CN209706746U - A kind of lathe five degree of freedom geometric moving error measuring system - Google Patents

Abstract

The utility model discloses a kind of lathe five degree of freedom geometric moving error measuring systems, including laser emission element, four-degree-of-freedom error measurement unit and roll error measuring unit；Laser emission element and roll error measurement end opposite base position are fixed, and rectangular mirror is mobile with objective table in four-degree-of-freedom error measurement unit and roll error measuring unit；The laser signal that four-degree-of-freedom error measurement unit is issued by two built-in two-dimension displacement photoelectric sensor sensing laser emission elements obtains straightness error and angular error on lathe objective table moving direction by the output of two sensors；Roll error measuring unit is based on laser auto-collimation principle, and the rolling angle error on objective table moving direction is measured by built-in two-dimension displacement photoelectric sensor.The utility model can obtain the geometric moving error of five freedom degrees of lathe by measurement, assist rapid survey when Installing machine tool, adjustment.

Description

A kind of lathe five degree of freedom geometric moving error measuring system

Technical field

The utility model belongs to machine tool accuracy detection field, in particular to a kind of lathe five degree of freedom geometric moving error is surveyed Amount system.

Background technique

With making rapid progress for precision processing technology, more and more high-precision machine tools are applied to manufacturing industry.Lathe is several The size of what kinematic error is to determine the important indicator of its overall processing precision.Therefore, the acquisition pair of geometric moving error of machine tool In the assembly of lathe, adjustment and error compensation important in inhibiting.For traditional three axis lathes, each linear movement is led There are the geometric moving errors of six-freedom degree for rail, including position error, vertically and horizontally three of straightness error mobile miss Difference and three rotation errors of pitching, beat and rolling angle error.The measurement side of industrial geometric moving error of machine tool at present Method mainly has laser interferometer measurement method, laser tracker mensuration, ball bar mensuration and workpiece method of testing.

Laser interferometer measurement method measurement accuracy is high, but to the more demanding of measurement environment, being easy to be interfered causes There are deviations for measurement result, and this method needs replacing different microscope group readjustments for the measurement of different freedom degree errors and does Optical path is related to, measurement process is cumbersome, and efficiency is lower；The range of laser tracker mensuration is big, can be in machine work space Any coordinate points measure, but its precision is low, and measurement caused by the selection of the installation site and measurement point of tracker is uncertain Degree is big；Ball bar installation is convenient and efficient with adjustment, and measurement method is simple, but its measurement accuracy is by metal ball sphericity and ball seat circle Degree influences, higher to the requirement on machining accuracy of the two, and pressure caused by the weight of measurement process Instrumental component can be to inspection Precision is surveyed to impact；Workpiece method of testing can separate lathe items error by calibration, but its measurement takes a long time, and survey It is heavy to measure standard component.

Utility model content

The utility model be to avoid above-mentioned deficiency of the prior art, provide a kind of structure it is simple, it is at low cost, peace Dress and the convenient lathe five degree of freedom geometric moving error measuring system of adjustment are especially realized to lathe five degree of freedom geometry motion Error carries out high-precision rapid survey.

The utility model is to solve the problems, such as to adopt the following technical scheme that

The utility model lathe five degree of freedom geometric moving error measuring system, the lathe include pedestal and objective table, The pedestal is fixed setting, and the objective table is equipped on the pedestal, and can be along setting on the base linear Guide rail is mobile；It is structurally characterized in that: the measuring system includes laser emission element, four-degree-of-freedom error measurement unit and rolling Error measurement unit, the roll error measuring unit are made of roll error measurement end and rectangular mirror；The laser hair The end that unit is located at pedestal is penetrated, the roll error measurement end in the roll error measuring unit is located at the side of pedestal Portion；The laser emission element and roll error measurement end are fixed relative to base position；The four-degree-of-freedom error measure list Member is fixed on objective table, and mobile with objective table, four-degree-of-freedom error measurement unit is as the two-dimension displacement photoelectricity built in two Sensor senses the laser signal that laser emission element issues, and is obtained according to the output signal of two two-dimension displacement photoelectric sensors Straightness error and angular error on objective table moving direction；It is former that the roll error measuring unit is based on laser auto-collimation Reason is obtained by built-in two-dimension displacement photoelectric sensor perpendicular to the pitching angle error on objective table moving direction.

