CN107037007A - A kind of glass-reflected with automatic calibration function is than measurement apparatus and method - Google Patents

Abstract

The invention discloses a kind of glass-reflected with automatic calibration function than measurement apparatus and method, described device includes emitter, servicing unit, reception device and bogey；The servicing unit includes the first assisted calibration mechanism or the second assisted calibration mechanism；The first assisted calibration mechanism includes being provided with on-gauge plate and blackboard on drive mechanism, the bogey；The drive mechanism is used to drive the bogey to move, second assisted calibration mechanism is used for the position for adjusting the emitter and the reception device, make the position movement where the position to on-gauge plate where the launching position from blackboard of the light beam, or make the position movement where the position to blackboard where the launching position from on-gauge plate of the light beam；The light beam is incident upon on sample by the projection mouth.Present invention reduces prover time, operating efficiency is improved, applicability is wider.

Description

A kind of glass-reflected with automatic calibration function is than measurement apparatus and method

Technical field

Compare measurement apparatus the present invention relates to field of optical detection, more particularly to a kind of glass-reflected with automatic calibration function And method.

Background technology

The reflection of glass is to fall the phenomenon in the light part of glass surface (inner surface or outer surface) from surface backspace；Glass Reflectivity is the optical parametric for characterizing glass performance, and it is not only design and prepares the important parameter needed, and is also exploitation The important evidence of new material；The reflectivity of such as low emissivity glass just determines the color and performance of glass in itself.

Calibration in test is to be tested measuring instrument or standard component with adjusting to understand the behavior of its degree of accuracy, tool Body, under prescribed conditions, for the value indicated by determination measuring instrument or measuring system, or material measure or reference material institute The value of representative, one group of operation of relation between the corresponding value reappeared by standard.

Wherein, progress reflection zero calibration and reflection reference calibration are generally required before glass-reflected is carried out than measurement, To improve the measurement accuracy of reflectivity；But, traditional reflection calibration method generally requires artificial hyperphoric calibration standard plate, Inefficiency.Such as metering technology normalized《Albedometer calibrating standard》JJF 1232-2009, wherein providing, " zeroing After end, blackboard is removed, standard white plate is changed and carries out reflectivity calibration, instrument calibration, which is finished, enters measuring state "；It is such Mode takes, and measurement result accuracy is not enough.

The content of the invention

In order to solve the above-mentioned technical problem, the present invention propose the glass-reflected with automatic calibration function than measurement apparatus and Method.

The present invention is realized with following technical scheme：

First aspect there is provided a kind of glass-reflected with automatic calibration function than measurement apparatus, it is including emitter, auxiliary Help device, reception device and bogey；The emitter and reception device are respectively positioned on the same side of the servicing unit；Institute Stating servicing unit includes the first assisted calibration mechanism or the second assisted calibration mechanism；

The emitter is used to send light beam；The first assisted calibration mechanism includes drive mechanism, the carrying dress Put and be provided with on-gauge plate and blackboard；

The drive mechanism is used to drive the bogey to move, and the second assisted calibration mechanism is used to adjust the transmitting The position of device and the reception device,

The corrective action of the driving effect of the drive mechanism and the second assisted calibration mechanism, is to make the throwing of the light beam The position movement penetrated where the position to on-gauge plate where position from blackboard, or make the launching position of the light beam from standard Moved to the position where blackboard position where plate；

Projection mouth is offered in the measurement apparatus；Under the blocking of no on-gauge plate or blackboard, the light beam passes through institute Projection mouth is stated to be incident upon on sample；

The reception device is used to receive the light beam in the light beam fired back after on-gauge plate or sample.

Further, the drive mechanism includes the first driver, and the bogey includes the first movable plate, the mark Quasi- plate and blackboard are sequentially arranged on first movable plate；

The orientation that first driver is used to drive first movable plate along the on-gauge plate and blackboard is moved It is dynamic, make the position movement where the position to on-gauge plate where the launching position from blackboard of the light beam, or make the light beam Launching position from the on-gauge plate where position to the blackboard where position movement.

