CN203772739U - Optical system of high-precision digital V-prism refractometer - Google Patents

Abstract

The utility model provides an optical system of a high-precision digital V-prism refractometer. The optical system is characterized by comprising a power supply (1), a white LED (Light Emitting Diode) light source (2), a slit (3), an achromatic collimating lens (4), an interference filter part (5), a V prism seat (6), a mounting seat (7) of an object to be detected, an achromatic imaging lens (8), an information induction sensor (9), an angle rotation stepping motor (10), a small-size stepping motor (11), an ARM (Acorn RISC Machine) controller (12) and a touch liquid crystal color screen (13). According to the optical system, a large angle for rapid light collimation is provided by an angle encoder and a small angle for rapid light collimation is provided by a PSD (Phase-Sensitive Detector) position sensor or a linear array CCD (Charge Coupled Device) photoelectric detection system; finally, a deviation angle of a total angle is obtained according to the sum of the two angles; the optical system can realize rapid, large-range and high-precision measurement, and is simple in structure and convenient to operate.

Description

A kind of optical system of high accuracy number V-prism refractometer

Technical field

The utility model relates to optical gauge field, specifically just relates to a kind of optical system of high accuracy number V-prism refractometer.

Background technology

Refractive index is one of important physical constant of material, and many pure materials all have certain refractive index, if wherein contain impurity, refractive index will change, and occur deviation, and impurity is more, and deviation is larger.Therefore,, by the mensuration of refractive index, can measure the purity of material.The optical system of V-prism refractometer is a kind of instrument for refractive index high-acruracy survey, refractive index that can be to transparent or semitransparent solid or liquid substance, and mean dispersion, partial dispersion are measured.Thereby the concentration of Analysis deterrmination material, content and purity etc.Be widely used in the industrial sectors such as sugaring, pharmacy, oil, food, chemical industry, optical glass and about institution of higher learning and R&D institution.

Along with industrial expansion, increasing industry also needs to detect their product separately by the optical system of V-prism refractometer.And the optical system of existing traditional V-prism refractometer is optical profile type, instrument can produce error at aspects such as reading microscope aligning, idle running and row differences, and the workload that recording angular and follow-up data are processed is larger, inefficiency; Required optical source wavelength is to adopt heavy sodium vapor lamp, hydrogen lamp and mercury lamp, short merit of life-span, consume high, volume is large, can not meet the needs of modern measure department.

Utility model content

As shown in Figure 1, V prism principle of work: when a branch of directional light perpendicular to the V prism plane of incidence enters after V prism, when if the refractive index of tested sample is identical with V Refractive Index of Glass Prism, light does not pass through V prism in deviation ground, if the refractive index of tested sample and V Refractive Index of Glass Prism n _ovariant, light will reflect in accordance with refraction law, and when the angle of getting emergent ray and incident ray is H, the pass that can derive between H and n according to refraction law is:

$n=\sqrt{n_o^2+\sin \left(H\right)\sqrt{n_o^2-{\sin }^2\left(H\right)}}---\left(1\right)$

In formula:

N _o---the refractive index of V prism;

The refractive index of n---sample;

The deflection angle that H---sample causes; As n > n _otime, H be on the occasion of; As n < n _otime, H is negative value

If can try to achieve H angle substitution above formula, can try to achieve the refractive index n of tested sample, when adopting the monochromatic light incident of different wave length, try to achieve the refractive index n that is this wavelength _λ.

As shown in Figure 2, tiny angle measurement principle:

$H1=a\tan \left(\frac{L}{f}\right)---\left(2\right)$

In formula:

H1 is the minute angle of deflection of light; The distance of ordering to o in the position of L-parallel light focusing; When light focusing point at o, order above time, L be on the occasion of; When light focusing point at o, order below time, L is negative value; F is the focal length of imaging len.

According to above V prism principle of work, the utility model provides a kind of optical system of high accuracy number V-prism refractometer, has reduced process of measurement, has saved Measuring Time, has improved measuring accuracy, and whole apparatus structure is simple, easy to operate.