The characteristics of the utility model lathe five degree of freedom geometric moving error measuring system, lies also in:

The laser emission element by the first semiconductor laser, the first polarization splitting prism, the first quarter-wave plate, Plane mirror, angle vernier device and the first filter set at；

The laser that first semiconductor laser goes out successively pass through the first polarization splitting prism and the one or four/ Reflected light is formed after one wave plate on plane mirror, the reflected light forms the first emergent light through the first optical filter, with institute State input signal of first emergent light as the four-degree-of-freedom error measurement unit；

In the four-degree-of-freedom error measurement unit, first emergent light is received by its second optical filter, through being divided Prism outgoing is the orthogonal light of two beams, wherein a branch of be directly projected to the first bidimensional displacement photoelectric sensor, another Shu Jing It crosses the first condenser lens and is projected to the second bidimensional displacement photoelectric sensor；Loading is followed in the four-degree-of-freedom error measurement unit After straight-line displacement or angular deflection occur for platform, photoelectric sensor is displaced by the first bidimensional of detection and the second bidimensional is displaced photoelectricity The output signal of sensor obtains straightness error and angular error on objective table moving direction.

The characteristics of the utility model lathe five degree of freedom geometric moving error measuring system, lies also in:

Built-in plane mirror is fixed on angle vernier device in the laser emission element, micro- using the angle The deflection angle for adjusting device adjustment plane mirror, obtains the first emergent light of setting optical axis angle；

The four free error measurement unit is fixed on the first bidimensional displacement mobile platform, and the first bidimensional displacement moves Moving platform is fixed on vertical adjustment frame, carries out displacement coarse adjustment in the vertical direction using the vertical adjustment frame, using described First bidimensional is displaced mobile platform and moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon the first bidimensional position The luminous point on photoelectric sensor is moved in effective detection in sense linear region；

The second bidimensional displacement photoelectric sensor is fixed on the second bidimensional displacement mobile platform, utilizes described second liang Dimension displacement mobile platform moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon the second bidimensional displacement photoelectricity The effective detection of luminous point on sensor in sense linear region.

The characteristics of the utility model lathe five degree of freedom geometric moving error measuring system lies also in: the roll error is surveyed Rectangular mirror in amount unit is mounted on the side of objective table, mobile with objective table；In the roll error measurement end, The laser of built-in second semiconductor laser successively passes through the second polarization splitting prism, the second quarter-wave plate and third It being incident on rectangular mirror after optical filter, the reflected beams formed on the rectangular mirror are returned along original optical path, then It is secondary to be focused again through the second condenser lens after the second polarization splitting prism, it throws and is displaced photoelectric sensor according to third bidimensional；In After with objective table rolling occurs for rectangular mirror, it is displaced the output signal of photoelectric sensor by detection third bidimensional, is hung down Rolling angle error directly in the pitching angle error on objective table moving direction, as on objective table moving direction.

The characteristics of the utility model lathe five degree of freedom geometric moving error measuring system, lies also in: third bidimensional position It moves photoelectric sensor to be fixed on third bidimensional displacement mobile platform, using third bidimensional displacement mobile platform in vertical side Fine tuning is moved to the enterprising line position of horizontal direction, to guarantee the luminous point being incident upon on third bidimensional displacement photoelectric sensor in sense wire Effective detection in property region.

Compared with the prior art, the utility model has the beneficial effect that:

1, the utility model converts measurement perpendicular to machine for the roll error measured on lathe objective table moving direction Pitching angle error on bed objective table moving direction, in such a way that four-degree-of-freedom error measure and roll error measurement combine Greatly simplifie the light channel structure of five degree of freedom error measure.

2, optical path is displaced photoelectric sensor by high precision two-dimensional and is based on laser auto-collimation original in the utility model The angular transducer of reason ensure that measurement accuracy, and light channel structure is exquisite simple, and measurement microscope group that no replacement is required can measure lathe simultaneously Five freedom degree errors in operational process are solved and are grasped using laser interferometer measurement lathe multiple degrees of freedom geometric moving error Make cumbersome, the problem of time-consuming, improves measurement efficiency.

