KR101565837B1 - focuser of preventing slipping - Google Patents

Abstract

The present invention relates to an anti-slip focus adjustment device for a telescope which prevents slipping of a lens fixing adapter, more specifically, to an anti-slip focus adjustment device for a telescope which has a worm wheel at an end of a sliding shaft installed in the moving direction of a lens fixing adapter and by rotating the worm wheel with a worm gear to rotate the sliding shaft and by moving a focus adjustment unit installed on the sliding shaft, and which allows the lens fixing adapter to be slide in respect to a telescope fixing adapter, hence, the lens fixing adapter does not slip from the telescope fixing adapter and enables to precisely focus.

Description

{Focuser of preventing slipping}

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a focus adjusting device for a telescope, and more particularly, to a focus adjusting device for a telescope which prevents a lens fixing adapter from flowing down.

More particularly, the present invention relates to a telescope that can focus on a lens more precisely as well as precisely focus even when a high-load camera or lens is installed in the lens-fixing adapter because the lens-fixing adapter does not flow down from the telescope- To a focus preventing device for preventing jamming.

The astronomical telescope is a device for observing astronomical objects such as stars, sun, and moon, and its magnification is determined by the focal lengths of the eyepiece and the objective lens. In order to obtain a clear image, the focus of the telescope must be adjusted. In this case, the distance between the eyepiece and the objective lens is adjusted. In the case of a portable telescope which is generally portable, it is possible to manually adjust the focus by moving the eyepiece or the objective lens, but in the case of a large telescope, manual adjustment of the focus becomes difficult. Therefore, in the case of a large telescope, it is common to provide a focusing device operated by a driving motor.

There are various technologies related to the focusing device of the telescope, for example, Patent Document 1.

Patent Literature 1 discloses an objective lens provided in a telescope having a casing 420 provided in an objective lens operating portion 430 provided at one side of a housing 410 and an objective lens 440 surrounded by a casing, A driving device 510 installed outside the housing of the telescope by moving the lens to adjust the focus; A coupling 520 connected to the shaft of the drive; A lead screw 530 connected to the coupling and rotated by the driving device; And a moving member 540 inserted in the lead screw and coupled to the casing and moving linearly by the rotation of the lead screw and moving the casing.

However, such a conventional focus adjusting device requires a motor or the like as a driving means. In addition, since it is necessary to install a focusing means to control the focus adjusting device, There is a problem of becoming complicated.

On the other hand, there is a focusing device for manually adjusting the focus, which is mainly a rack and pinion type and a friction plate driving type. That is, the focus is adjusted by moving the rack by rotating the pinion. In this case, the focus is adjusted by the friction force of the rack and the pinion. However, since the friction between the rack and the pinion is insufficient, There is a problem that the pinion is rotated by the load applied to the rack and the focus adjusting portion flows down. In order to prevent this, the stop screw fixing method is adopted. However, there is a limit in preventing the flow of the stop screw even when it is installed. That is, in the case of the method of preventing the falling down by using the detent screw, the groove should be formed in the fixing part so that the end of the fixing screw can be fitted and fixed. However, when the groove is formed in the fixing part, So that the focus can be adjusted by friction between the end of the stop screw and the fixing part. That is, the focus is fixed by fixing the stop screw to the end of the fixing screw so as to be brought into close contact with the surface of the fixing part. However, in the state where the stop screw is tightened by the load of the apparatus installed in the air temperature or the focus adjusting part, It will flow out and will not be able to focus properly.

In other words, even if the stop screw is sufficiently tightened when various cameras, CCDs, and filters are attached to the focus adjusting device, the frictional force between the end of the stop screw and the fixing portion is limited, There is a phenomenon in which the focus adjuster is caused to flow down and the focus is not adjusted.

1. Korean Patent Publication No. 1999-018082

Disclosure of Invention Technical Problem [8] The present invention has been developed in order to solve the above-described problems, and relates to an anti-jumping focus adjusting device of a telescope which prevents a lens fixing adapter from flowing down.

