CN105021283B - Colorimetric device, mask member and colorimetric system - Google Patents
Colorimetric device, mask member and colorimetric system Download PDFInfo
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- CN105021283B CN105021283B CN201510178000.5A CN201510178000A CN105021283B CN 105021283 B CN105021283 B CN 105021283B CN 201510178000 A CN201510178000 A CN 201510178000A CN 105021283 B CN105021283 B CN 105021283B
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Abstract
The present invention provides a kind of colorimetric device, mask member and colorimetric system.Realize appropriate detection state corresponding with the species of the mask member for being installed on colorimetric device.Using the colorimetric device for possessing illumination light accepting part, attached portion, multiple test sections and identification part.Here, illumination light accepting part has light source portion and sensor portion.Attached portion is used to install the mask member with window portion in the way of to cover illumination light accepting part.Multiple test sections are arranged in the stage of the midway of attached portion is installed on along mask member relative to the installation direction that attached portion is moved, and can respectively detect the detected portion for being configured at mask member.And, identification part identification detection pattern corresponding with the combination of the test section of more than 2 that detect detected portion in multiple test sections.
Description
Technical field
The colorimetric of mask member is installed the present invention relates to a kind of colorimetric device, its mask member and on colorimetric device
System.
Background technology
For various industrial products etc., in order to ensure fixed quality, the color on such as surface is remained between product
It is identical.Therefore, from being fabricated onto some stage for dispatching from the factory, it is necessary to determine the color on surface by using colorimeter etc. to manage
The color on surface.In this colorimeter, for example, be provided with illumination receiving system, the illumination receiving system have to product etc. this
Light source and receive from the table that the surface of the object (also known as colorimetric object) of the object as colorimetric of sample is illuminated
The sensor of the light such as the reflected light that face sends.
In addition, the position of the object of the management as color in the surface of colorimetric object, i.e. as the object of colorimetric
The size and dimension at position (also known as colorimetric object position) be possible to shape and size according to colorimetric object, customer
It is required that and the various conditions such as manufacture method and it is different.But, prepare different colorimeters by each condition and come for producer
Saying economically turns into big burden.
Therefore, it is proposed to following is portable with color measure device:Can be according to condition in colorimetric object by configuring
The cone (nose cone) changed between thing and the main part of colorimeter, enabling change the area as the object of colorimetric
(such as patent documents 1 etc.) such as the sizes in domain (also known as colorimetric subject area).The cone has regulation colorimetric subject area
Size etc. window portion, to cover illumination light accepting part in the way of be installed on colorimeter, the energy when the colorimetric of colorimetric object is carried out
Enough as component (also known as mask member) function contacted with colorimetric object.
In this configuration, when mask member is changed, must be changed in optics according to the species of mask member sometimes
Correction coefficient used in the change of system and the computing of colorimetric etc..Therefore, in the device of above-mentioned patent document 1, in master
The latter half in body portion sets the magnetic switch of more than 1, is monitored using magnetic switch and is sent from the magnet for being configured at mask member
Magnetic field, thus automatically recognize and show the species of mask member.
Patent document 1:Japanese Unexamined Patent Application Publication 2000-505887 publications
The content of the invention
Problems to be solved by the invention
In addition, envisioning following situation in the device of above-mentioned patent document 1:It is being arranged at multiple claw-likes of mask member
Mask member is rotated in the state of retainer is inserted in the recess that main part side is set with arcuation respectively, so that mask structure
Part is installed on main part.The mode of this installing mechanism is also known as bayonet type, by the mechanism of the bayonet type, mask member energy
It is enough to be easier and be reliably mounted on main part.
However, in the case of using the mechanism of bayonet type, if retainer is not reached by the rotation of mask member
To the most inboard part of recess, then the magnet configuration of mask member is monitored the knot in magnetic field by magnetic switch in the position outside imagination
Really, it is possible to the species of misidentification mask member.
The situation of multiple magnetic switches is for example arranged on the concentric circles of main part in the miniaturization for realization body portion
Under, it is possible to due to when mask member is installed to main part the rotation of mask member it is not enough and by with the magnetic that should detect magnetic field
Other different magnetic switches are switched to detect magnetic field.That is, it is impossible to which it is corresponding with the species of mask member appropriate to realize
Magnetic detection state.And, the mask member of the species for being thus possible to be mistakenly considered different from the mask member of actual installation
It is installed on main part.
This problem is installed on the structure of main part and by straight line or the cunning of curve in the mask member by rotation
Dynamic and mask member is possible to produce in being installed on the structure of main part.And, above mentioned problem is to install the ratio of mask member
In color device it is general common to.
The present invention is to complete in view of the above problems, can realize and be installed on that colorimetric is filled its object is to provide one kind
The technology of the corresponding appropriate detection state of the species of the mask member put.
The scheme for solving problem
In order to solve the above problems, the colorimetric device involved by the 1st mode possesses:Illumination light accepting part, with light source portion and
Sensor portion;Attached portion, for by cover it is described illumination light accepting part in the way of the mask member with window portion is installed;Multiple inspection
Survey portion, moves in the stage of the midway of the attached portion is installed to along the mask member relative to the attached portion
Dynamic installation direction arrangement, can respectively detect the detected portion for being configured at the mask member;And identification part, identification and institute
State the corresponding detection pattern of combination of the test section of more than 2 that detect the detected portion in multiple test sections.
Colorimetric device involved by 2nd mode is carrying out the mask in the colorimetric device involved by the 1st mode
Component to the installation of the midway of the installation of installation site set in advance in order to perform colorimetric in the attached portion halfway
Under state, the identification part recognizes the test section with more than 1 that detects the detected portion in the multiple test section
Corresponding detection pattern, by the knowledge under installation state of the mask member to the installation of the installation site
The detection pattern of other portion identification is different from the detection pattern recognized by the identification part under the state of the installation midway.
Colorimetric device involved by 3rd mode in the colorimetric device involved by the 1st mode, in the multiple test section
Most inboard test section on the installation direction peace from the mask member to the installation of the installation site
The detected portion is detected under dress completion status.
Colorimetric device involved by any one mode of colorimetric device involved by 4th mode in the 1st~the 3rd mode
In, the multiple test section includes the test section of more than 3, on two test sections in the test sections of described more than 3
Distance between all respective test sections of combination is different.
Colorimetric device involved by any one mode of colorimetric device involved by 5th mode in the 1st~the 4th mode
In, it is also equipped with:Storage part, Colorimetric results are calculated by the storage of each detection pattern in basis by the data that the sensor portion is obtained
The correction data used in the colorimetric computing of data;And operational part, use the multiple described correction stored in the storage part
The correction data corresponding with the detection pattern recognized by the identification part in data carries out the colorimetric computing.
Colorimetric device involved by any one mode of colorimetric device involved by 6th mode in the 1st~the 5th mode
In, judegment part is also equipped with, the judegment part differentiates the mask member corresponding with the detection pattern recognized by the identification part
Species.
Colorimetric device involved by any one mode of colorimetric device involved by 7th mode in the 1st~the 6th mode
In, the detected portion is magnet.
Mask member involved by 8th mode possesses:Window portion;Installation portion, for installation into the attached portion of colorimetric device;
And the detected portion of more than 2, pacified relative to described along in the stage of the midway of the attached portion is installed to
The installation direction arrangement of dress portion movement, and can respectively be detected by the test section of the colorimetric device.
