JP2024022454A - Two-axis optical lens angle adjustment device - Google Patents

Abstract

To provide an optical lens art, specifically, a two-axis optical lens angle adjustment device.SOLUTION: A two-axis optical lens angle adjustment device according to some embodiment includes: a frame; an adjustment fixed seat; and a lens support seat.The lens support seat includes a cylindrical body, and in one end face of the cylindrical body, a left positioning plate is vertically fixed. The adjustment fixed seat includes: the cylinder body; a left adjustment plate; and a right adjustment plate, and in the left adjustment plate, a first adjustment end strand at a top and low parts is vertically provided that abuts with the left positioning plate. The frame includes a base, and in a top part between both lateral faces of the base, a top positioning block is fixed. In both end parts of the top positioning block, a second adjustment end strand is respectively provided that vertically abuts with the left adjustment plate and right adjustment plate.SELECTED DRAWING: Figure 8

Description

TECHNICAL FIELD The present invention relates to optical lens technology, and more particularly to an accessory device for an optical lens, and specifically to a two-axis optical lens angle adjustment device.

In optical structures such as lenses, the lenses cannot be placed in ideal positions due to tolerance problems, resulting in angular deviations in the lenses. On the other hand, since there is a certain angle in the emission of the light beam from the light source, a new problem to be solved is to make the final light beam emit at an ideal beam position. A research paper on the key technology of the Compton light source precision adjustment system states that in order to precisely overlap two light spots, the rotational angle accuracy of the lens needs to reach 6 × 10 ^-4 mm, and the existence of a rotational angle is It clearly points out the necessity and high precision of lens adjustment.

To solve the effect of lens angle deviation, the traditional solution is to solve the mounting angle deviation by material deformation, but when there are multiple reflections or the cumulative angle error exceeds the material deformation degree, , this method is prone to staleness. Although there is an angle adjustment device in the prior art, which is in high demand for angle adjustment, it is not possible to place the lens in an ideal position because a structure for fine adjustment is lacking.

The present invention provides a two-axis optical lens angle adjustment device, which is a new lens angle adjustment device, in order to solve the problem of not being able to place a lens in an ideal position in the prior art.

An aspect of the present invention is a two-axis optical lens angle adjustment device that includes a frame, an adjustment fixing seat, and a lens support seat. The lens support seat includes a cylindrical body, and grooves are opened at the front and rear of the middle part in the axial direction of the cylindrical body, and the lens is fixed to the middle part in the front and back direction of the middle part in the axial direction of the cylindrical body. A lens hole is opened, a left positioning plate whose arrangement direction is parallel to the lens is vertically fixed to one end surface of the cylinder, and an axial screw hole is opened at the edge of the other end surface of the cylinder. The adjustment and fixing seat includes a rectangular cylindrical body, and the left and right side plates of the cylindrical body have a left cylindrical hole and a right cylindrical hole that fit with both ends of the cylindrical body with a gap, respectively, and the cylindrical body has a center hole in the axial direction. part is located inside the cylindrical body, both ends of the cylindrical body pass through the left cylindrical hole and the right cylindrical hole, respectively, the left positioning plate engages with the left side of the left side plate, and the front part of the left side of the left side plate has the left A left adjusting plate arranged parallel to the positioning plate is fixedly connected to the left adjusting plate, and the left adjusting plate is provided vertically with two upper and lower first adjusting end strands that contact the front side of the left positioning plate, respectively, and A right adjustment plate is fixedly connected vertically to the front part of the right side, the right end surface of the cylinder is aligned with the right side plate of the cylinder, and the right end surface of the cylinder is connected to a positioning shim and a positioning screw screwed into the screw hole. The lower cylinder is fixed vertically to the lower plate of the cylinder, the upper cylinder is vertically fixed to the upper plate of the cylinder, and the frame has a concave groove with an upper opening. A lower positioning block is fixed to the upper surface of the base, and the lower plate of the cylinder is in contact with the slope of the lower positioning block, and the lower positioning block is attached to the middle of the slope of the lower positioning block. A lower cylindrical hole is provided that is arranged perpendicular to the direction of the slope of the slope and that fits into the lower cylindrical hole with a gap, and a light passing hole that fits the lens is provided on the bottom surface of the base, and a hole that fits the lens is provided between the left and right sides of the base. Two upper positioning blocks arranged parallel to the slope of the lower positioning block are fixed to the upper positioning block, and an upper cylindrical hole is provided in the middle of one of the upper positioning blocks to fit with the upper cylinder with a gap, and the other Second adjusting end strands are provided at both ends of the upper positioning block, respectively, to vertically abut the left adjusting plate and the right adjusting plate.

