KR20160116626A - Mounting Apparatus for Optical Devices - Google Patents

Abstract

The present invention relates to a holder for an optical device comprising: a support base (10) including a plurality of first and second support installing grooves (11A, 11B), a fixing shaft (12) installed in one end of the first and second support installing grooves (11A, 11B), and a lighting apparatus installing groove (13) placed within the second support installing groove (11B), having a lighting apparatus therein; first and second supports (20, 30) which have one end fixated on the fixing shaft (12), and accommodated in the first and second support installing grooves (11A, 11B) respectively; rotating arms (40, 40) installed in the first and second supports (20, 30) to be able to rotate; and a mounting unit (50) installed in the rotating arms (40, 40), mounting an electron microscope or a magnifier thereon. Due to such configuration, since an electron microscope and a magnifier are installed in one support base and used in the present invention, the usage of the optical device is convenient.

Description

[0001] Mounting Apparatus for Optical Devices [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical instrument holder, and more particularly, to a holder for an optical apparatus that can be easily used by installing an electronic microscope or a magnifying glass used for inspecting a product or a sample in an industrial field.

In the industrial field, optical devices such as an electron microscope or a magnifying glass are used to check the quality and the organization of the produced products or samples (hereinafter referred to as "objects"). , An operator usually moves to an electron microscope or a magnifying glass while moving the position of the sample or moving it while inspecting two optical devices such as an electron microscope and a magnifying glass.

However, when the operator moves to the optical device or moves the position of the specimen as described above, the specimen or the like must be repositioned in the optical device every time. Therefore, the time required for the inspection becomes longer, There is a concern.

In addition, since an electron microscope and a magnifying glass must be provided, a wide space is required, and a monitor for displaying an image obtained from each of the electron microscope and the magnifying glass must be provided.

Further, when an optical device such as an electron microscope or a magnifying glass is used, an appropriate amount of light is required for these optical devices. For this purpose, the optical device is usually provided with a light amount adjusting means. There is a problem that the light quantity adjusting means must be provided for each optical device.

KR 20-1998-0022653 U KR 10-0980478 B1 KR 20-0347274 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the problems encountered when inspecting a subject using the conventional optical device as described above, and it is an object of the present invention to provide an optical device, such as an electronic microscope, And it is an object of the present invention to provide a holder for an optical apparatus which is easy to install and use an optical apparatus while minimizing an installation space of the optical apparatus.

The above object of the present invention can be also achieved by a cradle for an optical device comprising a plurality of first and second support stand mounting grooves, a stationary shaft provided at one end of the first and second support stand mounting recesses, A support base having a lighting device mounting groove on which a lighting device is installed; A first and a second support rods fixed at one end to the fixed shaft and received in the first and second support rods, respectively; A rotary arm rotatably mounted on the first and second support rods; And a mount provided on the rotary arm for mounting an electron microscope or a magnifying glass.

According to the present invention, the first support support grooves are formed on the opposite sides of the illumination device installation recess, and the second support support grooves are formed on both sides of the illumination device installation recess at a predetermined interval .

In addition, the present invention is characterized in that the first and second support rods are each provided with a support rod having a through hole formed on the lower both side surfaces thereof, a screw portion formed on the outer peripheral surface of the support rod and positioned on the upper portion of the through hole, As a further feature.

The present invention is further characterized in that the upper ends of the support rods are connected to each other by a handle bar having an insertion portion to be respectively inserted into the support rods.

In addition, the present invention is characterized in that the rotary arm is composed of a cylindrical insertion portion inserted into the first and second support rods, and an extension portion whose one end is fixed to the outer peripheral surface of the insertion portion.

Further, the present invention is characterized in that the rotary arm is composed of a cylindrical insertion portion into which the rotary arm is respectively inserted into the first and second supporting rods, and a first and a second arm which are fixed at one end to the outer peripheral surface of the insertion portion, do.

Further, the present invention is characterized in that the first and second support rods are further provided with a fixture for supporting the bottom surface of the rotary arm.