3, the utility model is displaced the combination between mobile platform by angle vernier device, vertical adjustment frame and bidimensional, The collimation of laser beam axis is realized, alignment procedure is easy, easily operated.

4, the measurement data that the utility model will test acquisition is sent to computer by way of Bluetooth transmission, avoids In lathe operational process, drag data transmission line causes the interference of interface loosening.

Detailed description of the invention

Fig. 1 is the utility model measuring system schematic diagram；

Fig. 2 is laser emission element schematic diagram of internal structure in the utility model；

Fig. 3 is four-degree-of-freedom error measurement unit schematic diagram of internal structure in the utility model；

Fig. 4 is roll error measurement end schematic diagram of internal structure in the utility model；

Fig. 5 is rectangular mirror structural schematic diagram in the utility model；

Fig. 6 a and Fig. 6 b are the measuring straightness error result that the utility model is directed to a Longmen machine tool；

Fig. 7 a, Fig. 7 b and Fig. 7 c are the angular error measurement result that the utility model is directed to a Longmen machine tool；

Figure label: 1 pedestal；2 objective tables；3 laser emission elements；The first semiconductor laser of 4a；The second semiconductor of 4b Laser；The first polarization splitting prism of 5a；The second polarization splitting prism of 5b；The first quarter-wave plate of 6a；6b the two or four/ One wave plate；7 plane mirrors；8 angle vernier devices；The first optical filter of 9a；The second optical filter of 9b；9c third optical filter；10 4 Freedom degree error measurement unit；11 Amici prisms；The first bidimensional of 12a is displaced photoelectric sensor；The second bidimensional of 12b is displaced photoelectric transfer Sensor；12c third bidimensional is displaced photoelectric sensor；The first condenser lens of 13a；The second condenser lens of 13b；14 vertical adjustment frames； The first bidimensional of 15a is displaced mobile platform；The second bidimensional of 15b is displaced mobile platform；15c third bidimensional is displaced mobile platform；16 rollings Turn error measure end；17 rectangular mirrors.

Specific embodiment

Referring to Fig. 1, lathe includes pedestal 1 and objective table 2 in the present embodiment, and pedestal 1 is fixed setting, and objective table 2 cooperates It is arranged on pedestal 1, and can be moved along the linear guides being arranged on pedestal 1.

As shown in Figure 1, five degree of freedom geometric moving error measuring system includes laser emission element 3, four in the present embodiment Freedom degree error measurement unit 10 and roll error measuring unit, roll error measuring unit is by roll error measurement end 16 and square Shape reflecting mirror 17 is constituted；Laser emission element 3 is located at an end of pedestal 1, and the roll error in roll error measuring unit is surveyed Amount end 16 is located at a side of pedestal 1；Laser emission element 3 and roll error measurement end 16 are fixed relative to 1 position of pedestal；Four Freedom degree error measurement unit 10 is fixed on objective table 2, mobile with objective table 2；To be detected as lathe X axis Example, laser emission element 3 and four-degree-of-freedom error measurement unit 10 are located on the x-axis；Also, laser emission element 3 and four The central axis of freedom degree error measurement unit 10 is in same level, to guarantee issued by laser emission element 3 the One emergent light can be incident to four-degree-of-freedom error measurement unit 10.

Four-degree-of-freedom error measurement unit 10 is to sense Laser emission list as the two-dimension displacement photoelectric sensor built in two The laser signal that member 3 issues obtains along objective table moving direction according to the output signal of two two-dimension displacement photoelectric sensors Straightness error and angular error；Roll error measuring unit is based on laser auto-collimation principle, passes through built-in two-dimension displacement Photoelectric sensor is obtained perpendicular to the pitching angle error on objective table moving direction.

In specific implementation, corresponding structure setting also includes:

As depicted in figs. 1 and 2, laser emission element 3 by the first semiconductor laser 4a, the first polarization splitting prism 5a, First quarter-wave plate 6a, plane mirror 7, angle vernier device 8 and the first optical filter 9a composition；First semiconductor swashs It is anti-in plane later that the laser that light device 4a launches successively passes through the first polarization splitting prism 5a and the first quarter-wave plate 6a It penetrates on mirror 7 and forms reflected light, reflected light forms the first emergent light through the first optical filter 9a, using the first emergent light as four-degree-of-freedom The input signal of error measurement unit 10；In specific implementation, the emergent light of the first semiconductor laser 4a is set with 45° angle incidence To plane mirror 7.

