KR20190079090A - Elevating device for eye-examining device - Google Patents

Abstract

Disclosed is an up-and-down driving apparatus of a refracto-keratometer which can stably raise or lower a heavy optometry apparatus such as an optical coherence tomography apparatus up to measurement height or an initial position. The up-and-down driving apparatus includes: a rotation shaft (30) rotating in a clockwise or counterclockwise direction at a fixed position, and having screw threads formed on a surface; an up-and-down moving shaft (60) (i) having an optometry apparatus (22) mounted on an upper end, (ii) having screw threads (62) screw-coupled with the rotation shaft (30) formed on one inner end, and screw-coupled with the rotation shaft (30) by the screw threads (62), and having (iii) a cylindrical elastomer accommodation groove (64) formed in a downward direction; and a compression spring (70) inserted into the elastomer accommodation groove (64) of the up-and-down moving shaft (60) to push the up-and-down moving shaft (60) in an upward direction.

Description

[0001] The present invention relates to an elevating device for eye-examining device,

The present invention relates to an apparatus for vertically driving an optometric apparatus, and more particularly to an apparatus for vertically moving a vision apparatus that can stably raise a heavy optometric apparatus such as an optical coherence tomography apparatus to a measurement height or lower it to an initial position.

The ophthalmologist is a device that measures information such as the refractive power of the eye to be examined, the visual acuity of the eye, the visual axis of the eye, or the state of the cornea and the retina. Fig. 1 is a view showing the external structure of a conventional ophthalmologic apparatus. 1, a conventional ophthalmologic apparatus includes a subject's eye fixing unit 20 for supporting a subject's chin, forehead, etc. and fixing the subject's eye to a predetermined position, an optometric apparatus 22 for inspecting a subject's eye, A control unit 26 for adjusting the position of the ophthalmologic apparatus 22 and a control unit 26 for controlling the position of the subject's eye to be fixed 20, the optometric apparatus 22, the up / down driving unit 24, And a base 10 on which the device 24 and the control unit 26 are mounted. In operation, when the subject carries a jaw, a forehead or the like to the subject 20 to fix the subject's eye to a predetermined position, the measurer operates the control unit 26 to move the optometric apparatus 22 up and down, The position between the eye to be examined and the optometric apparatus 22 is adjusted, and then the optometric apparatus 22 is driven to inspect the subject's eye.

In such an optometric apparatus, various optics and electronic devices are mounted on the optometric apparatus 22, and the weight of the optometric apparatus 22 is gradually increasing. In particular, in the case of an optical coherence tomography apparatus (OCT) for non-invasively photographing a 2-dimensional tomographic image of a subject's eye for ophthalmic surgery such as corneal surgery and cataract surgery, a tomographic imaging unit, A large amount of force is required to move the optometric apparatus 22 up and down (move in the z axis), and the vertical movement of the optometric apparatus 22 is stabilized If it is not controlled, precision optical and electronic equipment may malfunction (see Patent Document 10-2014-0107831). Therefore, a spring is provided on the up-and-down driving device 24 located below the optometric apparatus 22 so that a force pushing the optometric apparatus 22 in a direction opposite to the gravity acts. When the optometric apparatus 22 is moved up and down, A method of reducing the influence by the weight of the device 22 is used.

2 is a partial cross-sectional view for explaining a structure of a vertical drive device of a normal ophthalmologic apparatus. As shown in FIG. 2, a typical up / down driving device of the ophthalmologic apparatus includes a rotating shaft 30 having a surface formed with threads and rotating at a fixed position, a rotating shaft 30 interposed in the rotating shaft 30, A vertical movement shaft 40 which moves upward and downward when the rotary shaft 30 rotates and a lower supporting shaft 40 which supports the upper and lower movable shaft 40 in an upward direction And a compression spring 42 for providing a force. An optometric apparatus 22 is mounted on an upper portion of the vertical movement shaft 40. The rotary shaft 30, the vertical movement shaft 40 and the compression spring 42 are housed in the housing 32, A guide 34 such as a ball bush for guiding the vertical movement shaft 40 to move in a vertical direction can be mounted between the vertical movement shaft 40 and the vertical movement shaft 40. Rotational driving of the rotary shaft 30 can be performed by transmitting the power of the motor 36 to the pulley 37 and the belt 38. When the rotary shaft 30 is rotated by driving the motor 36 in the up-and-down driving device, the vertical movement shaft 40 screwed with the rotary shaft 30 moves up Or moves down. At this time, since the compression spring 42 pushes the up-and-down moving shaft 40 upward, the up-and-down moving shaft 40 can be more easily raised or lowered more slowly, can do.

