KR101439083B1 - Surgical microscope having vibration preventing means - Google Patents

Abstract

Disclosed is a surgical microscope having external vibration transmitted from a floor and vibration preventing means capable of reducing internal vibrations generated when a microscope is driven. The surgical microscope comprises: a stand installed perpendicularly to a bottom surface to support a cantilever and a microscope; A microscope part for enlarging an object to be operated and providing an enlarged image of the object to be operated; A cantilever fixed at one end to the stand so as to be rotatable and the other end to which the microscope is attached freely moves to adjust the position of the microscope; At least one wheel attached to a lower end of the stand for supporting and moving the stand; And an anti-vibration means disposed between the stand and the wheel to reduce vibrations generated inside and outside the surgical microscope. The anti-vibration means includes an upper panel fixedly coupled to the lower end of the stand, a lower panel on which the wheel is mounted, and a buffer spring located elastically between the upper panel and the lower panel, .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a surgical microscope having a vibration-

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surgical microscope, and more particularly, to a surgical microscope having a vibration preventing means capable of reducing external vibration transmitted from a floor and internal vibrations generated when a microscope is driven.

In the surgical microscope, the position of the surgical microscope should be freely moved according to the position or attitude of the surgical target. In addition, when observing with the surgical microscope, photographing, and operating the surgical microscope, . Therefore, a stand, typically used for a surgical microscope, is equipped with a plurality of wheels (caster) for movement of the microscope and a plurality of footbrake for locking the wheels.

FIG. 1 is a view showing the structure of a conventional microscope in the form of a cantilever beam. 1, in a conventional surgical microscope, a stand 20 supports a cantilever beam 10 and a microscope part 12, and four wheels 22 attached to the lower end of the stand 20 ) Supports the entire surgical microscope 4 points. The wheel 22 is fixed to the wheel 22. When the surgical microscope is used for observing the surgical object, the wheel 22 is locked. When the surgical microscope is moved, (Unlocked). The microscope part 12 enlarges an object to be operated and provides an enlarged image of an operation target to an operator or an observer. The cantilever 10 has one end fixedly supported on a stand 20, and a microscope part 12 is mounted So that the position of the microscope part 12 can be adjusted as needed.

In such a conventional surgical microscope, external vibration (a building air conditioner, vibration due to human movement, etc.) is transmitted through the floor where the surgical microscope is located, or the movement of the cantilever beam 10 and / And when the internal vibration is generated by the driving, the enlarged image of the surgical object observed by the microscope 12 is shaken. In order to prevent this, as shown in FIG. 2, it is also possible to consider providing a vibration-proof rubber 28 between the stand 20 and the wheel 22 to reduce vibration transmitted from the outside through the floor However, in this case, since the vibration generated in the microscope and the outside can not be sufficiently attenuated or decreased, the image seen by the eyepiece section of the microscope section 12 or the monitor is shaken due to the vibration, and observation using the microscope section 12 There is a disadvantage that this becomes inaccurate or unstable. In addition, when the vibration-proof rubber 28 is used, since the rubber hardness is limited, the vibration-proof rubber 28 is easily deformed by the weight of the surgical microscope, and the entire microscope for operation tends to be finely tilted. In this case, since the microscope part 12 is not positioned parallel to the surgical object, the enlarged image of the surgical object may be distorted.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a surgical microscope having a vibration preventing means capable of effectively reducing external vibration transmitted from a floor and internal vibrations generated when a microscope is driven.

It is another object of the present invention to provide a surgical microscope capable of not only stably supporting a cantilever-type surgical microscope but also stably observing an object to be operated.

According to an aspect of the present invention, there is provided a stand comprising: a stand installed perpendicularly to a bottom surface to support a cantilever and a microscope; A microscope part for enlarging an object to be operated and providing an enlarged image of the object to be operated; A cantilever fixed at one end to the stand so as to be rotatable and the other end to which the microscope is attached freely moves to adjust the position of the microscope; At least one wheel attached to the lower end of the stand for supporting and moving the stand; And an anti-vibration means disposed between the stand and the wheels for reducing vibration generated in the inside and outside of the surgical microscope, wherein the anti-vibration means includes an upper panel fixedly coupled to the lower end of the stand, And a cushion spring located between the upper panel and the lower panel for resiliently supporting the upper panel and the lower panel.

