CN103983572A - Optical detection and diagnostic device on basis of mobile equipment - Google Patents

Abstract

The invention provides an optical detection and diagnostic device on the basis of mobile equipment. The device comprises a first optical path subsystem, which is used to image an object to be detected; a second optical path subsystem, which is used to image an object to be detected, wherein the amplification factor of the second optical path subsystem is different from that of the first optical path subsystem; mobile equipment, which comprises an image collector and a processor, wherein the processor processes the images collected by the image collector to form image data so as to provide a detection result; a main frame, which is used to fix the optical equipment and the mobile equipment together; and a switching device, which supports the first optical path subsystem and the second optical path subsystem and is used to switch the positions of the two systems to make the images formed by the two systems be projected to the image collector so as to make the image collector collect the images. The detection convenience is improved through the combination of mobile equipment, and moreover different amplification factors are provided for objects with different sizes.

Description

A kind of optical detection diagnostic device based on mobile device

Technical field

Technical field of the present invention relates to optical instrument field, relates in particular to a kind of optical detection diagnostic device based on mobile device.

Background technology

Along with popularizing of fertility knowledge, increasing family starts to pay close attention to healthy reproduction.And the impact bringing due to ecological deterioration and working pressure, there is difficulty, the even not conceptive situation of becoming pregnant in a lot of families.And owing to marrying at present and the childbearing age is generally delayed, women's health and physiological period are along with the increase at age has also brought a lot of uncertainties to pregnancy.In order to increase the probability of becoming pregnant, grasping exactly the female ovulation time becomes an important ring.

The checkout equipment onset of ovulation existing in the market has urine detection and saliva to detect two kinds.Although urine detection equipment is more accurate, expensive, and use the restriction that is subject to place, time.And saliva is detected, in the salinity rising onset of ovulation, be coated in the principle of the air-dry rear formation crystallization of minute surface according to women's saliva, can realize the accurately predicting to the onset of ovulation.Current existing saliva checkout equipment only depends on user's naked eyes qualitative observation, need to necessarily train user, and uncertainty is higher.

On the other hand, can the activity of mankind spermatozoon, quantity and density be the important indicators that become pregnant.The detection that hospital can provide is subject to many restrictions of time, place, individual privacy and individual psychology situation.The detection of female fertility index and male fertility index is integrated in an equipment, also will brings great convenience for the daily monitoring of family.

But the yardstick of saliva crystallization is in a centimetre magnitude, and the size of sperm is in 50 micron dimensions, only depends on object lens cannot realize observation and the measurement to two kinds of body fluid.

How can realize comparatively easily the observation of two kinds of even multiple body fluid is become to one of those skilled in the art's technical matters urgently to be resolved hurrily.

Summary of the invention

The technical matters that the present invention solves is to provide a kind of optical detection diagnostic device based on mobile device, and having different enlargement ratios can observe different samples, meanwhile, can realize observing to improve in conjunction with mobile device and detect convenience.For addressing the above problem, the invention provides a kind of optical detection diagnostic device based on mobile device, for object under test is detected, comprising: optical device, comprising: the first light path subsystem, for to object under test imaging; The second light path subsystem, for to object under test imaging, the enlargement factor of described the second light path subsystem is different from the enlargement factor of described the first light path subsystem; Mobile device, comprising: image acquisition device and processor, and described processor, for the image of image acquisition device collection is processed, forms view data, so that testing result to be provided; Main body frame, for being fixed together described optical device and described mobile device; Switching device, be arranged on described main body frame, be used for supporting described the first light path subsystem and described the second light path subsystem, and make one of them imaging of described first, second light path subsystem can be projected to described image acquisition device for switching described the first light path subsystem and described the second light path subsystem position, so that described image acquisition device gathers imaging.

Alternatively, described main body frame comprises: bottom is provided with the first draw-in groove of the first opening, for placing described mobile device; What be connected with the first draw-in groove bottom holds cavity, for placing described switching device and optical device; The image acquisition device of described mobile device is towards described the first draw-in groove bottom and staggered relatively with described the first opening; Described switching device is used for switching described the first light path subsystem and described the second light path subsystem position makes one of them imaging of described first, second light path subsystem be projected to described image acquisition device through described the first opening.

Alternatively, described switching device is rotating disk, for switch the position of described the first light path subsystem and described the second light path subsystem by rotation.