When in use, the light source passes through the light passing hole on the base and transmits or reflects light from the lens, and based on the comparison between the emitted light beam and the theoretical position, first adjust the lens to an approximate predetermined position, and then tighten the positioning screw. When adjusting the lens support seat by twisting, the lens support seat can have a certain drag force, so as to prevent significant deflection of the light beam when adjusting the lens angle, and then the position of the light spot By twisting the two first adjustment end strands, the left positioning plate drives the lens support seat to rotate it into position around the axis of the cylindrical body of the lens support seat, and then slightly twists the screws. By twisting, fixing the lens support seat and the adjustment fixing seat, and/or twisting the two second adjustment end strands, the left adjustment plate and the right adjustment plate drive the adjustment fixation seat to rotate around the axis of the upper cylinder. It is also possible to adjust the angle of the biaxial optical lens by rotating the lens.

Another aspect of the invention is a two-axis optical lens angle adjustment device that includes a frame, two adjustment fixing seats, and two lens support seats. Each lens support seat includes a cylindrical body, and a concave groove is opened at the front and rear of the intermediate portion in the axial direction of the cylindrical body, so that the lens is locked in the central portion in the front and rear direction of the intermediate portion in the axial direction of the cylindrical body. A lens hole is opened, a left positioning plate whose arrangement direction is parallel to the lens is vertically fixed to one end surface of the cylinder, and an axial screw hole is opened at the edge of the other end surface of the cylinder. Each adjustment and fixing seat includes a rectangular cylindrical body, and the left and right side plates of the cylindrical body each have a left cylindrical hole and a right cylindrical hole that fit with both ends of the cylindrical body with a gap, and the middle of the cylindrical body The part is located inside the cylinder, the two ends of the cylinder pass through the left cylinder hole and the right cylinder hole, respectively, the left positioning plate engages the left side plate of the cylinder, and the front part of the left side of the left side plate of the cylinder is fixedly connected to a left adjusting plate arranged parallel to the left positioning plate, and the left adjusting plate is vertically provided with two first adjusting end strands that abut the upper and lower parts of the front side of the left positioning plate, respectively; A right adjustment plate is fixedly connected vertically to the front part of the right side of the right side plate, the right end surface of the cylindrical body is aligned with the right side plate of the cylindrical body, and the right end surface of the cylindrical body is screwed into the positioning shim and the screw hole. The right end is positioned in the axial direction using a screw, the lower cylinder is fixed vertically to the lower plate of the cylinder, the upper cylinder is fixed vertically to the upper plate of the cylinder, and the frame has an adjustable fixing seat. Two lower positioning blocks each having a sloped surface are fixed to the upper surface of the base, and the lower plates of the cylindrical bodies of the two adjustment and fixing seats correspond to each other. A lower cylindrical hole is provided in the middle of the slope of each lower positioning block to abut on the slope of the lower positioning block, and is arranged perpendicular to the slope direction of the slope of the lower positioning block and fits into the corresponding lower cylinder with a gap. There are two light passing holes on the bottom surface of the base that fit the lenses, and between the left and right sides of the base, there are three upper positioning blocks arranged parallel to the slope of the lower positioning block in a longitudinal distribution. A left adjusting plate and a right adjusting plate are provided at both ends of the fixed upper positioning block located in the front and middle portions, respectively, and second adjusting end strands of a left adjusting plate and a right adjusting plate are respectively abutted vertically on two corresponding adjusting fixing seats. Upper cylindrical holes that fit with the upper cylindrical columns of the corresponding adjustment and fixing seats with gaps are provided in the middle portions of the upper positioning blocks located in the middle and rear portions, respectively.

