CN109916436B

CN109916436B - Photoelectric stabilized platform

Info

Publication number: CN109916436B
Application number: CN201910311560.1A
Authority: CN
Inventors: 魏亚隆
Original assignee: Chengdu Yige Machinery Co ltd
Current assignee: Chengdu Yige Machinery Co ltd
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2023-12-19
Anticipated expiration: 2039-04-18
Also published as: CN109916436A

Abstract

The invention discloses a photoelectric stabilized platform which comprises a front base (1), a rear base (2), a left frame (3) and a right frame (4), wherein a guide rail A (5) is fixedly arranged on the rear end face of the front base (1), a sliding groove A (6) is formed in the front end face of the rear base (2), the guide rail A (5) is slidably arranged in the sliding groove A (6), limiting mechanisms for preventing the front base and the rear base from moving relatively are arranged on the left end face and the right end face of the front base (1), a spring (12) is sleeved on a stand column (13), one end of the spring (12) is fixed on the top surface of a base (10), the other end of the spring is fixed on the bottom surface of a flat plate (11), and the lower end of the stand column (13) stretches into a blind hole (7) under the elastic force of the spring (12). The beneficial effects of the invention are as follows: compact structure, can install the photoelectric sensor of different width, convenient loading transportation, easy operation.

Description

Photoelectric stabilized platform

Technical Field

The invention relates to the technical field of photoelectric stabilized platform structures, in particular to a photoelectric stabilized platform.

Background

Along with the rapid development of modern information technology, the photoelectric imaging system plays an important role in the military and civil fields at present, and the vehicle-mounted photoelectric system further improves the maneuverability, flexibility and concealment, namely, can quickly detect, locate and identify various targets. The important component in the photoelectric system is a photoelectric stabilized platform, the photoelectric stabilized platform is mainly used for installing a photoelectric sensor, as shown in fig. 5-6, the photoelectric stabilized platform is a structural schematic diagram of a traditional photoelectric platform, the photoelectric stabilized platform comprises a base (18), a left frame (3) and a right frame (4), the left frame (3) and the right frame (4) are fixedly arranged on the top surface of the base (18) and are respectively positioned on the left side and the right side of the base (18), mounting holes (19) are respectively formed in the left frame (3) and the right frame (4), and when the photoelectric sensor is installed, the photoelectric sensor is firstly placed between the left frame (3) and the right frame (4) and is supported on the top surface of the base (18), and then the photoelectric sensor is finally fixed by using screws to penetrate through the threaded holes in the mounting holes (19) and the photoelectric sensor. However, the left frame (3) and the right frame (4) are integrally formed with the base (18), and the distance between the left frame (3) and the right frame (4) is equal, so that only the photoelectric sensors with fixed specifications can be installed, but the photoelectric sensors with different specifications cannot be installed, and the use limitation exists. In addition, the whole photoelectric stabilized platform is large in size and weight, so that loading is difficult, and great inconvenience is brought to later transportation. Therefore, a photoelectric stable platform which can be provided with photoelectric sensors with different widths and is convenient to transport is needed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the photoelectric stable platform which has a compact structure, can be provided with photoelectric sensors with different widths, is convenient to load and transport and is simple to operate.

The aim of the invention is achieved by the following technical scheme: the utility model provides a photoelectricity stabilized platform, it includes preceding base, back base, left frame and right frame, guide rail A has been set firmly on the rear end face of preceding base, has seted up spout A on the front end face of back base, guide rail A slidable mounting in spout A, all be provided with the stop gear who is used for preventing the relative movement of preceding back base on the left and right sides terminal surface of preceding base, a plurality of blind holes have been seted up on the top surface of preceding base and along its length direction, spout B that sets up along its length direction has been seted up on the top surface of back base, guide rail B has all set firmly in the bottom of left frame and right frame, guide rail B slidable mounting in spout B, and the front side of left frame and right frame all is provided with locking mechanism, and locking mechanism includes base, flat board, spring and stand, and the base sets firmly in the front side of frame, has seted up the guiding hole of vertical setting in the guiding hole, and sliding fit has the stand, and the upper end of stand extends in the base top, and the extension end upper welding has the spring, and the cover has the spring on the stand, and the one end of spring is fixed in the top surface of base, and the other end is fixed in the bottom surface of the stand under the spring action of flat board.