Mask member involved by 9th mode possesses multiple and is assembled portion in the mask member involved by the 8th mode,
The plurality of portion that is assembled can configure the detected portion of described more than 2, and the plurality of portion that is assembled is along the installation direction
Arrangement, it is the multiple be assembled portion in, on the installation direction foremost be assembled portion in be equipped with it is described
Detected portion.
Mask member involved by 10th mode possesses multiple and is assembled portion in the mask member involved by the 8th mode,
The plurality of portion that is assembled can configure the detected portion of described more than 2, and the plurality of portion that is assembled is along the installation direction
Arrangement, the multiple portion of being assembled includes being assembled portion for more than 3, on two be assembled in portion of described more than 3
The respective distance being assembled between portion of all combinations for being assembled portion is different, and the detected portion of described more than 2 is configured at described 3
More than individual be assembled in portion at least two are assembled portion.
Mask member involved by any one mode of mask member involved by 11st mode in the 8th~the 10th mode
In, the detected portion is magnet.
Colorimetric system involved by 12nd mode possesses:Colorimetric dress involved by any one mode in 1st~the 7th mode
Put;And involved by any one mode for being installed in the 8th~the 11st mode of the attached portion of the colorimetric device
Mask member.
The effect of invention
By the colorimetric device involved by any one mode in the 1st~the 7th mode, it is also possible to realize and be installed on colorimetric
The corresponding appropriate detection state of the species of the mask member of device.
Colorimetric device according to involved by the 2nd mode, is not likely to produce the inspection of mistake not corresponding with the species of mask member
Survey state.
Colorimetric device according to involved by the 3rd mode, be not likely to produce mask member installation do not complete in the state of not
The detection state of mistake corresponding with the species of mask member.
Colorimetric device according to involved by the 4th mode, it is corresponding with the mask member of more species appropriate to realize
Detection state.
Colorimetric device according to involved by the 5th mode, easily and can be appropriately carried out corresponding to the species of mask member
Correction data change.
Colorimetric device according to involved by the 6th mode, can suitably differentiate the mask member that is installed on colorimetric device
Species.
Colorimetric device according to involved by the 7th mode, even if being colorimetric object in for example tiny particle or liquid etc.
In the case of the impurity such as particle or liquid enter between attached portion and mask member, it is also possible to by the test section of colorimetric device
Stably to detect detected portion.
By the mask member involved by any one mode in the 8th~the 11st mode, it is also possible to real in colorimetric device
Appropriate detection state now corresponding with the species of the mask member for being installed on colorimetric device.
Mask member according to involved by the 9th mode, the installation that mask member is not likely to produce in colorimetric device is not completed
In the state of it is not corresponding with the species of mask member mistake detection state.
Mask member according to involved by the 10th mode, can realize the mask structure with more species in colorimetric device
The corresponding appropriate detection state of part.
Mask member according to involved by the 11st mode, even if being colorimetric object in for example tiny particle or liquid etc.
In the case of the impurity such as particle or liquid enter between attached portion and mask member, it is also possible to by the test section of colorimetric device
Stably to detect detected portion.
Colorimetric system according to involved by the 12nd mode, can realize and be installed on the species of the mask member of colorimetric device
Corresponding appropriate detection state.
Brief description of the drawings
Fig. 1 is the stereogram of the outward appearance for illustrating the colorimetric system involved by an implementation method.
Fig. 2 is for illustrating a figure for configuration example near the leading section of colorimetric system.
Fig. 3 is for illustrating a figure for configuration example near the leading section of colorimetric system.
Fig. 4 is for illustrating a figure for configuration example near the leading section of colorimetric system.
Fig. 5 is the figure for representing the situation that mask member can be loaded and unloaded relative to colorimetric device.
Fig. 6 is the figure for representing the situation that mask member can be loaded and unloaded relative to colorimetric device.
Fig. 7 is the figure for representing the situation that mask member can be loaded and unloaded relative to colorimetric device.
Fig. 8 is the figure for illustrating the structure of mask test section.
Fig. 9 is the figure of the structure for illustrating mask member.
Figure 10 is the block diagram of the functional structure for illustrating colorimetric system.
Figure 11 is the figure of the detection mode for representing the mask member in the colorimetric system involved by reference example.
Figure 12 is the figure of the detection mode for representing the mask member in the colorimetric system involved by reference example.
Figure 13 is the figure for illustrating assembly mode and the relation of detection pattern.
Figure 14 is the figure for illustrating detection pattern and the relation for differentiating result.
Figure 15 is for illustrating the figure of the one of the configuration condition of test section.
Figure 16 is for illustrating the figure of the one of the configuration condition of test section.
Figure 17 is for illustrating the figure of the one of the configuration condition of test section.
Figure 18 is for illustrating the figure of the one of the configuration condition of test section.
Figure 19 is other figures for configuration example for representing mask test section.
Figure 20 is other figures for configuration example for representing mask member.
Figure 21 is figure of the configuration with the relation of detection pattern for illustrating detected portion.
Figure 22 is figure of the configuration with the relation of detection pattern for illustrating detected portion.
(description of reference numerals)
1、101:Colorimetric system;2、2A、102:Colorimetric device;2BD、102BD:Frame;2AW:Attached portion;2PL、
2PLA:Stiffener;2WD、3WD、103WD:Window portion;3、3A、103:Mask member;3AT:Installation portion;21:Control unit;22:Deposit
Storage portion;23:Illumination light accepting part;24:Display part;25:Mask test section;25a~25d, 125a, 125b:Test section;26:Operation
Portion;31a~31d:It is assembled portion;32a~32d, 132:Detected portion;211:Identification part;212:Judegment part;213:Selector;
214:Light emitting control;215:Reading unit;216:Operational part;217:Output control part;231:Light source portion;232:Sensor portion;
D1:Correction data group;F1:Corresponding informance;P1:Program.
Specific embodiment
Below, an embodiment of the invention and various modifications example are illustrated using accompanying drawing.In the accompanying drawings, to having
The additional identical symbol in part of same 26S Proteasome Structure and Function, omits repeat specification in the following description.Accompanying drawing is schematically
Show, can suitably change size and position relationship of various constructions in each figure etc..In Fig. 1 to Fig. 4, Fig. 8, Fig. 9, figure
11st, in Figure 12, Figure 19 and Figure 20, it is attached with the length direction of colorimetric system 1 (the upper direction when observation of Fig. 1 is schemed) as+Z
The XYZ coordinate system of the right-handed system in direction.Additionally, in Figure 15, Figure 17 and Figure 18, the Z axis in XYZ this 3 axle are attached with.
<(1) implementation method>
<The physical arrangement of (1-1) colorimetric system>
Fig. 1 is the stereogram of the outward appearance for illustrating the colorimetric system 1 involved by an implementation method.Colorimetric system 1 is can
The small-sized colorimetric system (also known as portable colorimetric system) of the comparing that is easily carried with.In colorimetric system 1, such as to colorimetric
Object irradiation light, the light for now reflecting or passing through in the colorimetric object is received after being split, so that according to for each
Reflectivity or transmitance that wavelength is calculated calculate the color of colorimetric object.
As shown in figure 1, colorimetric system 1 possesses main part i.e. as the colorimetric device 2 and mask structure of colorimeter function
Part 3.
As shown in figure 1, the display that colorimetric device 2 has frame 2BD, is externally exposed on the surface of frame 2BD
Portion 24 and operating portion 26.