As shown in Figure 1, Figure 2 and Figure 3, in four-degree-of-freedom error measurement unit 10, receive the by its second optical filter 9b One emergent light is the orthogonal light of two beams through the outgoing of Amici prism 11, wherein a branch of be directly projected to the first bidimensional displacement light Electric transducer 12a, another beam are projected to the second bidimensional displacement photoelectric sensor 12b by the first condenser lens 13a；Freely four After degree error measurement unit 10 follows objective table 2 that straight-line displacement or angular deflection occurs, light is displaced by the first bidimensional of detection The output signal of electric transducer 12a and the second bidimensional displacement photoelectric sensor 12b obtain the straight line on 2 moving direction of objective table Spend error and angular error.In specific implementation, the first bidimensional is displaced photoelectric sensor 12a and the second bidimensional is displaced photoelectric sensor The central axis of 12b should be in same level, and the angle of the two is fixed as 90 °.

It is adjusted to realize, built-in plane mirror 7 is fixed on angle vernier device 8 in laser emission element 3, benefit The deflection angle of plane mirror 7 is adjusted with angle vernier device 8, obtains the first emergent light of setting optical axis angle.

Four free error measurement units 10 are fixed on the first bidimensional displacement mobile platform 15a, the displacement movement of the first bidimensional Platform 15a is fixed on vertical adjustment frame 14, is carried out displacement coarse adjustment in the vertical direction using vertical adjustment frame 14, is utilized first Bidimensional is displaced mobile platform 15a and moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon the first bidimensional position The luminous point on photoelectric sensor 12a is moved in effective detection in sense linear region.

Second bidimensional displacement photoelectric sensor 12b is fixed on the second bidimensional displacement mobile platform 15b, utilizes the second bidimensional It is displaced mobile platform 15b and moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon the second bidimensional displacement light The effective detection of luminous point on electric transducer 12b in sense linear region.

In specific implementation, after fixing laser emission element 3 and four-degree-of-freedom error measurement unit 10, need to sharp The first emergent light that light emitting unit 3 is launched carries out optical axis collimation, to guarantee the accuracy of measurement.Alignment procedure is as follows: first First objective table 2 is moved to close to one end of laser emission element 3, this is measurement starting point, adjustment the first bidimensional displacement movement Platform 15a and vertical adjustment frame 14, so that the luminous point of the first emergent light beats the sensing in the first bidimensional displacement photoelectric sensor 12a The output signal at center, the photoelectric sensor 12a of the first bidimensional displacement at this time is 0 value, or close to 0 value；It is then that objective table 2 is mobile To the other end far from laser emission element 3, this is measurement terminal；The mobile distance of objective table 2 is depending on measuring required distance； At this time due to, there are angle, causing to sense on sensor between 2 mobile axis of the laser beam axis not collimated and lathe objective table The luminous point sideslip arrived, the output signal that the first bidimensional is displaced photoelectric sensor 12a change；Micromatic setting 8 is adjusted the angle, changes the The optical axis angle of one emergent light, the displacement fine tuning of cooperation the first bidimensional displacement mobile platform 15a, so that the first bidimensional is displaced photoelectricity The output signal of sensor 12a is 0 value again, or close to 0 value, objective table 2 is moved to after finishing and sends out close to laser by adjustment One end of unit 3 is penetrated, whether the output signal of observation the first bidimensional displacement photoelectric sensor 12a is still 0 value, or close to 0 value, such as The output signal that the first bidimensional of fruit is displaced photoelectric sensor 12a is not 0 value, then repeats the collimation adjustment of optical axis, until working as When objective table 2 is located at the position for measuring starting point or terminal, the output signal of the first bidimensional displacement photoelectric sensor 12a is always 0 value, or close to 0 value, then laser beam axis collimation finishes.