Further, the drive mechanism includes the second driver, and the bogey includes the second movable plate；The mark The position of quasi- plate and blackboard on second movable plate is, at the tangent line of same circular arc；

Second driver is used for the side of circular arc where driving second movable plate along the on-gauge plate and blackboard To movement, make the position movement where the position to on-gauge plate where the launching position from blackboard of the light beam, or make described Position movement where position to the blackboard where the launching position of light beam from the on-gauge plate.

Further, the emitter includes light source, diaphragm and collimation lens successively；The light source is used to be the dress Offer light beam is put, the diaphragm is used for the light-inletting quantity for adjusting the light beam, and the collimation lens is used for the light after regulation Shu Jinhang collimation focusings；

The reception device includes integrating sphere, spectrum device, photodetector, Signal acquiring and processing list successively Member；The integrating sphere, which is used to collect, enters its internal all light beam, and the spectrum device is used to receive the integrating sphere The light beam of collection is separated according to certain wavelength rule, and the photodetector is used to the optical signal of light beam being converted to electric signal, institute Stating Signal acquiring and processing unit is used to gather the electric signal, and the Electric signal processing is obtained into corresponding parameter.

Further, in addition to controlling organization, the controlling organization includes multiple controllers, and the controller is used to receive The control instruction of operator, and corresponding calibration signal is produced, the drive mechanism receives the calibration signal.

Further, in addition to the first detector and the first determining device,

First detector is used to detect whether the drive mechanism receives zero point correction signal, if so, then triggering First driver drives the bogey, the light beam is incident upon on blackboard；Meanwhile, obtained by the reception device Take the first luminosity response under each wavelength；

First determining device is used to judge whether the acquisition of the first luminosity response under each wavelength terminates, if It is then to trigger first driver to move the bogey, making to be incident upon the light beam on blackboard, to be transferred to skew described black Plate.

Further, in addition to the second detector and the second determining device,

Second detector is used to detect whether the drive mechanism receives reference calibration signal, if so, then triggering Second driver drives the bogey, the light beam is incident upon on on-gauge plate；Meanwhile, pass through the reception device Obtain the second luminosity response under each wavelength；

Second determining device is used to judge whether the acquisition of the second luminosity response under each wavelength terminates, if It is then to trigger second driver to move the bogey, makes to be incident upon the light beam on on-gauge plate and be transferred to described in skew On-gauge plate.

Second aspect using above-mentioned device carries out method of the glass-reflected than measurement there is provided a kind of, including：

When acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ)；

When gathering the light beam and being incident upon on on-gauge plate, the second luminosity response I under each wavelength_std(λ)；

When obtaining the light beam and being incident upon in optical path on sample, the target luminosity response I under each wavelength (λ)；

According to the first luminosity response I₀(λ), the second luminosity response I_std(λ) and target luminosity response I (λ), And formulaObtain spectral reflectance ratio ρ (λ).

Further, when the acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ)；Bag Include：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the first driver, or, The direction of circular arc is moved where driving the first movable plate along the on-gauge plate and blackboard using the second driver, or, utilize The position of emitter and the reception device, makes the light beam be incident upon on blackboard described in second assisted calibration institutional adjustment；

The first luminosity response I under now each wavelength of light beam is obtained by the reception device₀(λ)。

Further, when the collection light beam is incident upon on on-gauge plate, the second luminosity response I under each wavelength_std (λ)；Including：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the second driver, or, The direction of circular arc is moved where driving the second movable plate along the on-gauge plate and blackboard using the second driver, or, utilize The position of emitter and the reception device, makes the light beam be incident upon on-gauge plate described in second assisted calibration institutional adjustment On；

The second luminosity response I under now each wavelength of light beam is obtained by the reception device_std(λ)。

The present invention is carrying out zero point correction by projecting light beams upon on blackboard, by projecting light beams upon known to reflectivity On-gauge plate on carry out reference calibration, realized automatically in whole calibration process, eliminate the artificial link for placing on-gauge plate, enter And improve the measurement progress of sample reflectivity.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, makes required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for For those of ordinary skill in the art, on the premise of not paying creative work, other can also be obtained according to these accompanying drawings Accompanying drawing.

