CN220270458U - Stabilizing device for laser centering instrument - Google Patents

Abstract

The utility model relates to the field of laser centering instruments, in particular to a stabilizing device for a laser centering instrument. Including the base, first mount table and second mount table are installed respectively to base relative both sides edge, the cavity has all been seted up in first mount table and the second mount table, a set of opening has all been seted up on the relative both sides wall of first mount table and second mount table, the installation pole is all installed at the inner wall top of first mount table and second mount table, the slide rail is installed to the installation pole other end. According to the utility model, the sliding block, the electric push rod, the clamping plates and the telescopic rods are arranged, so that when the laser centering instrument is rotated while the two groups of clamping plates clamp the laser centering instrument, the sliding block and the laser centering instrument are rotated coaxially at the same speed, and therefore, the laser centering instrument is fixed from different angles, and the stability of measurement work is improved.

Description

Stabilizing device for laser centering instrument

Technical Field

The utility model belongs to the technical field of laser centering instruments, and particularly relates to a stabilizing device for a laser centering instrument.

Background

When the laser centering instrument is used, the laser centering instrument needs to be rotated to acquire multiple groups of data so as to obtain an offset value between two axes, and the laser centering instrument needs to be subjected to stable processing so as to achieve the accuracy of the data.

After searching, the publication number is found to be: CN213067580U, publication date: 2021.04.27 a laser centering instrument is disclosed, which comprises a base, first perpendicular groove has been seted up at the base top, first perpendicular inslot portion is provided with spacing spring, spacing spring top is provided with the backup pad, the backup pad top is provided with the motor. Above-mentioned embodiment passes through first perpendicular groove and backup pad cooperation, drives the second gear through the working lever simultaneously, and the second gear drives first gear, then cooperates with first horizontal groove through the horizontal pole, makes accessory plate and rotary drum closely laminate to the accuracy of device has been improved.

The above embodiments still have the following drawbacks: when the existing laser centering instrument is used, only one direction of the laser centering instrument can be fixed, and when the laser centering instrument rotates, the laser centering instrument can deviate to other directions, so that the measured value is inaccurate, and the stability of the measuring work is reduced.

Disclosure of Invention

The utility model provides a stabilizing device for a laser centering instrument, which comprises a base, wherein a first mounting table and a second mounting table are respectively arranged at the edges of two opposite sides of the base, cavities are formed in the first mounting table and the second mounting table, a group of openings are formed in the two opposite side walls of the first mounting table and the second mounting table, mounting rods are arranged at the tops of the inner walls of the first mounting table and the second mounting table, a sliding rail is arranged at the other end of the mounting rods, the sliding rail is positioned in the openings, the central axis of the sliding rail is on the same straight line with the central axis of the opening, a sliding groove is formed in an outer ring of the sliding rail, a stabilizing mechanism is connected in the sliding groove in a sliding manner, each stabilizing mechanism comprises a group of sliding blocks, the two groups of sliding blocks are connected onto the sliding rail in a sliding manner, a group of transmission rods are arranged on the two opposite side walls of the sliding blocks, a second connecting block is connected to the other end of the transmission rod in a transmission manner, an electric push rod is arranged on one side wall of the second connecting block, an electric push rod extends to the second side, a telescopic connecting block is connected to the bottom of the first connecting block, and a telescopic connecting block is arranged at the bottom of the first connecting block.

Further, each group of openings is of a circular structure, and the sliding rail is of a fan-shaped annular structure.

Further, a first mounting table and a second mounting table are respectively mounted at the edges of two opposite sides of the base, an adjusting mechanism is mounted on one side wall of the first mounting table, and a touch screen is mounted on the adjusting mechanism.

Further, a motor bin is mounted on the inner wall of one side of the first mounting table, a servo motor is mounted in the motor bin, the output end of the servo motor extends to the outside of the first mounting table towards the second mounting table, and the driving shaft is connected in a transmission mode.

