阅读说明：本技术 可拆卸式多功能眼科检测仪 (Detachable multifunctional ophthalmological detector ) 是由 黄文炜 吴冠亨 林朝景 于 2020-08-21 设计创作，主要内容包括：本发明公开一种可拆卸式多功能眼科检测仪,包含可移动平台及测量模块。可移动平台具有第一连接部且可沿至少一方向移动。测量模块与第一连接部连接。测量模块用以对待测眼部进行测量。可移动平台与测量模块均为可拆卸的。可移动平台可沿X轴方向、Y轴方向及Z轴方向移动。可移动平台的第一连接部可连接不同的测量模块,以提供不同的功能。测量模块可连接至不同的可移动平台。(The invention discloses a detachable multifunctional ophthalmologic detector which comprises a movable platform and a measuring module. The movable platform is provided with a first connecting part and can move along at least one direction. The measuring module is connected with the first connecting part. The measuring module is used for measuring the eye to be measured. The movable platform and the measuring module are both detachable. The movable platform can move along the X-axis direction, the Y-axis direction and the Z-axis direction. The first connection portion of the movable platform can be connected with different measurement modules to provide different functions. The measurement modules may be connected to different movable platforms.)

1. A detachable multifunctional ophthalmic detector, comprising:

a movable platform having a first connecting portion and capable of moving in at least one direction; and

the measuring module is connected with the first connecting part and used for measuring an eye to be measured;

wherein, this movable platform is detachable with this measuring module.

2. The removable multi-functional ophthalmic testing apparatus of claim 1, further comprising:

a chin rest module connected with a second connecting part of the movable platform for supporting the chin of the user.

3. The removable multi-functional ophthalmic testing apparatus of claim 2, wherein the chin bar module is removable.

4. The removable multi-functional ophthalmic testing apparatus of claim 1, further comprising:

a forehead support module connected with a third connecting part of the movable platform for supporting the forehead of the user.

5. The removable multi-functional ophthalmic testing apparatus of claim 4, wherein the forehead support module is removable.

6. The removable multi-functional ophthalmic measuring apparatus of claim 4, wherein the forehead support module stands on the movable platform to correspond to the forehead of the user in a measuring mode.

7. The detachable multi-functional ophthalmic measuring instrument of claim 4, wherein in a storage mode, the forehead support module lies on the movable platform to save space and facilitate storage.

8. The removable multi-functional ophthalmic measuring instrument of claim 1, wherein the measuring module is a fundus camera including a camera for fundus imaging of the eye to be measured.

9. The removable multi-functional ophthalmic monitor of claim 1 wherein the measurement module is a tonometer or an optical coherence tomography.

10. The removable multi-functional ophthalmic measuring instrument of claim 1, wherein the movable platform moves along the X-axis direction, the Y-axis direction and the Z-axis direction.

11. The removable multi-functional ophthalmic monitor of claim 1, wherein the removable fundus camera is controlled to operate by a remote control signal from a mobile communication device.

12. The detachable multi-functional ophthalmic measuring instrument of claim 1, wherein the detachable fundus camera is placed on a liftable platform that is raised or lowered to its height so that the position of the measuring module can be aligned with the eye to be measured.

13. The removable multi-functional ophthalmic measuring instrument of claim 1 wherein the measuring module is placed on a liftable platform that is raised or lowered to its height so that the measuring module can be aligned with the eye to be measured.

14. The removable multi-functional ophthalmic measuring apparatus of claim 1, wherein the first connecting portion of the movable platform is capable of connecting different measuring modules to provide different measuring functions.

15. The removable multi-functional ophthalmic testing apparatus of claim 1, wherein the measurement module is connectable to different movable platforms.

Technical Field

The invention relates to ophthalmic detection, in particular to a detachable multifunctional ophthalmic detector.

Background

Referring to fig. 1A, since the conventional stationary ophthalmic testing apparatus 1 is generally very bulky, when the conventional stationary ophthalmic testing apparatus 1 is used in different places, the user P needs to put the conventional stationary ophthalmic testing apparatus 1 in a box BX having a volume several times as large as that of a general trunk and transport it by a cart, which is very inconvenient and laborious for the user.