Frame 2BD constitutes the casing part of the approximately parallelepiped body of colorimetric system 1, such as by the original of the nonmagnetic materials such as plastics
Material is constituted.And, it is configured with display part 24 and operating portion 26 in the side face of frame 2BD.
Fig. 2 to Fig. 4 is the figure of the structure of the vicinity of the leading section 1Tp for illustrating the -Z direction in colorimetric system 1.Additionally,
In Fig. 2 to Fig. 4, for the ease of showing the structure of the inside of colorimetric device 2, that frame 2BD is depicted with transparent state
Part.
As shown in Figures 2 to 4, colorimetric device 2 is built-in with the vicinity of the leading section 2Tp of the -Z direction of the colorimetric device 2
Stiffener 2PL, illumination light accepting part 23 and mask test section 25.And, in colorimetric system 1, before colorimetric device 2
End 2Tp, mask member 3 is installed in the way of covering and illuminate light accepting part 23.
Illumination light accepting part 23 has integrating sphere 230, light source portion 231 (reference picture 10) and (reference picture of sensor portion 232
10)。
Integrating sphere 230 is to be coated with to make the light almost entirely white such as barium sulfate of scattered reflection (diffusing reflection) painting in inner face
The spheroid of material.
The light sent from light source portion 231 is irradiated to via the window portion 2WD (reference picture 8) that the small window with integrating sphere 230 is connected
The surface of colorimetric object.Thus, it is illuminated come the surface of contrastive colours object by light source portion 231.Additionally, as window portion
2WD, it is the component of circular that can for example use XY sections.
Sensor portion 232 is configured to not by the light that directly incidence sends from light source portion 231, and exposed to integrating sphere 230
Inside.In sensor portion 232, reception sends on the surface of the colorimetric object illuminated by light source portion 231 and incides product
Light in bulb separation 230.In addition, sensor portion 232 for example carries out the spectrum part of light splitting and receives respectively with the light to receiving
From multiple components of photo-electric conversion of the light of each wavelength of spectrum part outgoing.Thereby, it is possible to basis by sensor portion 232 multiple light
The data that electric inverting element is obtained calculate the expression colorimetric object as the data (also known as Colorimetric results data) of Colorimetric results
The data of the object color of thing.
Mask test section 25 detects the mask member 3 of the leading section 2Tp for being installed on colorimetric device 2.In mask test section 25
In to the detection of mask member 3, such as the detection of the species including mask member 3 and corresponding with the species of mask member 3
Detection of structure etc..In the present embodiment, the species of mask member 3 is detected by mask test section 25.
Stiffener 2PL is for ensuring that the rigid component of the leading section 2Tp of colorimetric device 2.Stiffener 2PL is example
The tabular component being such as made up of iron rigidity raw material high.The peripheral part of integrating sphere 230 is protected by stiffener 2PL,
So as to prevent the breakage of integrating sphere 230.In addition, stiffener 2PL maintains mask test section 25.Thereby, it is possible to realize
The protection and fixation of mask test section 25.In colorimetric device 2, it is configured with to form casing part on the outside of stiffener 2PL
Frame 2BD.
Mask member 3 is installed on the leading section 2Tp of colorimetric device 2 in the way of covering and illuminate light accepting part 23, is to carry out
The component contacted with colorimetric object during the colorimetric of colorimetric object.Mask member 3 has main part 3BD and installation portion 3AT.
In main part 3BD, the region (also known as colorimetric subject area) of the object as colorimetric being provided with regulation colorimetric object
Size window portion 3WD.Used as window portion 3WD, it is the component of circular that can for example use XY sections.And, in mask structure
Part 3 is installed in the state of the leading section 2Tp of colorimetric device 2, the window portion 2WD and integrating sphere 230 of window portion 3WD and colorimetric device 2
Small window connection.Installation portion 3AT is the part for mask member 3 to be installed on colorimetric device 2.Additionally, mask member 3 is for example
It is also known as target mask (target mask) etc..
In addition, the structure that mask member 3 is installed and uninstalled with respect to the leading section 2Tp of colorimetric device 2.Fig. 5
It is the figure that represents the situation that mask member 3 can be loaded and unloaded relative to colorimetric device 2 to Fig. 7.
As shown in figure 5, in the leading section 2Tp of colorimetric device 2, be provided with for by mask member 3 to cover illumination light
The attached portion 2AW that the mode in portion 23 is installed.Attached portion 2AW constitutes a part of frame 2BD.By in the attached portion
Installation portion 3AT is installed, mask member 3 is installed on colorimetric device 2 on 2AW.
In the present embodiment, as mechanism's (the also known as fitting machine being made up of attached portion 2AW and installation portion 3AT
Structure), installation portion 3AT is installed on attached portion 2AW using by making installation portion 3AT be rotated relative to attached portion 2AW
The installing mechanism for being referred to as bayonet type etc..In the mechanism, for example, it is hung in the multiple claws for being arranged at installation portion 3AT and is set
Mask member 3 is revolved centered on the axle through the center of window portion 2WD, 3WD in the state of being placed in the retainer of attached portion 2AW
Turn, so that installation portion 3AT is fixed on attached portion 2AW.The quantity of claw is, for example, three grades.
Start to be installed in the state of attached portion 2AW figure 6 illustrates installation portion 3AT, figure 7 illustrates installation
States of the portion 3AT relative to the installation of attached portion 2AW.Additionally, in figure 6, it is also shown that with the region surrounded with round frame
Ar1 relevant enlarged drawing.As shown in fig. 6, being rotated to the direction described with the arrow of blacking by mask member 3, it is masked
Component 3 is to the installation of position (also known as installation site) set in advance in order to perform colorimetric in attached portion 2AW.
For example, as shown in fig. 6, first, mask member 3 is pressed into leading section 2Tp so that as being arranged at mask member
The starting end of the notch 3Mk as mark of 3 peripheral part and the hollow arrow as mark of description the 2Tp of leading section at
Part alignment state.Then, mask member 3 be pressed into leading section 2Tp, while relative to leading section 2Tp by suitable
Clockwise rotates predetermined angular (e.g., from about 30 degree) set in advance, so that the installation portion 3AT of mask member 3 is installed on colorimetric
The attached portion 2AW of device 2.Clockwise direction said here is the side clockwise when mask member 3 is overlooked in +Z direction
To.
Then, now, for example retouched with the leading section 2Tp of colorimetric device 2 as notch 3Mk as shown in Figure 7
The state that the circle mark 2Mk as mark for painting is aligned.Additionally, now, for example can also be by with power to a certain degree above
Installation portion 3AT is set to rotate in the direction of the clock, attached portion 2AW is mutually consolidated with installation portion 3AT in chimeric or locking mode
It is fixed.Thus, the installation of the contrastive colours device 2 of mask member 3.
On the other hand, as shown in fig. 7, mask member 3 is by the use opposite with when mask member 3 is installed on colorimetric device 2
The counterclockwise rotates predetermined angular that the arrow of blacking is described, so as to unload mask member 3 from colorimetric device 2.It is described herein
Counter clockwise direction be in +Z direction overlook mask member 3 when counter clockwise direction.Additionally, now, such as can also use
By with the power more than to a certain degree make installation portion 3AT rotate counterclockwise and between attached portion 2AW and installation portion 3AT
The chimeric or locking mode being released from.
Fig. 8 is example arrangement in the figure of the structure of the mask test section 25 of the vicinity of the leading section 2Tp of colorimetric device 2.
In Fig. 8, for the ease of showing the structure of mask test section 25, the framework including attached portion 2AW is shown with transparent state
Portion 2BD.
