CN208693256U - Ocular tissue's measuring device and system - Google Patents

Abstract

The utility model provides a kind of ocular tissue's measuring device and system, is related to monitoring field.It includes wearable device and at least one first image collecting device, at least one second image collecting device, at least one first sensing device and at least one second sensing device for being set on the wearable device.Wearable device is for being worn on user's head；At least one first image collecting device is used to acquire the relative position image of the multiple ocular tissues in left side of user；At least one first sensing device is used to acquire the distance of multiple ocular tissues on the left of user；At least one second image collecting device is used to acquire the relative position image of the multiple ocular tissues of user right；At least one second sensing device is used to acquire the distance of the multiple ocular tissues of user right.The utility model is capable of the position change and relative positional relationship of the multiple ocular tissues of real-time monitoring, preferably monitors ocular tissue.

Description

Ocular tissue's measuring device and system

Technical field

The utility model relates to monitor field, in particular to a kind of ocular tissue's measuring device and system.

Background technique

With the development of science and technology, people also increasingly pay attention to the monitoring of physical condition.Eyeball, which is used as, to be possessed Bright cornea arrives organ as " observation window ", allows people can be with the shape and morphologic change of dynamic observation eye inner tissue.At present Can only be by hospital or the professional equipment such as OCT of clinic, eye ultrasonic examination to the detection of eye inner tissue, but these equipment bodies Product is larger, is not easy to for a long time observation in real time, can not be in living scene for monitoring the change of ocular tissue.

Utility model content

The purpose of this utility model is to provide a kind of ocular tissue's measuring device and systems, being capable of the multiple eyes of real-time monitoring The position change and relative positional relationship of tissue, preferably monitor ocular tissue.

The embodiments of the present invention are achieved in that

In a first aspect, the utility model embodiment provides a kind of ocular tissue's measuring device comprising wearable device, at least One the first image collecting device, at least one second image collecting device, at least one first sensing device and at least one A second sensing device, it is at least one described first image collecting device, at least one described second image collecting device, described At least one first sensing device and at least one described second sensing device are set on the wearable device, in which: institute Wearable device is stated for being worn on user's head；At least one described first image collecting device is used to acquire the left side of the user The relative position image of the multiple ocular tissues in side；At least one described first sensing device is for acquiring described in the left side of the user The distance of multiple ocular tissues；At least one described second image collecting device is used to acquire the multiple ocular tissues in right side of the user Relative position image；At least one described second sensing device is used to acquire the multiple ocular tissue in right side of the user Distance.

In the utility model preferred embodiment, above-mentioned wearable device includes the first frame, the second frame, first support And second support, first frame are connect with second frame, it is remote that the first support is connected to first frame One end from second frame, the second support are connected to the one end of second frame far from first frame, institute It states the first image collecting device and first sensing device is set on first frame, second image collecting device It is set on second frame with second sensing device, the first image acquisition device and first sensing device The direction extended towards the first support is arranged, and second image collecting device and second sensing device are described in The direction setting that second support extends.

In the utility model preferred embodiment, above-mentioned wearable device further includes third frame, the 4th frame and company Splicing, the third frame are connected with the 4th frame, and one end of the connecting rope is connected to the third frame far from institute One end of the 4th frame is stated, the other end of the connecting rope is connected to the described one end of 4th frame far from the third frame, The first image acquisition device and first sensing device are set on the third frame, second image collector It sets and is set on the 4th frame with second sensing device, the head that the connecting rope is used to be sheathed on the user makes The third frame keeps the 4th frame multiple close to the right side of the user close to the multiple ocular tissues in the left side of the user Ocular tissue.

In the utility model preferred embodiment, above-mentioned connecting rope is made of elastic material.

In the utility model preferred embodiment, above-mentioned ocular tissue's measuring device further includes wireless transport module, described Wireless transport module respectively with the first image acquisition device, second image collecting device, first sensing device And second sensing device coupling, described in the wireless transport module is used to acquire the first image acquisition device The multiple eye in left side for the user that the distance of the multiple ocular tissue in the left side of user, first sensing device acquire Organize the multiple ocular tissue in right side of the user of the image of relative position, second image acquisition device away from From and second sensing device acquisition the user the multiple ocular tissue in right side relative position image send It goes out.