Alternatively, described in hold cavity sidewall be provided with the second opening, it is external that a part for described rotating disk extends to described container cavity by described the second opening.

Alternatively, described main body frame also comprises: cover plate, holds the opposite side that cavity connects the first draw-in groove one side described in being arranged at; Described cover plate is provided with the second draw-in groove towards a described side of holding cavity, and described the second draw-in groove is used for placing object under test; When described object under test is located at described the second draw-in groove, being tested surface is towards the described cavity that holds, and for making to be positioned at the first or second light path subsystem that holds cavity, described being tested surface carried out to imaging.

Alternatively, on described mobile device, be also provided with flashlamp; Described the first draw-in groove bottom is also provided with the second opening, for expose described flashlamp in the time that mobile device is positioned over described the first draw-in groove; Be placed with light path pipeline, the light sending for transmitting described flashlamp described holding in cavity; On described cover plate, the second draw-in groove bottom is provided with depressed area, in described depressed area, be provided with reflective mirror, on described object under test, be provided with light hole, described in the light transmission that the described flashlamp of described light path pipeline transmission sends, light hole arrives described reflective mirror, and the light of described reflective mirror reflection is for illuminating the detection zone of described object under test.

Alternatively, in described mobile device, be provided with application program, for controlling opening or closing of described flashlamp.

Alternatively, described the first light path subsystem comprises the first object lens, and the second light path subsystem comprises the second object lens, and described the first object lens have different enlargement ratios from described the second object lens.

Alternatively, on described switching device, be also provided with: primary importance control device, for adjusting the position of the first object lens between image collecting device and object under test; Second place control device, for adjusting the position of the second object lens between image collecting device and object under test.

Alternatively, on described switching device, be provided with the first lens barrel for holding described the first light path subsystem, for holding the second lens barrel of described the second light path subsystem.

Alternatively, on described switching device, be provided with motor, being connected with described motor can be by the principal goods mirror of described motor driving focusing gear, be arranged at the first object lens focusing gear being meshed with described principal goods mirror focusing gear on described the first lens barrel, be arranged at the second object lens focusing gear being meshed with described principal goods mirror focusing gear on described the second lens barrel, described motor, principal goods mirror focusing gear, the first object lens focusing gear forms described primary importance control device, described motor, principal goods mirror focusing gear, the second object lens focusing gear forms described second place control device.

Alternatively, described motor is electrically connected with described mobile device, in described mobile device, is provided with application program, regulates the position of described the first object lens and the second object lens for controlling described motor, to carry out automatic focus.

Alternatively, described motor is connected by circuit interface with described mobile device, and described circuit interface is arranged on described main body frame.

Alternatively, described circuit interface comprises USB interface.

Alternatively, on the main body frame between described the first draw-in groove and the second draw-in groove, be also provided with gear turntable, rotated for manually adjusting, to carry out Manual focusing; The principal goods mirror focusing gear that can be rotated by described gear turntable and drive is connected with described gear turntable; Be arranged at the first object lens focusing gear being meshed with described principal goods mirror focusing gear on described the first lens barrel; Be arranged at the second object lens focusing gear being meshed with described principal goods mirror focusing gear on described the second lens barrel; Described gear turntable, principal goods mirror focusing gear, the first object lens focusing gear form described primary importance control device; Described gear turntable, principal goods mirror focusing gear, the second object lens focusing gear form described second place control device.

Alternatively, described image collector is set to camera.

Alternatively, the processor in described mobile device, also obtains testing result for described view data being carried out to analysis and calculation, and exports described check result.

Alternatively, the described optical detection diagnostic device based on mobile device also comprises: Cloud Server, for receiving the view data that described mobile device is uploaded, and described view data is carried out to analysis and calculation acquisition testing result, and described check result is back to described mobile device.

Compared with prior art, technical scheme of the present invention comprises following advantage:

The optical detection diagnostic device that the present invention is based on mobile device is realized detection and the result output to object under test in conjunction with the image acquisition device in mobile device and processor, in addition, realize the switching of the first light path subsystem and described the second light path subsystem by switching device, the enlargement factor of described the second light path subsystem is different from the enlargement factor of described the first light path subsystem, can meet the testing requirement of different objects under test, improve the scope of application of optical detection diagnostic device.