According to another aspect of the present invention, there is provided an apparatus for attaching and fixing a mounting unit, comprising: a mounting part fixed to a rotary arm and having a vertical guide at one side; a mounting part installed to be vertically slidable along a vertical guide and selectively mounted with an electron microscope or a magnifying glass; And a fixing screw for fixing the fixing screw.

The present invention relates to an optical machine cradle, in which a plurality of cradles are housed in a support base, so that the cradle can be easily carried and stored, and the cradle is secured in an upright position as required, It is possible to easily select and use any one of the optical devices by the user and also to install and use the optical device while minimizing the installation space of the optical device This is convenient.

1 is a perspective view showing an example of a holder for an optical apparatus according to the present invention,
Fig. 2 is a use state diagram of Fig. 1,
3 is a perspective view showing an example of a support base according to the present invention,
Fig. 4 is a plan view of Fig. 3,
5 is a perspective view showing an example of a first support according to the present invention,
6 is a perspective view showing an example of a second support according to the present invention,
7 is a perspective view showing an example of a rotary arm according to the present invention,
8 is a perspective view showing another example of the rotary arm according to the present invention,
Fig. 9 is a use state diagram showing an example in which the rotary arm according to Fig. 8 is used.
10 is a perspective view showing an example of a fixture according to the present invention,
11 is an exploded perspective view showing an example of a mounting table according to the present invention,
12 is a use state diagram showing an example of using a mounting table according to the present invention,
13 and 14 are use state diagrams showing examples of fixing and position adjustment of the first and second support rods and the rotary arm of the holder for an optical apparatus according to the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings, which show preferred embodiments.

The present invention relates to a holder for an optical apparatus, which can be used by mounting a plurality of optical devices such as an electron microscope and a magnifying glass on one holder. The holder for an optical apparatus according to the present invention comprises, as shown in FIGS. 1 and 2, And includes a support base 10, first and second support rods 20 and 30, rotary arms 40 and 40 ', and a mounting table 50.

The support base 10 generally has a plate shape of a quadrangular plate and functions as a support. The structure of the support base 10 includes first and second support rods 20 and 30 And one end of the first and second support rods 20 and 30 is fixed to one end of the first and second support rods mounting grooves 11A and 11B And the fixed shaft 12 is installed so as to connect the first and second support stand installation grooves 11A and 11B to each other.

The support base 10 is provided with an illumination device installation groove 13 having a predetermined depth and an upper surface opened so that an illumination device can be installed inside the support base 10. A transparent or translucent A translucent plate 14 made of plastic or glass is provided.

The first support stand installation grooves 11A are formed on the opposite sides of the illumination device installation recess 13 at a predetermined interval and the second support stand installation recesses 11B are formed on both sides of the illumination device installation recess 13 And a pair of illumination device mounting grooves 13 are located between the second support mounting grooves 11B.

A plurality of through holes 13A communicating with the illumination device mounting grooves 13 are formed on the front surface of the support base 10. The brightness adjusting knobs 15 are provided in the through holes 13A, The light amount of the illumination device provided inside the groove 13 is adjusted.

As shown in FIG. 4, a seating portion A is naturally provided on one side of the upper surface of the support base 10, and a monitor 1 and the like connected to an electron microscope and a magnifying glass are installed in the seating portion A.

The structure of the support base 10 as described above allows both the first and second support rods 20 and 30 to be described later to be housed in the support base 10 so that it is easy to carry and store, It is not necessary to separately provide a space for installing the monitor 1 because the monitor 1 can be used by being placed on the seat portion A of the monitor 1.

The first and second support table receiving grooves 11A and 11B are formed in the support base 10 so as to accommodate the first and second support tables 20 and 30 in the support base 10, It is also possible to implement the first and second support rods 20 and 30 along both sides of the support base 10 without forming the first and second support rack receiving grooves 11A and 11B in the support base 10 have.