The surgical microscope according to the present invention is provided with a vibration preventing means capable of effectively reducing the external vibration transmitted from the floor and the internal vibration generated when the microscope is driven, thereby stably supporting the cantilever type surgical microscope , So that the surgeon can observe the operation object more stably.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a structure of a conventional cantilever type surgical microscope. FIG.
2 is a view showing a state in which a vibration-proof rubber is installed on a conventional surgical microscope.
FIG. 3 is a view showing an outline of an anti-vibration means mounted on a surgical microscope according to an embodiment of the present invention; FIG.
FIG. 4 is a perspective view (A) and a sectional view (B) of a vibration preventing means mounted on a surgical microscope 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, the constituent elements which perform the same or similar functions as the conventional constituent elements are given the same reference numerals as the conventional ones.

FIG. 3 is a view showing an outline of a dust-proofing means mounted on a surgical microscope according to an embodiment of the present invention. 1 and 3, the surgical microscope according to the present invention includes a stand 20, a cantilever beam 10, a microscope 12, at least one wheel 22, and a dustproof means 30. As shown in FIG. The stand 20 is a normal supporting means which is installed perpendicularly to the bottom surface to support the cantilever beam 10 and the microscope 12. The wheel 22 attached to the lower end of the stand 20 supports and moves the stand 20 and is preferably rotatable 360 degrees so that the moving direction of the stand 20 can be freely adjusted have. The wheel 22 can be mounted with one or more, preferably three to five, so as to support and move the stand 20. The microscope section 12 is an observation optical section for enlarging an object to be operated at a high magnification of 10 times or more, for example, and providing an enlarged image of the object to be operated by an operator or an observer. One end of the cantilever beam 10 is fixed to the stand 20 so as to be rotatable and the other end of the cantilever beam 10 on which the microscope 12 is mounted is freely moved and rotated 360 degrees, 12 can be adjusted. If necessary, the wheel 22 may be provided with a fixing device 24 for fixing the wheel 22 or releasing the fixing of the wheel 22. [ The vibration-proofing means 30 is located between the stand 20 and the wheel 22 to reduce vibrations generated inside and outside the surgical microscope.

FIG. 4 is a perspective view (A) and a cross-sectional view taken along the line XX of the vibration preventing means 30 mounted on a surgical microscope according to an embodiment of the present invention. 4, the anti-vibration means 30 includes an upper panel 32, a lower panel 36, and a cushion spring 38. As shown in FIG. The upper panel 32 is fixedly coupled to the lower end of the stand 20 (see FIG. 3), and is fixed to the upper panel 32 through a fastening hole 32c formed in the upper panel 32, And may be fixedly coupled to the lower end of the stand 20 by means of a screw. The fastener 32c may be installed in an arbitrary number so that the upper panel 32 and the stand 20 are firmly coupled to each other, and preferably, 2 to 4 can be formed. At least two sliding grooves 32a are formed in the upper panel 32. A hook 32b may be formed at the lower end of the sliding groove 32a if necessary, 32b may be further formed.

A wheel 22 is mounted on a lower portion of the lower panel 36 and two or more sliding rods 34 are mounted on the upper portion of the lower panel 36 as shown in FIG. 4B, one end of the sliding rod 34 is fixed to the lower panel 36, and the other end of the sliding rod 34 is connected to a sliding groove (not shown) formed in the upper panel 32 32a. The number of the sliding grooves 32a and the number of the sliding rods 34 may be arbitrarily set as long as the upper panel 32 and the lower panel 36 can be stably engaged with each other, 3 to 8, more preferably 4 to 5, are provided. The other end of the sliding rod 34 may be formed with a screw head projection 34b so as to be engaged with the locking protrusion 32b formed in the sliding groove 32a. In this case, the other end of the sliding rod 34, that is, the protruding portion 34b is slid inside the sliding groove 32a, and the moving distance of the sliding rod 34 is changed by the distance between the stand 20 Lt; RTI ID = 0.0 > 32b. ≪ / RTI > The coupling between the sliding rod 34 and the lower panel 36 is achieved by screwing a bolt formed at one end of the sliding rod 34 and a nut formed at the lower panel 36, The height of the sliding rod 34 can be adjusted by rotating the sliding rod 34 and adjusting the screwing length between the sliding rod 34 and the lower panel 36.