Fig. 1 is that the light beam that provides is incident upon the structural representation that part calibration is carried out on blackboard in embodiment one；

Fig. 2 is that the light beam that provides is incident upon the structural representation that reference calibration is carried out on on-gauge plate in embodiment one；

Fig. 3 is the structural representation tested sample that provides in embodiment one；

Fig. 4 be provide in embodiment three to glass-reflected than the method flow diagram that measures.

In figure, 1- light sources, 2- diaphragms, 3- collimation lenses, 4- samples, 5- integrating spheres, 6- spectrum devices, 7- light Electric explorer, 8- Signal sampling and processing units, 9- on-gauge plates, 10- blackboards, the drivers of 11- first, the movable plates of 12- first.

Embodiment

In order that those skilled in the art more fully understand the present invention program, below in conjunction with the embodiment of the present invention Accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only The embodiment of a part of the invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people The every other embodiment that member is obtained under the premise of creative work is not made, should all belong to the model that the present invention is protected Enclose.

It should be noted that term " comprising " and " having " and their any deformation, it is intended that covering is non-exclusive Include, for example, the process, method, system, product or the equipment that contain series of steps or unit are not necessarily limited to clearly arrange Those steps or unit gone out, but may include not listing clearly or solid for these processes, method, product or equipment The other steps or unit having.

It should be noted that reflection ratio measuring device is generally divided into absolute reflectance measurement apparatus and reference reflection ratio measuring Device, glass-reflected of the present invention is reference reflection ratio measuring device than measurement apparatus.

Embodiment one：

A kind of glass-reflected with automatic calibration function is present embodiments provided than measurement apparatus, including it is emitter, auxiliary Help device, reception device and bogey；The emitter and reception device are respectively positioned on the same side of the servicing unit；Institute Stating servicing unit includes the first assisted calibration mechanism；Wherein, the first assisted calibration mechanism is located inside the test device.

The emitter is used to send light beam；The first assisted calibration mechanism includes drive mechanism, the carrying dress Put and be provided with on-gauge plate and blackboard；Wherein, the on-gauge plate is the high reflection mirror surface glass of known reflectivity.

The drive mechanism is used to drive the bogey to move, and the driving effect of the drive mechanism makes the light beam Launching position from blackboard where position to on-gauge plate where position movement, or make the launching position of the light beam from Moved to the position where blackboard position where on-gauge plate；

Projection mouth is offered in the measurement apparatus；Wherein, sample is placed on outside described device and positioned at projection mouth Place；Under the blocking of no on-gauge plate or blackboard, the light beam is incident upon on sample by the projection mouth；

The reception device is used to receive the light beam in the light beam fired back after on-gauge plate or sample.

Mode is preferably carried out as one kind, as Figure 1-3, the drive mechanism includes the first driver, described to hold Carry and put including the first movable plate 12, the on-gauge plate 9 and blackboard 10 are sequentially arranged on first movable plate 12；

First driver 11 is used to drive arrangement of first movable plate 12 along the on-gauge plate 9 and blackboard 10 Direction is moved, and makes the position movement where the launching position from the position to on-gauge plate 9 at the place of blackboard 10 of the light beam, or make The position movement where position to the blackboard 10 where the launching position of the light beam from the on-gauge plate 9.

Mode is preferably carried out as one kind, the drive mechanism includes the second driver, the bogey includes the Two movable plates；The position of the on-gauge plate 9 and blackboard 10 on second movable plate is, at the tangent line of same circular arc； In the case of the implementation, second driver can drive second movable plate along the on-gauge plate 9 and the institute of blackboard 10 Moved in the direction of circular arc, the position where making the launching position from the position to on-gauge plate 9 at the place of blackboard 10 of the light beam is moved It is dynamic, or make the position movement where the launching position from the position to the blackboard 10 at the place of on-gauge plate 9 of the light beam.