More specifically, according to the present invention, a sliding provided in a moving direction of a lens fixing adapter is provided with a worm wheel at an end of a worm shaft, the worm wheel is rotated by a worm gear, And a lens fixing adapter slidably moved with respect to the telescope fixed adapter so that the lens fixed adapter can precisely focus without falling from the telescope fixed adapter.

In other words, when the transmission of the force of the worm gear and the worm wheel is orthogonal to the direction of 90 degrees and the worm gear is not rotated, the movement force is not transmitted. Only the rotation of the worm gear is used to adjust the focus, thereby preventing the lens fixing adapter from flowing down And an object thereof is to provide an anti-jam focus control device for a telescope.

According to an aspect of the present invention, there is provided an apparatus for adjusting a focus of a telescope, the apparatus comprising: a focus adjusting device for adjusting a focus of a telescope, the focus adjusting device comprising a position adjusting means for fixing a position of a lens fixing adapter movably installed at an end of a telescope fixing bracket provided at an end of the telescope, Wherein the position adjusting means is formed with a gear tooth or a thread on an outer circumferential surface thereof and is rotatably mounted on a telescope fixing bracket at one end thereof and a sliding shaft having a worm wheel at the other end thereof is provided with a gear tooth meshing with a gear tooth of the worm wheel Worm gear; A focus adjustment knob installed on a gear shaft of the worm gear to rotate the worm gear; The slide is formed on the inner circumferential surface of a gear tooth or a thread to be meshed with a gear tooth or a thread formed on the outer circumferential surface of the pneumatic axle and is fixed to one side of the lens fixing adapter and rotates the focus adjusting knob to transmit it through the worm gear- Wherein the sliding movement of the lens fixing adapter causes the sliding movement of the lens holding adapter to move in the axial direction of the pneumatic axis.

The telescopic fixing bracket may be provided at one end of the telescope fixing bracket in the direction in which the worm gear is installed, and the position adjusting means may be disposed at a side of the lens fixing adapter, A retaining ring can be installed.

A wide groove portion may be formed on a portion of the inner circumferential surface of the telescope fixing bracket where the position adjusting means is installed and an adapter supporting bushing may be provided on the wide groove portion.

As described above, the anti-jam focus adjusting device according to the present invention has an effect of preventing the lens fixing adapter from flowing down due to its simple structure, which is easy to manufacture.

In other words, according to the present invention, since the transmission of the movement force between the worm gear rotated by the handle and the worm wheel provided at the end of the sliding tine shaft is vertical, if the worm gear is not rotated by the user, the worm wheel can not rotate, Therefore, it is possible to effectively prevent the lens fixing adapter from flowing out.

Of course, as described above, since the position of the lens fixing adapter is adjusted only when the user rotates the worm gear to rotate the worm gear, the focus adjustment can be performed more accurately.

1 is an exploded perspective view of an example of the anti-jam focus adjusting device according to the present invention;
2 is a perspective view of a lens fixing adapter provided with a position adjusting means constituting the anti-jam focus adjusting device according to the present invention;
3 is an exploded perspective view of the position adjusting means constituting the anti-jam focus adjusting device according to the present invention.
FIG. 4 is a perspective view showing a state in which a part of the anti-jam focus adjusting device according to the present invention is omitted; FIG.
5 is a perspective view of an example of a conveying shaft fixing ring constituting the anti-jam focus adjusting device according to the present invention.
6 is a perspective view of an example of the telescope fixing bracket constituting the anti-jam focus adjusting device according to the present invention.
7 is a sectional view of the anti-jam focus adjusting device according to the present invention
FIG. 8 is a perspective view of an example of a conventional super-

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention not only prevents the lens fixing adapter from flowing down, but also can precisely adjust the focus.

The anti-jam focus adjusting apparatus according to the present invention includes a position adjusting means 10 for fixing a position of a lens fixing adapter 200 movably installed at an end of a telescope fixing bracket 100 installed at an end of a telescope have.