The first support 20 or the second support 30, which is housed in the first and second support stand grooves 11A and 11B of the support base 10 and one end is fixed by the fixed shaft 12, And support rods 21 and 31 having through holes 21A and 31A formed on both lower sides thereof as shown in Fig. 6 and support rods 21 and 31 respectively formed on the outer peripheral surfaces of the support rods 21 and 31, Shaped fixing members 23 and 33 threadedly engaged with the threaded portions 22 and 32 and the first and second support rods 20 and 30 are fixed to each other More preferably, the length is different.

The first and second support rods 20 and 30 can be housed in the first and second support rack receiving grooves 11A and 11B of the support base 10 and the first and second support rods 20 and 30 can be accommodated, 30), one or more support posts of a required length among four first and second support posts 20 and 30 are selected and vertically installed and then the ring-shaped fixing members 23 and 33 are fixed to the first support posts The fixing members 23 and 33 are supported while being in surface contact with the upper surface of the support base 10 so that the first and second supports 20 and / or the second support 30 are simply and firmly fixed to the support base 10.

The support base 10 is provided with grooves (not shown) along the longitudinal direction of the stationary shaft 12 and fixed to the stationary shaft 12 by the first and second support rods 20 and 30 And can be moved and fixed along the longitudinal direction of the shaft 12, so that it is more convenient to use.

6, the upper ends of the pair of support rods 31 constituting the second support rods 30 may be connected by a tubular handle bar 34. To this end, the upper ends of the support rods 31 The insertion portion 34A is formed at both side ends of the handle bar 34 and is inserted into the inside of the support bar 31. The insertion portion 32A is fastened with a fastening hole 31B, The second support base 30 is connected by the handle bar 34 by fastening the fixing screws 35 to the fastening holes 31B and 34A ' Therefore, the user can easily carry or move the cradle in a state in which the second support base 30 is housed in the second support cradle 11B of the support base 10 by using the handle base 34. [

A rotating arm is rotatably mounted on each of the first and second supporting rods 20 and 30. The rotating arm is provided with a mounting table 50. An electron microscope or a magnifying body is mounted on the mounting table do.

In the present invention, a rotary arm of two structures is used, and the rotary arm 40 of one of the two structures is inserted into a cylindrical-shaped insertion hole penetratingly inserted into the first and second support rods 20 and 30, And the extension portion 42 having one end fixed to the outer peripheral surface of the insertion portion 41 and having a horizontal length so that when the rotary arm 40 is installed on the first and second support rods 20 and 30, .

In the case where the rotary arm 40 has the above-described structure, since one rotary arm 40 is provided with one mounting base 50, any one of an optical microscope or a magnifying glass is installed, 40, a rotating arm 40 is to be provided on each of two support rods in order to install both the electron microscope and the magnifying glass.

Therefore, when the user uses any one of the optical devices mounted on the rotary arm 40, the other rotary arm 40 is rotated in the opposite direction while the optical device is positioned above the illumination device installation groove 13 It is possible to keep the distance from the upper space of the lighting device installation groove 13 so as not to interfere with the inspection.

As shown in FIG. 8, the rotary arm 40 'of another structure includes a cylindrical insertion portion 41' inserted into the first and second support rods 20 and 30, The first and second arms 42A and 42B are fixed at one end and have a predetermined angle with respect to each other.

When the rotary arm 40 'has the above-described structure, one mounting base 50 may be provided on each of the first and second arms 42A and 42B as shown in FIG. 9, Both the electron microscope and the magnifying glass can be mounted on the supports.

Therefore, when the user moves one of the first and second arms 32A and 32B to place it in the upper space of the lighting installation portion 13, the other arm is naturally moved away from the lighting installation portion 13, As a result, when the electron microscope and the magnifying glass are installed in the first and second arms 32A and 32B, the user can move the optical device of either the electron microscope or the magnifying glass to the upper space of the lighting unit 13 more easily The inspection can proceed.