Brief description of the drawings

Fig. 1 is the explosive view that the present invention is based on optical detection diagnostic device one embodiment of mobile device.

Embodiment

As described in the background art, the microscopic system structure that prior art can realize different enlargement ratios is comparatively complicated, cost is higher, and therefore the scope of application is restricted.

In order to solve the technical problem, the invention provides a kind of optical detection diagnostic device based on mobile device of a kind of optical detection diagnostic device based on mobile device, for object under test is detected, comprising: optical device, comprise: the first light path subsystem, for to object under test imaging; The second light path subsystem, for to object under test imaging, the enlargement factor of described the second light path subsystem is different from the enlargement factor of described the first light path subsystem; Mobile device, comprising: image acquisition device and processor, and described processor, for the image of image acquisition device collection is processed, forms view data, so that testing result to be provided; Main body frame, for being fixed together described optical device and described mobile device; Switching device, be arranged on described main body frame, be used for supporting described the first light path subsystem and described the second light path subsystem, and make one of them imaging of described first, second light path subsystem can be projected to described image acquisition device for switching described the first light path subsystem and described the second light path subsystem position, so that described image acquisition device gathers imaging.

The optical detection diagnostic device that the present invention is based on mobile device is realized detection and the result output to object under test in conjunction with the image acquisition device in mobile device and processor, in addition, realize the switching of the first light path subsystem and described the second light path subsystem by switching device, the enlargement factor of described the second light path subsystem is different from the enlargement factor of described the first light path subsystem, can meet the testing requirement of the object under test of different size, improve the scope of application of optical detection diagnostic device.

For above-mentioned purpose of the present invention, feature and advantage can more be become apparent, below in conjunction with accompanying drawing, specific embodiments of the invention are described in detail.

With reference to figure 1, show the schematic diagram of optical detection diagnostic device one embodiment that the present invention is based on mobile device.The optical detection diagnostic device that the present invention is based on mobile device comprises: optical device, mobile device, main body frame and switching device.In the present embodiment, described mobile device is mobile phone, and the image acquisition device on described mobile device is camera, but the present invention is not restricted its kind of mobile device and image acquisition, described mobile device can also be panel computer, and described image acquisition device equipment can also be miniature camera.

Described main body frame 122, is fixedly connected with mobile device 125 for realizing described optical device.

Particularly, in the present embodiment, described main body frame 122 comprises:

The first draw-in groove, for placing described mobile device 125.In the present embodiment, the width dimensions of described the first draw-in groove and described mobile device 125 matches, described the first draw-in groove bottom is provided with the first opening 120, when described mobile device 125 is positioned over described the first draw-in groove, the camera 124 of described mobile device 125 is towards described the first draw-in groove bottom and staggered relatively with described the first opening 120, thereby described the first opening 120 can be exposed the camera 124 on described mobile device 125.

Hold cavity, for placing described optical device.The described cavity that holds is connected and surrounds a cubic type space between two by four side plates, and described cubic type space is used for placing described optical device and switching device.But the present invention does not limit described container cavity shape, according to different mobile devices, described container cavity shape can change, for example, described in to hold cavity can also be cylindrical shape.

Switching device, for the first light path subsystem and the described second light path subsystem of support of optical equipment, and make one of them imaging of described first, second light path subsystem can be projected to described image acquisition device for switching described the first light path subsystem and described the second light path subsystem position.

In the present embodiment, switching device is a rotating disk 117, the position of switching described the first light path subsystem and described the second light path subsystem by rotation.Described in being positioned at, described rotating disk 117 holds cavity bottom.But the present invention is not restricted this, described switching device can also be to realize by translation the device that switch position.

On described rotating disk 117, be provided with the first lens barrel 114 and the second lens barrel 115, described the first lens barrel 114 is for holding the first light path subsystem, and described the second lens barrel 115 is for holding the second light path subsystem.In the present embodiment, described the first light path subsystem comprises the first object lens 110, and described the second light path subsystem comprises the second object lens 108.But the present invention is not restricted this, described the first light path subsystem and described the second light path subsystem are the optical device that can realize amplification outside object lens, for example, and convex lens.

Described the first object lens 110 are different with the enlargement ratio of described the second object lens 108, and particularly, described in the present embodiment, the enlargement ratio of the first object lens 110 is larger, in the scope of 90～110 times.The enlargement ratio of described the second object lens 108 is less, in the scope of 10～20 times.The enlargement ratio of the present invention's the first object lens 110 and the second object lens 108 is not restricted, and can be also that the enlargement ratio of the second object lens is larger.