Technical scheme

For above-mentioned technical purpose, the utility model designs a kind of optical system of high accuracy number V-prism refractometer, it is characterized in that: it comprises power supply, white LED light source, slit, achromatism collimation lens, interference filter chip part, V prism table, object under test mount pad, achromatism imaging len, information induction sensor angular turn stepper motor, small type stepping motor, ARM controller and touch LCD color screen;

On described white LED light source emitting light path, slit is housed, slit is positioned on the focal plane of achromatism collimation lens, light penetrates by entering interference filter chip part with directional light achromatism collimation lens color difference eliminating from slit, light enters V prism table after penetrating again, object under test is contained in object under test mount pad, object under test mount pad is contained in the interior V-shaped groove of V prism table, the light that enters V prism table produces deflection of light through object under test, directional light after deviation penetrates and is imaged on focal plane position through achromatism imaging len, achromatism imaging len is contained on angular turn stepper motor, described angular turn stepper motor can be rotated by the control of ARM controller, described information induction sensor is contained in achromatism imaging len focal plane position and accepts image-forming information, the image-forming information receiving is outputed to ARM controller, ARM controller is exported input message analysis afterwards by touch LCD color screen,

Described interference filter chip part is contained on small type stepping motor, and described small type stepping motor is controlled by ARM controller;

Described power supply is to white LED light source, information induction sensor, angular turn stepper motor, small type stepping motor and the power supply of touch LCD color screen.

Further, described information induction sensor is PSD position transducer or line array CCD.

Further, described slit is slit glass.

Further, described angular turn stepper motor is high precision angular encoder stepper motor.

Further, (comprise at least 8 interference filters, optical filter is contained in to be installed on rotating disk described interference filter chip part, realizes the selection of different wave length optical filter.

Beneficial effect

The quick light of the utility model aims at wide-angle and is provided by angular encoder, and low-angle is provided by PSD position transducer or linear array CCD optoelectronic detection system; The deflection angle of last total angle is obtained by both angle sums, realize fast, on a large scale, high-acruracy survey, whole apparatus structure is simple, easy to operate.

Accompanying drawing explanation

Accompanying drawing 1 is V prism schematic diagram.

Accompanying drawing 2 is existing lens minute angle schematic diagram.

Accompanying drawing 3 is structural representations of the present utility model.

Accompanying drawing 4 is interference filter member principle figure in the utility model.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described further.

Embodiment

As shown in accompanying drawing 3 and 4, a kind of optical system of high accuracy number V-prism refractometer, it is characterized in that: it comprises power supply 1, white LED light source 2, slit 3, achromatism collimation lens 4, interference filter chip part 5, V prism table 6, object under test mount pad 7, achromatism imaging len 8, information induction sensor 9 angular turn stepper motor 10, small type stepping motor 11, ARM controller 12 and touch LCD color screen 13;

On described white LED light source 2 emitting light paths, slit 3 is housed, slit 3 is positioned on the focal plane of achromatism collimation lens 4, light penetrates by entering interference filter chip part 5 with directional light achromatism collimation lens 4 color difference eliminatings from slit 3, light enters V prism table 6 after penetrating again, object under test is contained in object under test mount pad 7, object under test mount pad 7 is contained in the interior V-shaped groove of V prism table 6, the light that enters V prism table 6 produces deflection of light through object under test, directional light after deviation penetrates and is imaged on focal plane position through achromatism imaging len 8, achromatism imaging len 8 is contained on angular turn stepper motor 10, described angular turn stepper motor 10 is subject to ARM controller 12 to control and can rotate, described information induction sensor 9 is contained in achromatism imaging len 8 focal plane position and accepts image-forming information, the image-forming information receiving is outputed to ARM controller 12, ARM controller 12 is exported input message analysis afterwards by touch LCD color screen 13,

Described interference filter chip part 5 is contained on small type stepping motor 11, and described small type stepping motor 11 is controlled by ARM controller 12;

Described power supply 1 is given white LED light source 2, information induction sensor 9, angular turn stepper motor 10, small type stepping motor 11 and 13 power supplies of touch LCD color screen.

Described information induction sensor 9 is PSD position transducer or line array CCD.

Described slit 3 is slit glasses.