The shield cap 43 is further provided at one end (free end) of the extension 42 and the first and second arms 42A and 42B. The diameter of the shield cap 43 is equal to the diameter of the extension 42 The mounting base 50 can be easily detached from the rotary arms 40 and 40 'through the free ends of the extended portions 42. [

The fixture 44 is provided at the bottom of the insertion portions 41 and 41 'of the rotary arms 40 and 40' so as to support the insertion portions 41 and 41 ' Shaped fixing body 44A inserted into the first and second support rods 20 and 30 and a fixing screw 44B penetrating the fixing body 44A as shown in Fig.

The fixing body 44A is inserted into the outer circumferential surface of the first and second support rods 20 and 30 by the fixture 44 having the above-described structure to position the fixture body 44A at an appropriate height and then the fixing screw 44B is tightened, And the mounting height of the rotary arms 40 and 40 'is maintained as it is by mounting the rotary arms 40 and 40' above the stationary fixture 44 fixed in this manner.

The mounting heights of the rotary arms 40 and 40 'are fixed by using the fixture 44. Alternatively, the mounting heights of the rotary arms 40 and 40' may be fixed on the upper and lower sides of the insertion portions 41 and 41 ' In this case, the rotary arms 40 and 40 'do not move upward and downward, and the initial installation position can be maintained more stably than in the case of using the single fastener 44 .

When the fasteners 44 are provided on the upper and lower sides of the insertion portions 41 and 41 'of the rotary arms 40 and 40' as described above, the fasteners 44 positioned above the insertion portions 41 and 41 ' It is possible to expect a function of fixing the height and direction adjusted by the user so as not to arbitrarily change. In this case, the upper part of the insertion part 41 or 41 ' It is more preferable that a plurality of anti-slip friction projections (not shown) are formed radially on the bottom surface of the fixture 44 to be contacted.

11, the mounting table 50, which is provided to each of the extension portions 42 of the rotary arms 40, 40 'or the first and second arms 42A, 42B to mount the electron microscope and the magnifying glass body, A locking part 51 provided on the extended part 42 and provided with a vertical guide 51C at one side thereof and a mounting part 51C which is slidable up and down along the vertical guide 51C and is selectively mounted with an electron microscope or a magnifying glass And a fixing screw 53 fixed to both sides of the vertical guide 51C and fixing the mounting portion 52, respectively.

The clamping portion 51 also has a mounting portion 51A into which the extension portion 42 is inserted and a fixing screw 51A 'and a mounting portion 51A and a vertical guide 51C which are engaged with the mounting portion 51A The mounting portion 52 is composed of a sliding bar 52A having protrusions formed on both sides along the length thereof and a ring-shaped seating portion 52B having an electron microscope or a magnifying glass mounted thereon.

12, the position of the mounting table 50 in the horizontal direction can be adjusted along the extended portion 42, and the center point of the extended portion 42 And the height of the mounting portion 52 can be adjusted as described above. Therefore, the mounting height of the magnifying glass and the installation direction of the magnifying glass mounted on the mounting portion 52 can be freely adjusted.

The height of the mounting portion 52 is manually adjusted by the user and then the mounting height is fixed by the fixing screw 53. Alternatively, a transmission device such as an actuator, a cylinder, or a motor may be installed on the mounting portion 52 So that the installation height can be adjusted by operating the switch.

13, a suitable number of the first and second support rods 20 and 30 may be vertically arranged with respect to the support base 10 as shown in FIG. 13, And then the fixing members 23 and 34 are moved so as to be brought into close contact with the upper surface of the support base 10 to fix the support base and then the fixture 44 is inserted into the raised support base to be fixed at a proper height.

Next, after positioning the rotary arms 40 and 40 'on the upper surface of the fixture 44, the position of the mounting table 50 provided on the extended portion 42 or the first and second arms 42A and 42B is appropriately adjusted And then an electronic microscope and / or a magnifying glass are attached to the mounting table 50 and the monitor 1 connected to the magnifying glass and the mounting part A of the supporting base 10 is seated.

