JP2018155490A - Inspection tool, imaging apparatus and inspection apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an inspection tool, an imaging apparatus, a program, and an inspection apparatus capable of performing inspection under the same imaging condition.SOLUTION: An inspection apparatus 9 includes: urine test paper 1 comprising an inspection region 10 having test sheets of paper 12 to 14 which change into plural kinds of color tones after reacting with each substance to be inspected and a chart region 20 having color pattern information; and an image capturing box 3 for arranging a mobile terminal 4 capturing the urine test paper 1 in the inspection region 10 and the chart region 20 at a position where imaging can be performed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an inspection tool, an imaging device, a program, and an inspection device.

  2. Description of the Related Art Conventionally, an apparatus for obtaining examination information by reacting urine with a urine test paper in order to diagnose a disease or the like has been disclosed (for example, Patent Documents 1 and 2).

Japanese Patent Laying-Open No. 2015-187562 Japanese Patent Laid-Open No. 2006-73218

  By the way, in the inspection with the test paper, there are one that reacts quickly and one that takes time, so when using the techniques of Patent Documents 1 and 2, it is necessary to photograph the test paper a plurality of times. However, it was difficult to make the shooting conditions the same.

  Accordingly, an object of the present invention is to provide an inspection tool, an imaging device, a program, and an inspection device that can perform inspection under the same imaging conditions.

The present invention solves the above problems by the following means.
1st invention image | photographs the test | inspection member provided with the test | inspection area | region which has the detection part which reacts with the substance to be test | inspected, and changes into multiple types of color tone, the chart area | region which has color pattern information, and the said test | inspection member It is an inspection tool provided with the alignment member which arrange | positions an imaging device to the position which can image | photograph the said test | inspection area | region and the said chart area | region.
A second invention is the inspection tool according to the first invention, wherein the inspection member is provided with an alignment that is an arrangement position of the alignment member.
According to a third aspect of the present invention, in the inspection tool of the first or second aspect, the alignment member has a box shape with an open lower surface, is disposed on the inspection member, and the imaging device is disposed on the upper surface. The inspection tool is characterized in that it has a holding portion for arranging the inspection region, and the holding portion has a through hole for photographing the inspection region and the chart region.
A fourth invention is the inspection tool according to the third invention, wherein the through hole of the alignment member is covered with a light diffusing member having translucency.
The fifth invention is the inspection tool according to any one of the first to fourth inventions, wherein the color pattern information includes a plurality of color tones used for color correction. It is.
According to a sixth aspect of the present invention, in any one of the inspection tools from the first aspect to the fourth aspect, the color pattern information includes a plurality of types of color tones corresponding to the color tone of the detecting unit that changes. The inspection tool characterized by the above.
A seventh aspect of the invention is the inspection tool according to any one of the first to sixth aspects, further comprising a light shielding member that covers at least the detection portion of the inspection member.
An eighth invention is an imaging apparatus for use with any of the inspection tools from the first invention to the seventh invention, the imaging means for imaging the inspection member, and the inspection imaged by the imaging means A color determination unit that determines a color tone of the detection unit based on the area and the chart region; and an inspection data acquisition unit that acquires inspection data based on the color tone determined by the color determination unit. This is a photographing apparatus characterized by the above.
According to a ninth aspect of the present invention, in the photographing apparatus of the eighth aspect of the present invention, the time measuring means for measuring time and the photographing for causing the photographing means to execute photographing when the designated time is reached as a result of the measurement by the time measuring means. And a processing means.
According to a tenth aspect of the present invention, in the photographing apparatus of the eighth or ninth aspect, the mark provided on the inspection member included in the photographed image photographed by the photographing means is recognized, and photographing is performed based on the mark. An imaging apparatus comprising correction means for correcting an image and detecting the inspection area and the chart area.
An eleventh invention is a program for causing a computer to function as any one of the imaging devices from the eighth invention to the tenth invention.
A twelfth aspect of the invention is an inspection apparatus including any one of the inspection tools from the first aspect to the seventh aspect and any one of the imaging apparatuses from the eighth aspect to the tenth aspect.

  According to the present invention, it is possible to provide an inspection tool, an imaging apparatus, a program, and an inspection apparatus that can perform inspection under the same imaging conditions.

It is a perspective view of the inspection device concerning this embodiment. It is a figure which shows the specific example of the urine test paper which concerns on this embodiment. It is the top view and sectional drawing of the imaging | photography box which concern on this embodiment. It is a functional block diagram of the inspection system concerning this embodiment. It is a figure for demonstrating the flow of the urine test | inspection using the test | inspection apparatus which concerns on this embodiment. It is a figure which shows the example of a display with the portable terminal which concerns on this embodiment. It is a flowchart which shows the urine test | inspection process of the portable terminal which concerns on this embodiment. It is a flowchart which shows the color determination process (the 1) of the portable terminal which concerns on this embodiment. It is a flowchart which shows the color determination process (the 2) of the portable terminal which concerns on this embodiment. It is a flowchart which shows the information provision process of the test | inspection system which concerns on this embodiment. It is a figure which shows the example of the inquiry data which concern on this embodiment, and the example of a display with a portable terminal. It is a figure which shows the example of the memory | storage part of the information provision server which concerns on this embodiment.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. This is merely an example, and the technical scope of the present invention is not limited to this.