Specifically, the emitter includes light source 1, diaphragm 2 and collimation lens 3 successively；It is described that the light source 1, which is used for, Device provides light beam, and the diaphragm 2 is used for the light-inletting quantity for adjusting the light beam, and the collimation lens 3 is used for the institute after regulation State light beam and carry out collimation focusing；

The reception device includes integrating sphere 5, spectrum device 6, photodetector 7, Signal acquiring and processing successively Unit 8；The integrating sphere 5, which is used to collect, enters its internal all light beam, and the spectrum device 6 is used for the integration The light beam that ball 5 is collected is separated according to certain wavelength rule, and the photodetector 7 is used to the optical signal of light beam being converted to telecommunications Number, the Signal acquiring and processing unit 8 is used to gather the electric signal, and the Electric signal processing is obtained into corresponding ginseng Number.

Further illustrate, in addition to controlling organization, the controlling organization includes multiple controllers, the controller is used In the control instruction of reception operator, and corresponding calibration signal is produced, the drive mechanism receives the calibration signal.

As a kind of specific embodiment, in addition to the first detector and the first determining device,

Specifically, first detector is used to detect whether the drive mechanism receives zero point correction signal, if so, Then trigger first driver 11 and drive the bogey, the light beam is incident upon on blackboard 10；Meanwhile, by described Reception device obtains the first luminosity response under each wavelength；Afterwards, first detector waits and next signal instruction is done Go out detection.Wherein, Fig. 1 is that light beam is incident upon the structural representation that part calibration is carried out on blackboard 10.

First determining device is used to judge whether the acquisition of the first luminosity response under each wavelength terminates, if It is then to trigger first driver 11 to move the bogey, the light beam being incident upon on blackboard 10 is transferred to skew institute State blackboard 10；Afterwards, first determining device waits the acquisition to next first luminosity response to judge.

Wherein, additionally it is possible to by closing or blocking lighting source 1, gather the luminosity response I under each wavelength₀(λ)。

As a kind of specific embodiment, in addition to the second detector and the second determining device,

Specifically, second detector is used to detect whether the drive mechanism receives reference calibration signal, if so, Then trigger second driver and drive the bogey, the light beam is incident upon on on-gauge plate 9；Meanwhile, by described Reception device obtains the second luminosity response under each wavelength；Afterwards, second detector waits and next signal instruction is done Go out detection.Wherein, Fig. 2 is that light beam is incident upon the structural representation that reference calibration is carried out on on-gauge plate 9.

Second determining device is used to judge whether the acquisition of the second luminosity response under each wavelength terminates, if It is then to trigger second driver to move the bogey, the light beam being incident upon on on-gauge plate 9 is transferred to skew described On-gauge plate 9；Afterwards, second determining device waits the acquisition to next second luminosity response to judge.

It should be noted that after zero point correction and reference calibration, sample test is carried out, as shown in figure 3, Fig. 3 For the structural representation tested sample.Wherein, n.s or the optical signal as zero point that measures when placing blackboard Calibration signal, it is reference calibration signal to be put into the optical signal measured during on-gauge plate；Also, for zero point correction and reference school Standard, can be completed, not sequence requirement before sample reflection ratio measuring.

Further illustrate, be projected in light beam on blackboard, the first luminosity response pair obtained by reception device What is answered is the veiling glare of background；It is projected in light beam on on-gauge plate, the second luminosity response correspondence obtained by reception device Existing reflection the veiling glare that also has powerful connections of light beam；Also, in sample test process is carried out, corresponding is equally both The veiling glare that the light beam for having reflection also has powerful connections.