As shown in figure 8, mask test section 25 has multiple test section 25a~25d.Each test section 25a~25d can be detected
It is configured at the detected portion 32a~32d (reference picture 10) of mask member 3.In the present embodiment, as test section 25a~25d
Using Hall element, magnet is used as detected portion 32a~32d.According to Hall element, by detecting the magnetic sent from magnet
It is capable of detecting when magnet.Here, because detected portion 32a~32d is magnet, even if therefore in for example tiny particle or
Liquid etc. be in the case of colorimetric object the impurity such as particle or liquid enter attached portion 32a~32d and mask member 3 it
Between, it is also possible to detected portion 32a~32d is stably detected by the test section 25a~25d of colorimetric device 2.
In addition, as shown in figure 8, in the present embodiment, the leading section 2Tp of top perspective colorimetric device 2 in +Z direction
In the case of, multiple test section 25a~25d are configured at the part for not configuring stiffener 2PL.Specifically, for example strengthening
Multiple notch are provided with component 2PL, test section 25a~25d is configured with each notch.Thus, mask test section 25
Detection to mask member 3 is not easily susceptible to the obstruction of stiffener 2PL.
In addition, multiple test section 25a~25d along mask member 3 in the stage of the midway of attached portion 2AW is installed on
Arranged relative to the direction (also known as installation direction) that attached portion 2AW is moved.In the present embodiment, installation direction is to wear
Clockwise direction centered on the axle 2Ax of the substantial middle for crossing window portion 2WD.Clockwise direction said here is in+Z
The clockwise direction during 2Tp of leading section is overlooked on direction.And, multiple test section 25a~25d are in the up time as installation direction
Arranged in the order on the direction in pin direction.In addition, as shown in figure 8, adjacent test section in multiple test section 25a~25d
Between the interval along installation direction be for example configured to it is roughly the same.
Fig. 9 is a figure for configuration example for representing mask member 3.In fig. 9 it is shown that in mask member 3, in mask
Positioned at the face of the side of colorimetric device 2 when component 3 is installed on colorimetric device 2.
As shown in figure 9, in mask member 3, being provided with being respectively configured in the vicinity of the peripheral part of the mask member 3
The multiple of detected portion 32a~32d is assembled portion 31a~31d.In the present embodiment, it is recess to be assembled portion 31a~31d.
And, multiple be assembled portion 31a~31d along mask member 3 in the stage of the midway of attached portion 2AW is installed on relative to
The installation direction arrangement of attached portion 2AW movements.In fig .9, installation direction is to wear when overlooking mask member 3 in the-z direction
Anticlockwise direction centered on the axle 3Ax of the substantial middle for crossing window portion 3WD.And, multiple is assembled portion 31a~31d
Arrange in the order in the mounting direction.In addition, as shown in figure 9, multiple adjacent being assembled of being assembled in portion 31a~31d
The interval along installation direction between portion is for example configured to roughly the same.
Here, work as being set to mask member 3 to the installation set in advance in order to perform colorimetric in attached portion 2AW
During state (the also known as installation state) of the installation of position, multiple be assembled portion 31a~31d in +Z direction with it is many
Individual test section 25a~25d is opposite.Specifically, it is assembled portion 31a opposite with test section 25a, is assembled portion 31b with inspection
25b is opposite in survey portion, and it is opposite with test section 25c to be assembled portion 31c, is assembled portion 31d opposite with test section 25d.
And, multiple is assembled in portion 31a~31d and whether there is the pattern of assembling detected portion 32a~32d and (also known as assemble
Pattern) it is changed according to the species of mask member 3.Thus, by multiple test section 25a~25d, can realize and mask structure
The pattern (also known as detection pattern) of the species of part 3 detection based on detected portion 32a~32d accordingly.
<The functional structure of (1-2) colorimetric system>
Figure 10 is the block diagram of the functional structure for illustrating colorimetric system 1.
As shown in Figure 10, colorimetric device 2 possesses control unit 21, storage part 22, illumination light accepting part 23, display part 24, mask
Test section 25 and operating portion 26.In addition, mask member 3 is assembled portion 31a~31d with multiple, be respectively assembled portion 31a~
On 31d, detected portion 32a~32d can respectively be assembled according to the species of mask member 3.
Storage part 22 is made up of non-volatile memory medium etc., for example storage program P1, corresponding informance F1 and correction number
According to group D1.Include the information for representing detection pattern and the relation of the species of mask member 3 in corresponding informance F1.Correction data group
For example include multiple correction data corresponding with the species of mask member 3 in D1.Each correction data is used according to by sensing
The data that device portion 232 obtains are calculated as the relevant with the color (such as object color) of colorimetric object of Colorimetric results data
The computing (also known as colorimetric computing) of data.Program P1, corresponding informance F1 and correction data group D1 for example can be from colorimetrics
The fabrication stage of device 2 to some opportunity in the stage of dispatching from the factory is stored in storage part 22.
Illumination light accepting part 23 has light source portion 231 and sensor portion 232 as described above.Light source portion 231 is according to control
The control of the light emitting control 214 in portion 21 lights.Sensor portion 232 obtains data corresponding with the intensity of the light for receiving.
The data are read by reading unit 215.
Display part 24 is for example made up of liquid crystal display etc., the control of the output control part 217 according to control unit 21 come by
The output of various visualization of information ground.
Mask test section 25 has multiple test section 25a~25d as described above.Each test section 25a~25d detection dresses
Assigned in the detected portion 32a~32d for being assembled portion 31a~31d.For example be made up of Hall element in each test section 25a~25d,
In the case that each detected portion 32a~32d is made up of magnet, each test section 25a~25d will send out with from detected portion 32a~32d
Control unit 21 is arrived in the corresponding electromotive force in magnetic field (signal) output for going out.
Operating portion 26 is by signal output corresponding with the various operations of user to control unit 21.For example, operating portion 26 possesses
Indicate button for starting to wait of colorimetric etc..The function of operating portion 26 for example can also be by tactile with what display part 24 was integrally formed
Panel is touched to realize.
Control unit 21 has central operation portion (CPU) and volatile memory etc., by reading in and performs storage part 22
The program P1 of storage realizes various functions.Here, for example including identification in the structure functionally realized in control unit 21
Portion 211, judegment part 212, selector 213, light emitting control 214, reading unit 215, operational part 216 and output control part 217.
Identification part 211 recognizes the test section for detecting detected portion 32a~32d in multiple test section 25a~25d.And
And, in identification part 211, more than 2 that detect detected portion 32a~32d in identification and multiple test section 25a~25d
Test section the corresponding detection pattern of combination.Thereby, it is possible to realizing and being installed on the species of the mask member 3 of colorimetric device 2
Corresponding appropriate detection state.
Judegment part 212 differentiates the species of mask member 3 corresponding with the detection pattern recognized by identification part 211.Differentiating
In portion 212, such as based on the corresponding informance F1 differentiation mask members 3 for representing detection pattern and the relation of the species of mask member 3
Species.The species of the mask member 3 of colorimetric device 2 is installed on thereby, it is possible to suitably differentiate.
The correction data group D1 selections that selector 213 is stored from storage part 22 and the mask determined by judegment part 212
The corresponding correction data of species of component 3.The correction data selected by selector 213 is used in the colorimetric fortune in operational part 216
Calculate.
Light emitting control 214 is for example luminous in light source portion 231 to control to operation of operating portion 26 etc. in response to user.
