertical portion connects the inner of transverse part on described first and the middle part of first time transverse part, this extends to the transverse edge of described the first side in outer end of transverse part on first, is provided with the first circular hole on this first vertical portion;

On described first, the xsect of transverse part takes the shape of the letter U, and the openend of this U-shaped is its inner, and the blind end of U-shaped is its outer end, respectively is provided with first chute that extends to described outer end from described the inner on two relative faces of U-shaped;

Described the first reducing motor is arranged on the end face of described first time transverse part and is placed in outside the first semi-surrounding space that is made of transverse part on described first, the first vertical portion and first time transverse part, and the first output shaft of this first reducing motor penetrates this first semi-surrounding space through described the first circular hole;

Be provided with first jacking block of thread connection with it on this first output shaft, two transverse sides at the top of this first jacking block respectively are provided with first fin that coincide with described the first chute;

The end face that is placed in first time transverse part in described the first semi-surrounding space is provided with the first optoelectronic switch, and the bottom surface of described the first jacking block is provided with the first light barrier of controlling this first optoelectronic switch;

Be subjected to described the first jacking block pushing tow and drive the first block that on this, sliding part moves with being provided with on the side of the upper sliding part of the first reducing motor homonymy;

Described lower slider section comprises scale face, and described lower adjusting mechanism is arranged on the second side of the lower bottom base relative with this time scale face;

This time adjusting mechanism comprises the second guide rail supporting frame, is arranged on the second reducing motor on this second guide rail supporting frame, this second guide rail supporting frame comprises transverse part on second, second time transverse part and the second vertical portion, this second vertical portion connects the inner of transverse part on described second and the middle part of second time transverse part, this extends to the transverse edge of described the second side in outer end of transverse part on second, is provided with the second circular hole on this second vertical portion;

On described second, the xsect of transverse part takes the shape of the letter U, and the openend of this U-shaped is its inner, and the blind end of U-shaped is its outer end, respectively is provided with second chute that extends to described outer end from described the inner on two relative faces of U-shaped;

Described the second reducing motor is arranged on the end face of described second time transverse part and is placed in outside the second semi-surrounding space that is made of transverse part on described second, the second vertical portion and second time transverse part, and the second output shaft of this second reducing motor penetrates this second semi-surrounding space through described the second circular hole;

Be provided with second jacking block of thread connection with it on this second output shaft, two transverse sides at the top of this second jacking block respectively are provided with second fin that coincide with described the second chute;

The end face that is placed in second time transverse part in described the second semi-surrounding space is provided with the second optoelectronic switch, and the bottom surface of described the second jacking block is provided with the second light barrier of controlling this second optoelectronic switch;

Be subjected to described the second jacking block pushing tow and drive the second block that this lower slider section moves with being provided with on the side of the lower slider section of the second reducing motor homonymy;

Described conical surface mirror microscope base also comprises the conical surface mirror picture frame that is arranged on described lower slider section bottom surface, and this conical surface mirror picture frame comprises the end face that is connected with lower slider section bottom surface, this end face is to the first linking arm, second linking arm of downward-extension be placed in top pressure arm between this first linking arm, the second linking arm certainly;

The lower end of this first linking arm and the second linking arm is provided with an annulus section of putting conical surface mirror, two relative edges of this annulus section are connected with the lower end inwall of described the first linking arm, the second linking arm respectively, the curved portions of this annulus section is towards the pressure arm setting of described top and be placed in the oblique below of the lower end of this top pressure arm, and this top pressure arm connects with this curved portions by the shell fragment that is arranged on its lower end;

2. full-automatic cone microscopy as claimed in claim 1 is surveyed and is used platform, and it is characterized in that: described holder comprises the laser level adjusting seat of the bottom that is arranged on described vertical supporting arm.

3. full-automatic cone microscopy as claimed in claim 1 or 2 is surveyed and is used platform, and it is characterized in that: described sway brace lower end is provided with the laser line generator for generation of reference laser lines.