KR101233077B1 - A goniometer - Google Patents

Abstract

PURPOSE: A goniometer is provided to easily replace and utilize a support by using a fixing screw, thereby easily perform desired measurement. CONSTITUTION: A goniometer comprises a lower plate(10), a fixing installation unit(20), a movable plate, a first gonio(30), a second gonio(40), a third gonio(50), a fourth gonio(60), a fixing screw(70), and an adjusting tool. A magnet is installed in the lower plate. The first gonio is slide-joined to a first installation port in a forward and backward direction and is composed of a forward-backward moving body so that the forward-backward moving body is transferred in the forward and backward direction by the operation of a first screw shaft(31). The second gonio is joined to the first gonio, thereby being transferred by the operation of a second screw shaft(41). The third gonio is joined to the second gonio, thereby being rotate-transferred by the operation of a third screw shaft(51) in the forward and rearward direction along a semicircular shaped orbit. The fourth gonio is joined to the third gonio, thereby being rotate-transferred by the operation of a fourth screw shaft(61) in left and light directions along a semicircular shaped orbit(51).

Description

Goniometer {A goniometer}

The present invention relates to a goniometer, and more specifically, it is possible to achieve both front and rear, left and right feed and rotational transfer in the forward, backward, left and right directions, and also by using a fixing screw. It can be easily replaced and used to make the desired measurement easily, and the control tool can be easily attached and detached to the lower plate installed with a magnet, so it is easy to use and it is related to the goniometer that can be easily stored without risk of loss.

In recent years, researches in all fields such as semiconductor devices have been progressing in the direction of high integration and high performance of semiconductor substrates in order to process more data in a short time. The spacing between the structures continues to decrease, and if the microstructures cannot be formed on the semiconductor substrate, including patterns with the correct dimensions, not only the defects of the microstructures themselves but also subsequent processes affect the overall failure rate of the semiconductor device. Because of the problem of increasing the size of the microstructure to the precise dimensions on the semiconductor substrate is very important.

Therefore, a goniometer for measuring a light source including lighting has been developed and used. The goniometer is a device capable of adjusting an angle with a precision of micrometer level, and a conveying part which is moved to the front, rear or left and right, Consists of a drive unit for transferring the transfer unit and a support hole formed on the upper side of the transfer unit, and used to transfer the transfer unit according to the conditions by operating the drive unit using a separate control tool when measuring the light source.

Korea Patent Publication "10-0824795" (Lee Daebong) 2008. 04. 17

However, the conventional goniometer is not only a structure that can simultaneously move in multiple directions, such as the transfer of the transfer portion before, after, or only to the left and right, the control tool is configured separately from the goniometer Because of the difficulty of storage, there was a lot of problems of loss, and the support for measuring the light source is determined, there was a limit that is difficult to achieve a variety of measurements.

Goniometer of the present invention for achieving the above object is a magnet is installed lower plate; A fixed installation unit coupled to the upper center of the lower plate; The first mounting hole is fixedly coupled to the fixed mounting portion, the first mounting hole to form a first coupling hole in the front and rear directions, and is screwed into the first coupling hole of the first mounting hole to form a first fitting hole on one side and both ends A moving plate having a first screw shaft including a first wrench into which the adjustment tool is fitted and a groove portion fitted into the first fitting hole of the first screw shaft; It is composed of a front and rear movable body which slides forward and backward to the first mounting tool and forms a first mounting hole to which the movable plate is coupled to the lower side. Gonio; A second gonio coupled to the first gonio and conveyed to the left and the right according to the manipulation of the second screw shaft; A third gonio coupled to the second gonio and rotationally moving along a semi-circular orbit in the front and rear directions by manipulating a third screw shaft; A fourth gonio coupled to the third gonio, which rotates along a semi-circular orbit in a left and right direction by manipulating a fourth screw shaft, wherein the fourth gonio has an installation hole and a fixing hole; A fixing screw which is coupled to the fixing hole of the fourth gonio and fixes the support hole inserted into the installation hole; Detachable on the lower plate by a magnet, the control tool for the operation of the first, second, third, fourth screw shaft; characterized by consisting of.