Reading unit 215 reads the data that are correspondingly made available with light in sensor portion 232 and exports in appropriate timing
To operational part 216.If sensor portion 232 has into the treatment for being about to analog signal and being transformed to data signal, and (also known as A/D becomes
Change treatment) part (also known as A/D transformation components), then can be straight by the data obtained from sensor portion 232 in reading unit 215
Connect output to operational part 216.If additionally, sensor portion 232 does not have A/D transformation components, can contemplate in reading unit 215
Carry out the mode of A/D conversion process.
Operational part 216 carry out according to the data for being obtained by sensor portion 232 and be input into via reading unit 215 calculate as than
The colorimetric computing of the data relevant with the color of colorimetric object of color result data.Now, in operational part 216, using depositing
Corresponding with the detection pattern recognized by identification part 211 correction data in the correction data group D1 stored in storage portion 22 is carried out
Colorimetric computing.Thereby, it is possible to easily and be appropriately carried out the change of correction data corresponding with the species of mask member 3.Additionally,
In the present embodiment, correction data can be selected by selector 213.
The visual output of the various information in the control display part 24 of output control part 217.For example, passing through output control part
217, the Colorimetric results data calculated by operational part 216 can visually export display part 24.
<The species and detection pattern of (1-3) mask member>
Figure 11 and Figure 12 are the detection modes for representing the mask member 103 in the colorimetric system 101 involved by reference example
Figure.Shown in Figure 11 and Figure 12 and form colorimetric system 101 by installing mask member 103 on colorimetric device 102
Example.In addition, here, be provided with two test sections 125a, 125b in the framework 102BD of colorimetric device 102, in mask member
Window portion 103WD and a detected portion 132 are provided with 103.And, mask member 103 is with through the center of window portion 103WD
By being rotated clockwise when overlooking in +Z direction the mask member 103 centered on axle 103Ax, so that mask member 103
Colorimetric device 102 can be installed on.
In this configuration, installation from mask member 103 as shown in Figure 11 to the installation of colorimetric device 102
Under completion status, detected portion 132 is detected by test section 125b.On the other hand, covered as shown in Figure 12
Under die component 103 is to the state (also known as installing midway state) of the midway of the installation of colorimetric device 102, can be by test section
125a detects detected portion 132.
Herein, it is contemplated that following situation:According to the letter exported when detected portion 132 is detected by test section 125a, 125b
Number, detect that the state of detected portion 132 is identified as " 1 ", do not detect that the state of detected portion 132 is identified as " 0 ".
In this case, detecting detected portion 132 by test section 125a, the feelings of detected portion 132 not detected by test section 125b
Under condition, the detection pattern of detected portion 132 is identified as (1,0).In addition, not detecting detected portion by test section 125a
132nd, in the case of detecting detected portion 132 by test section 125b, the detection pattern of detected portion 132 is identified as (0,1).
In addition, in the case where detected portion 132 is not detected by test section 125a and test section 125b this both sides, detected portion 132
Detection pattern be identified as (0,0).In addition, detecting detected portion by test section 125a and test section 125b this both sides
In the case of 132, the detection pattern of detected portion 132 is identified as (1,1).
Therefore, installation of the detection pattern of the detected portion 132 for being obtained as test section 125a, 125b shown in Figure 11
It is identified as (0,1) under state, and is identified as (1,0) under the installation midway state shown in Figure 12.As a result, mistake sometimes
Ground differentiates the species of mask member 103.
On the other hand, in the colorimetric system 1 involved by present embodiment, recognized by identification part 211 and examined with multiple
The corresponding detection pattern of combination of the test section of more than 2 that detect detected portion 32a~32d in survey portion 25a~25d.
Thereby, it is possible to realize appropriate detection state corresponding with the species of the mask member 3 for being installed on colorimetric device 2.
In addition, for example envisioning following situation herein:Detected with multiple by identification under identification part 211 in an installation way state
The corresponding detection pattern of test section of more than 1 that detects detected portion 32a~32d in portion 25a~25d.In the situation
Under, can be using the detection pattern for being configured under installation state be recognized by identification part 211 and in an installation under the state of way
The different mode of the detection pattern that is recognized by identification part 211.More specifically, can use with the detection under installation state
The pattern mode different from the detection pattern installed under the state of midway sets the assembly mode of detected portion 32a~32d and by knowing
The mode of the detection pattern of the other identification of portion 211.Thus, it is not likely to produce the detection of mistake not corresponding with the species of mask member 3
State.
<(1-4) assembly mode and detection pattern>
For example consider the following mode for constituting:It is most inboard on installation direction in multiple test section 25a~25d
Test section 25a detects detected portion 32a under installation state of the mask member 3 to the installation of installation site.According to
This mode, is not likely to produce the mistake not corresponding with the species of mask member 3 installed in the state of not completing of mask member 3
Detection state.In addition, in the case where adopting in this way, in multiple is assembled portion 31a~31d positioned at installation direction
On being assembled in portion 31a and be equipped with detected portion 32a foremost.Thus, it is not likely to produce mask member in colorimetric device 2
The detection state of the mistake not corresponding with the species of mask member 3 in the state of 3 installation is unfinished.
Figure 13 is to represent that detected portion 32d is assemblied in the assembly mode and installation midway shape being assembled in the case of portion 31d
The figure of the detection pattern under state.
In fig. 13, represented with " 0 " and " 1 " be respectively assembled in portion 31a~31d whether there is assembling detected portion 32a~
32d, the assembly mode being assembled in portion 31a~31d is represented with the row of 4 bit digitals.In the row of 4 bit digital, from from right to left
In order represent detected portion 32a whether there is be assemblied in be assembled portion 31a, detected portion 32b whether there is be assemblied in be assembled portion 31b,
Detected portion 32c whether there is to be assemblied in be assembled portion 31c and detected portion 32d and whether there is to be assemblied in is assembled portion 31d.For example, such as
Fruit be only assembled portion 31a~31d at 4 in be assembled portion 31a in be equipped with detected portion 32a, then assembly mode is
“0001”。
In addition, in fig. 13, representing each test section 25a~25d installed under the state of midway whether there is inspection with " 0 " and " 1 "
Detected portion 32a~32d is measured, the detection pattern in test section 25a~25d is represented with the row of 4 bit digitals.In 4 digit
In the row of word, from represent in order from right to left test section 25a whether there is detect, test section 25b whether there is detects, test section 25c has
Nothing is detected and test section 25d whether there is and detects.If for example, only examined by the test section 25a in 4 test section 25a~25d
Some in detected portion 32a~32d is measured, then detection pattern is identified as " 0001 ".It is additionally, since installation state
Under detection pattern it is identical with assembly mode, therefore list in fig. 13 on each assembly mode install midway state under
Detection pattern.
As shown in figure 13, in 8 assembly modes for being attached with 1~8 identification information (ID), in different assembly modes
Between, the detection pattern under the state of midway is installed and is possible to repeat.Specifically, " 1000 " " 1010 " " 1100 " " 1110 "
7 detection patterns are possible to identified multiple as " 0100 " " 0110 " and " 0010 ".Therefore, this 7 inspections are being identified
In the case of survey pattern, it is impossible to determine mask member 3 and be in installation midway state or employ and this 6 detection moulds
The mask member 3 of the corresponding assembly mode of formula is in installation state.Namely, it is possible to identify kind not with mask member 3
The detection state of the corresponding mistake of class.