(Embodiment)
<Inspection device 9>
FIG. 1 is a perspective view of an inspection apparatus 9 according to this embodiment.
FIG. 2 is a diagram showing a specific example of the urine test paper 1 according to the present embodiment.
FIG. 3 is a top view and a cross-sectional view of the photographing box 3 according to the present embodiment.
The inspection apparatus 9 shown in FIG. 1 is an apparatus for collecting and inspecting urine (measuring object) of pets (living bodies) such as dogs and cats kept by the user at home, thereby Is to understand the health status of pets.
The inspection device 9 includes a urine test paper 1 (examination member), an imaging box 3 (positioning member), and a portable terminal 4 (imaging device, information providing device).

The user first attaches the pet urine to the urine test paper 1 and places the photographing box 3 on the urine test paper 1. Next, the user places the portable terminal 4 on the photographing box 3 so that the examination region 10, the chart region 20, and the mark 28 (mark) of the urine test paper 1 can be photographed, and the urine is placed on the portable terminal 4. The inspection paper 1 is photographed.
Here, urine is a body fluid that can grasp the state of the body, like blood and the like. In addition, urine is suitable for collection at home because it does not need to pierce the body for collection like blood and does not require a license for collection.
In general, pets have a faster disease progression than humans. Therefore, home tests that can be performed frequently have the advantage of being able to easily detect diseases early and follow up during treatment. Useful to do.

<Urine test paper 1>
The urine test paper 1 (1a, 1b) is, for example, an inkjet paper having a size in which the lateral direction X is about 200 mm and the depth direction Y is about 90 mm.
As shown in FIGS. 2A and 2B, the urine test papers 1a and 1b include a test area 10, a chart area 20, a mark 28, and a box placement line 29 (positioning).
2A shows an example of the urine test paper 1a, and FIG. 2B shows an example of the urine test paper 1b. Here, the urine test paper 1a and the urine test paper 1b differ only in the contents of the color chart (color pattern information) in the chart area 20, and the other parts are the same.

  The inspection area 10 is an area on which the test papers 12 to 14 (detection unit) are placed. The test papers 12 to 14 react to each substance contained in urine. The test paper 12 shows a pH (hydrogen ion index), the test paper 13 shows a protein, and the test paper 14 shows glucose by a change in color (color tone). Since the test paper 12 and the test paper 13 react immediately after urine is adhered, it is desirable to see the color change immediately after the urine is adhered. Further, since the test paper 14 reacts after a while after the urine is adhered, it is desirable to see the color change after 60 seconds have elapsed after the urine is adhered.

The chart area 20 is an area where a color chart is printed by, for example, ink jet printing.
A urine test paper 1 a shown in FIG. 2A has a color chart 21 for color correction in the chart area 20. The color correction color chart 21 is a table in which squares of various different colors such as red, blue, green, yellow, white and black are arranged in a table shape.
On the other hand, the urine test paper 1 b shown in FIG. 2B has determination color charts 22 to 24 in the chart area 20. The determination color chart 22 corresponds to the test paper 12, the determination color chart 23 corresponds to the test paper 13, and the determination color chart 24 corresponds to the test paper 14. The determination color charts 22 to 24 are arranged by arranging a plurality of color patterns that can be changed by reaction of the corresponding test papers 12 to 14 in order in the horizontal direction X.

The mark 28 is used for alignment of an angle or the like in a captured image taken by the mobile terminal 4 and is used for detecting the inspection region 10 and the chart region 20. In this example, the mark 28 has a rectangular shape, but is not limited thereto. For example, the mark 28 may be a two-dimensional code represented by a QR code (registered trademark).
The box placement line 29 is a line for alignment when the photographing box 3 is placed. In this example, the box placement line 29 matches the shape of the photographing box 3.

<Shooting box 3>
The photographing box 3 is formed, for example, in a box shape in which the lateral direction X is about 200 mm, the depth direction Y is about 100 mm, and the height direction Z is about 90 mm. The photographing box 3 is made of resin or the like.
As shown in FIG. 3A, the shooting box 3 has a flat upper surface 31 (holding unit) so that the portable terminal 4 can be placed on the upper surface 31. The upper surface 31 has a through hole 32 for a camera 66 (described later) of the mobile terminal 4.