The described sidewall that holds cavity is provided with the second opening 121, described rotating disk 117 can extend to described container cavity external body by described the second opening 121, operating personnel can be by extending in container cavity external body the part of rotating disk 117 described rotating disk 117 is rotated, to change the position of the first lens barrel 114 and the second lens barrel 115, described the first lens barrel 114 or the second lens barrel 115 are oppositely arranged with described the first opening, are projected on described camera 124 thereby make the first object lens 110 or the second object lens 108 imagings see through described the first opening.

Described main body frame also comprises:

Cover plate 102, holds the opposite side that cavity connects the first draw-in groove one side described in being arranged at; Described cover plate 102 holds cavity described in described optical device, switching device etc. are sealed in.

As shown in Figure 1, described cover plate 102 is provided with the second draw-in groove 126 towards a described side of holding cavity, and described the second draw-in groove 126 is for placing object under test 103; When described object under test 103 is located at described the second draw-in groove 126, being tested surface is towards described cavity one side of holding, and makes to be positioned at the first or second light path subsystem that holds cavity described being tested surface is carried out to imaging.

It should be noted that, if natural light intensity can obtain the picture of object under test 103 with certain brightness by natural light enough greatly when described optical device carries out imaging, but the present invention is not restricted this.

As shown in Figure 1, in the present embodiment, on described mobile device 125, flashlamp 123 is also set, can provides by described flashlamp 123 illumination light of object under test 103, to improve accuracy of detection.

Described the first draw-in groove bottom can also be provided with the second opening 119 particularly, described the second opening 119 is corresponding with position, the shape and size of the flashlamp 123 of described mobile device 125, for expose described flashlamp 123 in the time that mobile device 125 is positioned over described the first draw-in groove.

Be placed with light path pipeline 113, the light sending for transmitting described flashlamp 123 described holding in cavity.Alternatively, described light path pipeline 113 can be optical fiber, transmits to cover plate 102 for the light that flashlamp 123 is sent.

On described cover plate 102, the bottom of the second draw-in groove 126 is provided with depressed area, is provided with reflective mirror 101 in described depressed area, is provided with light hole 104 on described object under test.

Described in the light transmission that the described flashlamp that described light path pipeline 113 transmits sends, light hole 104 arrives described reflective mirror 101, and the light that described reflective mirror 101 reflects is for illuminating the detection zone 105 of described object under test 103.In the present embodiment, described reflective mirror 101 comprises the first relative reflective mirror and the second reflective mirror, described the first reflective mirror and the second reflective mirror be oppositely arranged, all towards described object under test 103, particularly, the angle of described the first reflective mirror and described the second reflective mirror and described cover plate 102 is 45 degree.

In the present embodiment, described light hole 104 is square light hole, and described detection zone 105 is circle detection district.But the present invention is not restricted the shape of light hole 104 on object under test 103 and detection zone 105.

In addition, as shown in Figure 1, described object under test 103 is also provided with Handheld Division 106, optionally, described Handheld Division 106 is frosted region, has improved the problem of friction force object under test 103 landings when reducing hand-held object under test 103, use impression that can optimizing user.

Alternatively, in described mobile device 125, be provided with application program, for controlling opening or closing of described flashlamp 123.

Alternatively, on described switching device, be also provided with: primary importance control device, for adjusting the position of the first object lens between image collecting device and object under test; Second place control device, for adjusting the position of the second object lens between image collecting device and object under test.Can adjust the first object lens, the position of the second object lens between object under test and graphical sensory device by described primary importance control device and described second place device, focus on thereby realize.

As shown in Figure 1 11, on described switching device (being rotating disk 117), be provided with motor 112, described motor 112 is connected by a dead axle 116 with described rotating disk 117.

On described motor 112, be also provided with that be connected with described motor can be by the principal goods mirror of described motor driving focusing gear 111, be arranged at the first object lens focusing gear 109 being meshed with described principal goods mirror focusing gear 111 on described the first lens barrel 114, be arranged at the second object lens focusing gear 107 being meshed with described principal goods mirror focusing gear 111 on described the second lens barrel 115.