The buffer spring 38 is located between the upper panel 32 and the lower panel 36 and resiliently supports the upper panel 32 and the lower panel 36 so that they can be generated externally and microscopically through the floor And serves to cancel or reduce the vibration that is transmitted and the vibration that occurs inside the microscope. 4 (B), the buffer spring 38 may be a high-load coil type buffer spring, and the sliding rod 34 is inserted into the coil-shaped buffer spring 38 The position of the coil-shaped buffer spring 38 can be fixed between the upper panel 32 and the lower panel 36. [ The height of the sliding bar 34 or the height of the upper panel 32 and the lower panel 36 can be adjusted by rotating the sliding rod 34 and adjusting the screwing length between the sliding rod 34 and the lower panel 36 The elastic force of the buffer spring 38 may be adjusted by adjusting the distance between the upper panel 36 and the lower panel 36. [

Next, the operation of the surgical microscope having the dustproof means according to the present invention will be described. 3 and 4, an upper panel 32 and a lower panel 36 are provided between the stand 20 of the surgical microscope and the one wheel 22, The lower panel 36 is supported by two or more, preferably four, cushioning springs 38. Therefore, the vibration generated in the outside and inside of the surgical microscope according to the present invention is attenuated and restrained by the buffer spring 38, thereby solving the problem caused by the conventional vibration. Two or more sliding rods 34 are formed between the upper panel 32 and the lower panel 36 so that the buffer springs 38 are fitted so that the position of the buffer springs 38 Can be fixed. The cantilever beam 10 mounted on the microscope 12 rotates 360 degrees and the moment load due to the rotation of the cantilever beam 10 is transmitted to each wheel 22 of the stand 20 . Therefore, the moment load of the cantilever beam 10 is absorbed by the entire vibration isolating means 30, and the load applied unevenly when the wheel 22 rotates is controlled by two or more, preferably four, cushion springs 38 The vibration isolating means 30 can effectively attenuate internal and external vibrations.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, the sliding rod 34 and the lower panel 36 are screwed together and the sliding rod 34 and the upper panel 32 are slidably engaged. On the contrary, The upper panel 32 may be screwed, and the sliding rod 34 and the lower panel 36 may be slidably engaged.

Claims (5)

A stand installed perpendicularly to the bottom surface to support the cantilever and the microscope;
A microscope part for enlarging an object to be operated and providing an enlarged image of the object to be operated;
A cantilever fixed at one end to the stand so as to be rotatable and the other end to which the microscope is attached freely moves to adjust the position of the microscope;
At least one wheel attached to the lower end of the stand for supporting and moving the stand; And
And a vibration preventing means disposed between the stand and the wheels for reducing vibrations generated inside and outside the surgical microscope,
The anti-vibration means includes an upper panel fixedly coupled to a lower end of the stand, a lower panel on which the wheel is mounted, and a buffer spring located between the upper panel and the lower panel to elastically support the upper panel and the lower panel and,
Wherein at least two sliding grooves are formed on the upper panel, at least two sliding rods are mounted on the upper portion of the lower panel, one end of the sliding rod is fixed to the lower panel, and the other end of the sliding rod is connected to the upper panel And slidingly inserted into the formed sliding groove. delete The shock absorber according to claim 1, wherein the buffer spring is a coil-shaped buffer spring, and the sliding rod is fitted in the coil-shaped buffer spring to fix the position of the coil-shaped buffer spring between the upper panel and the lower panel. For microscope. The slide fastener according to claim 1, wherein a locking protrusion is formed at a lower end of the sliding groove, and a protruding portion in the form of a screw head is formed at the other end of the sliding rod to engage with a locking protrusion formed in the sliding groove microscope. The sliding bar according to claim 1, wherein the engagement of the sliding rod and the lower panel is performed by screwing a bolt formed at one end of the sliding rod and a nut formed at the lower panel, To adjust the elasticity of the cushion spring by adjusting the screwing length of the cushion spring.

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