FIG. 3B is a cross-sectional view taken along line AA of the photographing box 3 shown in FIG. The photographing box 3 has an opening 30 on the lower surface, and the inside is hollow.
The through hole 32 is provided at a position where the examination region 10, the chart region 20, and the mark 28 can be photographed when the photographing box 3 is placed in alignment with the box placement line 29 of the urine test paper 1. The through hole 32 has a size including the camera 66 and the flash part 67. In addition, a film 33 (light diffusion member) is provided below the through hole 32 so as to cover the through hole 32.
The film 33 is made of, for example, a colorless and translucent material. The film 33 is formed by molding a polymer component such as a synthetic resin into a thin film, for example. The film 33 serves to diffuse light emitted from the flash unit 67.

When the photographing box 3 is placed on the urine test paper 1, the light from the through hole 32 reaches the inside of the photographing box 3. Therefore, by placing the mobile terminal 4 with the camera 66 of the mobile terminal 4 positioned at the through hole 32, the inside of the shooting box 3 becomes a dark part. And when the portable terminal 4 image | photographs in that state, a picked-up image can be made into the thing which does not receive the influence of external light other than the light emitted from the portable terminal 4. FIG.
In addition, due to the characteristics of the test papers 12 to 14 provided on the urine test paper 1, the mobile terminal 4 needs to take a plurality of images at intervals. Therefore, by photographing using the photographing box 3, the portable terminal 4 can photograph at the same position and condition.

<Inspection system 100>
Next, the inspection system 100 using the portable terminal 4 of the inspection device 9 will be described.
FIG. 4 is a functional block diagram of the inspection system 100 according to the present embodiment.
The inspection system 100 includes a mobile terminal 4 and an information providing server 7, and the mobile terminal 4 and the information providing server 7 are connected via a communication network N.

<Mobile terminal 4>
When the photographing box 3 is placed on the urine test paper 1, the portable terminal 4 is placed on the photographing box 3 and photographs the urine test paper 1 as shown in FIG. It is a device. The portable terminal 4 outputs information based on measurement data (test data) obtained from the photographed urine test paper 1.
The mobile terminal 4 is, for example, a mobile phone having a computer function represented by a smartphone. The portable terminal 4 may be a portable terminal such as a tablet.
As shown in FIG. 4, the mobile terminal 4 includes a control unit 40, a storage unit 60, a touch panel display 65, a camera 66 (photographing unit), a flash unit 67, a timer unit 68 (time measuring unit), And a communication interface unit 69.

The control unit 40 is a CPU (Central Processing Unit) that controls the entire mobile terminal 4. The control unit 40 reads out and executes an OS (operating system) and various application programs stored in the storage unit 60 as appropriate, thereby executing various functions in cooperation with the hardware described above.
The control unit 40 includes an imaging processing unit 41 (imaging processing unit), an image acquisition unit 42, an image correction unit 43 (correction unit), a color determination unit 44 (color determination unit), and a measurement acquisition unit 45 (measurement data). Acquisition means), inquiry processing section 47 (interrogation means), determination extraction section 48 (determination extraction means), storage processing section 49 (determination result storage means), analysis section 50 (analysis means), and information output section 51 (information providing means).

The photographing processing unit 41 causes the camera 66 to perform photographing when the designated time is reached by the measurement of the timer unit 68.
The image acquisition unit 42 acquires a captured image captured by the camera 66.
The image correction unit 43 recognizes the mark 28 from the acquired captured image. Further, the image correction unit 43 corrects the angle of the acquired captured image according to the recognized position of the mark 28 and detects the inspection region 10 and the chart region 20.
The color determination unit 44 determines the colors of the test sheets 12 to 14 in the inspection area 10 using the color chart (the color correction color chart 21 or the determination color charts 22 to 24) of the detected chart area 20.
The measurement acquisition unit 45 obtains the measurement value of each item based on the determination result by the color determination unit 44.

The inquiry processing unit 47 acquires the inquiry data related to each item from the inquiry data storage unit 74 of the information providing server 7 and outputs the question content (question data) and a plurality of options (question answer data). . Then, the inquiry processing unit 47 accepts one option selected by the user.
The determination extraction unit 48 extracts determination data from the determination data storage unit 75 based on the measurement value and one option for the accepted question content.
The accumulation processing unit 49 stores the extracted determination data in the accumulated data storage unit 63 in association with the photographing date and time of the photographed image.
The analysis unit 50 analyzes the plurality of determination data stored in the accumulated data storage unit 63 by the accumulation processing unit 49. The analysis unit 50 can also analyze a change in determination data by arranging a plurality of determination data in time series.
The information output unit 51 extracts the provision data from the provision data storage unit 76 based on the analysis result by the analysis unit 50 and outputs it to the touch panel display 65. The provided data is determination-corresponding data corresponding to the determination data, and is useful data that is provided to the user, such as advice data for a health condition, for example.
Details of these functions will be described later.