In the utility model preferred embodiment, above-mentioned ocular tissue's measuring device further includes processor, the processor It is coupled with the wireless transport module, the processor is used for opposite according to the multiple ocular tissues in left side of the user received The distance of the multiple ocular tissues of the image of position and user left side obtains the three-dimensional figure of the multiple ocular tissues in left side of the user As and the processor be used for according to the image of the multiple ocular tissue relative positions in right side of the user received and described The distance of the multiple ocular tissues of user right obtains the 3-D image of the multiple ocular tissues in right side of the user.

In the utility model preferred embodiment, above-mentioned ocular tissue's measuring device further includes host computer, the host computer Coupled with the processor, the host computer be used for receive and show the multiple ocular tissues in the left side of the user 3-D image and The 3-D image of the multiple ocular tissues in the right side of the user.

In the utility model preferred embodiment, above-mentioned ocular tissue's measuring device further includes third image collecting device, The third image collecting device is set on the wearable device, and the third image collecting device is for acquiring the user Locating environmental information.

In the utility model preferred embodiment, above-mentioned first sensing device is TOF sensor, the second induction dress It is set to TOF sensor.

Second aspect, the utility model embodiment provide a kind of ocular tissue's measuring system comprising mobile terminal and upper It states and has organized measuring device, the mobile terminal is coupled with the wireless transport module, and the mobile terminal is for remotely obtaining The relative position image of the multiple ocular tissue in left side of the user of the first image acquisition device acquisition, described first The institute of the distance of the multiple ocular tissue in left side of the user of sensing device acquisition, second image acquisition device The user's that the relative position image and second sensing device for stating the multiple ocular tissue in right side of user acquire The distance of the multiple ocular tissue in right side.

Ocular tissue's measuring device and system provided by the embodiment of the utility model include that wearable device is filled with wearing is set to The first image collecting device of at least one set, at least one second image collecting device, at least one first sensing device And at least one second sensing device.Wearable device is for being worn on user's head；By the way that at least one first image is adopted Acquisition means are used to acquire the relative position image of the multiple ocular tissues in left side of user, at least one first sensing device is used to adopt The distance for collecting multiple ocular tissues on the left of user, thus the position change of the multiple left side ocular tissues of real-time monitoring user and relative position Relationship；By the way that at least one second image collecting device to be used to acquire the relative position image of the multiple ocular tissues of user right, At least one second sensing device is used to acquire the distance of the multiple ocular tissues of user right to the multiple right sides of real-time monitoring user The position change and relative positional relationship of branch hole tissue, preferably monitor ocular tissue, realize to eyeball tissue for a long time, it is convenient and The monitoring being applicable in living scene.

Other feature and advantage of the utility model will illustrate in subsequent specification, also, partly from specification It becomes apparent, or is understood and implementing the utility model embodiment.The purpose of this utility model and other advantages can It is achieved and obtained by structure specifically indicated in the written description, claims, and drawings.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.By shown in attached drawing, the above and other purpose, feature of the utility model It will be more clear with advantage.Identical appended drawing reference indicates identical part in all the attached drawings.Actual size is not pressed deliberately Equal proportion scaling draws attached drawing, it is preferred that emphasis is shows the purport of the utility model.

Fig. 1 is a kind of structural schematic diagram of ocular tissue's measuring device provided by the embodiment of the utility model；

Fig. 2 is another structural schematic diagram of ocular tissue's measuring device provided by the embodiment of the utility model；

Fig. 3 is the structural block diagram of ocular tissue's measuring device provided by the embodiment of the utility model；

Fig. 4 is the structural block diagram of ocular tissue's measuring system provided by the embodiment of the utility model.

Icon: 100- ocular tissue measuring device；110- wearable device；The first frame of 111-；The second frame of 112-；113- One bracket；114- second support；115- third frame；The 4th frame of 116-；117- connecting rope；The first image collector of 120- It sets；The second image collecting device of 130-；The first sensing device of 140-；The second sensing device of 150-；160- wireless transport module； 170- processor；180- host computer；190- third image collecting device；200- ocular tissue measuring system；210- mobile terminal.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, or The utility model product using when the orientation or positional relationship usually put, be merely for convenience of description the utility model and letter Change description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation construct and Operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " etc. are only used for area Divide description, is not understood to indicate or imply relative importance.