Embodiment two：

A kind of glass-reflected with automatic calibration function is present embodiments provided than measurement apparatus, including it is emitter, auxiliary Help device, reception device and bogey；The emitter and reception device are respectively positioned on the same side of the servicing unit；Institute Stating servicing unit includes the second assisted calibration mechanism；Wherein, the second assisted calibration mechanism is located inside the test device.

The emitter is used to send light beam；On-gauge plate and blackboard are provided with the bogey；Second auxiliary school Quasi- mechanism is used for the position for adjusting the emitter and the reception device, and the corrective action of the second assisted calibration mechanism makes institute The position movement where the position to on-gauge plate where the launching position from blackboard of light beam is stated, or makes the projection of the light beam Position movement where position to blackboard where position from on-gauge plate；

Projection mouth is offered in the measurement apparatus；Under the blocking of no on-gauge plate or blackboard, the light beam passes through institute Projection mouth is stated to be incident upon on sample；

The reception device is used to receive the light beam in the light beam fired back after on-gauge plate or sample.

It should be noted that the position by adjusting the emitter and the reception device, the process calibrated In, the position of the on-gauge plate, blackboard and sample is motionless.

Embodiment three：

Present embodiments provide a kind of device using described in embodiment one and carry out method of the glass-reflected than measurement, such as scheme Shown in 4, including：

S101. when acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ)；

When S102. gathering the light beam and being incident upon on on-gauge plate, the second luminosity response I under each wavelength_std(λ)；

When S103. obtaining the light beam and being incident upon in optical path on sample, the target luminosity response under each wavelength Value I (λ)；

Specifically, step S101 belongs to zero point correction, and step S102 belongs to reference calibration, is calibrated in zero point correction and reference After the completion of, sample is put on the outside of device, and at calibration mouth, sample measured.

S104. according to the first luminosity response I₀(λ), the second luminosity response I_std(λ) and target luminosity response I (λ), and formulaObtain spectral reflectance ratio ρ (λ).

Wherein, the ρ_std(λ) is spectral reflectance of the reflection standard under the conditions of measure geometry identical with sample Than.

Further, when acquisition light beam is incident upon on blackboard described in S101., the first luminosity response I under each wavelength₀ (λ)；Including：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the first driver, in light beam When being incident upon on blackboard, the first luminosity response I under now each wavelength of light beam is obtained by the reception device₀(λ)；

Or, the direction of circular arc is moved where driving the second movable plate along the on-gauge plate and blackboard using the second driver It is dynamic, when light beam is incident upon on blackboard, the first luminosity response under now each wavelength of light beam is obtained by the reception device I₀(λ)。

Further, when the collection light beam is incident upon on on-gauge plate described in S102., the second luminosity response under each wavelength Value I_std(λ)；Including：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the first driver, in light beam When being incident upon on on-gauge plate, the second luminosity response I under now each wavelength of light beam is obtained by the reception device_std(λ)。

Or, the direction of circular arc is moved where driving the second movable plate along the on-gauge plate and blackboard using the second driver Dynamic, when light beam is incident upon on on-gauge plate, the second luminosity obtained by the reception device under now each wavelength of light beam is responded Value I_std(λ)。

Example IV：

Present embodiments provide a kind of device using described in embodiment two and carry out glass-reflected than the method for measurement, this reality Apply example from unlike embodiment three：

When the acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ), including：

Using the position of emitter and the reception device described in the second assisted calibration institutional adjustment, throw the light beam Penetrate on blackboard；The first luminosity response I under now each wavelength of light beam is obtained by the reception device₀(λ)。

When the collection light beam is incident upon on on-gauge plate, the second luminosity response I under each wavelength_std(λ), including：

Using the position of emitter and the reception device described in the second assisted calibration institutional adjustment, throw the light beam Penetrate on on-gauge plate；The second luminosity response I under now each wavelength of light beam is obtained by the reception device_std(λ)。

The beneficial effect that the present invention can be brought is：

The present invention is carrying out zero point correction by projecting light beams upon on blackboard, by projecting light beams upon known to reflectivity On-gauge plate on carry out reference calibration, realized automatically in whole calibration process, eliminate the artificial link for placing on-gauge plate, enter And improve the measurement progress of sample reflectivity.