2, a separate compression spring 42 is provided below the up-and-down movement shaft 40, that is, the up-and-down movement shaft 40 and the compression spring 42 are in a straight line There is a problem that the length of the housing 32 must be increased or the length of the vertical movement shaft 40 must be designed to be small in order to install the compression spring 42. [ Further, when the compression spring 42 is deteriorated, there is a disadvantage that the entire housing 32 must be disassembled in order to replace the compression spring 42.

U.S. Patent 6,266,977

It is an object of the present invention to provide an up-and-down driving device for an ophthalmologic apparatus having a short vertical driving device while maintaining the up-and-down driving height of the ophthalmologic apparatus.

It is another object of the present invention to provide a device for vertically moving the ophthalmologic apparatus which can easily replace the aged compression spring.

In order to accomplish the above object, the present invention provides a spinning reel that includes a rotating shaft (30) rotating clockwise or counterclockwise at a fixed position and having a thread formed on a surface thereof; (i) an optometric device 22 is mounted on the upper end, (ii) a thread 62 which is screwed to the rotary shaft 30 is formed at an inner end, and the threaded shaft 62 is screwed to the rotary shaft 30 (Iii) a vertical movement shaft 60 in which a cylindrical-shaped elastic body receiving groove 64 is formed in a downward direction; And a compression spring (70) inserted in an elastic receiving groove (64) of the vertical movement shaft (60) and pushing the vertical movement shaft (60) upward.

The apparatus for vertically driving the optometric apparatus according to the present invention has an advantage that the length of the up-and-down driving device is short and the replacement of the aged compression spring is easy while maintaining the vertical driving height.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the external structure of a conventional ophthalmologic apparatus; Fig.
BACKGROUND OF THE INVENTION Field of the Invention [0001]
3 and 4 are partial cross-sectional views for explaining the structure and operation of a device for vertically driving the optometrist according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the accompanying drawings, components that perform the same or similar functions as those of the conventional configuration are given the same reference numerals.

3 and 4 are partial cross-sectional views for explaining the structure and operation of a device for vertically driving the optometrist according to an embodiment of the present invention. 3, the apparatus for vertically driving the ophthalmologic apparatus according to the present invention includes a rotary shaft 30, a vertical movement shaft 60, and a compression spring 70. As shown in FIG. The rotary shaft 30 rotates in a clockwise or counterclockwise direction at a fixed position, and a thread is formed on the surface of the rotary shaft 30.

A thread 62 is formed at one end of the up-and-down movement shaft 60, for example, at an upper end thereof to be screwed with the rotation shaft 30. The thread 62 is engaged with the up- (30) are screwed together. That is, the rotary shaft 30 serves as a bolt, and the vertical movement shaft 60 serves as a nut, and the rotary shaft 30 and the vertical movement shaft 60 are screwed to each other. An optometric apparatus 22 is mounted on the upper end of the vertical movement shaft 60. If necessary, the vertical movement shaft 60 does not rotate, Not guided). 4, when the rotary shaft 30 rotates, the vertical movement shaft 60 screwed with the rotary shaft 30 moves upward in the direction of extension of the rotary shaft 30, that is, in the vertical direction Or moves down.

In the inside of the vertical movement shaft 60, for example, at the lower end thereof, an elastic body receiving groove 64 is formed in the longitudinal direction, specifically, the downward direction. A coil-shaped compression spring 70 in the form of a cylinder is fitted between the vertical movement shaft 60 and the rotary shaft 30 in an elastic body receiving groove 64 formed in a cylindrical shape. A locking protrusion 64a for supporting the upper portion of the compression spring 70 is formed on the upper portion of the elastic body receiving groove 64 formed in the shape of a cylinder and the compression spring 70 is freely moved (Inserted or removed). The compression spring 70 inserted in the elastic body receiving groove 64 pushes the latching protrusion 64a of the elastic body receiving groove 64 so that the restoring force of the compression spring 70 acts in the upper direction of the vertical moving shaft 60 . The thickness of the elastic body receiving groove 64 is set to such a degree that the compression spring 70 is inserted and the compression spring 70 can be compressed and expanded within the elastic body receiving groove 64. The length of the elastic body receiving groove 64 is preferably 90 to 110% of the length of the compressed compression spring 70 as shown in FIG. 3, more preferably equal to the length of the compressed compression spring 70 , At least 50% of the length of the compressed compression spring 70. Here, if the length of the elastic member receiving groove 64 is too short, the length of the vertical movement shaft 60 is shortened, and the up-and-down driving width of the up-and-down driving device becomes small. On the other hand, if the length of the elastic body receiving groove 64 is too long, the compression spring 70 can not be sufficiently compressed and the pressing force of the compression spring 70 on the vertical movement shaft 60 may be reduced. In the up-and-down moving shaft 60, the screw thread 62 is formed on the upper portion of the elastic body receiving groove 64.