The storage unit 60 is a storage device such as a semiconductor memory element for storing programs, data, and the like necessary for the operation of the mobile terminal 4.
The computer refers to an information processing device including a control device, a storage device, and the like. The mobile terminal 4 is an information processing device including a control unit 40, a storage unit 60, and the like, and is included in the concept of a computer.
The storage unit 60 includes a program storage unit 61, a basic data storage unit 62, and an accumulated data storage unit 63.
The program storage unit 61 is a storage area for storing various programs. The program storage unit 61 stores an inspection application 61a.
The inspection application 61a can be stored by, for example, downloading from an application distribution server (not shown). The inspection application 61a is a program for executing each function of the control unit 40 described above. The inspection application 61a has color correction reference color data that is reference color data of the color correction color chart 21 in order to perform processing related to the urine test paper 1a. In addition, the test application 61a has test result reference color data that is data of the color of the test papers 12 to 14 that change and the measurement value indicated by the color in order to perform processing related to the urine test paper 1a.

The basic data storage unit 62 is a storage area for storing basic data regarding pets whose health status is grasped by the portable terminal 4. The basic data is, for example, pet name, pet type, sex, age, weight, and the like.
The accumulated data storage unit 63 is a storage area for accumulating determination data. The accumulated data storage unit 63 stores the latest option that the user has answered to the question content.
The touch panel display 65 has a function as a display unit configured by a liquid crystal panel or the like and a function as an input unit for detecting a touch input by a user's finger or the like.
The camera 66 is a photographing device for photographing the urine test paper 1.
The flash unit 67 is a light source device that outputs light.
The timer unit 68 is a device that measures time.
The communication interface unit 69 is an interface for communicating with, for example, the information providing server 7 and the application distribution server described above via the communication network N.

The information providing server 7 is a data server that stores various data.
The information providing server 7 includes a control unit 70, a storage unit 72, and a communication interface unit 79.
The control unit 70 is a CPU that controls the entire information providing server 7. The control unit 70 executes various functions in cooperation with the hardware described above by appropriately reading and executing the OS and various application programs stored in the storage unit 72.
The storage unit 72 is a storage device such as a hard disk or a semiconductor memory element for storing programs, data, and the like necessary for the operation of the information providing server 7.

The storage unit 72 includes an inquiry data storage unit 74, a determination data storage unit 75, and a provision data storage unit 76.
The inquiry data storage unit 74 stores inquiry data including question contents and a plurality of options.
The determination data storage unit 75 stores a combination of options and measurement data corresponding to one or more question contents and determination data in association with each other.
The provided data storage unit 76 stores determination data and provided data in association with each other.
The specific contents of the storage unit 72 will be described later.
The communication interface unit 79 is an interface for performing communication with the mobile terminal 4 via the communication network N, for example.

<Inspection process>
Next, a urine test performed using the test apparatus 9 will be described.
FIG. 5 is a diagram for explaining the flow of a urine test using the test apparatus 9 according to the present embodiment.
FIG. 6 is a diagram illustrating a display example on the mobile terminal 4 according to the present embodiment.
FIG. 7 is a flowchart showing the urine test process of the mobile terminal 4 according to the present embodiment.
8 and 9 are flowcharts showing color determination processing of the mobile terminal 4 according to the present embodiment.

In step S (hereinafter simply referred to as “S”) 1 in FIG. 5, the user collects pet urine. The user may collect urine by any method, for example, a device for collecting urine, for example, may collect pet urine using a urine collector, or a sheet for sucking urine. It may be used to collect pet urine.
Next, in S <b> 2, the user operates the mobile terminal 4, for example, selects an icon (not shown) that activates the inspection application 61 a displayed on the touch panel display 65, thereby causing the inspection application 61 a to be executed. . Then, the user operates a menu screen (not shown) to display a start screen 80 on which a start button for starting photographing is displayed on the touch panel display 65 of the mobile terminal 4.
FIG. 6A shows an example of the start screen 80 displayed on the mobile terminal 4. The start screen 80 includes a pet information display unit 80a and a button unit 80b. The pet information display unit 80a displays information related to the target pet, such as a pet name, a pet photo, and attribute information. The button part 80b is a start button for starting the photographing of the urine test paper 1.

Returning to FIG. 5, in S <b> 3, the user prepares the urine test paper 1. The urine test paper 1 is stored in, for example, an aluminum storage bag (light-shielding member) that is shielded from light and dried, for example, in order to prevent quality deterioration due to contact with moisture or light. Then, the user takes out one urine test paper 1 from the storage bag.
The urine test paper 1 may be one in which the test region 10 is covered with an aluminum sheet (light-shielding member) in addition to what is stored in a storage bag. In that case, the user peels off the sheet covering the inspection region 10 of the urine test paper 1.
In S4, the user attaches the urine collected in S1 to the test sheets 12 to 14 of the prepared urine test paper 1.

