CN111706751A - A support structure for optical instruments - Google Patents

Abstract

The invention relates to a support structure for an optical instrument, comprising a support base structure, the support base structure is in the shape of a concave, and the upper end of the inner bottom of the support base structure is connected to a limit support plate structure through a plurality of elastic shock-absorbing block structures, so the A buffer groove structure is arranged on the inner bottom of the support base structure, a limit pulley structure is provided on both sides of the limit support plate structure, and three hydraulic lifting leg structures are connected to the upper end of the limit support plate structure. The hydraulic lifting leg structure includes a fixed leg structure and a sliding leg structure connected to the inner cavity of the fixed leg structure in a sliding manner. The upper ends of the three hydraulic lifting leg structures are provided with an optical instrument placing table structure, and the optical instrument The two sides of the placing table structure are provided with adjustable panel structures, and the end face of the optical instrument placing table structure is provided with a spirit level device.

Description

A support structure for optical instruments

technical field

The invention relates to the technical field of electromechanical equipment, in particular to a support structure for optical instruments.

Background technique

Optical instruments are composed of single or multiple optical devices, which can generate light waves and display graphs.

Like, or a class of instruments that receive light waves and analyze and determine their optical properties. Optical instruments are a very important component category in the instrumentation industry, and are indispensable tools for observation, testing, analysis, control, recording and transmission in various fields of industrial and agricultural production, resource exploration, space exploration, scientific experiments, national defense construction and social life. , Optical instruments are mainly divided into two categories, one is optical instruments that form real images, such as slide projectors, cameras, etc.; the other is optical instruments that form virtual images, such as telescopes, microscopes, and magnifying glasses, etc. The existing optical instruments are in use The instrument rack is usually used in the process of adjustment. The existing instrument rack is not easy to adjust the height according to the actual situation. At the same time, the clamping effect of the optical instrument body is not good during the adjustment process, and the optical instrument body of different specifications is clamped. It is inconvenient to adjust at the same time, and the vibration reduction effect of the existing optical instruments is not good in the actual use process. When using the optical instrument to observe the target surface, the result may be wrong due to vibration. The components will cause a certain impact, and in severe cases, the lens may fall off. Therefore, it is necessary to design a support structure for optical instruments to solve the above problems.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a support structure for optical instruments for the technical problems existing in the prior art, and the specific technical scheme is as follows:

The present invention provides a support structure for an optical instrument, which includes a support base structure, the support base structure is in a trough shape, and the upper end of the inner bottom of the support base structure is connected to a limit support plate structure through a plurality of elastic shock-absorbing block structures, so A buffer groove structure is arranged on the inner bottom of the support base structure, the elastic shock-absorbing block structure is installed inside the buffer groove structure, and a limit pulley structure is provided on each side of the limit support plate structure. The upper end of the limit support plate structure is connected with three hydraulic lifting leg structures. The upper end of the lifting leg structure is provided with an optical instrument placing table structure, the position where the hydraulic lifting leg structure is connected with the optical instrument placing table structure is sleeved with a fixed ring structure, and two sides of the optical instrument placing table structure are provided with adjustable In the panel structure, a support leg structure is provided around the lower end of the support base structure, a buffer spacer structure is provided at the lower end of the support leg structure, and a level device is provided on the end surface of the optical instrument placement table structure.

A further improvement of the present invention is that: one side of the sliding leg structure is provided with a number of tooth block structures, a rotating rod structure is provided through the fixed leg structure, and a rotating disk structure is sleeved on the outside of the rotating rod structure. A gear structure matched with the tooth block structure is arranged on the rotating rod structure of the inner cavity part of the fixed leg structure.

A further improvement of the present invention is that: the side of the sliding leg structure away from the tooth block structure is provided with a number of limiting concave structures, and the limiting concave structures are adapted to be connected to the limiting bar structures by means of snapping. , the limiting strip structure penetrates the fixing leg structure and the sliding leg structure and is connected with the limiting recess structure, the lower end of the sliding leg structure is provided with a fixing plate structure, and the lower end of the fixing plate structure passes through The connecting piece is connected with a sliding block structure.

A further improvement of the present invention is that: the two sides of the sliding block structure are provided with moving wheel structures.

A further improvement of the present invention is that: the outer side of the limit pulley is covered with a layer of anti-skid cushion structure.

A further improvement of the present invention is that: a limit groove structure is provided on the side wall disposed on the inner side of the support base structure at the position where the limit pulley structure is in contact with the limit pulley structure.

A further improvement of the present invention is that a layer of wear-resistant cushion layer structure is provided on the limiting groove structure, and an elastic sheet structure is provided at the lower end of the limiting groove structure on the upper side of the supporting base structure.

A further improvement of the present invention is that: the adjustable panel structure includes a panel body structure, the side of the panel body structure away from the instrument is provided with an elastic structure, and the side of the elastic structure away from the panel body structure is provided with a pull rod structure , the tie rod structure penetrates the two side walls of the adjustable panel structure.

A further improvement of the present invention is that a layer of anti-skid cushion structure is provided on the side of the panel body structure close to the instrument structure.