In addition, the terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, and It is that can be slightly tilted.It is not to indicate the structure if "horizontal" only refers to that its direction is more horizontal with respect to for "vertical" It has to fully horizontally, but can be slightly tilted.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, Or it is integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, intermediary can also be passed through It is indirectly connected, can be the connection inside two elements.For the ordinary skill in the art, it can be managed with concrete condition Solve the concrete meaning of above-mentioned term in the present invention.

First embodiment

Fig. 1 or Fig. 2 is please referred to, the present embodiment provides a kind of ocular tissue's measuring devices 100, wherein it includes wearable device 110, at least one first image collecting device 120, at least one second image collecting device 130, at least one first induction Device 140 and at least one second sensing device 150.

As an embodiment of the present embodiment, the first image acquisition device 120 is set to the wearable device On 110, second image collecting device 130 is set on the wearable device 110, and first sensing device 140 is arranged In on the wearable device 110 and second sensing device 150 is set on the wearable device 110.

Wherein, the wearable device 110 is for being worn on user's head, it is possible to understand that, the wearable device 110 can be with For glasses, can be cap etc., it is preferred that in the present embodiment, the wearable device 110 be glasses.

At least one described first image collecting device 120 is used to acquire the opposite position of multiple ocular tissues on the left of the user Set image, wherein the quantity of the first image acquisition device 120 can for one, can be two, can be three, It can be multiple, it is preferred that in the present embodiment, the quantity of the first image acquisition device 120 is one；As a kind of side Formula, the first image acquisition device 120 are camera；It should be understood that on the left of the user multiple ocular tissues include eyelid, Conjunctiva, cornea, anterior chamber, iris, crystalline lens, vitreous-body-retina and other ocular tissues, wherein the first image acquisition dress It sets 120 and is mainly used for acquiring crystalline body front surface under the premise of no mydriasis to the ocular tissue's image and each eye between cornea Relative position image between tissue can acquire ocular tissue's image of posterior surface of lens and each in the case where having mydriasis Relative position image between ocular tissue.

In the present embodiment, at least one described first sensing device 140 is for acquiring the multiple eye on the left of the user The distance of tissue, wherein the quantity of first sensing device 140 can for one, can be two, can be three, It can be multiple, it is preferred that in the present embodiment, the quantity of first sensing device 140 is one；As a kind of mode, First sensing device 140 can be TOF sensor, can be infrared sensor etc., it is preferred that in the present embodiment, institute Stating the first sensing device 140 is TOF sensor；It should be understood that when first sensing device 140 is TOF, described first Then sensing device 140 receives the light returned from ocular tissue, passes through detection by continuously transmitting light pulse to left eye destination organization The distance between the flight time of light pulse obtains the distance of ocular tissue, and then obtain each left eye tissue, for example, can obtain Take lens thickness, cornea depth etc..

At least one described second image collecting device 130 is used to acquire the opposite position of the multiple ocular tissues of the user right Set image, wherein the quantity of second image collecting device 130 can for one, can be two, can be three, It can be multiple, it is preferred that in the present embodiment, the quantity of second image collecting device 130 is one；As a kind of side Formula, second image collecting device 130 are camera；It should be understood that the multiple ocular tissues of user right include eyelid, Conjunctiva, cornea, anterior chamber, iris, crystalline lens, vitreous-body-retina and other ocular tissues, wherein second image collector It sets 130 and is mainly used for acquiring crystalline body front surface under the premise of no mydriasis to the ocular tissue's image and each eye between cornea Relative position image between tissue can acquire ocular tissue's image of posterior surface of lens and each in the case where having mydriasis Relative position image between ocular tissue.