In S5, the user places the photographing box 3 on the urine test paper 1 on which urine is adhered. Here, the user places the photographing box 3 in a predetermined direction so that the camera 66 can photograph the examination region 10 and the like in accordance with the box placement line 29 of the urine test paper 1.
In S <b> 6, the user places the mobile terminal 4 on the shooting box 3. Here, the user places the mobile terminal 4 so that the camera 66 and the flash unit 67 of the mobile terminal 4 are set in the through hole 32.
In S <b> 7, the user selects the button portion 80 b (see FIG. 6A) of the start screen 80 displayed on the touch panel display 65 of the mobile terminal 4. Thereby, the portable terminal 4 can start photographing the urine test paper 1.
Note that the user may perform the process of S2 until S6. However, since it is necessary to photograph the degree of discoloration of the test papers 12 to 14 after the process of S4, it is necessary to perform the process immediately, and it is desirable to perform the process of S2 as early as possible.

The process in the portable terminal 4 after the process of S7 will be described based on FIG.
In S <b> 10 of FIG. 7, the control unit 40 (the imaging processing unit 41 and the image acquisition unit 42) of the mobile terminal 4 executes imaging with the camera 66 and acquires a captured image captured by the camera 66.
In S11, the control unit 40 (imaging processing unit 41) activates the timer unit 68 to start time measurement. Then, the control unit 40 displays a waiting screen 81 on the touch panel display 65. FIG. 6B shows an example of the waiting screen 81. The waiting screen 81 has a progress display portion 81a. The progress display unit 81a indicates the time from when the measurement by the timer unit 68 is started until the next image is taken.

Returning to FIG. 7, in S <b> 12, the control unit 40 (image correction unit 43) performs image correction processing. As the image correction processing, the control unit 40 recognizes the mark 28 from the captured image, and corrects the captured image based on the position of the recognized mark 28. By this correction, a corrected captured image (hereinafter referred to as a corrected image) includes the inspection area 10 and the chart area 20, and includes the test papers 12 to 14, the color correction color chart 21 or the determination color charts 22 to 24. You can grasp the position. The control unit 40 stores the correction information used for correction in the storage unit 60. By doing in this way, the control part 40 can correct | amend a picked-up image easily using this correction information, when a picked-up image is acquired in multiple times while this test | inspection application 61a is performing.
In S13, the control unit 40 (color determination unit 44, measurement acquisition unit 45) performs color determination processing for determining the color of the test papers 12 and 13 from the corrected image and acquiring measurement data.

Here, the color determination process when the urine test paper 1a is used will be described with reference to FIG.
In S30 of FIG. 8, the control unit 40 recognizes the chart region 20 included in the correction image and detects the color chart 21 for color correction.
In S31, the control unit 40 compares the color correction reference data stored in advance in the inspection application 61a with the detected color correction color chart 21, and creates a correction formula. Specifically, the control unit 40 calculates a value for making the color of the color correction color chart 21 coincide with the color of the color correction reference data.
In S32, the control unit 40 corrects the color of the inspection area 10 included in the corrected image using the correction formula.
In S33, the control unit 40 compares the inspection result reference color data stored in advance in the inspection application 61a with the colors of the target test papers 12 to 14 in the corrected inspection region 10, and the inspection result having the closest value is compared. The measurement value indicated by the reference color data is taken as measurement data. Thereafter, the control unit 40 ends the process and moves the process to FIG.

Next, color determination processing when the urine test paper 1b is used will be described with reference to FIG.
In S40 of FIG. 9, the control unit 40 recognizes the chart region 20 included in the corrected image and detects the determination color charts 22 to 24.
In S <b> 41, the control unit 40 determines the colors of the target test papers 12 to 14 in the inspection area 10 included in the corrected image and the colors of the determination color charts 22 to 24 corresponding to the target test papers 12 to 14. By comparison, the closest color positions of the determination color charts 22 to 24 are specified.
In S42, the control unit 40 sets the measurement value corresponding to the specified position as measurement data. Here, the control unit 40 may determine the measurement value from the color position of the closest determination color chart 22 to 24, or may determine the measurement value from the color order of the closest determination color chart 22 to 24. May be determined. Thereafter, the control unit 40 ends the process and moves the process to FIG.