The position adjusting means 10 adjusts the position of the lens fixing adapter 200 to which the eyepiece is fixed with respect to the telescope fixed adapter 100 fixed to the telescope to adjust the distance between the eyepiece lens and the objective lens, 1, a gear or a thread is formed on the outer circumferential surface of the telescope fixing bracket, and a sliding shaft 11 provided with a worm wheel 12 at the other end is rotatably mounted on the telescope fixing bracket. A worm gear 13 having gear teeth meshing with the gear teeth of the worm gear 12; A focus adjustment knob 14 installed on a gear shaft of the worm gear to rotate the worm gear; The slide is formed on the inner circumferential surface of a gear tooth or a thread to be meshed with a gear tooth or a thread formed on the outer circumferential surface of the pneumatic axle and is fixed to one side of the lens fixing adapter and rotates the focus adjusting knob to transmit it through the worm gear- And a focus adjustment movable body 15 for sliding the lens fixing adapter in the axial direction of the pneumatic axis by rotation of the pivot shaft by the rotational force of the pivot shaft.

The sliding shaft 11 is fixed to the telescope fixing adapter 100 and moves the lens fixing adapter 200 in the longitudinal direction. As shown in FIG. 4, one end of the telescope fixing adapter 100 And the other end is rotatably supported by a cover of the position adjusting means 10 or a conveyance shaft fixing ring 20 to be described later.

The sliding shaft 11 guides a path through which the focus adjusting movable body 15 moves and moves the fixed axis moving body 15 in a predetermined direction. In this case, threads are formed or gear teeth are formed on the outer circumferential surface, And a screw thread or a gear tooth engaging with the screw threads or gear teeth formed on the outer circumferential surface of the pneumatic shafts 11 is formed in the hole through which the sliding shaft 11 of the focus adjusting movable body 15 penetrates, When the pneumatic axis 11 rotates, the focus adjusting movable body 15 moves along the pneumatic axis 11 by sliding.

The lens holding adapter 200 is connected to one side of the focus adjusting movable body 15 which moves in this manner, and the lens holding adapter 200 moves in a predetermined direction.

The focus adjusting movable body 15 is fixed to the lens holding adapter 200 by the moving body fixing bracket 15f shown in FIGS.

The worm wheel 12, the worm gear 13, and the focus adjusting knob 14 are provided as the means for rotating the pneumatic shaft 11 by the sliding. That is, as shown in FIG. 2, the worm wheel 12 is provided at one end of the slider 11, and the worm wheel 13 having the gear teeth meshed with the gear teeth of the worm wheel 12, When the worm wheel 13 rotates and the worm wheel 12 rotates due to the rotation of the worm gear 13, the sliding movement of the worm wheel 12 causes the pneumatic shaft 11 to rotate, The moving body 15 is moved.

2, 3 and 7, bearings 11b are installed at both ends and are rotatably supported. The worm gear 13 and the focus adjusting knob 14 Are integrally coupled by a gear shaft 13s and both ends of the gear shaft 13s are rotatably supported by bearings 14b.

The worm wheel 13 and the worm wheel 12 are rotated in the same direction as shown in the figure so that the worm wheel 12 can not rotate unless the worm gear 13 is rotated, Even if a lens or a camera of the present invention is installed.

1 and 2, the position adjusting means 10 configured as described above is installed in the chamfered portion 200c on the outer surface of one side of the lens fixing adapter 200, A cover 10c is provided to cover and protect the component parts. Both ends of the gear shaft 13s provided with the worm gear 13 and the focus adjustment knob 14 are rotatably installed in a hole formed in the cover 10C by a bearing 14b.

As described above, the slidable one end of the pneumatic shaft 11 is rotatably coupled to the telescope fixed adapter 100, and the other end is coupled to the cover 10c. However, in order to increase the assemblability, 20 is preferably installed.

5, a shaft fixing groove 20s is formed in a portion of the feed shaft fixing ring 20 which faces the one end of the pneumatic shafts 11, and the shaft fixing grooves 20s A bearing 11b is provided so that the sliding supports the one end of the pneumatic shaft 11 in a rotatable manner.