In the present embodiment, at least one described second sensing device 150 is for acquiring the multiple eye of the user right The distance of tissue, wherein the quantity of second sensing device 150 can for one, can be two, can be three, It can be multiple, it is preferred that in the present embodiment, the quantity of second sensing device 150 is one；As a kind of mode, Second sensing device 150 can be TOF sensor, can be infrared sensor etc., it is preferred that in the present embodiment, institute Stating the second sensing device 150 is TOF sensor；It should be understood that when second sensing device 150 is TOF, described second Then sensing device 150 receives the light returned from ocular tissue, passes through detection by continuously transmitting light pulse to right eye destination organization The distance between the flight time of light pulse obtains the distance of ocular tissue, and then obtain each right eye tissue, for example, can obtain Take lens thickness, cornea depth etc..

Please refer to Fig. 1, as an embodiment of the present embodiment, the wearable device 110 include the first frame 111, Second frame 112, first support 113 and second support 114, wherein first frame 111 and second frame 112 Connection, the first support 113 are connected to the one end of first frame 111 far from second frame 112, and described second Frame 114 is connected to the one end of second frame 112 far from first frame 111, as a kind of mode, the first image Acquisition device 120 and first sensing device 140 are set on first frame 111, second image collecting device 130 and second sensing device 150 be set on second frame 112, it is possible to understand that, the first image acquisition dress Set 120 and the direction that extends towards the first support 113 of first sensing device 140 be arranged, for acquiring the user The multiple ocular tissues in left side image and distance, second image collecting device 130 and 150 direction of the second sensing device 114 extending direction of the second support setting, the image and distance of the multiple ocular tissues in right side for acquiring the user.At this In embodiment, the wearable device 110 is glasses.

Referring to figure 2., as the another embodiment of the present embodiment, the wearable device 110 further includes third frame 115, the 4th frame 116 and connecting rope 117, the third frame 115 and the 4th frame 116 connection, the connecting rope 117 one end is connected to the one end of the third frame 115 far from the 4th frame 116, the other end of the connecting rope 117 It is connected to the described one end of 4th frame 116 far from the third frame 115, it is possible to understand that, the first image acquisition dress Set 120 and first sensing device 140 be set on the third frame 115, second image collecting device 130 and institute It states the second sensing device 150 to be set on the 4th frame 116, wherein the connecting rope 117 is for being sheathed on the user Head make the third frame 115 close to the multiple ocular tissues in the left side of the user, make the 4th frame 116 close to described The multiple ocular tissues in the right side of user.It should be understood that in this way, the wearable device 110 is more adaptable, it is suitable for Different user, it is preferred that the connecting rope 117 is made of elastic material.

Wherein, which can connect with peak for headgear, and the wearable device 110 after connection is located exactly at use In front of the ocular tissue at family, the ocular tissue for real-time monitoring user；The wearable device 110, which can also be set on common spectacles, to be used In the ocular tissue of real-time monitoring user.It is used for it should be noted that the wearable device 110 can also cooperate with other devices Real-time monitoring user ocular tissue etc..

Referring to figure 3., in the present embodiment, ocular tissue's measuring device 100 further includes wireless transport module 160, In, the wireless transport module 160 respectively with the first image acquisition device 120, second image collecting device 130, First sensing device 140 and second sensing device 150 coupling, the wireless transport module 160 are used for first The user that the distance between multiple ocular tissues in left side of user that image collecting device 120 acquires, the first sensing device 140 acquire The images of left side multiple ocular tissue relative positions, the acquisition of the second image collecting device 130 the multiple ocular tissues of user right The relative position image of the multiple ocular tissues of user right of distance and the acquisition of the second sensing device 150 is sent, wherein institute Stating wireless transport module 160 can be WIFI module, can be with bluetooth module or ZigBee module etc..

Further, ocular tissue's measuring device 100 further includes processor 170, the processor 170 with it is described wireless Transmission module 160 couples, and the processor 170 is used to receive the first image collector that the wireless transport module 160 is sent Set the distance between multiple ocular tissues in left side of the user of 120 acquisitions, the first sensing device 140 acquisition user left side it is multiple The image of ocular tissue relative position, the acquisition of the second image collecting device 130 the multiple ocular tissues of user right distance and the The relative position image of the multiple ocular tissues of user right of two sensing devices 150 acquisition, and according to the left side of the user received The distance of the multiple ocular tissues of the image of multiple ocular tissue relative positions and user left side obtains multiple of the left side group of the user The 3-D image knitted and multiple according to the image and user right of the multiple ocular tissue relative positions in right side of the user received The distance of ocular tissue obtains the 3-D image of the multiple ocular tissues in right side of the user, to realize the multiple ocular tissues of the user The real-time acquisition of three-D profile.