Returning to FIG. 7, in S <b> 14, the control unit 40 (imaging processing unit 41) determines whether or not the measurement time of the timer unit 68 has reached a specific time (for example, 60 seconds). If it is the specific time (S14: YES), the control unit 40 moves the process to S15. On the other hand, when it is not the specific time (S14: NO), the control unit 40 remains in this process until the specific time is reached. At that time, the control unit 40 updates and displays the progress display unit 81a of the waiting screen 81 (see FIG. 6B).
In S <b> 15, the control unit 40 (shooting processing unit 41, image acquisition unit 42) executes shooting by the camera 66 and acquires a shot image.
In S <b> 16, the control unit 40 (image correction unit 43) reflects the correction information stored in the storage unit 60 on the captured image and generates a correction image. Then, the control unit 40 (the color determination unit 44 and the measurement acquisition unit 45) performs a color determination process of determining the color of the test paper 14 from the corrected image and acquiring measurement data. The color determination process is the same as the process shown in FIGS.
In S <b> 17, the control unit 40 outputs the measurement result screen 82 including the measurement data to the touch panel display 65. FIG. 6C shows an example of the measurement result screen 82 displayed on the touch panel display 65. The measurement result screen 82 includes a measurement value display part 82a and a button part 82b. The measured value display part 82a displays the measured value of each item as a numerical value, and displays the health state corresponding to the measured value in an easy-to-understand manner using icons. The button part 82b is a button for performing an information providing process described later.
Thereafter, the control unit 40 ends this process.

<Information provision processing>
Next, processing performed by the inspection system 100 after the urine test will be described.
FIG. 10 is a flowchart showing information providing processing of the inspection system 100 according to the present embodiment.
FIG. 11 is a diagram illustrating an example of the inquiry data 90 according to the present embodiment and a display example on the portable terminal 4.
FIG. 12 is a diagram illustrating an example of the storage unit 72 of the information providing server 7 according to the present embodiment.
This information providing process is executed after the urine test process shown in FIG. Specifically, the portable terminal 4 starts this process by selecting the button part 82b of the measurement result screen 82 displayed on the portable terminal 4 by the user.

In S <b> 50 of FIG. 10, the control unit 40 of the portable terminal 4 transmits a request for inquiry data regarding the urine test to the information providing server 7. Here, the control unit 40 transmits request data including pet attributes and information for specifying a measurement target (in this example, a urine test) as a request for inquiry data related to the urine test. When another test different from the urine test is performed, a request for inquiry data regarding the test target is transmitted to the information providing server 7.
In S <b> 60, the control unit 70 of the information providing server 7 is stored in the inquiry data storage unit 74 in response to the reception of the inquiry data request regarding the urine test from the portable terminal 4, and the urine corresponding to the attribute of the corresponding pet. Interrogation data related to the examination is extracted and transmitted.

In S <b> 51, the control unit 40 of the mobile terminal 4 receives the inquiry data from the information providing server 7.
FIG. 11A shows an example of the inquiry data 90 (90a, 90b, 90c,...) Received from the information providing server 7. The inquiry data 90 is data in which a question code for identifying a question content, a question content, and a plurality of options are associated with each other.
Then, the control unit 40 (interrogation processing unit 47) performs an inquiry process. For example, the control unit 40 outputs one piece of inquiry data 90 from the plurality of pieces of inquiry data 90 received by the mobile terminal 4.
FIG. 11B shows an example of the inquiry data screen 83. The inquiry data screen 83 includes a question part 83a, a selection part 83b, and a button part 83c. The question part 83a outputs the question content of one piece of inquiry data. The selection part 83b outputs the choice with respect to the question content output to the question part 83a. The selection unit 83b can select one option by the user. The button part 83c is a button for proceeding next.

The user selects one option for the contents of the inquiry displayed on the selection unit 83b from a plurality of options.
And the control part 40 outputs the some inquiry data 90 in order by receiving selection of the button part 83c, and receives one choice selected by the user.
The options previously selected by the same user are stored in the storage unit 60 in association with the contents of the question, and the inquiry data screen 83 reflects the options most recently answered by the user in the selected state in advance. You may leave it.

Returning to FIG. 10, in S <b> 52, the control unit 40 (determination extraction unit 48) transmits determination request data including one accepted option and measurement data for each question content to the information providing server 7. .
In S <b> 61, the control unit 70 of the information providing server 7 extracts determination data from the determination data storage unit 75 based on the received determination request data. Then, the control unit 70 transmits the extracted determination data to the mobile terminal 4.
FIGS. 12A and 12B are diagrams illustrating examples of determination data stored in the determination data storage unit 75.
FIG. 12 (A) is determination data for determining renal function. For example, the determination data for three choices regarding the question content “amount of drinking water” and pH measurement data are “◯”, It is indicated by three symbols “Δ” and “x”.
FIG. 12B shows determination data for determining a urinary disease. For example, determination data for three choices regarding the question content “behavior” and measurement data for glucose are “◯”, “ It is indicated by three symbols “Δ” and “x”.

Returning to FIG. 10, in S <b> 53, the control unit 40 (storage processing unit 49) receives the determination data from the information providing server 7 and stores it in the storage data storage unit 63.
In S <b> 54, the control unit 40 (analysis unit 50) analyzes the determination data stored in the accumulated data storage unit 63. For example, the control unit 40 grasps the health state from determination data based on measurement data measured by one urine test.
In S <b> 55, the control unit 40 transmits the analysis result data to the information providing server 7.
In S <b> 62, the control unit 70 of the information providing server 7 extracts the corresponding provided data from the provided data storage unit 76 based on the received analysis result data, and transmits the extracted provided data to the mobile terminal 4. Thereafter, the control unit 70 ends this process.

