KR950008630Y1 - Aligning mount apparatus - Google Patents

Abstract

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Description

Aligning Mount Device in Optics

1 is a working state diagram showing a conventional aligning mount in plan view.

2 is an exploded perspective view of the aligning mount of the present invention.

3 is a state diagram of the aligning mount of the present invention, a is a state diagram for adjusting the vertical angle, b is a state diagram for adjusting the horizontal angle, c is a state diagram for parallel movement from side to side, d is a parallel movement up and down This is a state diagram.

* Explanation of symbols for main parts of the drawings

50: vertical adjusting body 56: hinge pin

60, 66, 78, 98: spring 62, 76, 96: adjusting bolt

64: axis 70: leveling body

72: groove 80: rail portion

82: long hole 90: left and right horizontal adjustment body

94: slide groove 100: ivory control body

103: support piece 104: screw portion

108: screw groove 114: adjusting nut

The present invention relates to an aligning mount device of an optical system. More specifically, the mount of an optical system equipped with a helium-neon laser (hereinafter referred to as a laser) can be moved up and down and horizontally It relates to an aligning mount which independently adjusts the horizontal angle and the vertical angle.

An aligning mount with a conventional laser is shown in FIG.

Three support shafts are formed in the front and rear mounts 10 for fixing the laser. One of the support shafts 12 includes a spring 14 at the end and the other two support shafts 16 and 18 are at right angles. Mount 10 is screwed in the direction to support the cylindrical laser 20 by these three support shafts (12, 16, 18), the spring (14) by screwing the support shafts (16, 18) By the action of) is configured to adjust the vertical angle, horizontal angle, vertical angle.

When the laser 20 is moved vertically or horizontally by the conventional configuration as described above, the support shaft 16 or 18 of the front end and the support shaft (not shown) of the rear end must be simultaneously adjusted. Parallel movement is possible. This is because parallel movement is impossible because the supporting shafts of the front and rear ends must be moved at the same time, and the laser having a circular cross section moves in the perpendicular direction during parallel movement. Therefore, there is a problem that it is difficult to control the laser precisely because it changes the other degree of freedom when adjusting any one displacement.

The present invention will be devised in view of the above-described conventional problems, and it is possible to adjust four degrees of freedom independently, so that at the time of adjustment of one displacement, the other displacement does not change at all, so that the correct adjustment angle of the laser can be obtained. It is an object of the present invention to provide an aligning mounting apparatus of an optical system.

The present invention is to adjust the vertical angle as a specific means for achieving the above object by adjusting the adjustment bolt spring is inserted into the vertical adjusting body to adjust the vertical angle of the laser formed on the plate by pivoting around the hinge pin The means for providing a horizontal angle is adjusted by inserting a shaft formed on one side of the bottom surface of the vertical adjusting body in a groove formed in the horizontal adjusting body so as to adjust a spring-loaded adjusting bolt to one side of the vertical adjusting body. Means for adjusting the horizontal angle of the laser formed on the frit by pivoting about the axis is provided, the left and right horizontal adjustment is inserted into the slide groove formed on the left and right horizontal adjusting body in the transverse direction on the bottom of the horizontal adjusting body is inserted into Horizontal movement of the laser is controlled by the spring and the adjustment bolt formed on the side wall of the slide groove. The upper and lower adjustment is provided by the bolt groove formed in the head groove of the upper and lower adjustment body in which both sides are incised to form a single body by assembling the vertical, horizontal, horizontal and horizontal adjustment body by bolts and to adjust the adjustment nut to the screw As the nut rotates, the upper and lower control bodies move vertically and horizontally to move the laser up and down.

Hereinafter, preferred embodiments of the present invention will be described below with reference to the accompanying drawings,

As shown in FIG. 2, the vertical adjustment body 50 is formed of plates 52 and 54 which are separated up and down, and coupled to the hinge pins 56 so that the upper plate 52 is connected to the hinge pins 56. The cylindrical laser 20 is fixed to the holder 58 fixed to the upper surface of the plate 52 to be pivotable to form a hole in one direction of the upper and lower plates 52 and 54, and the upper plate ( 52) Punch a hole on the bottom plate and drill a hole in the lower plate 54, and then form a threaded portion, and screw the adjusting bolt 62 through the spring 60 between these holes to adjust as shown in FIG. As the bolt 62 is adjusted, the plate 52 is pivoted about the hinge pin 56 by the repulsive action and the compression action of the spring 60 to adjust the vertical angle of the laser 20.

The horizontal adjusting body 70 has a groove 72 formed in a portion protruding upward from the plate shape, and the shaft 64 formed on the bottom surface of the vertical adjusting body 50 is inserted into the groove 72 so as to vertically adjust the body. The plate 54 is positioned between the guide walls 74 formed on one side of the horizontal adjusting body 70 so that 50 is pivotable on the horizontal adjusting body 70 about the shaft 64. As the adjustment bolt 76 is adjusted as shown in FIG. 3B through the adjustment bolt 76 and the spring 78 on the wall 74, the shaft 64 is moved by the repulsive action and the compression action of the spring 78. The vertical adjusting body 50 pivots on the horizontal adjusting body 70 to adjust the horizontal adjusting angle of the laser 20 to the center.

The left and right horizontal adjusting body 90 has a slide groove 94 formed between the guide wall 92 and the guide wall 92 so that the rail portion 80 formed in the transverse direction on the bottom surface of the horizontal adjusting body 70. Is slidably assembled in the slide groove 94 and the rail portion 80 is adjusted by adjusting the adjusting bolt 96 as shown in FIG. 3 c through the adjusting bolt 96 and the spring 98 on the guide wall 92. ) Is moved back and forth by the repulsive action and compression action of the spring 98 in the slide groove (94) to the horizontal control body 70 and the vertical control body 50 assembled stepwise to the horizontal control body (90) Thereby, the horizontal movement of the laser 20 is adjusted.

