CN216410410U - Handheld intelligent color meter - Google Patents

Abstract

The utility model discloses a handheld intelligent color measuring instrument, which comprises a color measuring instrument body and an integrating sphere; the integrating sphere is positioned in the color measuring instrument body and is connected with the color measuring instrument body through a convex part at the top end of the integrating sphere; the convex part, a color measuring hole arranged on the convex part and used for measuring the color of the sample and a positioning hole for positioning and guiding the white plate sheet form a measuring panel; and a switch/test button and a state indicator lamp for indicating the working state of the handheld intelligent color measuring instrument are further fixed on the color measuring instrument body. The utility model has simple and practical operation and convenient carrying, and can be widely applied to the measurement of the color of the textile.

Description

Handheld intelligent color meter

Technical Field

The utility model belongs to the field of color recognition equipment, and particularly relates to a handheld intelligent color meter.

Background

The influence of color on textiles is of great importance, and nowadays more and more textile enterprises begin to use color measuring instruments to measure color and perform color difference control and judgment.

At present, chinese patent with application number CN112345471a discloses a hand-held intelligent colorimeter, including angle frame and colorimeter main part, the angle frame includes: a base having a mounting location; the sliding frame is positioned above the base and comprises a connecting end and a movable end, and the connecting end is rotatably connected with the mounting position on the base so that the movable end is close to or far away from the base; the driving mechanism is fixedly arranged on the sliding frame; the color measuring instrument main body is arranged on the sliding frame and connected with the driving structure, so that the color measuring instrument main body can slide along the length direction of the sliding frame under the driving of the driving structure.

However, the existing colorimeter still has the following technical defects: the whole mass is large, and the color measuring device can only be fixed at a certain place for color measurement, is inconvenient to carry and is inconvenient to operate. And the color measuring instrument can only be used for measuring color, and measured color data cannot be stored and shared on line.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

The utility model aims to solve the problems and provides a handheld intelligent color measuring instrument which can meet special measurement requirements under different measurement conditions and can be widely applied to the field of color management of industries such as textile and clothing and the like, so that color data management is realized.

The technical scheme of the utility model is as follows: the utility model provides a handheld intelligent color measuring instrument which comprises a color measuring instrument body, an integrating sphere and a light source arranged in the color measuring instrument body; the integrating sphere is positioned in the color measuring instrument body and is connected with the color measuring instrument body through a convex part at the top end of the integrating sphere; the convex part, the color measuring hole and the guide positioning hole which are arranged on the convex part form a measuring panel; the color measuring hole is used for measuring the color of a sample, and the guide positioning hole is used for positioning the white board sheet; the white board sheet is placed on the color photometer body and used for correcting the color deviation of the handheld intelligent color photometer.

According to the utility model, the convex part of the integrating sphere connected with the color measuring instrument body is used as the measuring panel, the side end of the color measuring instrument body is fixed with the switch/test button, the other opposite side end is fixed with the state indicator lamp for indicating the working state of the intelligent color measuring instrument, when a user uses the handheld intelligent color measuring instrument to measure the color, the switch/test button is used as the hand-held part, the color of the sample to be measured is measured through the color measuring hole on the measuring panel, and the placing position of the white plate piece is prompted through the guide positioning hole on the measuring panel, so that the operation is simple, convenient and flexible when the color of the sample is measured, and the white plate piece is convenient to carry about. In addition, the utility model uses the convex part of the integrating sphere as a measuring panel to replace a mechanical observation window or an electronic monitoring element in the prior art, thereby improving the data accuracy in measurement.

According to an embodiment of the handheld intelligent colorimeter of the utility model, the switch/test button is fixed at a side end of the colorimeter body, and the status indicator lamp is fixed at the other opposite side end.

According to an embodiment of the handheld intelligent color meter, the handheld intelligent color meter further comprises a protective cover for protecting the measurement panel, and the caliber of the protective cover is larger than that of the measurement panel.

According to an embodiment of the handheld intelligent color meter, the color meter body is further provided with a reset hole and a charging interface.

According to an embodiment of the handheld intelligent colorimeter of the utility model, the handheld intelligent colorimeter is in data connection with external measuring equipment, the external measuring equipment comprises data storage, white board correction and color detection functions, and the data connection comprises a bluetooth connection.

