CN111706751A

CN111706751A - Supporting structure for optical instrument

Info

Publication number: CN111706751A
Application number: CN202010538488.9A
Authority: CN
Inventors: 罗立军; 何涛; 李金龙
Original assignee: Jiangsu Yijia Precision Instrument Manufacturing Co ltd
Current assignee: Jiangsu Yijia Precision Instrument Manufacturing Co ltd
Priority date: 2020-06-13
Filing date: 2020-06-13
Publication date: 2020-09-25

Abstract

The invention relates to a supporting structure for an optical instrument, which comprises a supporting base structure, wherein the supporting base structure is in a T shape, the upper end of the inner bottom of the supporting base structure is connected with a limiting supporting plate structure through a plurality of elastic shock absorption block structures, the inner bottom of the supporting base structure is provided with a buffer groove structure, two sides of the limiting supporting plate structure are respectively provided with a limiting pulley structure, the upper end of the limiting supporting plate structure is connected with three hydraulic lifting leg structures, each hydraulic lifting leg structure comprises 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, two sides of the optical instrument placing table structure are provided with adjustable panel structures, and the end surface of the optical instrument placing table structure is provided with a level instrument device, the method has the characteristics of strong practicability and strong operability, and has wide market application prospect.

Description

Supporting structure for optical instrument

Technical Field

The invention relates to the technical field of electromechanical equipment, in particular to a supporting structure for an optical instrument.

Background

The optical apparatus is composed of a single or a combination of optical devices, and is capable of generating light waves and displaying images

Such as, or a type of instrument that receives light waves and analyzes and determines the light properties thereof. Optical instruments are very important composition categories in the instrument industry, are indispensable observation, test, analysis, control, record and transmission tools in various fields of industrial and agricultural production, resource exploration, space exploration, scientific experiments, national defense construction and social life, are mainly divided into two categories, and one category is real-image optical instruments such as a slide projector, a camera and the like; the other type is an optical instrument forming a virtual image, such as a telescope, a microscope, a magnifier and the like, an instrument rack is generally required to be used in the using process of the existing optical instrument, the existing instrument rack is not convenient to adjust in height according to actual conditions, meanwhile, the clamping effect on an optical instrument body in the adjusting process is poor, and the optical instrument body with different specifications is not convenient to adjust when the optical instrument body is clamped, meanwhile, the damping effect of the existing optical instrument in the actual using process is poor, when the optical instrument is used for observing a target surface, an error can occur due to vibration, certain influence can be caused on a lens assembly of the optical instrument due to vibration, and the lens can fall off seriously, so that the supporting structure for the optical instrument is required to be designed to solve the problems.

Disclosure of Invention

The invention aims to provide a supporting structure for an optical instrument aiming at the technical problems in the prior art, and the specific technical scheme is as follows:

the invention provides a supporting structure for an optical instrument, which comprises a supporting base structure, wherein the supporting base structure is in a T shape, the upper end of the inner bottom of the supporting base structure is connected with a limiting supporting plate structure through a plurality of elastic damping block structures, the inner bottom of the supporting base structure is provided with a buffering groove structure, the elastic damping block structures are arranged in the buffering groove structure, two sides of the limiting supporting plate structure are respectively provided with a limiting pulley structure, the upper end of the limiting supporting plate structure is connected with three hydraulic lifting leg structures, each hydraulic lifting leg structure comprises a fixed leg structure and a sliding leg structure connected to the inner cavity of the fixed leg structure in a sliding mode, the upper ends of the three hydraulic lifting leg structures are provided with an optical instrument placing table structure, and the position of the hydraulic lifting leg structure, which is connected with the optical instrument placing table structure, is sleeved with a fixed ring structure, the adjustable optical instrument placing table is characterized in that adjustable panel structures are arranged on two sides of the optical instrument placing table structure, supporting leg structures are arranged on the periphery of the lower end of the supporting base structure respectively, a buffer gasket structure is arranged at the lower end of each supporting leg structure, and a level device is arranged on the end face of the optical instrument placing table structure.

The invention is further improved in that: one side of slip leg structure is provided with a plurality of tooth block structures, runs through fixed leg structure is provided with the dwang structure, the outside cover of dwang structure is equipped with the rolling disc structure, sets up fixed leg structure inner chamber part the dwang is structural be provided with the gear structure of tooth block structure looks adaptation.

The invention is further improved in that: the sliding leg structure is far away from one side of the tooth block structure is provided with a plurality of limiting concave structures, the limiting concave structures are matched with each other in a clamping mode and are connected with limiting strip structures, the limiting strip structures penetrate through the fixed leg structure and the sliding leg structure and are connected with the limiting concave structures, the lower end of the sliding leg structure is provided with a fixed plate structure, and the lower end of the fixed plate structure is connected with a sliding block structure through a connecting piece.

The invention is further improved in that: and moving wheel structures are arranged on two sides of the sliding block structure.

The invention is further improved in that: the outside cladding of spacing pulley has one deck anti-skidding bed course structure.

The invention is further improved in that: the position, which is arranged on the side wall of the inner side of the supporting base structure and is contacted with the limiting pulley structure, is provided with a section of limiting groove structure.

The invention is further improved in that: the limiting groove structure is provided with a wear-resistant cushion layer structure, and the lower end of the limiting groove structure is arranged on the upper side of the supporting base structure and is provided with an elastic sheet structure.