When in use, the light source passes through the light passing hole on the base, transmits and reflects light from the lens, and based on the comparison between the emitted light beam and the theoretical position, first adjusts the lens to an approximate predetermined position, and then positions it. When adjusting the lens support seat by twisting the screw, the lens support seat can have a certain drag force, so as to prevent large deflection of the light beam when adjusting the lens angle, and then the light spot By twisting the two first adjustment end strands based on the position, the left positioning plate drives the lens support seat to rotate into position around the axis of the cylinder of the lens support seat, and then the screws are By slightly twisting and fixing the lens support seat and the adjustment fixing seat, and/or by twisting the two second adjustment end strands, the left adjustment plate and the right adjustment plate drive the adjustment fixation seat and adjust the axis of the upper cylinder. It is also possible to realize angle adjustment of a biaxial optical lens by rotating it.

The beneficial effects of the present invention are as follows. The present invention takes advantage of the small rotational feed amount of the end strand to rotate the lens using a small feed amount to realize macro adjustment, and at the same time, the structure setting in the present invention is clever, and the angle of the biaxial optical lens is Achieve adjustment to make the lens attachment position more accurate.

It is a structural schematic diagram of a lens support seat. It is a block diagram of an adjustment fixed seat. FIG. 3 is a schematic diagram of the structure of the lens support seat and the adjustment and fixation seat after they are assembled. FIG. 2 is a structural schematic diagram of the lens support seat and the adjustment fixing seat after they are assembled. FIG. 2 is a structural schematic diagram of the lens support seat and the adjustment fixing seat after they are assembled. FIG. 3 is a structural diagram without upper positioning blocks in the frame. FIG. 2 is a schematic diagram of the overall structure of the frame. FIG. 1 is an overall configuration diagram of a specific embodiment of the present invention. 9 is a left side view of FIG. 8. FIG.

Example 1 (when using one optical lens):
The biaxial optical lens angle adjustment device of this embodiment includes a frame, an adjustment fixing seat, and a lens support seat. The lens support seat includes a cylindrical body 1, a concave groove 2 is opened at the front and rear of the axially intermediate portion of the cylindrical body 1, and a lens 3 is formed at the front and rear middle of the axially intermediate portion of the cylindrical body 1. There is a lens hole for locking the lens. A left positioning plate 4 whose arrangement direction is parallel to the lens 3 is vertically fixed to one end surface of the cylindrical body 1, and an axial screw hole 5 is opened at the edge of the other end surface of the cylindrical body 1. The adjustment and fixing seat includes a rectangular cylindrical body 6, and a left cylindrical hole 7 and a right cylindrical hole 8 are opened in the left and right side plates of the cylindrical body 6, respectively, to fit with both ends of the cylindrical body 1 with gaps. An intermediate portion of the cylindrical body 1 in the axial direction is located within the cylindrical body 6, and both ends of the cylindrical body 1 pass through the left cylindrical hole 7 and the right cylindrical hole 8, respectively. The left positioning plate 4 engages with the left side surface of the left side plate, and a left adjusting plate 9 arranged parallel to the left positioning plate 4 is fixedly connected to the front part of the left side surface of the left side plate. The left adjustment plate 9 is vertically provided with two upper and lower first adjustment end strands 11 that contact the front side of the left positioning plate 4, respectively. A right adjustment plate 10 is vertically fixedly connected to the front part of the right side of the right side plate, the right end surface of the cylindrical body 1 is aligned with the right side plate of the cylindrical body 6, and the right end surface of the cylindrical body 1 is connected to a positioning shim 12 and a screw. Positioning of the right end in the axial direction is realized by a positioning screw 13 screwed into the hole. A lower cylinder 15 is vertically fixed to the lower plate of the cylinder 6, and an upper cylinder 14 is vertically fixed to the upper plate of the cylinder 6. The frame includes a groove-shaped base 16 having an upper opening, and a lower positioning block 17 having a slope 18 is fixed to the upper surface of the base 16. The lower plate of the cylindrical body 6 is in contact with the slope 18 of the lower positioning block 17, and the middle part of the slope 18 of the lower positioning block 17 is arranged perpendicular to the slope direction of the slope 18 of the lower positioning block 17, and there is a gap between the lower cylinder 15 and the lower cylinder 6. A lower cylindrical hole 19 is provided which fits into the lower cylindrical hole 19. A light passing hole 20 that fits the lens 3 is provided on the bottom surface of the base 16. Two upper positioning blocks 21 are fixed between the left and right sides of the base 16 and are arranged parallel to the slope 18 of the lower positioning block 17. One of the upper positioning blocks 21 has a gap between the upper cylinder 14 and the middle part of the upper positioning block 21. An upper cylindrical hole 22 is provided in which the upper cylindrical hole 22 is fitted. At both ends of the other upper positioning block 21, second adjustment end strands 23 are provided, which vertically abut on the left adjustment plate 9 and the right adjustment plate 10, respectively.