A further improvement of the present invention is that: a layer of threaded cushion structure is arranged on the outer side of the tie rod structure.

The beneficial effects of the present invention are:

In the present invention, by setting the elastic damping block structure, the overall shock absorption effect can be achieved, the adjustable panel provided at the upper end can fix the instrument itself, and the hydraulic lifting leg structure that falls up and down can be adjusted at the same time. The level adjustment is performed for the situation that the levelness of the instrument is not up to standard due to vibration. The present invention has the functions of shock absorption and correcting the problem of unqualified levelness of the instrument caused by vibration. At the same time, the hydraulic lifting leg structure can be used to adjust the height of the optical instrument itself. Such a design has the characteristics of strong practicability and operability, and has broad market application prospects.

Description of drawings

Fig. 1 is the overall structure schematic diagram of the present invention;

Fig. 2 is the structure schematic diagram of the hydraulic lifting leg of the present invention;

Description of drawings: 1-support base structure, 2-elastic shock-absorbing block structure, 3-limiting support plate structure, 4-buffer groove structure, 5-limiting pulley structure, 6-limiting anti-skid cushion structure, 7-limiting pulley structure -Limiting groove structure, 8-wear-resistant cushion structure, 9-elastic sheet structure, 10-hydraulic lifting leg structure, 11-fixed leg structure, 12-sliding leg structure, 13-tooth block structure, 14-rotating rod Structure, 15-rotating disk structure, 16-gear structure, 17-limiting recess structure, 18-limiting strip structure, 19-fixed plate structure, 20-connecting piece, 21-slide block structure, 22-moving wheel structure, 23-Optical instrument placement table structure, 24-Fixed ring structure, 25-Adjustable panel structure, 26-Panel body structure, 27-Instrument structure, 28-Anti-skid cushion structure, 29-Elastic structure, 30-Tie rod structure, 31 -Threaded cushion structure, 32-support leg structure, 33-buffer pad structure, 34-level device.

Detailed ways

In order for those skilled in the art to better understand the solutions of the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

This embodiment provides a support structure for an optical instrument, including a support base structure 1 , the support base structure 1 is in a trough shape, and the upper end of the inner bottom of the support base structure 1 is connected by two elastic shock-absorbing block structures 2 to limit the position Support plate structure 3, the inner bottom of the support base structure 1 is provided with a buffer groove structure 4, the elastic damping block structure 2 is installed inside the buffer groove structure 4, the limit support plate structure 3 is There is a limit pulley structure 5 on each side, the outer side of the limit pulley structure 5 is covered with a limit anti-skid cushion structure 6, which is arranged on the inner side wall of the support base structure 1 and the limit pulley structure 5. The position where the position pulley structure 5 is in contact is provided with a section of a limit groove structure 7, a layer of wear-resistant cushion layer structure 8 is arranged on the position limit groove structure 7, and the lower end of the limit groove structure 7 is arranged at the position. The upper side of the support base structure 1 is provided with an elastic sheet structure 9. The elastic sheet structure 9 is provided to limit the bottom of the limit pulley structure 5 to be in contact with, there can be a buffer force to increase the limit. The service life of the pulley structure 5.

The upper end of the limit support plate structure 3 is connected with three hydraulic lifting leg structures 10 . The hydraulic lifting leg structure 10 includes a fixed leg structure 11 and a sliding leg structure 12 connected to the inner cavity of the fixed leg structure 11 by sliding means. , one side of the sliding leg structure 12 is provided with a number of tooth block structures 13, through the fixed leg structure 11 is provided with a rotating rod structure 14, the outside of the rotating rod structure 14 is sleeved with a rotating disk structure 15, A gear structure 16 adapted to the tooth block structure 13 is provided on the rotating rod structure 14 of the inner cavity part of the fixed leg structure 11 , and the sliding leg structure 12 is far away from the tooth block structure 13 . One side is provided with a number of limiting recess structures 17. The limiting recess structures 17 are provided for the purpose of limiting the position. The limiting recess structures 17 are adapted to be connected to the limiting bar structures by means of snapping. 18. The limiting strip structure 18 penetrates the fixed leg structure 11 and the sliding leg structure 12 and is connected to the limiting concave structure 17. The lower end of the sliding leg structure 12 is provided with a fixing plate structure 19, so The fixed plate structure 19 plays a connecting role, and the lower end of the fixed plate structure 19 is connected with a sliding block structure 21 through a connecting piece 20 , and a moving wheel structure 22 is provided on both sides of the sliding block structure 21 .