As a kind of mode, ocular tissue's measuring device 100 further includes host computer 180, the host computer 180 with it is described Processor 170 couple, the host computer 180 be used for receive and show the multiple ocular tissues in the left side of the user 3-D image and The 3-D image of the multiple ocular tissues in the right side of the user.It should be understood that the host computer 180 receives what processor 170 conveyed Information, and the information after reception is converted, stored, analyzed and shown.

Referring again to Fig. 1 or Fig. 2, ocular tissue's measuring device 100 further includes third image collecting device 190, wherein The third image collecting device 190 is camera, and the third image collecting device 190 is set to the wearable device 110 On, the third acquisition device 190 is for acquiring environmental information locating for the user, it is possible to understand that, the third image The quantity of acquisition device 190 can be one, can be two, can be three, may be multiple, it is preferred that in this reality It applies in example, the third image collecting device 190 is one；As a kind of mode, when the wearable device 110 is glasses, The third image collecting device 190 is set to environmental information locating for the middle part acquisition user of the glasses, passes through above-mentioned side Environmental information locating for formula, the ocular tissue of user and user is capable of real-time acquisition, and when lesion occurs for user ocular tissue, can be passed through The environmental information acquired in real time caused by what environmental factor observation is, is more conducive to the treatment of lesion ocular tissue.

Referring to figure 4., the utility model implementation additionally provides a kind of ocular tissue's measuring system 200 comprising mobile terminal 210 and ocular tissue's measuring device 100, the mobile terminal 210 coupled with the wireless transport module 160, the mobile terminal The opposite position of the 210 multiple ocular tissues in left side for remotely obtaining the user that the first image acquisition device 120 acquires Image, the distance of the multiple ocular tissues in left side for the user that first sensing device 140 acquires, second image is set to adopt What the relative position image and second sensing device 150 for the multiple ocular tissues of user right that acquisition means 130 acquire acquired The distance of the multiple ocular tissues of user right.

Ocular tissue's measuring device 100 provided by the embodiment of the utility model includes wearable device 110 and is set to the wearing The first image collecting device 120, the second image collecting device 130, the first sensing device 140 and the second sense on device 110 Answer device 150, by least one first image collecting device 120 is used to acquire user the multiple ocular tissues in left side it is opposite At least one first sensing device 140 is used to acquire the distance of multiple ocular tissues on the left of user, to supervise in real time by location drawing picture Survey the position change and relative positional relationship of the multiple left side ocular tissues of user；By by least one the second image collecting device 130, for acquiring the relative position image of the multiple ocular tissues of user right, at least one second sensing device 150 are used to acquire The distance of the multiple ocular tissues of user right is closed to the position change of the multiple right side ocular tissues of real-time monitoring user and relative position System, preferably monitors ocular tissue.

In conclusion ocular tissue's measuring device provided by the embodiment of the utility model and system include wearable device and setting In the first image collecting device of at least one on wearable device, at least one second image collecting device, at least one first Sensing device and at least one second sensing device.Wearable device is for being worn on user's head；By by least one One image collecting device is used to acquire the relative position image of the multiple ocular tissues in left side of user, at least one first induction is filled Set the distance for acquiring multiple ocular tissues on the left of user, thus the position change of the multiple left side ocular tissues of real-time monitoring user and Relative positional relationship；By the opposite position that at least one second image collecting device is used to acquire the multiple ocular tissues of user right Image is set, at least one second sensing device is used to acquire the distance of the multiple ocular tissues of user right to real-time monitoring user The position change and relative positional relationship of multiple right side ocular tissues, preferably monitor ocular tissue.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of ocular tissue's measuring device, which is characterized in that including wearable device, at least one first image collecting device, extremely Few second image collecting device, at least one first sensing device and at least one second sensing device, it is described at least One the first image collecting device, at least one described second image collecting device, at least one described first sensing device with And at least one described second sensing device is set on the wearable device, in which:

The wearable device is for being worn on user's head；

At least one described first image collecting device is used to acquire the relative position figure of the multiple ocular tissues in left side of the user Picture；

At least one described first sensing device is used to acquire the distance of the multiple ocular tissue in left side of the user；

At least one described second image collecting device is used to acquire the relative position figure of the multiple ocular tissues in right side of the user Picture；

At least one described second sensing device is used to acquire the distance of the multiple ocular tissue in right side of the user.