Referring to fig. 1B, a conventional fixed type ophthalmologic measuring apparatus 1 is usually fixed on a table for use. When the conventional ophthalmologic measuring apparatus 1 is used by the user P, the user P needs to aim his or her eyes at the height of the camera of the conventional stationary ophthalmologic measuring apparatus 1 to facilitate the measurement. However, since the height and the eye position of each user are different, the alignment procedure cannot be easily completed, which often causes great inconvenience and trouble for the user.

In addition, the conventional fixed type ophthalmologic measuring instrument 1 can only provide a single ophthalmologic measuring function, and if a user wants to provide multiple ophthalmologic measuring functions, a plurality of ophthalmologic measuring instruments with different ophthalmologic measuring functions are required to be respectively arranged, which not only greatly increases the cost, but also occupies a large space.

From the above, it can be seen that: the conventional fixed ophthalmic testing apparatus 1 still has many problems in practical application, and needs to be overcome.

Disclosure of Invention

In view of the above, the present invention provides a detachable multifunctional ophthalmic testing apparatus to overcome the problems encountered in the prior art.

One embodiment of the present invention is a detachable multifunctional ophthalmic testing apparatus. In this embodiment, the removable multi-functional ophthalmic test meter comprises a movable platform and a measurement module. The movable platform is provided with a first connecting part and can move along at least one direction. The measuring module is connected with the first connecting part and used for measuring the eye to be measured. The movable platform and the measuring module are both detachable.

In an embodiment, the detachable multifunctional ophthalmic testing apparatus further comprises a chin rest module connected to the second connecting portion of the movable platform for supporting the chin of the user.

In one embodiment, the chin rest module is detachable.

In an embodiment, the detachable multifunctional ophthalmologic apparatus further includes a forehead support module connected to the third connecting portion of the movable platform for supporting the forehead of the user.

In one embodiment, the forehead support module is detachable.

In one embodiment, in the measuring mode, the forehead support module is erected on the movable platform to correspond to the forehead of the user.

In one embodiment, in the storage mode, the forehead support module is horizontally laid on the movable platform, so that the space is saved and the storage is convenient.

In one embodiment, the measurement module is a Fundus camera (Fundus camera) including a camera for taking a Fundus image of the eye to be measured.

In one embodiment, the measurement module is a Tonometer (Tonometer) or an Optical Coherence Tomography (OCT).

In one embodiment, the movable stage moves along the X-axis direction, the Y-axis direction, and the Z-axis direction.

In one embodiment, the removable multi-functional ophthalmic testing apparatus is controlled to operate by remote control signals from the mobile communication device.

In one embodiment, the detachable multifunctional ophthalmic testing apparatus is placed on the liftable platform, and the liftable platform is lifted or lowered to the height of the liftable platform, so that the measuring module can be aligned to the eye to be tested.

In one embodiment, the first connecting portion of the movable platform can be connected to different measurement modules to provide different measurement functions.

In one embodiment, the measurement module may be connected to different movable stages.

Compared with the prior art, the detachable multifunctional ophthalmologic detector can be accommodated in a common trunk for transportation, the height and the position of the camera of each user can be correspondingly adjusted according to the height and the eye position of each user, and different measurement modules are selected to provide different measurement functions. For the user, the convenience in transportation and operation can be greatly improved, and the cost and space for arranging a plurality of ophthalmic measuring instruments can be saved.

The advantages and spirit of the present invention can be further understood by the following detailed description of the invention and the accompanying drawings.

Drawings

Fig. 1A is a schematic view of a conventional stationary ophthalmic testing apparatus 1 that a user P carries by a cart contained in a large-volume box BX.

Fig. 1B is a schematic view of a conventional fixed ophthalmic testing apparatus 1 fixed on a table.

Fig. 2 is a schematic view of a detachable multifunctional ophthalmic testing apparatus 2 according to a preferred embodiment of the present invention.

Fig. 2A to 2C are schematic views of the measurement module 20, the movable platform 22, the forehead support module 26 and the chin support module 24 of the detachable multifunctional ophthalmic testing apparatus 2, respectively.