FIG. 12C is a diagram illustrating an example of provision data stored in the provision data storage unit 76. In this example, provision data based on determination data of renal function and urological disease is stored. The provided data in this example is advice data for a health condition.
Returning to FIG. 10, in S <b> 56, the control unit 40 (information output unit 51) of the mobile terminal 4 outputs the received provided data to the touch panel display 65.
Thereafter, the control unit 40 ends this process.

Thus, according to the present embodiment, the inspection system 100 has the following effects.
(1) The inspection device 9 includes a urine test paper 1, a photographing box 3, and a portable terminal 4. The photographing box 3 is placed on the urine examining paper 1, and the portable terminal 4 is placed on the placed photographing box 3. And urine test paper 1 is photographed. By using the shooting box 3, the shooting environment can be made uniform. Moreover, since the portable terminal 4 is mounted on the photographing box 3, the portable terminal 4 is fixed, and photographing can be performed at the same position even when photographing a plurality of times.
(2) By providing the photographing box 3 with the through hole 32, the positions of the camera 66 and the flash unit 67 of the mobile terminal 4 can be easily aligned with the through hole 32.
(3) By covering the through hole 32 with the film 33, the light emitted from the flash unit 67 can be diffused.

(4) The urine test paper 1 includes a test area 10 and a chart area 20. The urine test paper 1 a has a color chart 21 for color correction in the chart area 20. Therefore, the portable terminal 4 can determine the color of the inspection region 10 by using the color correction color chart 21 and the color correction reference color data stored in advance, and the measurement values corresponding to the colors of the test papers 12 to 14 Can be requested.
(5) The urine test paper 1b has the determination color charts 22 to 24 in the chart region 20. Therefore, the portable terminal 4 can obtain the measurement values corresponding to the colors of the test papers 12 to 14 by comparing the colors of the test papers 12 to 14 in the inspection area 10 and the colors of the determination color charts 22 to 24. .
(6) The quality of the urine test paper 1 can be maintained by covering at least the test papers 12 to 14 in the test area 10 with a light shielding member such as aluminum.

(7) Even if the test sheets 12 to 14 of the urine test paper 1 have different measurement timings, the mobile terminal 4 measures the time with the mobile terminal 4 so that the mobile terminal 4 can detect the urine test paper at an optimal timing for measurement. 1 can be taken.
(8) The mobile terminal 4 can recognize the examination region 10 and the chart region 20 in an optimal state by correcting the captured image using the mark 28 of the urine test paper 1.

(9) Since the mobile terminal 4 extracts provided data based on the measurement data and the interview result, not only the measurement data but also provided data related to the health condition determined based on the interview result can be provided to the user. .
(10) Since the portable terminal 4 acquires the measurement data using the captured image obtained by capturing the urine test paper 1, the mobile terminal 4 only needs to capture the urine test paper 1 and can easily acquire the measurement data.
(11) Since the inquiry data and the provided data are provided for each pet attribute, an inquiry suitable for the characteristics of each pet such as a dog or a cat can be performed, and information suitable for each pet can be provided.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to embodiment mentioned above. In addition, the effects described in the embodiments are merely a list of the most preferable effects resulting from the present invention, and the effects of the present invention are not limited to those described in the embodiments. In addition, although embodiment mentioned above and the deformation | transformation form mentioned later can also be used in combination as appropriate, detailed description is abbreviate | omitted.

(Deformation)
(1) In the present embodiment, an example has been described in which the health condition is estimated based on the measurement data obtained by the urine test and the answer to the inquiry. However, the present invention is not limited to this. For example, the health condition may be estimated by further adding blood test result data measured in a hospital. In this case, for example, the information providing server may be provided with a state data storage unit that stores state data for each pet, and the state data of the target pet may be received and used for analysis.
In addition, other data may be used as the measurement data instead of the measurement data obtained by the urine test. For example, voice data may be acquired from a microphone included in the mobile terminal, and the health state may be estimated together with the answer to the inquiry using the voice data as measurement data.
Furthermore, measurement data acquired by other devices may be received.For example, a sensor that can communicate with a portable terminal is attached to a pet, and data relating to the heartbeat of the pet, tempo walking data using an acceleration sensor, etc. You may acquire and use the data.
Furthermore, a plurality of measurement data may be used.