In use, the light source transmits or reflects light from the lens 3 through the light passing hole 20 on the base 16. Based on the comparison between the output beam and the theoretical position, first adjust the lens 3 to approximately the predetermined position, and then twist the positioning screw 13 to adjust the lens support seat and adjust the lens angle. The lens support seat can have a certain resistance to prevent undesirable deflection. Next, by twisting the two first adjustment end strands 11 based on the position of the light spot, the left positioning plate 4 drives the lens support seat around the axis of the cylindrical body 1 of the lens support seat to a predetermined position. Rotate into position. Then, by slightly twisting the screw, the lens support seat and the adjustment fixing seat are fixed, and/or by twisting the two second adjustment end strands 23, the adjustment fixing seat is fixed by the left adjustment plate 9 and the right adjustment plate 10. It is also possible to realize the angle adjustment 3 of the biaxial optical lens by driving and rotating it around the axis of the upper cylinder 14.

In concrete implementation, diagonal grooves 24 for placing the upper positioning block 21 are provided at the upper ends of both left and right sides of the base 16, and both ends of the upper positioning block 21 and the diagonal grooves 24 are connected to the bolts 25. Fixed connection. A tightening end strand 26 is provided on the left side plate or right side plate of the cylinder body 6, and the tightening end strand 26 abuts against the circumferential surface of the left end or right side end of the cylinder body 1. When the strand 26 presses and rotates the lens support seat, the angle adjustment accuracy of the lens 3 can be further improved. Circular holes 27 for lens exchange are opened on both left and right sides of the base 16, and when the lens needs to be exchanged, the positioning screw 13 is removed, the lens support seat is taken out from the circular hole at the left end, and the lens 3 is exchanged.