The limiting mechanism comprises a threaded rod and a limiting plate, the threaded rod is welded on the end face of the front base, a threaded hole is formed in the limiting plate, the limiting plate is fixedly arranged on the threaded rod through the threaded hole and the threaded rod in threaded connection, and the limiting plate abuts against the end face of the rear base.

The top surface of the front base is provided with a groove, and the blind hole is arranged in the groove.

The diameters of the blind holes and the guide holes are equal to the diameter of the upright post.

The sections of the sliding groove A and the sliding groove B are dovetail-shaped, and the sections of the guide rail A and the guide rail B are dovetail-shaped.

The distance between every two adjacent blind holes is equal.

And mounting holes are formed in the left frame and the right frame.

The invention has the following advantages: the invention has compact structure, can install photoelectric sensors with different widths, is convenient for loading and transporting and has simple operation.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a schematic diagram of the operation of the present invention;

FIG. 5 is a schematic structural diagram of a conventional photovoltaic stabilization platform;

FIG. 6 is a side view of FIG. 5;

in the figure, a front base, a rear base, a left frame, a right frame, a 5-guide rail A, a 6-slide groove A, a 7-blind hole, a 8-slide groove B, a 9-guide rail B, a 10-base, a 11-flat plate, a 12-spring, a 13-upright post, a 14-guide hole, a 15-threaded rod, a 16-limiting plate, a 17-groove, a 18-base and a 19-mounting hole are arranged on the front base, the rear base and the left frame.

Detailed Description

The invention is further described below with reference to the accompanying drawings, the scope of the invention not being limited to the following:

as shown in fig. 1-3, an optoelectronic stabilized platform, it includes front base 1, back base 2, left frame 3 and right frame 4, guide rail A5 has been set firmly on the rear end face of front base 1, has seted up spout A6 on the front end face of back base 2, guide rail A5 slidable mounting is in spout A6, all be provided with the stop gear who is used for preventing front and back base to do relative movement on the front base 1's the left and right sides terminal surface, a plurality of blind holes 7 have been seted up on the top surface of front base 1 and along its length direction, the interval between every adjacent two blind holes 7 is equal, set up on the top surface of back base 2 along its length direction spout B8, the cross-section of spout A6 and spout B8 is the dovetail, guide rail A5 and the cross-section of guide rail B9 are the dovetail, the bottom of left side frame 3 and right frame 4 all has set firmly guide rail B9, and guide rail B9 slidable mounting is in spout B8, and the front side of left side frame 3 and right frame 4 all is provided with locking mechanism, and locking mechanism includes base 10, and spring housing 10 is set firmly in the top surface 13, and 13 top surface 13 is set up in the top surface 13 and 13 in the top of the flat spring housing 13, and the top surface 13 is fixed to the top surface of the flat top of the flat board is equipped with 13, and the top surface is set up in the top of the flat top 13, and the top of the flat top 13 is stretched out in the top of the flat 13.

The limiting mechanism comprises a threaded rod 15 and a limiting plate 16, the threaded rod 15 is welded on the end face of the front base 1, a threaded hole is formed in the limiting plate 16, the limiting plate 16 is fixedly arranged on the threaded rod 15 through the threaded hole and the threaded rod 15 in a threaded connection mode, the limiting plate 16 abuts against the end face of the rear base 2, and therefore the front base and the rear base are fixed, and displacement of the front base and the rear base is avoided. The top surface of the front base 1 is provided with a groove 17, and the blind hole 7 is arranged in the groove 17. The diameters of the blind holes 7 and the guide holes 14 are equal to the diameter of the upright posts 13. Mounting holes are formed in the left frame 3 and the right frame 4.

The working process of the invention is as follows:

when the photoelectric sensor with smaller width is to be installed, a worker only needs to lift the two flat plates 11 upwards, the flat plates 11 drive the upright posts 13 to be pulled out of the blind holes 7 where the flat plates are positioned, at the moment, the worker pushes the left frame 3 rightwards, the guide rail B9 of the left frame 3 slides rightwards in the slide groove B8, after the left frame 3 moves to a proper position, the flat plates 11 are loosened, if the upright posts 13 are observed to be not lowered, the upright posts 13 are not aligned with the blind holes 7 on the left side and the right side of the left frame, at the moment, the worker only needs to push the left frame 3 slowly, if the upright posts 13 are obviously lowered, the upright posts 13 are inserted into the blind holes 7, and therefore the fixing of the left frame is completed; then the worker pushes the right frame 4 leftwards, when observing that the horizontal distance between the worker and the right frame 4 is close to the width of the photoelectric sensor to be installed, the worker loosens the flat plate 11 of the right frame 4, if the vertical column 13 is observed to be not lowered, the vertical column 13 is not aligned with the blind holes 7 on the left side and the right side of the vertical column, at the moment, the worker only needs to push the right frame 4 slowly again, if the vertical column 13 is obviously lowered, the vertical column 13 is shown to be inserted into the blind holes 7, and thus the fixing of the right frame is completed as shown in fig. 4; finally, a worker places the photoelectric sensor to be mounted between the left frame 3 and the right frame 4, and the mounting holes on the left frame and the right frame are penetrated through by screws and are in threaded connection with the threaded holes on the photoelectric sensor, so that the mounting of the small-width photoelectric sensor is completed.