According to one embodiment of the handheld intelligent color measuring instrument, the state indicator lamp further comprises a Bluetooth indicator lamp, a correction indicator lamp, a power indicator lamp, a fault indicator lamp and a color measuring indicator lamp; the Bluetooth indicator lamp is used for prompting the Bluetooth connection state of the intelligent color meter and the external measuring equipment;

the correction indicator light is used for prompting the correction working state of the intelligent color measuring instrument;

the power indicator is used for prompting the voltage state of the intelligent color measuring instrument;

the fault indicator lamp is used for prompting the fault state of the intelligent color measuring instrument;

the color measurement indicator light is used for prompting the color measurement working state of the intelligent color meter.

According to an embodiment of the handheld intelligent color meter, the status indicator light uses a blue light, an orange light, a yellow light, a red light and a green light as the bluetooth indicator light, the correction indicator light, the power indicator light, the fault indicator light and the color meter indicator light respectively, and represents the status of the handheld intelligent color meter by three different states of normally on, flickering and turning off; wherein,

the blue lamp is normally on to indicate that the handheld intelligent color measuring instrument and the external measuring equipment are in a Bluetooth connection success state, the blue lamp flashes to indicate that the handheld intelligent color measuring instrument and the external measuring equipment are in a Bluetooth connection state, and the blue lamp is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state;

the orange lamp is normally on to indicate that the handheld intelligent color measuring instrument is in a correction completion state, the orange lamp flashes to indicate that the handheld intelligent color measuring instrument is in a correction state, and the orange lamp is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state;

the yellow light is normally on to indicate that the handheld intelligent color meter is in a normal voltage state, the yellow light flashes to indicate that the handheld intelligent color meter is in a low voltage or charging state, and the yellow light is turned off to indicate that the handheld intelligent color meter is in a non-working state;

the red light is normally on to indicate that the handheld intelligent color measuring instrument is in a fault-free state, the red light flashes to indicate that the handheld intelligent color measuring instrument is in a fault-free state of a non-core component, and the red light is turned off to indicate that the handheld intelligent color measuring instrument is in a fault-free state of a core component;

the green light is normally on to indicate that the handheld intelligent color measuring instrument is in a color measuring completion state, the green light flashes to indicate that the handheld intelligent color measuring instrument is in a color measuring state, and the green light is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state;

according to one embodiment of the handheld intelligent color meter, the caliber of the color measuring hole is 8mm, and the light source is an LED light source.

According to an embodiment of the handheld intelligent color meter, the white board sheet is internally provided with a ceramic reference board for white board correction of the intelligent color meter.

According to an embodiment of the handheld intelligent colorimeter of the utility model, the external measurement device includes a plurality of color spaces and a plurality of observation light sources.

Compared with the prior art, the utility model has the following beneficial effects: the utility model can convert the color of the surface of the measured object into the reflectivity curve data, and automatically input the reflectivity curve data into external measuring equipment including a mobile phone for measurement, and compare and store the measurement result each time. In addition, the color measuring and matching of the standard sample can be automatically completed, and meanwhile, the auxiliary of a plurality of observation light sources such as CIE, LAB, LCh and the like provided by external measurement equipment and D65, A, C, D50, D55, D75, CWF, TL83, U30 and the like are combined, so that the special measurement requirements under different measurement conditions are met, and the color data management is realized.

Drawings

The above features and advantages of the present disclosure will be better understood upon reading the detailed description of embodiments of the disclosure in conjunction with the following drawings. In the drawings, components are not necessarily drawn to scale, and components having similar relative characteristics or features may have the same or similar reference numerals.

FIGS. 1a, 1b and 1c are schematic structural views collectively showing an embodiment of the handheld intelligent colorimeter of the utility model.

FIG. 2 is a schematic diagram showing an indicator light in the embodiment of the handheld intelligent colorimeter shown in FIGS. 1a, 1b and 1 c.

Description of the symbols:

1. a status indicator light; 2. a reset hole; 3. a charging interface; 4. a white board sheet; 5. a protective cover; 6. guiding the positioning hole; 7. a color measurement hole; 8. a switch/test button; 9. a sample to be tested; 10. an integrating sphere; 11. an LED light source; 101. a Bluetooth indicator light; 102. a correction indicator light; 103. a power indicator light; 104. a fault indicator light; 105. color measurement indicator light.