Example 2 (using one reflective lens and one transmitting lens):
The two-axis optical lens angle adjusting device of this embodiment includes a frame, two adjustment and fixing seats, and two lens support seats. Each lens support seat includes a cylindrical body 1, and a concave groove 2 is opened at the front and rear of the intermediate portion of the cylindrical body 1 in the axial direction, and a lens 3 is formed in the central portion of the axially intermediate portion of the cylindrical body 1 in the front and rear direction. There is a lens hole for locking the lens. A left positioning plate 4 whose arrangement direction is parallel to the lens 3 is vertically fixed to one end surface of the cylindrical body 1, and an axial screw hole 5 is opened at the edge of the other end surface of the cylindrical body 1. Each adjustment and fixing seat includes a rectangular cylindrical body 6, and a left cylindrical hole 7 and a right cylindrical hole 8 are opened in the left and right side plates of the cylindrical body 6, respectively, to fit with both ends of the cylindrical body 1 with a gap. . The middle portion of the cylindrical body 1 is located within the cylindrical body 6, and both ends of the cylindrical body 1 pass through the left cylindrical hole 7 and the right cylindrical hole 8, respectively. The left positioning plate 4 engages with the left side plate of the cylinder 6, and a left adjustment plate 9 arranged parallel to the left positioning plate 4 is fixedly connected to the front part of the left side of the left side plate of the cylinder 6. The adjustment plate 9 is vertically provided with two first adjustment end strands 11 that abut the upper and lower parts of the front side of the left positioning plate 4, respectively. A right adjusting plate 10 is fixedly connected vertically to the front of the right side of the right side plate, the right end surface of the cylindrical body 1 is aligned with the right side plate of the cylindrical body 6, and the right end surface of the cylindrical body 1 is connected to the positioning shim 12 and screws. Positioning of the right end in the axial direction is achieved by a screw screwed into the hole. A lower cylinder 15 is vertically fixed to the lower plate of the cylinder 6, and an upper cylinder 14 is vertically fixed to the upper plate of the cylinder 6. The frame includes a groove-shaped base 16 having an upper opening for arranging an adjustment and fixing seat, and two lower positioning blocks 17 provided with slopes 18 are fixed to the upper surface of the base 16. The lower plates of the cylindrical bodies 6 of the two adjustment and fixing seats are both in contact with the slopes 18 of the corresponding lower positioning blocks 17, and the middle part of the slopes 18 of each lower positioning block 17 has a direction of inclination of the slopes 18 of the lower positioning blocks 17. A lower cylindrical hole 19 is provided which is arranged perpendicularly to the lower cylindrical hole 19 and fits into the corresponding lower cylindrical column 15 with a gap. Two light passing holes 20 that fit the lenses 3 are provided on the bottom surface of the base 16. Upper positioning blocks 21 arranged parallel to the slope 18 of the lower positioning block 17 in three longitudinal distributions are fixed between the left and right sides of the base 16, and both ends of the upper positioning block 21 located in the front and middle parts are fixed. The second adjusting end strands 23 of the left adjusting plate 9 and the right adjusting plate 10 are provided in the left adjusting plate 9 and the right adjusting plate 10, respectively, which vertically abut on two corresponding adjusting fixing seats. Upper cylindrical holes 22 are provided in the middle portions of the upper positioning blocks 21 located at the middle and rear portions, respectively, to fit with the upper cylindrical columns 14 of the corresponding adjustment and fixing seats with gaps.

When the light source is used, the light passes through the light passing hole 20 on the base 16 and is transmitted and reflected from the lens 3, and the lens 3 is first adjusted to approximately a predetermined position based on the comparison between the emitted light beam and the theoretical position. , and then twisting the positioning screw 13, the lens support seat can have a certain resistance so as to prevent a large deflection of the light beam when adjusting the lens angle 3. Next, by twisting the two first adjustment end strands 11 based on the position of the light spot, the left positioning plate 4 drives the lens support seat around the axis of the cylindrical body 1 of the lens support seat to a predetermined position. position, and then slightly twisting the screw 13 to fix the lens support seat and the adjustment fixing seat, and/or twisting the two second adjustment end strands 23 to separate the left adjustment plate 9 and the right adjustment plate. It is also possible to realize the angle adjustment of the two-axis optical lens 3 by driving the adjustment and fixing seat 10 and rotating it around the axis of the upper cylinder 14.

In concrete implementation, diagonal grooves 24 for placing the upper positioning block 21 are provided at the upper ends of both left and right sides of the base 16, and the two ends of the upper positioning block 21 and the diagonal grooves 24 are They are fixedly connected by bolts 25. A tightening end strand 26 is provided on the left side plate or right side plate of the cylinder body 6, and the tightening end strand 26 abuts against the circumferential surface of the left end or right side end of the cylinder body 1. When the strand 26 presses the lens support seat and rotates, the angle adjustment accuracy of the lens 3 can be further improved. Circular holes 27 for lens exchange are opened on both left and right sides of the base 16, and when the lens needs to be exchanged, the positioning screw 13 is removed, the lens support seat is taken out from the circular hole at the left end, and the lens 3 is exchanged.