The goniometer of the present invention can achieve both front and rear, left and right transfer and rotational movement in the front, rear, left and right directions, and can easily replace and use the support hole using a fixing screw to measure desired. There is an advantage that can be achieved easily.

In addition, the present invention is a useful invention that can be easily attached and detached to the lower plate the magnet is installed is easy to use, as well as easy to achieve storage without risk of loss.

1 is a perspective view showing a goniometer of the present invention.
Figure 2 is a perspective view of the goniometer showing the support and the fixing screw and the adjustment tool of the present invention separated.
3 and 4 are exploded perspective views showing the goniometer of the present invention.

Hereinafter, the structure of the present invention will be described.

The present invention relates to a goniometer 100 for measuring a light source, including illumination, as shown in Figures 1 to 4, the lower plate 10, the fixed installation portion 20, and the first gonio ( 30, the second gonio 40, the third gonio 50, the fourth gonio 60, the fixing screw 70, and the adjustment tool (80).

First, the lower plate 10 is a basic plate for easily seating the present invention on the floor, characterized in that the magnet 11 is installed on the upper edge portion.

In addition, the upper portion of the lower plate 10 is configured with a coupling portion 13 for coupling the fixed installation portion 20, the coupling portion 13 can be easily configured in the form of a male screw thread formed in the outer diameter. Can be.

In addition, the magnet 11 may be easily installed by inserting the magnet 11 into the installation groove after forming an installation groove (not shown) on the upper surface of the lower plate 10.

Second, the fixed installation portion 20 is configured to be coupled to the coupling portion 13 configured in the upper center of the lower plate 10 in order to fix the present invention to the lower plate, screwed to the coupling portion 13 The fixing part 21 is fixed to the lower plate 10, and the mounting portion 23 is seated on the upper surface of the coupling portion 13 is fixed to the lower plate 10 by the fixing portion 21.

In addition, the fixing part 21 is formed in a hollow shape so that a part of the mounting part 23 protrudes upward of the fixing part 21, and the fixing part 21 protrudes upward of the fixing part 21. The first coupling groove 25 for the fixed installation of the first gonio 30 is configured on the upper surface.

Therefore, the mounting portion 23 is firmly installed between the lower plate 10 and the fixing portion 21 by the fixing portion 21 is coupled to the lower plate 10.

Third, the first gonio 30 is coupled to the fixed installation portion 20 is transferred to the front, rear in accordance with the operation of the first screw shaft 31, the first installation port 33 and the first The screw shaft 31, the movable plate 35, and the front and rear movable body 37 are formed.

First, the first installation port 33 of the first gonio 30 is configured to be fixedly coupled to the upper surface of the installation portion 23 through the first coupling groove 25 configured in the fixed installation portion 20, In the front and rear directions, the first coupling hole 32 for coupling the first screw shaft 31 is formed.

In addition, the overall shape of the first installation port 33 is preferably formed in a trapezoidal shape whose upper side is larger than the lower side in order to prevent detachment of the front and rear movable body 37 which is slide-bonded.

In addition, as described above, the first screw shaft 31 is screwed into the first coupling hole 32 of the first installation hole 33, and the first fitting to which the movable plate 35 is fitted at one side thereof. A hole 31a is formed, and both ends thereof constitute a first wrench 31b into which the adjustment tool 80 is fitted.

In addition, the movable plate 35 is provided with a groove portion 35a at the lower side thereof so that the lower side thereof is fitted into the first fitting hole 31a of the first screw shaft 31, and the upper side thereof is fitted into the front and rear movable body 37. to be.

In addition, the front and rear movable body 37 is configured to slide in the front and rear directions to the first mounting hole 33, the outer shape of the first mounting hole 33 for the slide coupling with the first mounting hole 33. The first slide groove (37a) of the same trapezoidal shape is configured on the lower side, and the second slide groove (37b) for coupling the second gonio 40 on the upper side is configured in a trapezoidal shape.