Further, be provided with the regulation handle on the outer wall of one side that the first mount table was kept away from to the second mount table, it is inside to adjust the handle output extension to the second mount table, and the transmission is connected with the drive pivot, initiative pivot and drive pivot's axis are on same straight line.

Further, install the laser centering appearance caliber on the stabilizing mean, two sets of laser centering appearance caliber bottom respectively with initiative pivot and the laminating of drive pivot outer wall, two sets of laser centering appearance caliber bottom all is provided with the bandage, two sets of the laminating of bandage inner wall respectively with the outer wall of initiative pivot and drive pivot.

Further, the adjusting mechanism comprises a mounting plate, wherein the mounting plate is mounted on the outer wall of one side of the first mounting table, a first mounting block is mounted on the side wall, far away from the first mounting table, of the mounting plate, and a first damping bearing is mounted in the first mounting block.

Further, the first damping bearing is rotationally connected with a first connecting rod, a second mounting block is mounted at the other end of the first connecting rod, a second damping bearing is mounted in the second mounting block, and a second connecting rod is rotationally connected to the second damping bearing.

The beneficial effects of the utility model are as follows:

1. through setting up slider, electric putter, splint and telescopic link for when two sets of splint clamp laser centering appearance caliber, when laser centering appearance caliber rotated, slider and its coaxial same-speed rotation, thereby make laser centering appearance caliber by being fixed from different angles, improved the stability of measuring work.

2. Through setting up head rod, second connecting rod, first damping bearing and second damping bearing for when using the touch-sensitive screen, through the mode of dragging the touch-sensitive screen, head rod and second connecting rod rotate, thereby make the touch-sensitive screen hover to different angles, use more nimble.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural view of a stabilization device according to an embodiment of the present utility model.

Fig. 2 shows a schematic right-hand cross-sectional view of a stabilization device according to an embodiment of the present utility model.

Fig. 3 shows a schematic structural view of a stabilizing mechanism according to an embodiment of the present utility model.

Fig. 4 shows a schematic top cross-sectional view of an adjustment mechanism according to an embodiment of the utility model.

In the figure: 1. a base; 2. a first mounting table; 3. a second mounting table; 4. a touch screen; 5. adjusting the handle; 6. driving the rotating shaft; 7. a laser centering instrument; 8. a stabilizing mechanism; 81. a slide block; 82. a transmission rod; 83. a clamping plate; 84. a first connection block; 85. a second connection block; 86. an electric push rod; 87. a telescopic rod; 9. a slide rail; 10. a mounting rod; 11. a motor bin; 12. a servo motor; 13. a driving rotating shaft; 14. a strap; 15. a cavity; 16. an adjusting mechanism; 161. a mounting plate; 162. a first connecting rod; 163. a second connecting rod; 164. a first mounting block; 165. a first damping bearing; 166. a second damping bearing; 167. and a second mounting block.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The embodiment of the utility model provides a stabilizing device for a laser centering instrument, which comprises a base 1, wherein as shown in fig. 1 and 2, a first mounting table 2 and a second mounting table 3 are respectively arranged at the edges of two opposite sides of the base 1, an adjusting mechanism 16 is arranged on one side wall of the first mounting table, a touch screen 4 is arranged on the adjusting mechanism 16, cavities 15 are respectively arranged in the first mounting table 2 and the second mounting table 3, a motor bin 11 is arranged on the inner wall of one side of the first mounting table 2, a servo motor 12 is arranged in the motor bin 11, and the output end of the servo motor 12 extends to the outside of the first mounting table towards the second mounting table 3 and is in transmission connection with an active rotating shaft 13. The second mount table 3 is provided with the regulation handle 5 on keeping away from the outer wall of one side of first mount table 2, the regulation handle 5 output extends to inside the second mount table 3, and the transmission is connected with drive pivot 6, initiative pivot 13 and the axis of drive pivot 6 are on same straight line.