There are the present invention various ways to realize zero point correction and reference calibration；It can be moved by the first driver driving first Dynamic orientation of the plate along the on-gauge plate and blackboard is moved, additionally it is possible to using the second driver drive the second movable plate along The direction movement of circular arc where the on-gauge plate and blackboard, realizes automatic calibration；Additionally it is possible to keep on-gauge plate and blackboard not It is dynamic, realize automatic calibration using the position of emitter and the reception device described in the second assisted calibration institutional adjustment.

In a word, present invention reduces prover time, operating efficiency is improved, enables glass-reflected rate measurement apparatus quick Detection is completed, test data is improved, and the present invention more adapts to the occasion of live frequent calibration, applicability is wider.

In the above embodiment of the present invention, the description to each embodiment all emphasizes particularly on different fields, and does not have in some embodiment The part of detailed description, may refer to the associated description of other embodiment.

The modules in technical scheme in the present invention can be realized by terminal or miscellaneous equipment.The meter Calculation machine terminal includes processor and memory.The memory is used to store programmed instruction/module in the present invention, the processing Device is stored in programmed instruction/module in memory by operation, realizes corresponding function of the present invention.

Part or the technical scheme that technical scheme in the present invention substantially contributes to prior art in other words All or part can be embodied in the form of software product, the computer software product is stored in storage medium, bag Some instructions are included to so that one or more computer equipment (can be personal computer, server or network equipment etc.) is held The all or part of step of each embodiment methods described of the row present invention.

The division of heretofore described module/unit, only a kind of division of logic function can have another when actually realizing Outer dividing mode, such as multiple units or component can combine or be desirably integrated into another system, or some features can To ignore, or do not perform.Some or all of module/unit therein can be selected according to the actual needs realizes this to reach The purpose of scheme of the invention.

In addition, each module/unit in each embodiment of the invention can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, it would however also be possible to employ the form of SFU software functional unit is realized.

Described above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should It is considered as protection scope of the present invention.

Claims (10)

1. a kind of glass-reflected with automatic calibration function compares measurement apparatus, it is characterised in that including emitter, auxiliary dress Put, reception device and bogey；The emitter and reception device are respectively positioned on the same side of the servicing unit；It is described auxiliary Device is helped to include the first assisted calibration mechanism or the second assisted calibration mechanism；

The emitter is used to send light beam；The first assisted calibration mechanism is included on drive mechanism, the bogey It is provided with on-gauge plate and blackboard；

The drive mechanism is used to drive the bogey to move, and the second assisted calibration mechanism is used to adjust the emitter With the position of the reception device,

The corrective action of the driving effect of the drive mechanism and the second assisted calibration mechanism, is to make the projection position of the light beam Put from the position movement where the position to on-gauge plate where blackboard, or make the launching position of the light beam from on-gauge plate institute Position to where blackboard position move；

Projection mouth is offered in the measurement apparatus；Under the blocking of no on-gauge plate or blackboard, the light beam is thrown by described Loophole is incident upon on sample；

The reception device is used to receive the light beam in the light beam fired back after on-gauge plate or sample.

2. device according to claim 1, it is characterised in that

The drive mechanism include the first driver, the bogey include the first movable plate, the on-gauge plate and blackboard according to It is secondary to be arranged on first movable plate；

First driver is used to drive orientation of first movable plate along the on-gauge plate and blackboard to move, and makes Position movement where position to on-gauge plate where the launching position from blackboard of the light beam, or make the projection of the light beam Position movement where position to the blackboard where position from the on-gauge plate.