The upper ends of the three hydraulic lifting leg structures 10 are provided with an optical instrument placing table structure 23, and a fixing ring structure 24 is sleeved at the position where the hydraulic lifting leg structure 10 is connected with the optical instrument placing table structure 23. An adjustable panel structure 25 is provided on both sides of the instrument placing table structure 23 . The adjustable panel structure 25 includes a panel body structure 26 , and a layer of anti-skid cushion structure is provided on the side of the panel body structure 26 close to the instrument structure 27 . 28. Setting the anti-skid cushion layer structure 28 can increase the frictional force when in contact with the instrument structure, facilitate better clamping action, and increase the stability. The panel body structure 26 is away from the side of the instrument structure 27 An elastic structure 29 is provided, and the side of the elastic structure 29 away from the panel body structure 26 is provided with a pull rod structure 30 , the pull rod structure 30 penetrates through both side walls of the adjustable panel structure 25 , and the pull rod structure 30 A layer of threaded cushion structure 31 is provided on the outer side of the base structure. The threaded cushion structure 31 is set to increase friction and facilitate the actions of holding and rotating. The lower end of the supporting base structure 1 is provided with a supporting leg structure around each. 32, the lower end of the support leg structure 32 is provided with a buffer pad structure 33, and the end surface of the optical instrument placement table structure 23 is provided with a level device 34, which can measure the levelness of the overall device.

The beneficial effects of the present invention are:

In the present invention, by setting the elastic damping block structure, the overall shock absorption effect can be achieved, the adjustable panel provided at the upper end can fix the instrument itself, and the hydraulic lifting leg structure that falls up and down can be adjusted at the same time. The level adjustment is performed for the situation that the levelness of the instrument is not up to standard due to vibration. The present invention has the functions of shock absorption and correcting the problem of unqualified levelness of the instrument caused by vibration. At the same time, the hydraulic lifting leg structure can be used to adjust the height of the optical instrument itself. Such a design has the characteristics of strong practicability and operability, and has a broad market application prospect.

The above are only preferred embodiments of the present invention, but do not limit the patent scope of the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still The technical solutions described in the specific embodiments are modified, or some technical features thereof are equivalently replaced. Any equivalent structures made by using the contents of the description and the accompanying drawings of the present invention, which are directly or indirectly applied in other related technical fields, are all within the protection scope of the patent of the present invention.

Claims (10)

1. a support structure for an optical instrument, characterized in that: comprise a support base structure, the support base structure is in a shape, and the upper end of the inner bottom of the support base structure is connected to a limited support plate by several elastic shock-absorbing block structures structure, the inner bottom of the support base structure is provided with a buffer groove structure, the elastic shock-absorbing block structure is installed inside the buffer groove structure, and each side of the limit support plate structure is provided with a limit Pulley structure, the upper end of the limit support plate structure is connected with three hydraulic lifting leg structures, the hydraulic lifting leg structure includes a fixed leg structure and a sliding leg structure connected to the inner cavity of the fixed leg structure by sliding means, three The upper end of the hydraulic lifting leg structure is provided with an optical instrument placing table structure, the position where the hydraulic lifting leg structure is connected with the optical instrument placing table structure is sleeved with a fixing ring structure, and the optical instrument placing table structure is provided on both sides. There is an adjustable panel structure, a support leg structure is provided around the lower end of the support base structure, a buffer spacer structure is provided at the lower end of the support leg structure, and a level device is provided on the end surface of the optical instrument placement table structure. . 2 . The support structure for an optical instrument according to claim 1 , wherein a plurality of tooth block structures are provided on one side of the sliding leg structure, and a rotating rod structure is provided through the fixed leg structure, so that the The outside of the rotating rod structure is sleeved with a rotating disk structure, and the rotating rod structure disposed in the inner cavity of the fixed leg structure is provided with a gear structure matched with the tooth block structure. 3 . The support structure for an optical instrument according to claim 1 , wherein: a side of the sliding leg structure away from the tooth block structure is provided with a number of limiting concave structures, the limiting concave structures. 4 . The upper fitting is connected to the limiting strip structure by means of snapping, the limiting strip structure penetrates the fixed leg structure and the sliding leg structure and is connected with the limiting recessed structure, and the lower end of the sliding leg structure is connected with the limiting concave structure. A fixed plate structure is provided, and the lower end of the fixed plate structure is connected with a sliding block structure through a connecting piece. 4 . The support structure for an optical instrument according to claim 3 , wherein a moving wheel structure is provided on both sides of the sliding block structure. 5 . 5 . The support structure for an optical instrument according to claim 1 , wherein the outer side of the limit pulley is covered with a layer of anti-skid cushion structure. 6 . 6 . The support structure for an optical instrument according to claim 1 , wherein a limit concave is provided at a position on the inner side wall of the support base structure in contact with the limit pulley structure. 7 . slot structure. 7 . The support structure for an optical instrument according to claim 5 , wherein a layer of wear-resistant cushion layer structure is provided on the limiting groove structure, and the lower end of the limiting groove structure is arranged at the The upper side of the supporting base structure is provided with an elastic sheet structure. 8 . The support structure for an optical instrument according to claim 1 , wherein the adjustable panel structure comprises a panel body structure, and a side of the panel body structure away from the instrument is provided with an elastic structure, the elastic A pull rod structure is provided on the side of the structure away from the panel body structure, and the pull rod structure penetrates both side walls of the adjustable panel structure. 9 . The support structure for an optical instrument according to claim 7 , wherein a layer of anti-skid cushion layer structure is provided on the side of the panel body structure close to the instrument structure. 10 . 10 . The support structure for an optical instrument according to claim 7 , wherein a layer of threaded cushion structure is arranged on the outer side of the pull rod structure. 11 .

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