Detailed Description

The utility model is described in detail below with reference to the figures and specific embodiments. It is noted that the aspects described below in connection with the figures and the specific embodiments are only exemplary and should not be construed as imposing any limitation on the scope of the present invention.

Disclosed herein is a handheld intelligent colorimeter (hereinafter sometimes referred to as an intelligent colorimeter), and fig. 1a, 1b and 1c collectively show a schematic structural view of the intelligent colorimeter. As shown in fig. 1a, 1b and 1c, the intelligent colorimeter includes a colorimeter body, and an integrating sphere 10 and an LED light source 11 provided inside the colorimeter body. Wherein, integrating sphere 10 and LED light source 11 are located the inside below of color meter body, and the outside protrusion in top of integrating sphere 10 forms the bulge, and integrating sphere 10 links to each other with the color meter body through this bulge. Three color measuring holes 7 are formed in the protruding part of the integrating sphere 10, so that the protruding part of the integrating sphere 10 connected with the color measuring instrument body serves as a measuring panel of the color measuring instrument body. The integrating sphere uses three color measuring holes 7 on the measuring panel to replace a mechanical observation window or an electronic monitoring element in the prior art, thereby improving the accuracy of measured data.

Specifically, three color measurement holes 7 which are distributed triangularly are formed in the convex part where the integrating sphere 10 is connected with the color measuring instrument body, when the intelligent color measuring instrument is used for measuring color, an LED light source 11 which is built in the color measuring instrument and is in full-spectrum combination is collected by the integrating sphere 10 through the color measurement holes 7, and after multiple reflections inside the integrating sphere 10, the LED light source is scattered inside the integrating sphere 10 very uniformly. The integrating sphere 10 is used as an optical diffuser, which can reduce and eliminate the measurement error caused by the shape and divergence angle of light and the responsivity difference of different positions on the detector, so that the measurement result is more reliable, the color measurement accuracy of the intelligent color meter is improved, and the intelligent color meter is convenient to carry. In addition, the intelligent color meter in the embodiment adopts the LED light source with full spectrum combination, so that sufficient spectral distribution in a visible light range is ensured, spectrum loss of a white light LED in a specific wave band is avoided, and the measuring speed of the instrument and the accuracy of a measuring result are ensured.

Further, in the present embodiment, a guide positioning hole 6 for guiding the placement position of the white sheet 4 is provided in a convex portion of the integrating sphere 10 as a measurement panel. The white plate 4 is arranged on the front surface of the color measuring instrument body, and a precise ceramic reference plate is arranged in the white plate for correcting the white plate of the intelligent color measuring instrument. The guide positioning hole 6 is located the color measurement region that three color measurement holes 7 surrounded on the measurement panel, and when the positive blank piece 4 of color measurement appearance body was carried out the blank correction to the use of placing of intelligence color measurement appearance, can be fast accurate through guide positioning hole 6 and place the blank correction position on the measurement panel with the blank piece, and then improved operating speed.

Specifically, when the intelligent color meter needs white board correction, a user manually takes the white board sheet 4 off the color meter body, then overlaps the convex column on the white board sheet 4 with the guide positioning hole 6, keeps the white board sheet 4 tightly attached to the measurement aperture of the measurement panel of the instrument, and then presses the measurement key for a short time to correct the white board. After the white calibration is completed by the intelligent colorimeter, color measurement is started by using three color measurement holes 7 on the measurement panel.

Further, in the present embodiment, one side end of the colorimeter body is provided with a switch/test button 8, and the other opposite side end is fixed with a status indicator lamp 1. Switch test button 8 is located the intermediate position of colorimeter body side, and the side of the colorimeter body that will be fixed with switch test button 8 holds the position as using intelligent colorimeter's handheld position, can satisfy user's difference and grip the custom for the operation is more convenient.