Here, the first slide groove (37a) is formed to penetrate in the front and rear direction in the lower side of the front and rear movable body (37) for forward and rearward movement of the front and rear movable body (37), the lower surface of the front and rear movable body (37) The first installation hole 36 to which the movable plate 35 is coupled is formed.

 Therefore, when the first screw shaft 31 is rotated by using the first lens 31b, the first screw shaft 31 screwed to the first mounting hole 33 moves forward and backward and at the same time moves. The front and rear movable body 37 connected to the first screw shaft 31 by the plate 35 also moves forward and backward.

In addition, the second slide groove (37b) is formed to penetrate in the left and right direction on the upper side of the front and rear movable body (37) for the left and right direction transfer of the second goni 40, the second gonio It is formed in a trapezoidal shape to prevent the detachment of the 40.

In addition, a second mounting hole 37c is inserted into and fixed to an upper surface of the front and rear movable body 37 on which the second slide groove 37b is formed so that the fixing plate 45 formed in the second goni 40 may be fitted. Is formed.

Fourth, the second gonio 40 is coupled to the first gonio 30 and is transferred to the left and right in accordance with the operation of the second screw shaft 41, the left and right moving body 43 and the second screw The shaft 41 and the fixed plate 45 are comprised.

First, the left and right movable bodies 43 of the second gonio 40 are configured to slide in the left and right directions to the second slide grooves 37b of the front and rear movable bodies 37 configured in the first gonio 30. In the left and right directions, a second coupling hole 42 for coupling the second screw shaft 41 is formed.

In addition, the outer shape of the left and right movable body 43 is formed in the same trapezoidal shape as the second slide groove 37b for sliding engagement with the second slide groove 37b, and the third gonio in the left and right movable body 43 A second coupling groove 43a for coupling the 50 is formed.

In addition, the second screw shaft 41 is configured to be screwed into the second coupling hole 42 of the left and right movable body 43 as described above, the second fitting hole (14) into which the fixing plate 45 is fitted. And a second wrench 41b into which the adjusting tool 80 is fitted at both ends.

In addition, the fixing plate 45 is provided with a groove portion 45a on the upper side, the upper side of which is fitted into the second fitting hole 41a of the second screw shaft 41, and the lower side of the second installation constituted by the front and rear movable body 37. It is a structure fitted to the hole 37c.

Therefore, when the second screw shaft 41 is rotated, the left and right conveyance of the second screw shaft 41 connected to the front and rear moving body 37 by the fixed plate 45 is limited, so that the second screw shaft ( 41) and the left and right moving body 43 is screwed to the left and right will be transported.

Fifth, the third gonio 50 is coupled to the second gonio 40 and rotated along the semi-circular orbit in the front and rear directions by the operation of the third screw shaft 51, the third installation A sphere 54, a third screw shaft 51, and a first orbital moving body 57 are formed.

First, the third installation port 54 of the third gonio 50 is configured to be fixedly coupled to the second coupling groove (43a) of the left and right movable body 43 configured in the second gonio 40, The first seating portion 52 of the semicircular orbit is formed in the front and rear directions, and the first mounting coupling hole 53 is formed at the center of the first seating portion 52.

In addition, the third screw shaft 51 is formed in the first mounting coupling hole 53 of the third mounting hole 54 by forming the first jaw portion 51a on both sides, respectively, of the first jaw portion 51a. Outer, that is, the third wrench 51b to which the adjustment tool 80 is fitted is formed at both ends.

In addition, the first orbital movable body 57 constitutes a second seating portion 56 corresponding to the first seating portion 52 of the third mounting hole 54 and is slidably coupled to the first seating portion 52. The first screw groove 57a is screwed with the third screw shaft 51 so as to be traversed by the third screw shaft 51.