Described angular turn stepper motor 10 is high precision angular encoder stepper motor.

Described interference filter chip part 5 comprises at least 8 interference filters, and optical filter is contained in to be installed on rotating disk, realizes the selection of different wave length optical filter.

Principle of work of the present utility model is the irradiation slit glass 3 that white LED light source 2 sends, slit 3 is positioned on the focal plane of achromatic condenser 4, with directional light, enter the monochromatic collimated beam that obtains needing wavelength after interference filter chip part 5, enter again V prism table 6, through after object under test, produce deflection of light, ARM controller 12 is controlled with high precision angular encoder stepper motor 10 and is rotated the directional light after deviation is imaged on focal plane through achromatism imaging len 8, by PSD position transducer or line array CCD on focal plane, accepted, the image that ARM controller 12 gathers by analyzing PSD position transducer or line array CCD, according to formula, calculate small deviation angle H1, again by gather angle that high precision angular encoder turns over obtain wide-angle H2(wherein clockwise direction rotate as negative, counterclockwise rotate as just), two angle sums are exactly the angular deflection H=H1+H2 that testee causes.For each monochromatic wavelength, by ARM controller 12, control small type stepping motor 11 and regulate interference filter, calculate the refractive index of testee corresponding wavelength, finally control the refractive index demonstration that touch LCD color screen 13 is realized the selected wavelength of testee.

The quick light of the utility model aims at wide-angle and is provided by angular encoder, and low-angle is provided by PSD position transducer or linear array CCD optoelectronic detection system; The deflection angle of last total angle is obtained by both angle sums, realize fast, on a large scale, high-acruracy survey, whole apparatus structure is simple, easy to operate.

Claims (5)

1. the optical system of the optical system of a high accuracy number V-prism refractometer, it is characterized in that: it comprises power supply (1), white LED light source (2), slit (3), achromatism collimation lens (4), interference filter chip part (5), V prism table (6), object under test mount pad (7), achromatism imaging len (8), information induction sensor (9) angular turn stepper motor (10), small type stepping motor (11), ARM controller (12) and touch LCD color screen (13);

On described white LED light source (2) emitting light path, slit (3) is housed, slit (3) is positioned on the focal plane of achromatism collimation lens (4), light penetrates by entering interference filter chip part (5) with directional light achromatism collimation lens (4) color difference eliminating from slit (3), light enters V prism table (6) after penetrating again, object under test is contained in object under test mount pad (7), object under test mount pad (7) is contained in the interior V-shaped groove of V prism table (6), the light that enters V prism table (6) produces deflection of light through object under test, directional light after deviation penetrates and is imaged on focal plane position through achromatism imaging len (8), achromatism imaging len (8) is contained on angular turn stepper motor (10), described angular turn stepper motor (10) can be rotated by ARM controller (12) control, described information induction sensor (9) is contained in achromatism imaging len (8) focal plane position and accepts image-forming information, the image-forming information receiving is outputed to ARM controller (12), ARM controller (12) is exported input message analysis afterwards by touch LCD color screen (13),

It is upper that described interference filter chip part (5) is contained in small type stepping motor (11), and described small type stepping motor (11) is controlled by ARM controller (12);

Described power supply (1) is given white LED light source (2), information induction sensor (9), angular turn stepper motor (10), small type stepping motor (11) and touch LCD color screen (13) power supply.

2. the optical system of the optical system of a kind of high accuracy number V-prism refractometer as claimed in claim 1, is characterized in that: described information induction sensor (9) is PSD position transducer or line array CCD.

3. the optical system of the optical system of a kind of high accuracy number V-prism refractometer as claimed in claim 1, is characterized in that: described slit (3) is slit glass.

4. the optical system of the optical system of a kind of high accuracy number V-prism refractometer as claimed in claim 1, is characterized in that: described angular turn stepper motor (10) is high precision angular encoder stepper motor.

5. the optical system of the optical system of a kind of high accuracy number V-prism refractometer as claimed in claim 1, it is characterized in that: described interference filter chip part (5) comprises at least 8 interference filters, optical filter is contained in to be installed on rotating disk, realizes the selection of different wave length optical filter.