3. device according to claim 1, it is characterised in that

The drive mechanism includes the second driver, and the bogey includes the second movable plate；The on-gauge plate and blackboard exist Position on second movable plate is, at the tangent line of same circular arc；

The direction that second driver is used for circular arc where driving second movable plate along the on-gauge plate and blackboard is moved It is dynamic, make the position movement where the position to on-gauge plate where the launching position from blackboard of the light beam, or make the light beam Launching position from the on-gauge plate where position to the blackboard where position movement.

4. device according to claim 1, it is characterised in that

The emitter includes light source, diaphragm and collimation lens successively；The light source is used to provide light beam for described device, institute The light-inletting quantity that diaphragm is used to adjust the light beam is stated, the collimation lens is used to the light beam after regulation collimate to gather It is burnt；

The reception device includes integrating sphere, spectrum device, photodetector, Signal acquiring and processing unit successively；Institute State integrating sphere be used for collect enter its internal all light beam, the spectrum device is for the light of collecting the integrating sphere Beam is separated according to certain wavelength rule, and the photodetector is used to the optical signal of light beam being converted to electric signal, the signal Collection is used to gather the electric signal with processing unit, and the Electric signal processing is obtained into corresponding parameter.

5. device according to claim 1, it is characterised in that also including controlling organization, the controlling organization includes multiple Controller, the controller is used for the control instruction for receiving operator, and produces corresponding calibration signal, and the drive mechanism connects Receive the calibration signal.

6. device according to claim 2, it is characterised in that

Also include the first detector and the first determining device,

First detector is used to detect whether the drive mechanism receives zero point correction signal, if so, then triggering described First driver drives the bogey, the light beam is incident upon on blackboard；Meanwhile, obtain each by the reception device The first luminosity response under wavelength；

First determining device is used to judge whether the acquisition of the first luminosity response under each wavelength terminates, if so, then Trigger first driver and move the bogey, make to be incident upon the light beam on blackboard and be transferred to the skew blackboard.

7. device according to claim 3, it is characterised in that

Also include the second detector and the second determining device,

Second detector is used to detect whether the drive mechanism receives reference calibration signal, if so, then triggering described Second driver drives the bogey, the light beam is incident upon on on-gauge plate；Meanwhile, obtained by the reception device The second luminosity response under each wavelength；

Second determining device is used to judge whether the acquisition of the second luminosity response under each wavelength terminates, if so, then Trigger second driver and move the bogey, make to be incident upon the light beam on on-gauge plate and be transferred to the skew standard Plate.

8. a kind of carry out method of the glass-reflected than measurement using any described devices of claim 1-7, it is characterised in that bag Include：

When acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ)；

When gathering the light beam and being incident upon on on-gauge plate, the second luminosity response I under each wavelength_std(λ)；

When obtaining the light beam and being incident upon in optical path on sample, the target luminosity response I (λ) under each wavelength；

According to the first luminosity response I₀(λ), the second luminosity response I_std(λ) and target luminosity response I (λ), and FormulaObtain spectral reflectance ratio ρ (λ).

9. method according to claim 8, it is characterised in that

When the acquisition light beam is incident upon on blackboard, the first luminosity response I under each wavelength₀(λ)；Including：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the first driver, or, utilize The direction of circular arc is moved where second driver drives the first movable plate along the on-gauge plate and blackboard, or, utilize second The position of emitter and the reception device described in assisted calibration institutional adjustment, makes the light beam be incident upon on blackboard；

The first luminosity response I under now each wavelength of light beam is obtained by the reception device₀(λ)。

10. method according to claim 8, it is characterised in that

When the collection light beam is incident upon on on-gauge plate, the second luminosity response I under each wavelength_std(λ)；Including：

Orientation of first movable plate along the on-gauge plate and blackboard is driven to move using the second driver, or, utilize The direction of circular arc is moved where second driver drives the second movable plate along the on-gauge plate and blackboard, or, utilize second The position of emitter and the reception device described in assisted calibration institutional adjustment, makes the light beam be incident upon on on-gauge plate；

The second luminosity response I under now each wavelength of light beam is obtained by the reception device_std(λ)。