As shown in Figure 1, Figure 4 and Figure 5, the rectangular mirror 17 in the present embodiment in roll error measuring unit is mounted on load The side of object platform 2, it is mobile with objective table 2；In roll error measurement end 16, built-in second semiconductor laser 4b transmitting Laser is incident on rectangle after successively passing through the second polarization splitting prism 5b, the second quarter-wave plate 6b and third optical filter 9c On reflecting mirror 17, the reflected beams formed on rectangular mirror 17 are returned along original optical path, again pass by the second polarization spectro rib It is focused again through the second condenser lens 13b after mirror 5b, throws and be displaced photoelectric sensor 12c according to third bidimensional；In rectangular mirror 17 After rolling occurs with objective table 2, it is displaced the output signal of photoelectric sensor 12c by detection third bidimensional, obtains perpendicular to load Pitching angle error on 2 moving direction of object platform, this error are rolling angle error of the objective table 2 on machine tool movement direction.

In order to realize adjustment, third bidimensional displacement photoelectric sensor 12c is fixed on third bidimensional displacement mobile platform 15c On, fine tuning is moved in vertically and horizontally enterprising line position using third bidimensional displacement mobile platform 15c, to guarantee to be incident upon Third bidimensional is displaced the luminous point on photoelectric sensor 12c in effective detection in sense linear region.

In specific implementation, after measurement starting point fixes roll error measurement end 16 and rectangular mirror 17, pass through Third bidimensional is displaced mobile platform 15c and moves fine tuning in vertically and horizontally enterprising line position, so that the second semiconductor laser The laser that device 4b launches beats the sensing center in third bidimensional displacement photoelectric sensor 12c, and third bidimensional is displaced photoelectricity at this time The output signal of sensor 12c is 0, or close to 0 value.Roll error measuring unit only need to adjust luminous point position in measurement starting point It sets, it is the rolling of lathe objective table 2 in the direction of movement that caused sensor output signal, which changes, in 2 moving process of objective table Angular errors.

The signal that three two-dimensional position photoelectric sensors export in the utility model is by passing through bluetooth after processing of circuit The error signal that four-degree-of-freedom error measurement unit 10 and roll error measuring unit measure is sent to calculating by the mode of transmission Machine.The mode of bluetooth communication avoids in lathe operational process, the interference that drag data transmission line causes interface to loosen.

For the performance for testing five degree of freedom geometric moving error measuring system, five freedom degrees are carried out for a Longmen machine tool The detection of error, lathe objective table move along the x axis, measurement total kilometres be 1.5m, duplicate measurements 5 times.Straightness error is surveyed Measure result as shown in figures 6 a and 6b, wherein the measurement reproducibility of Y-direction straightness error shown in Fig. 6 a is 1.78 μm, Fig. 6 b institute The measurement reproducibility of the Z-direction straightness error shown is 1.64 μm.Angular error measurement result as shown in Fig. 7 a, Fig. 7 b and Fig. 7 c, Wherein the measurement reproducibility of pitching angle error shown in Fig. 7 a is 3.38 ", the measurement reproducibility of beat angle error shown in Fig. 7 b It is 2.89 ", the repeatability of rolling measurement shown in Fig. 7 c is 4.93 ".

Table 1 show performance parameter achieved by the utility model.

Table 1

	Measuring straightness error	Angular error measurement
			Machine tool measuring range	1.5m	1.5m
Measurement range	±100μm	±200"
			Measurement Resolution	0.1μm	0.5"
Measurement reproducibility	2μm	5"

Measurement while the utility model can be realized five freedom degree geometric moving errors of lathe, measurement efficiency is high, behaviour Make simply, measurement accuracy meets actual demand.

Claims (5)

1. a kind of lathe five degree of freedom geometric moving error measuring system, the lathe includes pedestal (1) and objective table (2), institute Pedestal (1) is stated as fixed setting, the objective table (2) is equipped on the pedestal (1), and can be along setting in pedestal (1) linear guides on are mobile；It is characterized in that: the measuring system includes laser emission element (3), four-degree-of-freedom error measure Unit (10) and roll error measuring unit, the roll error measuring unit is by roll error measurement end (16) and rectangular reflection Mirror (17) is constituted；The laser emission element (3) is located at an end of pedestal (1), the rolling in the roll error measuring unit Turn the side that error measure end (16) is located at pedestal (1)；The laser emission element (3) and roll error measurement end (16) phase Pedestal (1) position is fixed；The four-degree-of-freedom error measurement unit (10) is fixed on objective table (2), with objective table (2) It is mobile；Four-degree-of-freedom error measurement unit (10) is to sense laser emission element as the two-dimension displacement photoelectric sensor built in two (3) laser signal issued obtains along objective table moving direction according to the output signal of two two-dimension displacement photoelectric sensors Straightness error and angular error；The roll error measuring unit is based on laser auto-collimation principle, passes through built-in two dimension Photoelectric sensor is displaced to obtain perpendicular to the pitching angle error on objective table moving direction.