On the other hand, the horizontal movement distance of the laser 20 is limited by the long hole 82 formed in the horizontal control body 70 during horizontal movement.

The upper and lower control body 100 is cut at both sides to form a slide wall 102 and the center of the screw portion 104 and the head 106 to which the support piece 103 for preventing rotation is coupled to the slide wall 102. Screw groove 108 is formed so that the end of the spring 66 formed on the bottom of the vertical adjustment body 50 passes through the long hole 82 of the horizontal adjustment body 70 and the hole of the left and right horizontal adjustment body 90 Assembled through (99) and the bolt 110 is coupled to the screw groove 108 to the vertical adjustment body 100, the vertical adjustment body 50, the horizontal adjustment body 70, the left and right horizontal adjustment body (90) Is assembled to form a fixed pipe 112, as shown in Figure 3 d and rotates the adjusting nut 114 assembled with the screw part 104 left and right, the vertical control body 100 is moved horizontally in the vertical direction The vertical movement of the laser 20 is adjusted.

Meanwhile, the vertical movement of the vertical adjustment body 100 is possible because the rotation is prevented by the support piece 103.

As described above, according to the present invention, the four degrees of freedom of the vertical angle, the horizontal angle, the horizontal horizontal adjustment and the vertical horizontal adjustment of the laser can be adjusted independently. Since this does not occur at all, it is possible to obtain a precise adjustment angle of the laser, it is very easy to obtain the adjustment angle is very excellent design to bring the effect to give the user a great improvement the product characteristics.

Claims (7)

In constructing an aligning mount for adjusting the displacement of the laser, the vertical adjusting body for adjusting the vertical angle on the upper side, the horizontal adjusting body for adjusting the horizontal angle on the lower side, and the left and right horizontal adjustment for adjusting the left and right horizontal level on the lower side again The optical system, characterized in that the body and the upper and lower adjusting body for adjusting the horizontal movement of the lower and lower side are integrally formed so that the change of any one displacement does not occur during the adjustment of any one displacement. Inning mount device. According to claim 1, wherein the vertical adjustment body 50 is formed of a plate 52, 54 that is separated up and down and coupled to the hinge pin 56 and cylindrical to the holder 58 fixed to the upper surface of the plate 52 The laser 20 is fixed to form a hole in the vertical direction on one side of the upper and lower plates 52 and 54, and drills a hole on the upper plate 52 and a hole in the lower plate 54, and then Forming and screwing the adjusting bolt 62 through the spring (60) between these holes to adjust the adjusting bolt 62 by the action of the spring 60 to the plate around the hinge pin (56) ( 52) the aligning mounting apparatus of the optical system, characterized in that the vertical angle of the laser 20 is adjusted by turning. According to claim 1, the horizontal adjustment body 70 has a groove 72 is formed in a portion protruding upwards of the plate shape and the shaft 64 formed on the bottom surface of the vertical adjustment body 50 in the groove 72 is inserted The plate 54 is positioned between the guide wall 74 formed on one side of the horizontal adjusting body 70, and the adjustment bolt 76 and the spring 78 are interposed on the guide wall 74. 76 to adjust the horizontal adjustment angle of the laser 20 by rotating the vertical adjustment body 50 in the horizontal adjustment body 70 around the axis 64 by the action of the spring 78 as a control. Alignment mounting apparatus of the optical system characterized in that. According to claim 1, wherein the left and right horizontal control body 90 has a rail groove formed on the bottom surface of the horizontal control body 70 by the slide groove 94 is formed between the guide wall 92 and the guide wall 92 ( 80 is assembled to the slide groove 94, the rail portion 80 is the slide groove 94 by adjusting the adjusting bolt 96 through the adjusting bolt 96 and the spring 98 on the guide wall 92. Alignment mounting apparatus of the optical system, characterized in that the horizontal movement of the laser 20 is adjusted by moving back and forth by the action of the spring (98). The horizontal movement distance of the horizontal adjusting body 70 in the slide groove 94 of the left and right horizontal adjusting body 90 is to be limited by the long hole 82 formed in the horizontal adjusting body (70). Alignment mounting apparatus of the optical system characterized in that. According to claim 1, the upper and lower adjustment body 100 is a threaded portion 104 is coupled to both sides of the slide wall 102 is formed and the support piece 103 to prevent rotation to the slide wall 102, A screw groove 108 is formed at the center of the head 106 so that the end of the spring 66 inserted into the bottom surface of the vertical adjusting body 50 has the long hole 82 of the horizontal adjusting body 70 and horizontal and horizontal adjustments. The bolt 110 assembled through the hole 99 of the body 90 is coupled to the screw groove 108 so that the vertical adjusting body 50, the horizontal adjusting body 70, and the left and right of the upper and lower adjusting body 100 are fixed. As the horizontal adjusting body 90 is integrally assembled and formed on the fixed pipe 112 and rotates the cooked nut 104 and the cooked adjusting nut 114 to the left and right, the upper and lower adjusting body 100 moves up and down the laser 20. Alignment mounting device of the optical system, characterized in that the horizontal movement is adjusted. According to claim 6, Up and down adjustment body 100 which is moved up and down by the rotation of the adjustment nut 114 of the fixed pipe 112 can be vertically moved by the left and right slide wall 102 and a pair of support pieces 103. Alignment mounting apparatus of the optical system, characterized in that.