Described motor 112, principal goods mirror focusing gear 111, the first object lens focusing gear 109 form described primary importance control device, for regulating the position of the first object lens 110 between object under test 126 and camera 124.Described motor 112, principal goods mirror focusing gear 111, the second object lens focusing gear 107 form described second place control device, for regulating the position of the second object lens 108 between object under test 126 and camera 124.

Alternatively, described motor 112 is electrically connected with described mobile device 125, in described mobile device, is provided with application program, regulates the position of described the first object lens 110 and the second object lens 108, to carry out automatic focus for controlling described motor 112.

In the present embodiment, described motor 112 is connected by usb 1 18 with described mobile device 125, described in described usb 1 18 is arranged at, hold on the sidewall of cavity and (it should be noted that, wire between wire between motor 112 and usb 1 18 and usb 1 18 and mobile device 125, not in diagram, should not limit the present invention with this).

In other embodiments, described motor 112 can also be realized being connected between motor and mobile device 125 by other circuit interfaces of non-USB interface.

It should be noted that, except realizing automatic focus in conjunction with motor, can also be set to manual mode in other are implemented and realize the one 110 and second mode that focus on of object lens 108.For example: on the main body frame between described the first draw-in groove and the second draw-in groove, be also provided with gear turntable, rotated for manually adjusting, to carry out Manual focusing; The principal goods mirror focusing gear that can be rotated by described gear turntable and drive is connected with described gear turntable; Be arranged at the first object lens focusing gear being meshed with described principal goods mirror focusing gear on described the first lens barrel; Be arranged at the second object lens focusing gear being meshed with described principal goods mirror focusing gear on described the second lens barrel; Described gear turntable, principal goods mirror focusing gear, the first object lens focusing gear form described primary importance control device; Described gear turntable, principal goods mirror focusing gear, the second object lens focusing gear form described second place control device.Gear turntable described herein can similar Fig. 1 turntable 117 structure, a part extends to be held outside cavity, user can manual rotation gear turntable and is regulated the position of described the first object lens 110 and the second object lens 108, to carry out Manual focusing.

After the camera 124 of mobile device 125 obtains the image of object under test 103,125 processor in described mobile device, also processes for the image that camera 124 is gathered, and forms view data.Alternatively, described processor also obtains testing result for described view data being carried out to analysis and calculation, and exports described check result, particularly, and can be by the display screen of mobile device 125 to for described testing result be provided.

Or, optical detection diagnostic device can also comprise: Cloud Server (not shown), described view data is uploaded to Cloud Server by described processor, described Cloud Server is for receiving the view data that described mobile device 125 is uploaded, and described view data is carried out to analysis and calculation acquisition testing result, and described check result is back to described mobile device 125.Cloud Server has powerful storage, data analysis and computing power, and described result is back to described mobile device 125 by (in 1-2 minute) quickly.

It should be noted that, described in described mobile device 125, application program can be the application program that is applicable to Android or Apple Macintosh operating system.But the present invention is not restricted this.

Use procedure below in conjunction with the optical detection diagnostic device that the present invention is based on mobile device further describes technical solution of the present invention.

When user carries out detecting the onset of ovulation, saliva is positioned over to the surveyed area 105 of described object under test 103, and described object under test 103 is positioned in the second draw-in groove 126 of described cover plate 102, make the face bottom of described the second draw-in groove 126 dorsad of object under test surveyed area 105, and towards optical device.

Mobile device 125 is positioned in the first draw-in groove, makes the first opening 120 of the first draw-in groove bottom expose camera 124 and the second opening 119 exposes described flashlamp 123.

By rotary turnplate 117, the second lens barrel 115 is aimed at described the first opening 120, adjust motor 112 by the application program in mobile device 125, make the second object lens 108 that multiplying power is less become sharply defined image to the surveyed area that is placed with saliva, picture sees through described the first opening 120 and is projected to described camera 124, is gathered by described camera 124.

In order to improve the brightness of imaging, can open by the application program controlling flashlamp 123 of mobile device 125, the light that flashlamp 123 sends transfers to by light path pipeline 113 on the reflective mirror 101 of cover plate 102, reflective mirror 101 reflected light can illuminate described region to be measured 105, thereby obtain the higher picture of brightness, and then collected details image more accurately by described camera 124.

The image that the processor of mobile device 125 obtains camera 124 carries out image processing (for example: rim detection, object identification, format conversion etc.), obtains view data.