Therefore, it is possible in the following way:For 8 kinds of mask members 3,8 assembly modes are respectively adopted, respectively to that should have
8 detection patterns being identified when the test section 25a in by multiple test section 25a~25d detects detected portion 32a.By
This, can be avoided the identification of the detection state of mistake not corresponding with the species of mask member 3.
Figure 14 is to be illustrated in expression detection pattern in the case of 8 assembly modes using the ID that is attached with 1~8 and cover
The figure of the content of the corresponding informance F1 of the relation of the species of die component 3.As shown in figure 14, in corresponding informance F1, for by examining
Survey portion 25a detects 8 detection patterns identified during detected portion 32a, to that should have various mask members 3.8 detection patterns
It is detection pattern corresponding with 8 assembly modes of the ID for being attached with 1~8.Additionally, in fig. 14, in each detection pattern
Not to the detection pattern that should have mask member 3, be attached with as the "×" for differentiating result.
Here, detection pattern " 0000 " is the state identical for not being installed on colorimetric device 2 with mask member 3 detects mould
Formula, therefore not to that should have mask member 3.In addition, detection pattern " 1111 " is to be placed in test section with the object for sending strong magnetic field
The state identical detection pattern of the vicinity of 25a~25d, therefore can not also be to that should have mask member 3.But, in this implementation
In mode, to detection pattern " 1111 " to the mask member 3 that there should be standard, it is attached with as " △ " for differentiating result.
In addition, as shown in Figure 13 and Figure 14, in the assembly mode of 1 ID is attached with, one is only assembled in mask member 3
In individual detected portion 32a, but the assembly mode of ID in addition, the detected portion of more than 2 is assembled in mask member 3
32a~32d.That is, mask member 3 along in the stage of the midway of attached portion 2AW is installed on relative to be mounted
The detected portion 32a of the installation direction with more than 2 for can respectively being detected by test section 25a~25d of portion 2AW movements~
32d.It is corresponding appropriate with the species of the mask member 3 for being installed on colorimetric device 2 thereby, it is possible to be realized in colorimetric device 2
Detection state.
<One of the configuration condition of (1-5) test section>
Figure 15~Figure 18 is for illustrating the figure of of the configuration condition of multiple test section 25a~25d.
Here, the use of with diameter d1 being for about 2mm and the height h1 for about cylinders of 3mm as detected portion 32a~32d
The shape of shape, relict flux density Br be for about 1350mT and temperature coefficient be -0.13%/DEG C neodymium (Nd-Fe-B) system magnet.
In addition, the use of action magnetic flux density being the Hall element of 3.0mT as test section 25a~25d.
Here, as shown in figure 15, the face of the X/Y plane that the face of the -Z direction of Hall element is configured and the +Z direction of magnet
The X/Y plane for being configured apart from L1 is set for about 4.6mm.Apart from L1 can according to the limitation of the thickness of frame 2BD etc. come
Determine.
And, when mask member 3 is installed on colorimetric device 2, by the rotation of mask member 3, magnet is on X/Y plane
Move in assembly direction.Now, position (also known as front position) of the magnet from the front (-Z direction) at the center of Hall element
Rise and moved on X/Y plane.And, now, on Hall element, the magnetic flux density in the magnetic field produced by magnet produces increase and decrease.
Figure 16 is distance and Hall element of the center in the face of the +Z direction for representing magnet relative to front position
On magnetic flux density relation figure.Here, the action magnetic flux density of Hall element is 3mT, therefore as shown in figure 16, if phase
For front position distance within about 3.8mm, then magnet can be detected by Hall element.And, as shown in figure 17, such as
Center in the face of the +Z direction of fruit magnet exceedes about 3.8mm relative to the distance of front position, then magnet will not be by suddenly
You arrive element testing.
And, in the present embodiment, arrange the multiple Hall elements as multiple test section 25a~25d, it is therefore desirable to
Distance between Hall element is set to that a magnet will not be detected by two adjacent Hall elements.Thus, for example, as schemed
Shown in 18, somewhat having relative to 7.6mm more than 2 times of 3.8mm can be set to apart from D2 between adjacent Hall element
There is about 9.6mm of surplus etc..
<(1-6) is summarized>
As described above, in the colorimetric system 1 involved by present embodiment, identifying many with what is arranged in colorimetric device 2
The test section 25a of more than 2 of the detected portion for detecting mask member 3 32a~32d in individual test section 25a~25d~
The corresponding detection pattern of combination of 25d.It is corresponding with the species of the mask member 3 for being installed on colorimetric device 2 thereby, it is possible to realize
Appropriate detection state.
In addition, mask member 3 has more than 2 for can respectively being detected by test section 25a~25d along installation direction
Detected portion 32a~32d.Thereby, it is possible to the species of the mask member 3 of colorimetric device 2 is realized and is installed in colorimetric device 2
Corresponding appropriate detection state.
<(2) variation>
Additionally, the present invention is not limited to said one implementation method, without departing from the scope of spirit of the present invention can
Carry out various changes, improvement etc..
For example in said one implementation method, between the adjacent test section in multiple test section 25a~25d along
The interval of installation direction and multiple be assembled in portion 31a~31d it is adjacent be assembled between portion along installation direction
Interval is approximately fixed, but not limited to this.For example, it is also possible to keep multiple to be assembled portion 31a~31d with multiple test sections
The interval at the interval of adjacent detected portion and adjacent test section is set as in the state of the corresponding relation of 25a~25d
Various intervals.
For example, between the respective test section of all combinations on two test sections in multiple test section 25a~25d away from
From can also be different.In this case, two all combinations for being assembled portion being assembled in portion 31a~31d on multiple are each
From the distance that is assembled between portion it is different.Also, if during portion 31a~31d is assembled to multiple at least two are assembled portion
The detected portion of more than 2 is configured with, then the quantity energy of the test section of the detection detected portion in multiple test section 25a~25d
It is less than 1 under enough way states in an installation, more than 2 is turned under installation state.Thereby, it is possible to realize with more
The corresponding appropriate detection state of the mask member 3 of species.
Figure 19 is to represent the respective test section of all combinations on two test sections in multiple test section 25a~25d
Between the different variation of distance involved by colorimetric device 2A figure.Colorimetric device 2A is with said one implementation method institute
Based on the colorimetric device 2 being related to, the interval of multiple test section 25a~25d is changed, and is therewith replaced into stiffener 2PL
The stiffener 2PLA for making the interval of notch different.In the example shown in Figure 19, along installation direction, test section 25a with
The distance between the distance between test section 25b D21, test section 25b and test section 25c D22 and test section 25c and test section
The distance between 25d D23 have D21:D22:D23=1:2:4 relation.
Figure 20 is to represent two be assembled in portion 31a~31d on the multiple respective quilts of all combinations for being assembled portion
The figure of the mask member 3A involved by a different variation of distance between department of assembly.Mask member 3A is implemented with said one
Based on mask member 3A involved by mode, the interval that multiple is assembled portion 31a~31d is changed, therewith by main part 3BD
It is changed to main part 3BDA.In the example shown in Figure 20, along installation direction, it is assembled portion 31a and is assembled between portion 31b
Apart from D21, be assembled portion 31b be assembled the distance between portion 31c D22 and be assembled portion 31c be assembled portion 31d it
Between there is D21 apart from D23:D22:D23=1:2:4 relation.