Specifically, when the user uses the intelligent colorimeter to measure the color, the user holds the side end of the intelligent colorimeter with the hand, keeps the finger for the key in a state of covering the switch/test button 8, and then presses the switch/test button 8 on the side of the intelligent colorimeter for 3 seconds to start the device. After the intelligent color measuring instrument is started, a power indicator lamp of the state indicator lamp 1 is turned on to prompt the tester to enter a measurement interface or a correction interface.

Further, in this embodiment, the intelligent colorimeter is connected to the external measuring device through bluetooth. The external measuring equipment for automatic color measurement comprises a plurality of color spaces and a plurality of observation light sources, can meet special measurement requirements under different measurement conditions, is widely applied to the field of color management of industries such as textile and clothing, and can help people to realize color data management.

Specifically, the measurement caliber of the measurement panel positioned at the bottom of the intelligent color meter is 8mm with wider applicability and extends to the inside of the color meter body. When the intelligent colorimeter measures the color of a sample, the to-be-measured center of the sample is tightly attached to a triangular colorimetry area formed by three colorimetry holes 7 on a measuring panel, so that the colorimetry holes 7 are aligned to a to-be-measured sample 9, and then the color is measured by pressing a switch/test button on the side face of the colorimeter body for a short time. During measurement, the color of the surface of the sample 9 to be measured is converted into reflectivity curve data, the reflectivity curve data measured by the intelligent colorimeter is automatically uploaded to external measuring equipment through Bluetooth for storage, and the color measurement of the sample 9 to be measured is automatically completed through the external measuring equipment. In addition, when carrying out colour measurement, need keep intelligent color meter steady, avoid the color meter to rock, shift and lead to the measured data inaccurate.

Furthermore, in the present embodiment, the protruding portion of the integrating sphere 10 further includes a protective cover 5, and the aperture of the protective cover 5 is larger than the aperture of the colorimetric panel, so that the protective cover 5 can cover the measurement aperture of the instrument, thereby preventing dust from entering the integrating sphere and the internal optical path system to affect the accuracy of the measurement data.

Further, in the present embodiment, the color measurement hole 7 of the intelligent color meter adopts a full-band balanced LED light source. Compared with a tungsten lamp and a xenon lamp which are adopted in the traditional technology, the LED light source not only has the characteristics of good illumination effect, low power consumption, long service life, cost reduction and the like, but also has a simple structure, can realize the miniaturization of the product structure, and further enables the intelligent color photometer to be portable.

Furthermore, in this embodiment, the intelligent color meter can automatically determine the temperature and humidity of the current environment through the temperature sensor and the humidity sensor which are built in the color meter, and write the zero correction data and the white board correction data under various temperature and humidity conditions into the external measuring equipment, so that the zero correction data and the white board correction data can be timely adjusted according to the temperature and humidity of the current environment before the intelligent color meter measures the color of the sample each time, and the measured chromaticity data is more accurate.

In one embodiment, the smart colorimeter uses a cell phone as the external measuring device, connected to the cell phone through bluetooth. Assuming that the effective period of color correction of the intelligent color measuring instrument is 8 hours, if the effective period is exceeded, the state indicator lamp 1 indicates the intelligent color measuring instrument to enter a correction interface, and a user can perform white board correction operation of the intelligent color measuring instrument according to steps through measurement operation prompts on a mobile phone.

Specifically, after the color meter is connected with a mobile phone serving as external measuring equipment through Bluetooth, white board correction operation is selected to perform white board correction on the intelligent color meter. At this moment, the user manually takes off the white plate 4 from the color measuring instrument body, and the white plate 4 is tightly attached to the measuring hole 7 of the intelligent color measuring instrument to correct the white plate, so that the inaccurate color detected by the intelligent color measuring instrument due to color deviation is avoided. And utilize professional external measuring equipment to carry out the blank correction, not only the simple operation, save time also makes data more accurate simultaneously.

Further, in this embodiment, the front of color meter body still is fixed with reset hole 2 and interface 3 that charges respectively, and wherein, reset hole 2 is used for the outage to restart intelligent color meter, interface 3 that charges can provide the mode of filling soon to the capacity and the life of battery have been guaranteed.

Further, in the present embodiment, the status indicator lamp 1 uses five indicator lamps to indicate the status of the intelligent colorimeter, fig. 2 shows a schematic structural diagram of the status indicator lamp 1, and the present embodiment is further described below with reference to fig. 2.