Fig. 3A is a schematic diagram of the detachable multifunctional ophthalmic inspection apparatus 2 placed on the liftable platform 30 to align the measurement module 20 with the eye to be inspected by adjusting the height of the liftable platform.

Fig. 3B is a schematic diagram of the measurement module 20 placed on the liftable platforms 30 and 32 by adjusting the heights thereof to align with the eye to be measured.

Fig. 4 is a schematic diagram of the operation of the detachable multifunctional ophthalmic testing apparatus 2 controlled by the remote control signal RM sent by the mobile communication device MP.

Fig. 5 is a schematic view of the forehead support module 26 lying on the movable platform 22 in the storage mode to save space and facilitate storage.

Fig. 6A is a schematic diagram of the measurement module 20, the movable platform 22 and the forehead support module 26 of the detachable multifunctional ophthalmic testing apparatus 2 being accommodated in a general trunk SC.

Fig. 6B is a schematic view of the detachable multi-functional ophthalmic testing apparatus 2 being transported by the trunk SC that the user P can easily pull.

Description of the main element symbols:

1 fixed ophthalmology detector

BX box

P user

2 detachable multifunctional ophthalmology detector

20 measuring module

22 moveable platform

24 chin bar module

26 forehead support module

224 first connection portion

226 second connecting part

228 third connecting part

229 buffer part

200 camera

240 chin rest

242 fourth connecting part

260 forehead support

262 fifth connecting part

U user

30 liftable platform

32 liftable platform

4 wall surface

MP mobile communication device

RM remote control signal

SC luggage case

Detailed Description

Reference will now be made in detail to exemplary embodiments of the invention, examples of which are illustrated in the accompanying drawings. The same or similar numbered elements/components used in the drawings and the embodiments are used to represent the same or similar parts.

One embodiment of the present invention is a detachable multifunctional ophthalmic testing apparatus. Referring to fig. 2, fig. 2 is a schematic view of the detachable multifunctional ophthalmic testing apparatus 2 in this embodiment.

As shown in fig. 2, the detachable multi-functional ophthalmic testing apparatus 2 may include a measurement module 20, a movable platform 22, a chin rest module 24, and a forehead rest module 26. It should be noted that the measurement module 20, the movable platform 22, the chin rest module 24, and the forehead rest module 26 of the detachable multifunctional ophthalmic testing apparatus 2 are all detachable, and the measurement module 20, the chin rest module 24, and the forehead rest module 26 can be respectively connected to the movable platform 22, but not limited thereto.

In practical applications, the movable platform 22 can be connected to different measurement modules according to practical requirements, such as: fundus camera (Fundus camera), Tonometer (Tonometer), or Optical Coherence Tomography (OCT) to provide different measurement functions to the eye to be measured. In contrast, the measurement module 20 can be connected to different movable platforms according to actual requirements, so as to be provided for different locations or different users.

Next, please refer to fig. 2A to fig. 2C, respectively. Fig. 2A to 2C are schematic views of the measurement module 20, the movable platform 22, the forehead support module 26 and the chin support module 24 of the detachable multifunctional ophthalmic testing apparatus 2, respectively.

The movable platform 22 includes a first connection portion 224, a second connection portion 226, and a third connection portion 228 for connecting the measurement module 20, the chin rest module 24, and the forehead rest module 26, respectively, but not limited thereto. In fact, the connection manner of the first connection portion 224, the second connection portion 226 and the third connection portion 228 of the movable platform 22 with the measurement module 20, the chin rest module 24 and the forehead rest module 26 is not particularly limited.

For example, the first connection portion 224 of the movable platform 22 and the measurement module 20 may be connected by a snap-fit manner, the second connection portion 226 of the movable platform 22 and the chin rest module 24 may be connected by a locking manner, and the third connection portion 228 of the movable platform 22 and the forehead rest module 26 may be connected by a locking manner, but not limited thereto.

The movable stage 22 may also be referred to as a tracking module, which can move along at least one direction, such as along the X-axis direction, the Y-axis direction, and/or the Z-axis direction, but not limited thereto. In other words, the movable platform 22 can move in one, two or three dimensions according to actual requirements. Further, the movable platform 22 may be provided with a buffer portion 229. In the storage mode, the forehead support module 26 lies on the buffer portion 229 of the movable platform 22, but not limited thereto.