Figure 21 and Figure 22 are to represent each assembly mode, the test section 25a~25d relevant with detected portion 32a~32d
With the configuration relation of detected portion 32a~32d and the quantity of the test section 25a~25d for detecting detected portion 32a~32d
The figure of (also known as amount detection).On the assembly mode in Figure 21 and Figure 22, in the same manner as Figure 13, constituted with by " 0 " and " 1 "
The row of 4 bit digitals represent.In addition, on the test section 25a~25d's in Figure 21 and Figure 22 and detected portion 32a~32d
Configuration relation, the position opposite with test section 25a~25d is surrounded by the frame of heavy line, and detected portion 32a is represented with " 1 "
The position of~32d.And, on each assembly mode, test section 25a~25d and detected portion 32a under installation state~
The configuration relation of 32d is set as basic model, installs the test section 25a~25d and detected portion 32a~32d under the state of midway
Configuration relation be set as modes of deflection.
As shown in figure 21 and figure, on 10 kinds of assembly modes, the detected portion 32a detected by test section 25a~25d
The amount detection of~32d is more than 2 under installation state, is in an installation less than 1 under the state of way.Thus, for example
Consider following manner:In the case where the detection pattern that amount detection is more than 2 is identified, it is considered as mask member 3A and is installed on
Colorimetric device 2A, differentiates the species of mask member 3A.In addition, in this fashion, being capable of identify that than said one implementation method
In the category identification according to mask member 3 7~8 detection patterns more than 10 corresponding with the species of mask member 3A
Detection pattern.Thus, it is possible to realize appropriate detection state corresponding with a greater variety of mask member 3A.
Additionally, here, there is D21 apart from D21~D23:D22:D23=1:2:4 relation, but not limited to this, for example
There can also be D21:D22:D23=1:2:5 grade other relations.
In addition, in said one implementation method, be provided with 4 test sections 25a~25d and 4 be assembled portion 31a~
31d, but not limited to this.For example can be using the portion that is assembled for being provided with the test section of more than 2, being provided with more than 2
Mode.From for other viewpoints, for example can also using can configure more than 2 as detected portion magnet and be provided with
The multiple arranged along installation direction is assembled the mode in portion.
In addition, in said one implementation method, by being referred to as the installing mechanism of bayonet type etc. and mask member 3 is installed
In colorimetric device 2, but not limited to this.For example, it is also possible to using by the installation portion 3AT in mask member 3 relative to colorimetric
The attached portion 2AW's of device 2 screws togather, is fitted together to, engaging and be embedded etc. and mask member 3 is installed on the various of colorimetric device 2
Installing mechanism.As concrete example, it is considered to which by straight line or curve slip, mask member 3 is installed on the side of colorimetric device 2
Formula.For example can be in the following way:Along the side of the linear slide of mask member 3 when mask member 3 is installed on colorimetric device 2
To multiple test section 25a~25d are provided with colorimetric device 2, set in the part for extending in the mounting direction of mask member 3
It is equipped with and is assembled portion 31a~31d.Additionally, if bayonet type or screwing togather formula etc. mask member 3 being installed on colorimetric by rotation
The structure of device 2, then be difficult to differentiate between installing midway state and installation state, therefore, it is possible to significantly produce the present invention from the outside
Effect.
In addition, in said one implementation method, it is Hall element and detected portion 32a to employ test section 25a~25d
~32d is the detection mode of the use magnetic of magnet, but not limited to this.For example can also be using the detection of following mechanical system
Mode:It is provided with mask member 3 as the jut of detected portion, detection jut is provided with colorimetric device 2
The test section of contact, so as to detect detected portion by contacting.In addition, for example the non-of light can also have been used using following
The detection mode of the optical mode of contact:Configured as the anti-of detected portion by coating or stickup etc. in mask member 3
The material of light is penetrated, the test section of the reflection for detecting the presence of light is provided with colorimetric device 2.In addition, for example can also be using such as
Under detection mode electrically:Detect that the detected portion of mask member 3 is conducted or absolutely by the test section of colorimetric device 2
Edge, so as to detect detected portion.In this case, for example it can be considered that detected portion in the conduction state be detected as " 0 ",
Detected portion in state of insulation is detected as the mode of " 1 " etc..Additionally, for example using mechanical system detection mode and
In the case of the detection mode of optical mode, it would however also be possible to employ the quilt with corresponding more than 2 of the test section of adjacent more than 2
The structure that test section is integrally formed.
In addition, in said one implementation method, colorimetric system 1 is portable colorimetric system, but not limited to this.Example
Such as, colorimetric system 1 can also be than the relatively large so-called colorimetric system (being also known as installed with formula colorimetric system) for being installed with type.
In addition, in said one implementation method, being employed from a direction contrastive colours object as illumination light accepting part 23
The mode (also known as one direction lighting system) that thing is illuminated, but not limited to this.As illumination light accepting part 23, for example, also may be used
With using the component of the diffused illumination mode using integrating sphere 230.
In addition, in said one implementation method, being identified and the inspection in multiple test section 25a~25d by identification part 211
Measure the corresponding detection pattern of combination of the test section of more than 2 of detected portion 32a~32d.This RM is for example also
May include following manner:The most inboard test section 25a detections on installation direction in multiple test section 25a~25d
Go out in the state of detected portion 32a, the detected portion 32b of obtained by remaining test section 25b~25d more than 1 of identification~
The detection pattern of 32d.That is, above-mentioned RM for example may also include following manner:On installation direction most in
The test section 25a detection installation states of side, by the detected portion of more than 1 that remaining test section 25b~25d is obtained
The detection pattern of 32b~32d is identified as detection pattern corresponding with the species of mask member 3.
In addition, in said one implementation method, being determined and the detection identified by identification part 211 by judegment part 212
The species of the corresponding mask member 3 of pattern, but not limited to this.For example can also be in the following way:Mask member 3 is not differentiated
Species, and correction data group D1 selection and the detection pattern that by identification part 211 is identified of the selector 213 from storage part 22
Corresponding correction data.
Also, can also for example would indicate that the detection pattern identified by identification part 211 information in itself and with the inspection
The information of at least one party in the corresponding identification information of survey pattern (mode number etc.) is defeated in display part 21 or audio output unit etc.
Go out.In this case, it is also possible to the information or identification information corresponding with the detection pattern of detection pattern are represented by user's identification,
Operation by operating portion 26 etc. performs the input of the species of mask member 3 or the selection of correction data etc..
In addition, can also for example would indicate that the species of the mask member 3 determined by judegment part 212 information and with this
The information of at least one party in the corresponding identification information of species (identifier etc.) of mask member 3 is exported in display part 21 or sound
The middle output such as portion.In this case, it is also possible to represented by user's identification the species of mask member 3 information or with the mask member
The 3 corresponding identification information of species, selection of correction data etc. is performed by operation of operating portion 26 etc..
In addition, in said one implementation method, comprising corresponding with the species of mask member 3 in correction data group D1
Multiple correction datas.For this point, for example, there is expression detection pattern letter corresponding with the relation of the species of mask member 3
In the case of breath F1, can be construed to preserve correction data by each detection pattern in storage part 22.
In addition, in said one implementation method, colorimetric device 2 has as the function of colorimeter, but not limited to this.
Colorimetric device 2 can also be had as function of color meter etc., carry out other measure relevant with the color of object
The device of function.In color meter, for example, mainly measure aberration using corresponding sensor is distinguished with tristimulus values.
In addition, in said one implementation method, the detection with mask member 3 correspondingly have selected from correction data group D1
Correction data, but not limited to this.For example it is also contemplated that exporting the knowledge according to detection pattern in the way of user will appreciate that
The structure of the situation of the species for changing mask member 3 of other state.In this case, for example can also be using following knot
Structure:User grasps the change of the species of mask member 3, so as to the colorimetric for used white correcting plate and zero correction box etc. is filled
Put 2 correction.