As shown in fig. 2, the status indicator lamp 1 of the intelligent colorimeter includes five indicator lamps for indicating different statuses, namely a bluetooth indicator lamp 101, a correction indicator lamp 102, a power indicator lamp 103, a fault indicator lamp 104 and a colorimetric indicator lamp 105. The Bluetooth indicator light 101 is used for prompting the Bluetooth connection state of the intelligent color meter and external measuring equipment; the correction indicator lamp 102 is used for prompting the correction working state of the intelligent color measuring instrument; the power indicator light 103 is used for prompting the voltage state of the intelligent color meter; the fault indicator lamp 104 is used for prompting the fault state of the intelligent color measuring instrument; the color measurement indicator lamp 105 is used for prompting the color measurement working state of the intelligent color meter.

Further, in the present embodiment, the status indicator lamp 1 uses a blue lamp, an orange lamp, a yellow lamp, a red lamp, and a green lamp as the bluetooth indicator lamp 101, the correction indicator lamp 102, the power indicator lamp 103, the failure indicator lamp 104, and the colorimeter indicator lamp 105, respectively, and indicates the status of the intelligent colorimeter by three different states of normally on, blinking, and turning off.

Specifically, when the blue light serving as the bluetooth indicator light 101 is normally on, it indicates that the intelligent color meter and the external measurement device are in a bluetooth connection success state; the blue lamp flickers to indicate that the intelligent color measuring instrument and the external measuring equipment are in a state of being connected by Bluetooth; the blue lamp is turned off to indicate that the intelligent color measuring instrument is in a non-working state.

When the orange lamp serving as the correction indicator lamp 102 is normally on, the intelligent color photometer is in a correction completion state; the orange light flashes to indicate that the intelligent color measuring instrument is in a correcting state; the orange lamp is turned off to indicate that the intelligent color measuring instrument is in a non-working state.

When the yellow lamp serving as the power indicator light 103 is normally on, the intelligent color photometer is in a normal voltage state; the yellow light flashes to indicate that the intelligent color meter is in a low voltage or charging state; the yellow light is turned off to indicate that the intelligent color meter is in a non-working state.

When the red light as the fault indicator light 104 is normally on, the intelligent color meter is in a fault-free state; the red light flashes to indicate that the intelligent color measuring instrument is in a fault state of a non-core component; the red light is turned off to indicate that the intelligent color measuring instrument is in a core component failure state.

When the green light serving as the color measurement indicator light 105 is normally on, the intelligent color meter is in a color measurement completion state; the green light flickers to indicate that the intelligent color measuring instrument is in a state of color measurement; the green light is turned off to indicate that the intelligent color measuring instrument is in a non-working state.

In this embodiment, when the intelligence color meter is in not having trouble, the electric quantity is sufficient, the bluetooth is connected and is accomplished, the correction is accomplished, the color measurement is accomplished the back, all pilot lamps are the normal bright state for the suggestion intelligence color meter is in normal, treats the user state.

In an embodiment, the power indicator 103 may also indicate the power state of the intelligent colorimeter in the power-on state and the power state in the power-off state, so as to remind the user of charging in time.

Specifically, when the intelligent color meter is not connected to the power supply when the intelligent color meter is turned on, if the electric quantity of the intelligent color meter is sufficient, the power indicator 103 is in a normally on state; if the intelligent colorimeter has serious insufficient electric quantity, the power indicator light 103 is in an off state. When the intelligent color meter is started and connected with a power supply, if the electric quantity of the intelligent color meter is more than or equal to 90%, the power supply indicator light 103 is in a normally-on state; if the electric quantity of the intelligent color meter is less than 90%, the power indicator light 103 is in an off state. When the intelligent color meter is started and is not connected with the power supply, the power supply indicator light 103 is in an off state; when the intelligent color meter is started and is not connected with a power supply, the power indicator lamp 103 is normally on until the electric quantity of the intelligent color meter reaches 100%, and the power indicator lamp 103 is turned off. The previous description of the disclosure is provided to enable any person skilled in the art to make or use the disclosure. Various modifications to the disclosure will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other variations without departing from the spirit or scope of the disclosure. Thus, the disclosure is not intended to be limited to the examples and designs described herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A hand-held intelligent color measuring instrument is characterized by comprising a color measuring instrument body, an integrating sphere and a light source arranged in the color measuring instrument body; the integrating sphere is positioned in the color measuring instrument body and is connected with the color measuring instrument body through a convex part at the top end of the integrating sphere; the convex part, the color measuring hole and the guide positioning hole which are arranged on the convex part form a measuring panel; the color measuring hole is used for measuring the color of a sample, and the guide positioning hole is used for positioning the white board sheet; the white board sheet is placed on the color photometer body and used for correcting the color deviation of the handheld intelligent color photometer.