Sixth, the fourth gonio (60) is coupled to the third gonio (50) and rotates along the semi-circular orbit in the left and right directions by the operation of the fourth screw shaft (61), And an installation hole 68 and a fixing hole 69 for installing and fixing 71, wherein the fourth gonio 60 has a fourth installation hole 64 and a fourth screw shaft 61. ), And the second orbital mover (67).

First, the fourth installation port 64 of the fourth gonio 60 is bolted to the upper surface of the first track moving body 57 configured in the third gonio 50 is fixed to the configuration, left, right direction The third seating portion 62 of the semi-circular orbit is formed, and the second mounting coupling hole 63 is formed in the center of the third seating portion 62.

In addition, the fourth screw shaft 61 is formed in the second mounting coupling hole 63 of the fourth mounting hole 64 by forming the second jaw portion 61a on both sides, and the outside of the second jaw portion 61a. In other words, the fourth wrench 61b to which the adjustment tool 80 is fitted is formed at both ends.

In addition, the second orbital mover (67) constitutes a fourth seating portion (66) corresponding to the third seating portion (62) of the fourth mounting hole (64) and is slide-coupled to the third seating portion (62). The second screw groove 67a which is screwed with the fourth screw shaft 61 is formed to be orbitally transferred by the fourth screw shaft 61.

In addition, an installation hole 68 and a fixing hole 69 for installing and fixing the support hole 71 are formed in the second orbital movable body.

Seventh, the fixing screw 70 is coupled to the fixing hole 69 of the second trajectory mobile body 67 formed in the fourth gonio 60 is connected to the installation hole 68, the installation hole 68 ) Serves to fix the support (71) to be fitted.

Therefore, according to the fixing screw 70, it is possible to easily replace and use according to the intended to measure the base port 71 can easily achieve the desired measurement.

Eighth, the adjustment tool 80 operates the first, second, third, and fourth screw shafts 31, 41, 51, and 61 to operate the first, second, third, and fourth gonios (30, 40, 50, 60). In each configuration to be transported, it is configured to be attached to and detached from the magnet 11 configured in the lower plate (10).

Therefore, it can be conveniently used without the effort to find the adjusting tool 80, it is possible to easily achieve storage without risk of loss.

As described above, the goniometer 100 of the present invention can be easily transferred to the front, rear, left and right directions by using the first and second gonios 30 and 40. In addition, by using the third, fourth gonio (50, 60) can easily rotate the support port 71 in the front, rear, left, right direction to achieve the desired measurement easily There is this.

In addition, the support port 71 of the present invention can be easily replaced by a fixing screw 70 that is coupled to the second orbital movable body 67 of the fourth gonio (60) can be easily replaced to suit the intended use It can be achieved conveniently, and can easily store the adjustment tool 70 for the operation of the first, second, third, fourth screw shafts (31, 41, 51, 61) through the magnet 11 installed on the lower plate (10). There is an advantage that can achieve a convenient use without the risk of loss.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10: bottom plate 11: magnet
20: fixed installation portion 21: fixed portion
23: installation portion 25: the first coupling groove
30: 1st gooni 31: 1st screw shaft
31a: first fitting hole 31b: jrench
32: first coupling hole 33: first installation port
35: moving plate 35a, 45a: groove
36: first installation hole 37: front and rear moving body
37a: first slide groove 37b: second slide groove
37c: 2nd installation hole 40: 2nd gonio
41: second screw shaft 41a: second fitting hole
41b: second wrench 42: second coupling hole
43: left and right movable body 45: fixed plate
50: third gonio 51: third screw shaft
52: first seating portion 53: first mounting coupling hole
54: third installation port 56: second seat
57: first track moving body 57a: first spiral groove
60: 4th goni 61: 4th screw shaft
62: proposed seat 63: second installation coupling hole
64: fourth installation port 66: fourth seat
67: second orbital moving body 67a: second spiral groove
68: mounting hole 69: fixing hole
70: fixing screw 71: support hole
80: adjusting tool 100: goniometer