Described mobile device 125 can upload to Cloud Server by described view data, and described Cloud Server, for described view data is stored, also contrasts for the saliva crystallization to the view data of having stored, and obtains the testing result onset of ovulation.

Described Cloud Server contrasts in conjunction with the view data of having stored, and for example, by contrasting the view data that same date does not send, judges in image and starts to occur fernlike crystal image, and judging distance ovulation day is 2-3 days; By continuous contrast fernlike crystal pattern, pattern is judged as ovulation day when the most clear; And along with the date changes, fernlike crystal pattern gradually broken, dissolve until become mottled pattern, represent to enter luteal phase.User can be according to self needs, and the result based on detecting the onset of ovulation is selected become pregnant or practise contraception.

Particularly, described Cloud Server can carry out image ratio pair by algorithm, and the bulk data based on having stored is analyzed, and improves the accuracy of testing result.Described Cloud Server is also for described body fluid testing result is sent to described mobile device, with to user feedback health check-up data.

Similarly, when user need to carry out spermatozoon activity detection, seminal fluid can be positioned over to the surveyed area 105 of object under test 103.Because the size of sperm is in 50 micron dimensions, much smaller than the yardstick (centimetre magnitude) of saliva crystallization, while detection, can the first lens barrel 114 be aimed at the first opening 120 by rotating disk 117 rotations, thereby first object lens 110 larger by enlargement ratio carry out imaging to seminal fluid, so that obtain the image information of sperm.

As can be seen here, user uses while the present invention is based on the optical detection diagnostic device of mobile device, can select based on detecting the difference of body fluid (or other detect sample) the light path subsystem of corresponding enlargement ratio.The optical detection diagnostic device that the present invention is based on mobile device has improved the scope of application.

In addition, the present invention detects in conjunction with mobile device, and user can detect according to demand in real time, has improved ease of use.

Although the present invention discloses as above, the present invention is not defined in this.Any those skilled in the art, without departing from the spirit and scope of the present invention, all can make various changes or modifications, and therefore protection scope of the present invention should be as the criterion with claim limited range.

Claims (18)

1. the optical detection diagnostic device based on mobile device, for object under test is detected, is characterized in that, comprising: optical device, comprising: the first light path subsystem, for to object under test imaging; The second light path subsystem, for to object under test imaging, the enlargement factor of described the second light path subsystem is different from the enlargement factor of described the first light path subsystem; Mobile device, comprising: image acquisition device and processor, and described processor, for the image of image acquisition device collection is processed, forms view data, so that testing result to be provided; Main body frame, for being fixed together described optical device and described mobile device; Switching device, be arranged on described main body frame, be used for supporting described the first light path subsystem and described the second light path subsystem, and make one of them imaging of described first, second light path subsystem can be projected to described image acquisition device for switching described the first light path subsystem and described the second light path subsystem position, so that described image acquisition device gathers imaging.

2. the optical detection diagnostic device based on mobile device as claimed in claim 1, is characterized in that, described main body frame comprises: bottom is provided with the first draw-in groove of the first opening, for placing described mobile device; What be connected with the first draw-in groove bottom holds cavity, for placing described switching device and optical device; The image acquisition device of described mobile device is towards described the first draw-in groove bottom and staggered relatively with described the first opening; Described switching device is used for switching described the first light path subsystem and described the second light path subsystem position makes one of them imaging of described first, second light path subsystem be projected to described image acquisition device through described the first opening.

3. the optical detection diagnostic device based on mobile device as claimed in claim 2, is characterized in that, described switching device is rotating disk, for switch the position of described the first light path subsystem and described the second light path subsystem by rotation.

4. the optical detection diagnostic device based on mobile device as claimed in claim 3, is characterized in that, described in hold cavity sidewall be provided with the second opening, it is external that a part for described rotating disk extends to described container cavity by described the second opening.

5. the optical detection diagnostic device based on mobile device as claimed in claim 2, is characterized in that, described main body frame also comprises: cover plate, holds the opposite side that cavity connects the first draw-in groove one side described in being arranged at; Described cover plate is provided with the second draw-in groove towards a described side of holding cavity, and described the second draw-in groove is used for placing object under test; When described object under test is located at described the second draw-in groove, being tested surface is towards the described cavity that holds, and for making to be positioned at the first or second light path subsystem that holds cavity, described being tested surface carried out to imaging.