  (2) In the present embodiment, the urine test has been described by taking pH, protein, and glucose as examples. However, the present invention is not limited to this. For example, other items may be added, or any of the inspection items illustrated as examples may be omitted. Moreover, it is not limited to a urine test, For example, you may test | inspect with other body fluids, such as a tear and saliva, which can be extract | collected from a biological body. In that case, for example, an examination target can be selected by a portable terminal, and the inquiry data related to the examination object may be acquired from the inquiry data storage unit. In addition, the inquiry data regarding the inspection object may be acquired from the inquiry data storage unit by printing a mark representing the inspection object on each inspection paper and reading the mark with a portable terminal.

(3) In the present embodiment, the provided data is described as advice data for a health condition, but is not limited thereto. The provided data may be, for example, introductory data for inferring a disease that is thought to be already suffering from a health condition and introducing a hospital where a specialist for the disease is present. In that case, by registering the user's address and the like in advance, a hospital close to the user's residence may be preferentially output.
The provided data may be, for example, information on insurance premiums based on the calculated health degree by estimating the health degree as a numerical value by estimating a disease or the like that is likely to occur from the health state. In this case, when the health degree is small, that is, when the health is healthy, the calculated insurance premium may be reduced. The provided data may be information on an insurance plan suitable for a user selected from illnesses that are easily afflicted.
Furthermore, the provided data may be, for example, advertisement data related to health corresponding to the health condition, or coupon data related to health.

(4) In the present embodiment, the example in which provided data is determined based on one measurement data and an inquiry result has been described as an example, but the present invention is not limited to this. For example, the provided data may be determined from the measurement value and the tendency of the interview result by analyzing the measurement data and the interview result of a plurality of times. By doing so, there is a possibility that more useful information can be provided to the user.
(5) In the present embodiment, an example of grasping the health condition of a pet has been described as an example, but the present invention is not limited to this. It may be used for animals other than pets and people.

DESCRIPTION OF SYMBOLS 1 Urine test paper 3 Imaging box 4 Portable terminal 10 Test area 12, 13, 14 Test paper 20 Chart area 21 Color chart for color correction 22, 23, 24 Color chart for judgment 32 Through-hole 33 Film 40 Control part 41 Imaging process part 43 Image Correction Unit 44 Color Determination Unit 45 Measurement Acquisition Unit 47 Interrogation Processing Unit 48 Judgment Extraction Unit 49 Storage Processing Unit 50 Analysis Unit 51 Information Output Unit 60 Storage Unit 61a Inspection Application 63 Accumulated Data Storage Unit 65 Touch Panel Display 66 Camera 67 Flash Unit 68 Timer unit 70 Control unit 74 Interview data storage unit 75 Judgment data storage unit 76 Provided data storage unit 100 Inspection system

Claims (12)

An inspection member having an inspection region having a detection unit that reacts with a substance to be inspected and changes into a plurality of types of color tone, and a chart region having color pattern information;
An alignment device that arranges an imaging device for imaging the inspection member at a position where the inspection area and the chart area can be imaged,
Inspection tool equipped with. The inspection tool according to claim 1,
The inspection member is provided with alignment that is an arrangement position of the alignment member,
Inspection tool characterized by The inspection tool according to claim 1 or 2,
The alignment member has a box shape with an open bottom surface, is disposed on the inspection member, and has a holding unit that disposes the imaging device on the top surface.
The holding part has a through hole for photographing the inspection area and the chart area;
Inspection tool characterized by The inspection tool according to claim 3,
The through hole of the alignment member is covered with a light diffusing member having translucency;
Inspection tool characterized by In the inspection tool according to any one of claims 1 to 4,
The color pattern information includes a plurality of color tones used for color correction,
Inspection tool characterized by In the inspection tool according to any one of claims 1 to 4,
The color pattern information is arranged with a plurality of types of color tones corresponding to the color tone of the detecting unit that changes,
Inspection tool characterized by In the inspection tool according to any one of claims 1 to 6,
Comprising a light shielding member covering at least the detection part of the inspection member;
Inspection tool characterized by An imaging apparatus for use with the inspection tool according to any one of claims 1 to 7,
Photographing means for photographing the inspection member;
A color determination unit that determines a color tone of the detection unit based on the inspection region imaged by the imaging unit and the chart region;
Inspection data acquisition means for acquiring inspection data based on the color tone determined by the color determination means;
Providing
An imaging device characterized by the above. In the imaging device according to claim 8,
A time measuring means for measuring time;
As a result of the measurement by the time measuring means, a photographing processing means for executing photographing by the photographing means when a specified time is reached;
Providing
An imaging device characterized by the above. In the imaging device according to claim 8 or 9,
And a correction unit that recognizes a mark provided on the inspection member included in the captured image captured by the imaging unit, corrects the captured image based on the mark, and detects the inspection region and the chart region. about,
An imaging device characterized by the above.   The program for functioning a computer as an imaging device in any one of Claims 8-10. The inspection tool according to any one of claims 1 to 7,
An imaging device according to any one of claims 8 to 10,
An inspection apparatus comprising:

Images