The first mount table 2 and the second mount table 3 are provided with a group of openings on two opposite side walls, each group of openings is of a circular structure, the tops of the inner walls of the first mount table 2 and the second mount table 3 are provided with mounting rods 10, the other ends of the mounting rods 10 are provided with sliding rails 9, the sliding rails 9 are of a fan-shaped structure, the sliding rails 9 are positioned in the openings, the central axes of the sliding rails and the central axes of the openings are on the same straight line, the outer rings of the sliding rails 9 are provided with sliding grooves, the sliding grooves are internally connected with stabilizing mechanisms 8 in a sliding manner, the stabilizing mechanisms 8 are provided with laser centering instrument 7, the bottoms of the laser centering instrument 7 are respectively attached to the outer walls of the driving rotating shaft 13 and the driving rotating shaft 6, the bottoms of the laser centering instrument 7 are respectively provided with binding belts 14, and the inner walls of the binding belts 14 are respectively attached to the outer walls of the driving rotating shaft 13 and the driving rotating shaft 6.

As shown in fig. 3, each group of stabilizing mechanisms 8 includes a group of sliding blocks 81, two groups of sliding blocks 81 are slidably connected to a sliding rail 9, two groups of sliding blocks 81 are provided with a group of transmission rods 82 on two opposite side walls of the sliding blocks 81, the other end of each transmission rod 82 is in transmission connection with a second connection block 85, an electric push rod 86 is installed on a side wall of the second connection block 85 close to the sliding block 81, the output end of each electric push rod 86 extends to one side of the second connection block 85, the output end of each electric push rod 86 is in transmission connection with a first connection block 84, a group of telescopic rods 87 are installed at the bottoms of the first connection block 84 and the second connection block 85, and a group of clamping plates 83 are installed at the bottoms of each group of telescopic rods 87.

Illustratively, as shown in fig. 4, the adjusting mechanism 16 includes a mounting plate 161, the mounting plate 161 is mounted on an outer wall of one side of the first mounting table 2, a first mounting block 164 is mounted on a side wall of the mounting plate 161 far away from the first mounting table 2, a first damping bearing 165 is mounted in the first mounting block 164, a first connecting rod 162 is rotatably connected to the first damping bearing 165, a second mounting block 167 is mounted at the other end of the first connecting rod 162, a second damping bearing 166 is mounted in the second mounting block 167, and a second connecting rod 163 is rotatably connected to the second damping bearing 166.

Working principle: firstly, two groups of laser centering instrument measuring devices 7 are started, an electric push rod 86 is started, the electric push rod contracts to drive two groups of clamping plates 83 to move relatively to clamp the laser centering instrument measuring devices 7, a servo motor 12 is started, the servo motor 12 drives an active rotating shaft 13 to rotate, the active rotating shaft 13 drives one group of laser centering instrument measuring devices 7 to rotate, an adjusting handle 5 is rotated, the adjusting handle 5 drives a driving rotating shaft 6 to rotate, the driving rotating shaft 6 drives the other group of laser centering instrument measuring devices 7 to rotate, the offset value is measured through multiple times of rotation, the touch screen 4 can be dragged during use, and the touch screen 4 drives a first connecting rod 162 and a second connecting rod 163 to rotate, so that the purpose of adjusting the angle of the touch screen is achieved.

The beneficial effects are that:

through setting up slider 81, electric putter 86, splint 83 and telescopic link 87 for when two sets of splint 83 clamp laser centering instrument caliber 7, when laser centering instrument caliber 7 rotated, slider 81 and its coaxial same-speed rotation, thereby make laser centering instrument caliber 7 be fixed by different angles, improved the stability of measuring work.

Through setting up head rod 162, second connecting rod 163, first damping bearing 165 and second damping bearing 166 for when using touch-sensitive screen 4, through the mode of dragging the touch-sensitive screen, head rod 162 and second connecting rod 163 rotate, thereby make touch-sensitive screen 4 hover to different angles, use more nimble.