In order to allow the sliding to rotatably engage one end of the telescopic rod 11 as described above, the telescope fixed adapter 100 is partially cut to form an opening portion 100h, and one end of the opening portion 100h is tucked And a bearing 11b is provided on the shaft so that one end of the shaft 11 is rotatably engaged with the shaft.

The opening 100h formed in the telescope fixed adapter 100 is a space in which each component constituting the position adjusting means 10 is installed.

6, a wide groove portion 100w is formed on the inner circumferential surface of the telescope fixed adapter 100 and a portion in which the position adjusting means 10 is provided is opened in the wide groove portion, An adapter supporting bushing 30 is formed.

In order for the position adjusting means 10 to be formed on the wall of the cylindrical telescope fixed adapter 100, a predetermined space is required. For this purpose, the lens 100 can be connected to the lens holding adapter 200 as well as the opening 100h. You need space. As described above, the wide groove portion 100w and the opening portion 100h are formed, but this space is left as an empty space between the telescope fixing adapter 100 and the lens fixing adapter 200. When the empty space is left, The adapter supporting bushing 30 is installed in the wide groove portion 100w as described above to fill the space.

When the worm wheel 13 rotates and the worm wheel rotates the worm wheel 12 when the focus adjusting knob 14 is rotated, the worm wheel 13 rotates the worm wheel 12 The slider 11 integrally connected to the worm wheel rotates to move the focus adjusting movable body 15 in the axial direction of the pneumatic axis 11 so that the lens holding adapter connected to the focus adjusting movable body 15 200) is moved to adjust the focus.

In the anti-jamming focus adjusting apparatus of the present invention, the lens holding adapter 200 is fixed by the weight of the camera and the CCD device installed in the lens holding adapter 200 in a celestial object observing process for a long time (for example, 6 hours or more) It is prevented from flowing down and a more precise image can be obtained.

10: position adjusting means 10c: cover
11: Sliding shoe 11b: Bearing
12: Worm wheel
13: Worm gear 13s: Gear axis
14: Focus adjustment knob 14b: Bearing
15: Moving body for focus adjustment 15f: Moving body fixing bracket
20: Feed shaft fixing ring 20s: Axis fixing groove
30: adapter supporting bush 30h: opening
100: telescope fixing bracket 100h: opening
100s: shaft fixing groove 100w: wide groove portion
200: Lens fixing adapter 200c: Face mounting
300: down adapter 300h: opening

Claims (4)

And a position adjusting means (10) for fixing a position of a lens fixing adapter (200) movably installed at an end of a telescope fixing bracket (100) provided at an end of the telescope,
The position adjustment means (10)
And the worm wheel 12 is mounted on the other end of the telescopic fixing bracket 100 so that the sliding movement of the telescopic telescopic rod 11 can be prevented.
A worm gear 13 having gear teeth meshed with gear teeth of the worm wheel 12;
A focusing knob 14 installed on a gear shaft of the worm gear 13 to rotate the worm gear 13;
A gear tooth or a thread that is engaged with a gear tooth or a thread formed on the outer circumferential surface of the pneumatic shaft 11 is formed on the inner circumferential surface and is fixed to one side of the lens fixed adapter 200 to form the worm gear 13, The sliding movement of the lens holding adapter 200 by the rotational force of the focus adjusting knob 14 transmitted through the lens holding adapter 200 and the focus adjusting moving body 15 moves the lens holding adapter 200 in the axial direction of the pivot shaft ≪ / RTI &
The position adjusting means 10 is provided on a face mounting portion 200c on one side of the lens fixing adapter 200,
A wide groove portion 100w is formed on a portion of the inner circumferential surface of the telescope fixing bracket 100 where the position adjusting means 10 is installed and a portion where the position adjusting means 10 is provided is opened Wherein an adapter supporting bushing (30) having an opening (30h) formed therein is provided. delete The method according to claim 1,
A telescopic fixing bracket 100 is provided with a transfer shaft fixing ring 20 having a shaft fixing groove 20s for supporting one end of the telescopic shaft 11 at an end of the telescope fixing bracket 100 in the direction in which the worm gear 13 is installed To-be-focused. delete

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