2. ocular tissue's measuring device according to claim 1, which is characterized in that the wearable device include the first frame, Second frame, first support and second support, first frame are connect with second frame, the first support connection In the one end of first frame far from second frame, the second support is connected to second frame far from described One end of one frame, the first image acquisition device and first sensing device are set on first frame, described Second image collecting device and second sensing device are set on second frame, the first image acquisition device and First sensing device is arranged towards the direction that the first support extends, second image collecting device and described second Sensing device is arranged towards the direction that the second support extends.

3. ocular tissue's measuring device according to claim 1, which is characterized in that the wearable device further includes third mirror Frame, the 4th frame and connecting rope, the third frame are connected with the 4th frame, and one end of the connecting rope is connected to institute The one end of third frame far from the 4th frame is stated, the other end of the connecting rope is connected to the 4th frame far from described One end of third frame, the first image acquisition device and first sensing device are set on the third frame, institute It states the second image collecting device and second sensing device is set on the 4th frame, the connecting rope is for being sheathed on The head of the user makes the third frame close to the multiple ocular tissues in the left side of the user, makes the 4th frame close to institute State the multiple ocular tissues in right side of user.

4. ocular tissue's measuring device according to claim 3, which is characterized in that the connecting rope is made of elastic material.

5. ocular tissue's measuring device according to claim 1, which is characterized in that ocular tissue's measuring device further includes nothing Line transmission module, the wireless transport module respectively with the first image acquisition device, second image collecting device, institute The first sensing device and second sensing device coupling are stated, the wireless transport module is for acquiring the first image The user's that the distance of the multiple ocular tissue in left side of the user of device acquisition, first sensing device acquire Described in the image of the multiple ocular tissue relative position in left side, the right side of the user of second image acquisition device The distance of multiple ocular tissues and second sensing device acquisition the user the multiple ocular tissue in right side it is opposite The image of position is sent.

6. ocular tissue's measuring device according to claim 5, which is characterized in that ocular tissue's measuring device further includes place Device is managed, the processor is coupled with the wireless transport module, and the processor is used for the left side according to the user received The left side that the distance of the multiple ocular tissues of the image of the multiple ocular tissue relative positions in side and user left side obtains the user is more The 3-D image of a ocular tissue and the processor are used for opposite according to the multiple ocular tissues in right side of the user received The distance of the image of position and the multiple ocular tissues of the user right obtains the three-dimensional figure of the multiple ocular tissues in right side of the user Picture.

7. ocular tissue's measuring device according to claim 6, which is characterized in that on ocular tissue's measuring device further includes Position machine, the host computer are coupled with the processor, and the host computer is for receiving and showing the multiple eyes in the left side of the user The 3-D image of the multiple ocular tissues in the right side of the 3-D image of tissue and the user.

8. ocular tissue's measuring device according to claim 1, which is characterized in that ocular tissue's measuring device further includes Three image collecting devices, the third image collecting device are set on the wearable device, the third image collecting device For acquiring environmental information locating for the user.

9. ocular tissue's measuring device according to claim 1, which is characterized in that first sensing device is TOF sensing Device, second sensing device are TOF sensor.

10. a kind of ocular tissue's measuring system, which is characterized in that measured including ocular tissue described in mobile terminal and claim 5 Device, the mobile terminal are coupled with the wireless transport module, and the mobile terminal is for remotely obtaining the first image The relative position image of the multiple ocular tissue in left side of the user of acquisition device acquisition, first sensing device acquisition The distance of the multiple ocular tissue in left side of the user, second image acquisition device the user right side The right side of the user of the relative position image of the multiple ocular tissue and second sensing device acquisition is the multiple The distance of ocular tissue.