1-cylindrical body, 2-concave groove, 3-lens, 4-left positioning plate, 5-axial screw hole, 6-cylindrical body, 7-left cylindrical hole, 8-right cylindrical hole, 9-left adjustment plate, 10-Right adjustment plate, 11-1st adjustment end strand, 12-positioning shim, 13-positioning screw, 14-upper cylinder, 15-lower cylinder, 16-base, 17-lower positioning block, 18-slope, 19- Lower cylindrical hole, 20- Light passing hole, 21- Upper positioning block, 22- Upper cylindrical hole, 23- Second adjustment end strand, 24- Diagonal mounting groove, 25- Bolt, 26- Tightening end strand, 27- Circular hole.

Claims (8)

A two-axis optical lens angle adjustment device including a frame, an adjustment fixing seat, and a lens support seat,
The lens support seat includes a cylindrical body (1), and a concave groove (2) is opened at the front and rear of the axially intermediate portion of the cylindrical body (1). A lens hole for locking the lens (3) is opened in the middle part in the front-rear direction, and a left positioning plate (4) is provided on one end surface of the cylindrical body (1), which is parallel to the lens (3). ) is fixed vertically, and an axial screw hole (5) is opened at the edge of the other end surface of the cylindrical body (1),
The adjustment and fixing seat includes a rectangular cylindrical body (6), and the left and right side plates of the cylindrical body (6) have a left cylindrical hole (7) and a right cylindrical hole that fit with both ends of the cylindrical body (1) with a gap. (8) are open, the axial middle part of the cylinder (1) is located inside the cylinder (6), and both ends of the cylinder (1) are the left cylindrical hole (7) and the right cylindrical hole, respectively. (8), the left positioning plate (4) engages with the left side surface of the left side plate, and the left adjustment plate ( 9) are fixedly connected, and the left adjustment plate (9) is vertically provided with two upper and lower first adjustment end strands (11) that contact the front side of the left positioning plate (4), and A right adjustment plate (10) is vertically fixedly connected to the front part of the right side, and the right end surface of the cylinder (1) is aligned with the right side plate of the cylinder (6), and the right end surface of the cylinder (1) is aligned with the right side plate of the cylinder (6). The positioning shim (12) and the positioning screw (13) screwed into the screw hole realize the positioning of the right end in the axial direction, and the lower cylinder (15) is vertically fixed to the lower plate of the cylinder (6), and the cylinder The upper cylinder (14) is fixed vertically to the upper plate of the body (6),
The frame includes a groove-shaped base (16) having an upper opening, a lower positioning block (17) provided with a slope (18) is fixed to the upper surface of the base (16), and a cylindrical body (6) The lower plate contacts the slope (18) of the lower positioning block (17), and the middle part of the slope (18) of the lower positioning block (17) is perpendicular to the slope direction of the slope (18) of the lower positioning block (17). A lower cylindrical hole (19) is provided which is arranged in the lower cylindrical hole (19) and fits into the lower cylindrical column (15) with a gap, and a light passing hole (20) which fits the lens (3) is provided on the bottom surface of the base (16). , Two upper positioning blocks (21) are fixed between the left and right sides of the base (16), which are arranged parallel to the slope (18) of the lower positioning block (17), and one of the upper positioning blocks ( 21) is provided with an upper cylindrical hole (22) that fits with the upper cylindrical column (14) with a gap, and a left adjusting plate (9) and a left adjustment plate (9) are provided at both ends of the other upper positioning block (21). A two-axis optical lens angle adjustment device, characterized in that second adjustment end strands (23) are provided, each of which vertically abuts the right adjustment plate (10). The left side plate or the right side plate of the cylindrical body (6) is provided with a tightening end strand (26) that comes into contact with the circumferential surface of the left end or right end of the cylindrical body (1). The two-axis optical lens angle adjusting device according to claim 1. Diagonal placement grooves (24) for placing the upper positioning block (21) are provided at the upper ends of both left and right sides of the base (16), and both ends of the upper positioning block (21) and the diagonal placement grooves are provided. 3. The biaxial optical lens angle adjusting device according to claim 2, wherein the two-axis optical lens angle adjusting device is fixedly connected to the second axis (24) by a bolt (25). 4. The biaxial optical lens angle adjusting device according to claim 3, wherein the base (16) has circular holes (27) for lens exchange on both left and right sides. A two-axis optical lens angle adjustment device including a frame, two adjustment fixing seats, and two lens support seats,