Although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. A stabilizing device for a laser centering instrument is characterized in that: the electric push rod comprises a base (1), a first mounting table (2) and a second mounting table (3) are respectively mounted at two opposite side edges of the base (1), a cavity (15) is formed in each of the first mounting table (2) and the second mounting table (3), a group of openings are formed in two opposite side walls of the first mounting table (2) and the second mounting table (3), mounting rods (10) are mounted at the tops of the inner walls of the first mounting table (2) and the second mounting table (3), a sliding rail (9) is mounted at the other end of the mounting rods (10), the sliding rail (9) is located in the opening, the central axis of the sliding rail is on the same straight line with the central axis of the opening, a sliding groove is formed in an outer ring of the sliding rail (9), a stabilizing mechanism (8) is connected in the sliding way in each sliding groove, each stabilizing mechanism (8) comprises a group of sliding blocks (81), two groups of sliding blocks (81) are connected onto the sliding rail (9) in a sliding way, a group of transmission rods (82) are mounted on two opposite side walls of the sliding blocks (81), a group of transmission rods (82) are mounted on the two opposite side walls of the sliding blocks (81), the second transmission rods (85) are connected with one side of the second transmission rods (85) and one side of the second transmission rods (85) are connected with one side of the second transmission rods (85), the electric push rod is characterized in that a first connecting block (84) is connected to the output end of the electric push rod (86) in a transmission mode, a group of telescopic rods (87) are arranged at the bottoms of the first connecting block (84) and the second connecting block (85), and a group of clamping plates (83) are arranged at the bottoms of each group of telescopic rods (87).

2. The stabilizing device for a laser centering instrument according to claim 1, wherein: each group of openings is of a circular structure, and the sliding rail (9) is of a fan-shaped annular structure.

3. The stabilizing device for a laser centering instrument according to claim 1, wherein: the touch screen is characterized in that a first mounting table (2) and a second mounting table (3) are respectively mounted at the edges of two opposite sides of the base (1), an adjusting mechanism (16) is mounted on one side wall of the first mounting table, and a touch screen (4) is mounted on the adjusting mechanism (16).

4. A laser centering stabilization device as claimed in claim 3, wherein: install motor storehouse (11) on the inner wall of first mount table (2) one side, install servo motor (12) in motor storehouse (11), servo motor (12) output extends to first mount table outside to second mount table (3), and the transmission is connected with initiative pivot (13).

5. The laser centering stabilization device of claim 4, wherein: the novel automatic adjusting device is characterized in that an adjusting handle (5) is arranged on the outer wall of one side, far away from the first mounting table (2), of the second mounting table (3), the output end of the adjusting handle (5) extends to the inside of the second mounting table (3), a driving rotating shaft (6) is connected in a transmission mode, and the central axes of the driving rotating shaft (13) and the driving rotating shaft (6) are on the same straight line.

6. The laser centering stabilization device of claim 5, wherein: install laser centering appearance caliber (7) on stabilizing mean (8), two sets of laser centering appearance caliber (7) bottom respectively with initiative pivot (13) and the laminating of drive pivot (6) outer wall, two sets of laser centering appearance caliber bottom all is provided with bandage (14), two sets of bandage (14) inner wall respectively with initiative pivot (13) and the laminating of the outer wall of drive pivot (6).

7. The laser centering stabilization device of claim 6, wherein: the adjusting mechanism (16) comprises a mounting plate (161), wherein the mounting plate (161) is mounted on the outer wall of one side of the first mounting table (2), a first mounting block (164) is mounted on the side wall, far away from the first mounting table (2), of the mounting plate (161), and a first damping bearing (165) is mounted in the first mounting block (164).

8. The laser centering stabilization device of claim 7, wherein: the first damping bearing (165) is rotationally connected with a first connecting rod (162), a second mounting block (167) is mounted at the other end of the first connecting rod (162), a second damping bearing (166) is mounted in the second mounting block (167), and a second connecting rod (163) is rotationally connected to the second damping bearing (166).