In addition, in said one implementation method, the change of the species according to mask member 3 is changed in colorimetric computing
The middle correction data for using, but not limited to this.For example, it is also possible to using following structure:In order to correspond to mask member 3
Species change produced by the window portion 3WD with mask member 3 the corresponding colorimetric subject area of diameter increase and decrease, by control
The position of the optical lens that portion processed 21 comes in movable sensor portion 232.Or, it is also possible to the change of the species according to mask member 3
More change the arithmetic expression of the colorimetric computing in operational part 216.
Furthermore it is possible to by respectively constitute said one implementation method and various modifications example all or part of in not contradiction
In the range of be suitably combined, this is self-evident.
Claims (12)
1. a kind of colorimetric device, it is characterised in that possess:
Illumination light accepting part, with light source portion and sensor portion;
Attached portion, for by cover it is described illumination light accepting part in the way of the mask member with window portion is installed;
Multiple test sections, along the mask member in the stage of the midway of the attached portion is installed to relative to described
The installation direction arrangement of attached portion movement, can respectively detect the detected portion for being configured at the mask member;And
Identification part, recognizes the combination with the test section of more than 2 that detect the detected portion in the multiple test section
Corresponding detection pattern.
2. colorimetric device according to claim 1, it is characterised in that
The mask member is carried out to the installation site set in advance in order to perform colorimetric in the attached portion
Installation midway installation midway state under, detecting in identification part identification and the multiple test section is described tested
The corresponding detection pattern of test section of more than 1 of survey portion,
Recognized by the identification part under installation state of the mask member to the installation of the installation site
Detection pattern is different from the detection pattern recognized by the identification part under the state of the installation midway.
3. colorimetric device according to claim 1, it is characterised in that
The most inboard test section on the installation direction in the multiple test section is in the mask member to installation
The detected portion is detected under the installation state of the installation of position.
4. according to the colorimetric device that any one of claims 1 to 3 is described, it is characterised in that
The multiple test section includes the test section of more than 3,
Distance between the respective test section of all combinations on two test sections in the test sections of described more than 3 is different.
5. according to the colorimetric device that any one of Claims 1 to 4 is described, it is characterised in that be also equipped with:
Storage part, Colorimetric results data are calculated by the storage of each detection pattern in basis by the data that the sensor portion is obtained
The correction data used in colorimetric computing;And
Operational part, using in the storage part store multiple described correction data in the detection recognized by the identification part
The corresponding correction data of pattern carries out the colorimetric computing.
6. according to the colorimetric device that any one of Claims 1 to 5 is described, it is characterised in that
Judegment part is also equipped with, the judegment part differentiates the mask member corresponding with the detection pattern recognized by the identification part
Species.
7. according to the colorimetric device that any one of claim 1~6 is described, it is characterised in that
The detected portion is magnet.
8. a kind of mask member, it is characterised in that possess:
Window portion;
Installation portion, for installation into the attached portion of colorimetric device;And
The detected portion of more than 2, is pacified along in the stage of the midway of the attached portion is installed to relative to described
The installation direction arrangement of dress portion movement, and can respectively be detected by the test section of the colorimetric device.
9. mask member according to claim 8, it is characterised in that
Possess multiple and be assembled portion, the plurality of portion that is assembled can configure the detected portion of described more than 2, and the plurality of filled
Arranged along the installation direction with portion,
It is the multiple be assembled portion in, on the installation direction foremost be assembled portion in be equipped with the quilt
Test section.
10. mask member according to claim 8, it is characterised in that
Possess multiple and be assembled portion, the plurality of portion that is assembled can configure the detected portion of described more than 2, and the plurality of filled
Arranged along the installation direction with portion,
The multiple portion of being assembled includes more than 3 being assembled portion,
On two be assembled in the portion respective distances being assembled between portion of all combinations for being assembled portion of described more than 3
Difference,
What the detected portion of described more than 2 was configured at described more than 3 be assembled in portion at least two is assembled portion.
11. according to the described mask member of any one of claim 8~10, it is characterised in that
The detected portion is magnet.
12. a kind of colorimetric systems, it is characterised in that possess:
The described colorimetric device of any one of claim 1~7;And
It is installed on the described mask member of any one of the claim 8~11 of the attached portion of the colorimetric device.
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JP2014086263A JP6291994B2 (en) | 2014-04-18 | 2014-04-18 | Color measuring device, mask member and color measuring system |
JP2014-086263 | 2014-04-18 |
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US11946808B2 (en) | 2021-06-18 | 2024-04-02 | Subcom, Llc | Single-fiber color identification |
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GB817829A (en) * | 1954-11-23 | 1959-08-06 | Ian Miller Edington Aitken | Improvements in or relating to optical, or like measuring instruments |
JP2000505887A (en) * | 1994-10-26 | 2000-05-16 | ビーワイケー−ガードナー ユーエスエー | Portable color measuring device |
CN1271851A (en) * | 1999-04-27 | 2000-11-01 | 株式会社岛津制作所 | Monochromator |
US8287823B2 (en) * | 2003-08-12 | 2012-10-16 | Idexx Laboratories, Inc. | Slide cartridge and reagent test slides for use with a chemical analyzer, and chemical analyzer for same |
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JPS6118428Y2 (en) * | 1978-10-16 | 1986-06-04 | ||
JPH0714336U (en) * | 1993-08-20 | 1995-03-10 | 日本分光株式会社 | Beam splitter recognition device for FTIR |
JPH08184740A (en) * | 1994-12-28 | 1996-07-16 | Sharp Corp | Microscope |
JP4057707B2 (en) * | 1998-07-22 | 2008-03-05 | 日本分光株式会社 | Multiwave polarimeter |
US6798517B2 (en) * | 2000-09-28 | 2004-09-28 | Color-Spec Technologies, Inc. | Handheld, portable color measuring device with display |
JP2006153498A (en) * | 2004-11-25 | 2006-06-15 | Konica Minolta Sensing Inc | Standard surface sample and optical characteristic measuring system |
JP2010089417A (en) * | 2008-10-09 | 2010-04-22 | Brother Ind Ltd | Inkjet recording system and ink cartridge set |
JP5701267B2 (en) * | 2012-07-20 | 2015-04-15 | キヤノン株式会社 | Cameras and camera accessories |
WO2014061191A1 (en) * | 2012-10-16 | 2014-04-24 | コニカミノルタ株式会社 | Attachment for optical characteristic measuring apparatus, and optical characteristic measuring apparatus |
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB817829A (en) * | 1954-11-23 | 1959-08-06 | Ian Miller Edington Aitken | Improvements in or relating to optical, or like measuring instruments |
JP2000505887A (en) * | 1994-10-26 | 2000-05-16 | ビーワイケー−ガードナー ユーエスエー | Portable color measuring device |
CN1271851A (en) * | 1999-04-27 | 2000-11-01 | 株式会社岛津制作所 | Monochromator |
US8287823B2 (en) * | 2003-08-12 | 2012-10-16 | Idexx Laboratories, Inc. | Slide cartridge and reagent test slides for use with a chemical analyzer, and chemical analyzer for same |
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JP2015206638A (en) | 2015-11-19 |
JP6291994B2 (en) | 2018-03-14 |
CN105021283A (en) | 2015-11-04 |
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