Each lens support seat includes a cylindrical body (1), and a concave groove (2) is opened at the front and rear of the axially intermediate portion of the cylindrical body (1). A lens hole for locking the lens (3) is opened in the center in the front-rear direction, and a left positioning plate (4) is provided on one end surface of the cylindrical body (1) in a direction parallel to the lens (3). is fixed vertically, and an axial screw hole (5) is opened at the edge of the other end surface of the cylindrical body (1), and each adjustment and fixing seat includes a square-shaped cylindrical body (6). The left and right side plates of (6) have a left cylindrical hole (7) and a right cylindrical hole (8) that fit with both ends of the cylindrical body (1) with a gap, respectively, and the middle part of the cylindrical body (1) is Located inside the cylindrical body (6), both ends of the cylindrical body (1) pass through the left cylindrical hole (7) and the right cylindrical hole (8), respectively, and the left positioning plate (4) is located on the left side of the cylindrical body (6). A left adjustment plate (9) that engages with the plate and is arranged parallel to the left positioning plate (4) is fixedly connected to the front part of the left side of the left side plate of the cylinder (6). ) is vertically provided with two first adjusting end strands (11) that abut the upper and lower parts of the front side of the left positioning plate (4), respectively, and the right adjusting plate (10 ) are fixedly connected vertically, the right end surface of the cylindrical body (1) is aligned with the right side plate of the cylindrical body (6), and the right end surface of the cylindrical body (1) is screwed into the positioning shim (12) and the screw hole. The lower cylinder (15) is fixed vertically to the lower plate of the cylinder (6), and the upper cylinder (14) is vertically fixed to the upper plate of the cylinder (6). It is fixed;
The frame includes a groove-shaped base (16) having an upper opening for arranging an adjustment and fixing seat, and a lower positioning block (17) provided with a slope (18) is provided on the upper surface of the base (16). The lower plates of the cylindrical bodies (6) of the two adjustable and fixed seats are in contact with the slopes (18) of the corresponding lower positioning blocks (17), and the slopes (18) of each lower positioning block (17) are fixed. A lower cylindrical hole (19) is provided in the middle of the base, which is arranged perpendicularly to the slope direction of the slope (18) of the lower positioning block (17) and fits into the corresponding lower cylinder (15) with a gap. (16) Two light passing holes (20) that fit the lens (3) are provided on the upper bottom surface, and three lower positioning blocks (17) are provided between the left and right sides of the base (16) in front and rear distribution. An upper positioning block (21) is fixed, which is arranged parallel to the slope (18) of A second adjustment end strand (23) of the left adjustment plate (9) and right adjustment plate (10) that abuts against each other is provided, and the middle part of the upper positioning block (21) located in the middle and rear part is provided with a corresponding adjustment A two-axis optical lens angle adjustment device, characterized in that an upper cylindrical hole (22) is provided which fits into the upper cylindrical column (14) of the fixed seat with a gap. The left side plate or the right side plate of the cylindrical body (6) is provided with a tightening end strand (26) that comes into contact with the circumferential surface of the left end or right end of the cylindrical body (1). The two-axis optical lens angle adjustment device according to claim 5. Diagonal placement grooves (24) for placing the upper positioning block (21) are provided at the upper ends of both left and right sides of the base (16), and both ends of the upper positioning block (21) and the diagonal placement grooves are provided. 7. The biaxial optical lens angle adjusting device according to claim 6, wherein the two-axis optical lens angle adjusting device is fixedly connected to (24) by a bolt (25). 8. The biaxial optical lens angle adjustment device according to claim 7, wherein the base (16) has circular holes (27) for lens exchange on both left and right sides.

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