In practical applications, the measuring module 20 may be a Fundus camera (Fundus camera), a Tonometer (Tonometer), an Optical Coherence Tomography (OCT), or the like, but is not limited thereto. For example, if the measurement module 20 is a fundus camera, the measurement module 20 includes a camera 200 for performing fundus imaging on the eye to be measured.

Chin bar module 24 includes chin bar 240 and fourth connection portion 242. The chin bar 240 is disposed on the fourth connection portion 242. The fourth connection portion 242 may be connected with the second connection portion 226. When the movable platform 22 moves, the second connection portion 226 of the movable platform 22 drives the fourth connection portion 242 of the chin rest module 24 to move, so that the position of the chin rest 240 disposed on the fourth connection portion 242 can correspond to the chin of the user and hold the chin rest.

The forehead support module 26 includes a forehead support 260 and a fifth connecting portion 262. The forehead rest 260 is disposed on the fifth connecting portion 262. The fifth connection portion 262 may be connected with the third connection portion 228. When the movable platform 22 moves, the third connecting portion 228 of the movable platform 22 drives the fifth connecting portion 262 of the forehead support module 26 to move, so that the forehead support 260 disposed on the fifth connecting portion 262 can correspond to the forehead of the user and support the forehead.

Referring to fig. 3A, in an embodiment, the detachable multifunctional ophthalmic testing apparatus 2 can be placed on the liftable platform 30. The liftable platform 30 can be disposed on the wall surface 4 and can move up and down along the wall surface 4. Therefore, an operator can adjust the height of the liftable platform 30 to align the measurement module 20 of the detachable multifunctional ophthalmologic inspection apparatus 2 placed on the liftable platform 30 with the eye to be inspected of the user U, and the chin rest module 24 and the forehead rest module 26 respectively support the chin and the forehead of the user U, so that the measurement module 20 can measure the eye.

Referring to fig. 3B, in another embodiment, the measurement module 20 may be placed on the liftable platform 32, and the chin rest module 24 and the forehead rest module 26 may be placed on the liftable platform 30. The liftable platforms 30 and 32 can be installed on the wall surface 4 and can move up and down along the wall surface 4. Therefore, an operator can align the measurement module 20 placed on the liftable platform 32 with the eye to be measured of the user U by adjusting the heights of the liftable platforms 30 and 32, and respectively support the chin and forehead of the user U by the chin support module 24 and the forehead support module 26 placed on the liftable platform 30, so that the measurement module 20 can measure the eye to be measured.

Referring to fig. 4, in another embodiment, a user can operate the mobile communication device MP (e.g., a smart phone) to send a remote control signal RM to the detachable multifunctional ophthalmic testing apparatus 2, so as to control the operation of the detachable multifunctional ophthalmic testing apparatus 2, but not limited thereto.

In practical applications, the forehead support module 26 stands on the movable platform 22 in the measurement mode to support the forehead of the user U, as shown in fig. 3A. In addition, the forehead support module 26 lies on the buffer portion 229 of the movable platform 22 in the storage mode to save space and facilitate storage, as shown in fig. 5.

Referring to fig. 6A and 6B, the measurement module 20, the movable platform 22, the chin rest module 24, and the forehead rest module 26 of the detachable multifunctional ophthalmic testing apparatus 2 of the present invention can be accommodated in a general size (e.g., 20 inches) of the luggage SC after being detached, so that the user P can easily pull the luggage SC to bring the measurement module 20, the movable platform 22, the chin rest module 24, and the forehead rest module 26 to other locations, and then assemble the detachable multifunctional ophthalmic testing apparatus 2 for testing, which is very convenient and labor-saving.

Compared with the prior art, the detachable multifunctional ophthalmologic detector can be accommodated in a common trunk for transportation, the height and the position of the camera of each user can be correspondingly adjusted according to the height and the eye position of each user, and different measurement modules are selected to provide different measurement functions. For the user, the convenience in transportation and operation can be greatly improved, and the cost and space for arranging a plurality of ophthalmic measuring instruments can be saved.