2. The hand-held intelligent colorimeter according to claim 1 wherein the switch/test button is secured at one lateral end of the colorimeter body and the status indicator light is secured at the other opposing lateral end.

3. The hand-held intelligent colorimeter according to claim 1 further comprising a protective cover for protecting the measurement panel, the protective cover having a gauge larger than the gauge of the measurement panel.

4. The hand-held intelligent colorimeter according to claim 1 wherein the colorimeter body further includes a reset hole and a charging interface.

5. The handheld intelligent colorimeter according to claim 1 in data connection with an external measuring device, the external measuring device including data storage, whiteboard correction, color detection functionality, the data connection including a bluetooth connection.

6. The hand-held intelligent colorimeter according to claim 5 wherein the status indicators further comprise a bluetooth indicator, a correction indicator, a power indicator, a fault indicator and a colorimetry indicator; wherein,

the Bluetooth indicator lamp is used for prompting the Bluetooth connection state of the handheld intelligent color measuring instrument and the external measuring equipment;

the correction indicator light is used for prompting the correction working state of the handheld intelligent color measuring instrument;

the power indicator is used for prompting the voltage state of the handheld intelligent color measuring instrument;

the fault indicator is used for prompting the fault state of the handheld intelligent color measuring instrument;

the color measurement indicator light is used for prompting the color measurement working state of the handheld intelligent color measuring instrument.

7. The hand-held intelligent colorimeter according to claim 6 wherein the status indicator lights use blue lights, orange lights, yellow lights, red lights and green lights as the bluetooth indicator light, the correction indicator light, the power indicator light, the fault indicator light and the colorimeter indicator light respectively, and represent the status of the hand-held intelligent colorimeter by three different states of normally on, blinking and extinguishing; wherein,

the blue lamp is normally on to indicate that the handheld intelligent color measuring instrument and the external measuring equipment are in a Bluetooth connection success state, the blue lamp flashes to indicate that the handheld intelligent color measuring instrument and the external measuring equipment are in a Bluetooth connection state, and the blue lamp is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state;

the orange lamp is normally on to indicate that the handheld intelligent color measuring instrument is in a correction completion state, the orange lamp flashes to indicate that the handheld intelligent color measuring instrument is in a correction state, and the orange lamp is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state;

the yellow light is normally on to indicate that the handheld intelligent color meter is in a normal voltage state, the yellow light flashes to indicate that the handheld intelligent color meter is in a low voltage or charging state, and the yellow light is turned off to indicate that the handheld intelligent color meter is in a non-working state;

the red light is normally on to indicate that the handheld intelligent color measuring instrument is in a fault-free state, the red light flashes to indicate that the handheld intelligent color measuring instrument is in a fault-free state of a non-core component, and the red light is turned off to indicate that the handheld intelligent color measuring instrument is in a fault-free state of a core component;

the green light is normally on to indicate that the handheld intelligent color measuring instrument is in a color measuring completion state, the green light flashes to indicate that the handheld intelligent color measuring instrument is in a color measuring state, and the green light is turned off to indicate that the handheld intelligent color measuring instrument is in a non-working state.

8. The hand-held intelligent colorimeter according to claim 1 wherein the bore of the colorimeter hole is 8mm and the light source is an LED light source.

9. The handheld intelligent colorimeter according to claim 1 wherein a ceramic reference plate is built into the white plate sheet for white plate calibration of the handheld intelligent colorimeter.

10. The handheld intelligent colorimeter according to claim 5 wherein the external measuring devices include a plurality of color spaces and a plurality of observation light sources.

Images