2. lathe five degree of freedom geometric moving error measuring system according to claim 1, it is characterized in that:

The laser emission element (3) by the first semiconductor laser (4a), the first polarization splitting prism (5a), the one or four/ One wave plate (6a), plane mirror (7), angle vernier device (8) and the first optical filter (9a) composition；

The laser that first semiconductor laser (4a) is launched successively passes through the first polarization splitting prism (5a) and the one or four Reflected light is formed after/mono- wave plate (6a) on plane mirror (7), the reflected light is formed through the first optical filter (9a) First emergent light, using first emergent light as the input signal of the four-degree-of-freedom error measurement unit (10)；

In the four-degree-of-freedom error measurement unit (10), first emergent light, warp are received by its second optical filter (9b) Amici prism (11) outgoing is the orthogonal light of two beams, wherein a branch of be directly projected to the first bidimensional displacement photoelectric sensor (12a), another beam are projected to the second bidimensional displacement photoelectric sensor (12b) by the first condenser lens (13a)；In the four selfs After following objective table (2) that straight-line displacement or angular deflection occurs by degree error measurement unit (10), by detecting the first bidimensional The output signal for being displaced photoelectric sensor (12a) and the second bidimensional displacement photoelectric sensor (12b) is obtained along objective table (2) movement Straightness error and angular error on direction.

3. lathe five degree of freedom geometric moving error measuring system according to claim 2, it is characterized in that:

Built-in plane mirror (7) is fixed on angle vernier device (8) in the laser emission element (3), using described Angle vernier device (8) adjusts the deflection angle of plane mirror (7), obtains the first emergent light of setting optical axis angle；

The four free error measurement unit (10) is fixed in the first bidimensional displacement mobile platform (15a), first bidimensional Displacement mobile platform (15a) be fixed on vertical adjustment frame (14), using the vertical adjustment frame (14) in the vertical direction into Line position moves coarse adjustment, is moved carefully using first bidimensional displacement mobile platform (15a) in vertically and horizontally enterprising line position It adjusts, to guarantee the luminous point being incident upon in the first bidimensional displacement photoelectric sensor (12a) in effective detection in sense linear region；

Second bidimensional displacement photoelectric sensor (12b) is fixed in the second bidimensional displacement mobile platform (15b), using described Second bidimensional is displaced mobile platform (15b) and moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon second Bidimensional is displaced the luminous point on photoelectric sensor (12b) in effective detection in sense linear region.

4. lathe five degree of freedom geometric moving error measuring system according to claim 1 or 2, it is characterized in that: the rolling Turn the side that the rectangular mirror (17) in error measurement unit is mounted on objective table (2), it is mobile with objective table (2)；Described In roll error measurement end (16), the laser of built-in second semiconductor laser (4b) transmitting successively passes through the second polarization spectro It is incident on rectangular mirror (17) after prism (5b), the second quarter-wave plate (6b) and third optical filter (9c), in institute It states the reflected beams that are formed on rectangular mirror (17) to return along original optical path, again pass by after the second polarization splitting prism (5b) again It is focused through the second condenser lens (13b), throws and be displaced photoelectric sensor (12c) according to third bidimensional；Rectangular mirror (17) with Objective table (2) occur rolling after, by detection third bidimensional displacement photoelectric sensor (12c) output signal, obtain perpendicular to Pitching angle error on objective table (2) moving direction, as the rolling angle error on objective table (2) moving direction.

5. lathe five degree of freedom geometric moving error measuring system according to claim 4, it is characterized in that: the third two Dimension displacement photoelectric sensor (12c) is fixed in third bidimensional displacement mobile platform (15c), is displaced and is moved using the third bidimensional Moving platform (15c) moves fine tuning in vertically and horizontally enterprising line position, to guarantee to be incident upon third bidimensional displacement photoelectric transfer The effective detection of luminous point on sensor (12c) in sense linear region.