Claims (5)

A lower plate 10 provided with a magnet 11;
A fixed installation unit 20 coupled to the upper center of the lower plate 10;
The first mounting hole 33 is fixedly coupled to the fixed mounting portion 20, and forms the first coupling hole 32 in the front and rear directions, and the first coupling hole of the first mounting hole 33. 32) a first screw hole 31a formed at one end thereof with a first fitting hole 31a and having a first wrench 31b fitted with an adjusting tool 80 at both ends thereof, and the first screw. A moving plate 35 having a groove 35a fitted into the first fitting hole 31a of the shaft 31 at a lower side thereof; It is composed of a front and rear movable body (37) which slides forward and backward to the first mounting hole (33) and forms a first mounting hole (36) to which the movable plate (35) is coupled to the first screw shaft ( 31, the first gonio 30, the front and rear movable body 37 is transported back and forth in accordance with the operation of 31;
A second gonio 40 coupled to the first gonio 30 and transferred to the left and right according to the manipulation of the second screw shaft 41;
A third gonio (50) coupled to the second gonio (40) and rotationally moving along a semi-circular orbit in the front and rear directions by the operation of the third screw shaft (51);
It is coupled to the third gonio 50, the rotational transfer along the semi-circular orbit in the left, right direction by the operation of the fourth screw shaft 61, the installation hole 68 and the fixing hole 69 is formed 4 gonio 60;
A fixing screw 70 coupled to the fixing hole 69 of the fourth gonio 60 to fix the support hole 71 fitted into the installation hole 68;
The detachable to the lower plate 10 by the magnet 11, the adjusting tool 80 for the operation of the first, second, third, fourth screw shafts (31, 41, 51, 61); 5 meters.
delete The left and right movable body of claim 1, wherein the second gonio 40 is slide-coupled to the first gonio 30 in a left and right direction and forms a second coupling hole 42 in a left and right direction. (43);
The second coupling hole (41a) is screwed to the second coupling hole 42 of the left and right movable body (43), and the second wrench (41b) to which the adjustment tool 80 is fitted at both ends is formed. A second screw shaft 41 configured;
Goniometer characterized in that consisting of; a fixed plate (45) is fitted and fixed to the second fitting hole (41a) of the second screw shaft (41) in a state coupled to the first gonio (30).
The method of claim 1, wherein the third gonio 50 is coupled to the second gonio 40 and fixedly installed, and forms a first seating portion 52 of a semi-circular orbit in the front and rear directions. In the center of the first seating portion 52, the third mounting hole 54, the first mounting coupling hole 53 is configured;
The first jaw portion 51a is formed on both sides, and is installed in the first installation coupling hole 53 of the third installation hole 54, and the third wrench 51b in which the adjustment tool 80 is fitted is formed at both ends. Third screw shaft 51;
A second seating portion 56 corresponding to the first seating portion 52 of the third mounting hole 54 is configured to slide to the first seating portion 52, and the third screw shaft 51 and the screw are screwed together. Goniometer characterized in that consisting of; a first orbital mover (57) forming a combination.
The method of claim 1, wherein the fourth gonio 60 is coupled to the third gonio 50 is fixedly installed, forming a third seating portion 62 of the semi-circular orbit in the left and right directions, In the center of the three seating portion 62, the fourth mounting hole 64, the second mounting coupling hole 63 is configured;
The second jaw portion 61a is formed on both sides thereof, and the second jaw portion 61a is installed in the second installation coupling hole 63 of the fourth installation hole 64, and the fourth wrench 61b in which the adjustment tool 80 is fitted is formed at both ends. A fourth screw shaft 61;
The fourth seating portion 66 corresponding to the third seating portion 62 of the fourth mounting hole 64 is configured to slide to the third seating portion 62, and the fourth screw shaft 61 and the screw are screwed together. Goniometer characterized by consisting of; the second orbital moving body (67) forming an installation hole (68) and a fixing hole (69).

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