Then, as shown in FIG. 14, the rotary arms 40 and 40 'are rotated to move the electron microscope or the magnifying glass to the upper part of the transparent plate 14 provided with the illuminator, and the inspection is performed.

As described above, according to the present invention, since a plurality of supports can be housed in a support base, it is easy to carry and store, and when necessary, an electron microscope or a magnifying glass is selectively installed on the support stand It is easy to use because it can be.

1: monitor 11: support base
11A: first support stand installation groove 11B: second support stand installation recess
12: fixed shaft 13: lighting device mounting groove
13A: Through hole 14: Transparent plate
15: brightness control knob 20: first support
21: support rod 21A: through hole
22: screw portion 23: fixing member
30: second support base 31: support rod
31A: Through hole 31B: Fastening hole
32: screw portion 33: fixing member
34: handle base 34A:
34A ': fastening hole 35: fastening screw
40, 40 ': rotary arm 41, 41': insertion portion
42: extension part 42A: first arm
42B: second arm 43: shield cap
50: mounting base 51:
51A: mounting portion 51A ': fixing screw
51B: connection part 51C: vertical guide
51D: fastening hole 52: mounting portion
52A: Sliding bar 52B:
53: fixing screw A: seat part

Claims (8)

1. A holder for an optical apparatus for selectively using an electron microscope and a magnifying glass,
The support base includes a plurality of first and second support base mounting grooves 11A and 11B, a fixing shaft 12 provided at one end of the first and second support base mounting grooves 11A and 11B, A support base 10 having an illumination device mounting groove 13 inside the illumination device 11B and an illumination device installed therein;
First and second support rods 20 and 30, one end of which is fixed to the fixed shaft 12, and which are respectively received in the first and second support rods mounting grooves 11A and 11B;
A rotary arm (40, 40 ') rotatably mounted on the first and second support rods (20, 30);
And a mounting table (50) provided on the rotary arm (40, 40 ') for mounting an electron microscope or a magnifying glass.
The method according to claim 1,
The first support stand installation grooves 11A are formed on the opposite sides of the illuminator installation recess 13 at a predetermined interval and the second support stand installation recesses 11B are formed in the illumination device installation recess 13, Are formed on both sides of the light guide plate with a predetermined interval therebetween.
The method according to claim 1,
The first and second support rods 20 and 30 are respectively formed with support rods 21 and 31 having through holes 21A and 31A formed on the lower both sides thereof and the through holes 21 and 31 formed on the outer peripheral surfaces of the support rods 21 and 31, (23, 33) threadedly engaged with the threaded portions (22, 32) and threaded portions (22, 32) located on the upper portions of the optical fibers (21A, 31A) .
The method of claim 3,
Wherein an upper end of the support bar (31) is connected by a handle bar (34) provided with an insertion part (34A) inserted into the support bar (31).
The method according to claim 1,
The rotary arm 40 includes a cylindrical insertion portion 41 inserted into the first and second support rods 20 and 30 and an extension portion 42 having one end fixed to the outer peripheral surface of the insertion portion 41 Wherein the optical device is mounted on the optical device.
The method according to claim 1,
The rotary arm 40 'has a cylindrical insertion portion 41' which is inserted into the first and second support rods 20 and 30 and a second insertion portion 41 which is fixed at one end to the outer peripheral surface of the insertion portion 41, And the first and second arms (42A, 42B) are provided so as to form the first and second arms.
The method of claim 1, 5 or 6,
Wherein the first and second support rods (20, 30) further include fixtures (44) for supporting the bottom surfaces of the rotary arms (40, 40 ').
The method of claim 1, 5 or 6,
The mounting base 50 is fixed to the rotary arm 40 and 40 'and includes a vertical locking unit 51 having a vertical guide 51C at one side thereof, , A mounting portion (52) for selectively mounting an electron microscope or a magnifying glass, and a fixing screw (53) for selectively fixing the mounting portion (52).

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