When the photoelectric sensor with large width is to be installed, only the left frame 3 and the right frame 4 are required to move in the opposite direction, the left frame and the right frame are fixed after moving in place, a worker places the photoelectric sensor to be installed between the left frame 3 and the right frame 4, and the photoelectric sensor with large width is installed by penetrating the installation holes on the left frame and the right frame through screws and being in threaded connection with the threaded holes on the photoelectric sensor. Therefore, the photoelectric stable platform can be used for completing the installation of photoelectric sensors with different width sizes and has the characteristic of wider application range.

When the photoelectric stabilization platform is to be transported, the limiting plates 16 of the limiting mechanisms at two sides are rotated until the limiting plates 16 are unscrewed from the threaded rods 15, then the front base 1 is horizontally slid rightward, the guide rail A5 slides in the sliding groove A6 until the guide rail A5 slides out of the sliding groove A6, then the left frame 3 and the right frame 4 are reversely slid, and the guide rail B9 slides out of the sliding groove B8, so that the whole photoelectric stabilization platform is disassembled into four independent components, namely the front base, the rear base and the left frame and the right frame respectively, and the subsequent transportation is greatly facilitated compared with the traditional integral photoelectric stabilization platform.

Claims

1. An optoelectronic stabilization platform, characterized in that: the novel sliding seat comprises a front base (1), a rear base (2), a left frame (3) and a right frame (4), wherein a guide rail A (5) is fixedly arranged on the rear end face of the front base (1), a sliding groove A (6) is formed in the front end face of the rear base (2), the guide rail A (5) is slidably mounted in the sliding groove A (6), limiting mechanisms for preventing the front base and the rear base from moving relatively are arranged on the left end face and the right end face of the front base (1), a plurality of blind holes (7) are formed in the top surface of the front base (1) and along the length direction of the front base, a sliding groove B (8) which is arranged along the length direction of the rear base is formed in the top surface of the rear base (2), a guide rail B (9) is fixedly arranged at the bottoms of the left frame (3) and the right frame (4), a locking mechanism is arranged in the sliding groove B (8), the front side of the left frame (3) and the right frame (4) is provided with a locking mechanism, the locking mechanism comprises a base (10), a flat plate (11), a spring (12) and a stand column (13), the base (10) is fixedly arranged on the top surface of the front base (1), a guide hole (14) is formed in the front side of the front base (10), a guide hole (14) and extends to the upper end of the stand column (13) in the upper end of the stand (14), the upright post (13) is sleeved with a spring (12), one end of the spring (12) is fixed on the top surface of the base (10), the other end of the spring is fixed on the bottom surface of the flat plate (11), and the lower end of the upright post (13) stretches into the blind hole (7) under the action of the elasticity of the spring (12); the limiting mechanism comprises a threaded rod (15) and a limiting plate (16), the threaded rod (15) is welded on the end face of the front base (1), a threaded hole is formed in the limiting plate (16), the limiting plate (16) is fixedly arranged on the threaded rod (15) through threaded connection of the threaded hole and the threaded rod (15), and the limiting plate (16) abuts against the end face of the rear base (2); the top surface of the front base (1) is provided with a groove (17), the blind hole (7) is arranged in the groove (17), and the diameters of the blind hole (7) and the guide hole (14) are equal to the diameter of the upright post (13); and mounting holes are formed in the left frame (3) and the right frame (4).

2. The optoelectronic stabilization platform according to claim 1, wherein: the sections of the sliding groove A (6) and the sliding groove B (8) are dovetail-shaped, and the sections of the guide rail A (5) and the guide rail B (9) are dovetail-shaped.

3. The optoelectronic stabilization platform according to claim 1, wherein: the distance between every two adjacent blind holes (7) is equal.