The compression spring 70 is fitted in the elastic receiving grooves 64 of the vertical moving shaft 60 and serves to push the vertical moving shaft 60 upward (i.e., to exert a force). Therefore, when the rotary shaft 30 rotates in a predetermined direction (for example, clockwise) and the vertical movement shaft 60 moves upward, the compression spring 70 moves the vertical movement shaft 60 The vertical movement shaft 60 can be easily moved upward with less force. When the rotary shaft 30 rotates in a predetermined direction (for example, counterclockwise) and the vertical movement shaft 60 moves downward, the compression spring 70 moves the vertical movement shaft 60, So that the up-and-down moving shaft 60 can move more reliably and downward without difficulty.

The rotary shaft 30, the vertical movement shaft 60 and the compression spring 70 are housed in the housing 32. Between the housing 32 and the vertical movement shaft 60, A guide 34 such as a ball bush for guiding the up-and-down moving shaft 60 may be mounted so as to be able to move stably in the up-and-down direction. The rotational driving of the rotating shaft 30 can be performed by transmitting the power of the normal driving means, for example, the motor 36 to the pulley 37 and the belt 38. When the rotary shaft 30 is rotated by driving the motor 36 in the up-and-down driving device, the vertical movement shaft 60 screwed with the rotary shaft 30 moves up or down according to the rotation direction of the rotary shaft 30 And moves down. At this time, since the compression spring 70 fitted in the elastic body receiving groove 64 of the vertical moving shaft 60 pushes the vertical moving shaft 60 upward, the vertical moving shaft 60 can be more easily raised, By lowering more slowly, the optometric apparatus 22 can be stably raised or lowered.

According to the apparatus for vertically driving the optometric apparatus according to the present invention, the elastic member receiving grooves 64 are formed in the vertical moving shaft 60 and the compression spring 70 is mounted in the elastic member receiving grooves 64 By forming the structure, the height of the up-down driving device can be reduced. In addition, when the compression spring 70 is aged, the compression spring 70 can be easily replaced by separating only the vertical movement shaft 60 from the housing 32. The apparatus for vertically moving the optometric apparatus according to the present invention can be applied to most ophthalmologic apparatuses such as a refractive index measuring apparatus, a corneal topography measuring apparatus and a slit lamp. Particularly, the apparatus can be used for an optical coherence tomography apparatus (OCT) Can be used.

Claims (4)

A rotary shaft (30) rotating clockwise or counterclockwise at a fixed position and having a thread formed on its surface;
(i) an optometric device 22 is mounted on the upper end, (ii) a thread 62 which is screwed to the rotary shaft 30 is formed at an inner end, and the threaded shaft 62 is screwed to the rotary shaft 30 (Iii) a vertical movement shaft 60 in which a cylindrical-shaped elastic body receiving groove 64 is formed in a downward direction; And
And a compression spring (70) inserted in the elastic body receiving groove (64) of the up / down moving shaft (60) and pushing the up / down moving shaft (60) upward. The compression spring (70) according to claim 1, wherein a locking step (64a) for supporting the upper portion of the compression spring (70) is formed on the upper part of the elastic body receiving groove (64) And the upper and lower drive mechanisms of the ophthalmologic apparatus are opened. 2. The apparatus according to claim 1, wherein the length of the elastic body receiving groove (64) is 90 to 110% of the length of the compressed compression spring (70). The apparatus according to claim 1, wherein the length of the elastic body receiving groove (64) is 50% or more of the length of the compressed compression spring (70).

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