6. the optical detection diagnostic device based on mobile device as claimed in claim 5, is characterized in that, is also provided with flashlamp on described mobile device; Described the first draw-in groove bottom is also provided with the second opening, for expose described flashlamp in the time that mobile device is positioned over described the first draw-in groove; Be placed with light path pipeline, the light sending for transmitting described flashlamp described holding in cavity; On described cover plate, the second draw-in groove bottom is provided with depressed area, in described depressed area, be provided with reflective mirror, on described object under test, be provided with light hole, described in the light transmission that the described flashlamp of described light path pipeline transmission sends, light hole arrives described reflective mirror, and the light of described reflective mirror reflection is for illuminating the detection zone of described object under test.

7. the optical detection diagnostic device based on mobile device as claimed in claim 6, is characterized in that, in described mobile device, is provided with application program, for controlling opening or closing of described flashlamp.

8. the optical detection diagnostic device based on mobile device as claimed in claim 1, it is characterized in that, described the first light path subsystem comprises the first object lens, and the second light path subsystem comprises the second object lens, and described the first object lens have different enlargement ratios from described the second object lens.

9. the optical detection diagnostic device based on mobile device as claimed in claim 8, is characterized in that, on described switching device, is also provided with: primary importance control device, for adjusting the position of the first object lens between image collecting device and object under test; Second place control device, for adjusting the position of the second object lens between image collecting device and object under test.

10. the optical detection diagnostic device based on mobile device as claimed in claim 9, is characterized in that, is provided with the first lens barrel for holding described the first light path subsystem on described switching device, for holding the second lens barrel of described the second light path subsystem.

The 11. optical detection diagnostic devices based on mobile device as claimed in claim 10, it is characterized in that, on described switching device, be provided with motor, being connected with described motor can be by the principal goods mirror of described motor driving focusing gear, be arranged at the first object lens focusing gear being meshed with described principal goods mirror focusing gear on described the first lens barrel, be arranged at the second object lens focusing gear being meshed with described principal goods mirror focusing gear on described the second lens barrel, described motor, principal goods mirror focusing gear, the first object lens focusing gear forms described primary importance control device, described motor, principal goods mirror focusing gear, the second object lens focusing gear forms described second place control device.

The 12. optical detection diagnostic devices based on mobile device as claimed in claim 11, it is characterized in that, described motor is electrically connected with described mobile device, in described mobile device, be provided with application program, regulate the position of described the first object lens and the second object lens for controlling described motor, to carry out automatic focus.

The 13. optical detection diagnostic devices based on mobile device as claimed in claim 12, is characterized in that, described motor is connected by circuit interface with described mobile device, and described circuit interface is arranged on described main body frame.

The 14. optical detection diagnostic devices based on mobile device as claimed in claim 13, is characterized in that, described circuit interface comprises USB interface.

The 15. optical detection diagnostic devices based on mobile device as claimed in claim 10, is characterized in that, on the main body frame between described the first draw-in groove and the second draw-in groove, are also provided with gear turntable, rotate, to carry out Manual focusing for manually being adjusted; The principal goods mirror focusing gear that can be rotated by described gear turntable and drive is connected with described gear turntable; Be arranged at the first object lens focusing gear being meshed with described principal goods mirror focusing gear on described the first lens barrel; Be arranged at the second object lens focusing gear being meshed with described principal goods mirror focusing gear on described the second lens barrel; Described gear turntable, principal goods mirror focusing gear, the first object lens focusing gear form described primary importance control device; Described gear turntable, principal goods mirror focusing gear, the second object lens focusing gear form described second place control device.

The 16. optical detection diagnostic devices based on mobile device as claimed in claim 1, is characterized in that, described image collector is set to camera.

The 17. optical detection diagnostic devices based on mobile device as claimed in claim 1, is characterized in that, the processor in described mobile device also obtains testing result for described view data being carried out to analysis and calculation, and exports described check result.

The 18. optical detection diagnostic devices based on mobile device as claimed in claim 1, it is characterized in that, the described optical detection diagnostic device based on mobile device also comprises: Cloud Server, for receiving the view data that described mobile device is uploaded, and described view data is carried out to analysis and calculation acquisition testing result, and described check result is back to described mobile device.