The invention is further improved in that: the adjustable panel structure comprises a panel body structure, an elastic structure is arranged on one side, away from the instrument, of the panel body structure, a pull rod structure is arranged on one side, away from the panel body structure, of the elastic structure, and the pull rod structure penetrates through two side walls of the adjustable panel structure.

The invention is further improved in that: one side of the panel body structure close to the instrument structure is provided with a layer of anti-slip cushion layer structure.

The invention is further improved in that: and a layer of threaded cushion layer structure is arranged on the outer side of the pull rod structure.

The invention has the beneficial effects that:

the elastic shock absorption block structure is arranged, the whole shock absorption effect can be achieved, the adjustable panel arranged at the upper end can fix the instrument, meanwhile, the adjustment of the hydraulic lifting leg structure which descends up and down can horizontally adjust the situation that the levelness of the instrument does not reach the standard due to vibration.

Drawings

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

FIG. 2 is a schematic view of a hydraulic lifting leg according to the present invention;

description of the drawings: 1-supporting base structure, 2-elastic shock absorption block structure, 3-limiting supporting plate structure, 4-buffering groove structure, 5-limiting pulley structure, 6-limiting anti-skidding cushion layer structure, 7-limiting groove structure, 8-wear-resistant cushion layer structure, 9-elastic sheet structure, 10-hydraulic lifting leg structure, 11-fixing leg structure, 12-sliding leg structure, 13-tooth block structure, 14-rotating rod structure, 15-rotating disk structure, 16-gear structure, 17-limiting concave structure, 18-limiting strip structure, 19-fixing plate structure, 20-connecting piece, 21-sliding block structure, 22-moving wheel structure, 23-optical instrument placing platform structure, 24-fixing ring structure, 25-adjustable panel structure, 26-panel body structure, 27-instrument structure, 28-anti-skid cushion layer structure, 29-elastic structure, 30-pull rod structure, 31-thread cushion layer structure, 32-supporting leg structure, 33-buffer cushion layer structure and 34-level device.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

This embodiment provides a bearing structure for optical instrument, including supporting pedestal structure 1, supporting pedestal structure 1 is T shape, the upper end of the 1 inboard bottom of supporting pedestal structure is connected with spacing backup pad structure 3 through two elasticity snubber block structures 2, be equipped with buffering groove structure 4 on the 1 inboard bottom of supporting pedestal structure, elasticity snubber block structure 2 is installed inside buffering groove structure 4, the both sides of spacing backup pad structure 3 respectively are equipped with a spacing pulley structure 5, the outside cladding of spacing pulley structure 5 has the spacing anti-skidding bed course structure of one deck 6, sets up on the lateral wall of the 1 inboard of supporting pedestal structure with the position that spacing pulley structure 5 contacted is equipped with one section spacing groove structure 7, be equipped with one deck wear-resisting bed course structure 8 on the spacing groove structure 7, the lower extreme setting of spacing groove structure 7 is in the upside of supporting pedestal structure 1 is provided with an elastic sheet structure 9 The elastic piece structure 9 is arranged to limit the contact of the limiting pulley structure 5 with the bottom, so that buffering force can be provided, and the service life of the limiting pulley structure 5 is prolonged.

The upper end of the limiting supporting plate structure 3 is connected with three hydraulic lifting leg structures 10, each hydraulic lifting leg structure 10 comprises a fixed leg structure 11 and a sliding leg structure 12 connected to the inner cavity of the fixed leg structure 11 in a sliding mode, one side of each sliding leg structure 12 is provided with a plurality of tooth block structures 13, a rotating rod structure 14 is arranged to penetrate through the fixed leg structure 11, a rotating disc structure 15 is sleeved outside the rotating rod structure 14 and is arranged in the inner cavity of the fixed leg structure 11, a gear structure 16 matched with the tooth block structures 13 is arranged on the rotating rod structure 14, one side, far away from the tooth block structures 13, of each sliding leg structure 12 is provided with a plurality of limiting concave structures 17, the limiting concave structures 17 are arranged to play a limiting role, and the limiting concave structures 17 are connected with limiting strip structures 18 in a clamping mode, spacing strip structure 18 runs through fixed leg structure 11 with slip leg structure 12 with spacing sunk structure 17 is connected, the lower extreme of slip leg structure 12 is provided with fixed plate structure 19, fixed plate structure 19 plays the connection effect, the lower extreme of fixed plate structure 19 is connected with sliding block structure 21 through connecting piece 20, sliding block structure 21's both sides are provided with removes wheel structure 22.

An optical instrument placing table structure 23 is arranged at the upper end of the three hydraulic lifting leg structures 10, 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, adjustable panel structures 25 are arranged at two sides of the optical instrument placing table structure 23, each adjustable panel structure 25 comprises a panel body structure 26, one side, close to the instrument structure 27, of the panel body structure 26 is provided with a layer of anti-slip cushion layer structure 28, the anti-slip cushion layer structure 28 can increase the friction force when the anti-slip cushion layer structure is in contact with the instrument structure, so that better clamping action and stability are facilitated, an elastic structure 29 is arranged at one side, away from the instrument structure 27, of the panel body structure 26, a pull rod structure 30 is arranged at one side, away from the panel body structure 26, and the pull rod structure 30 penetrates through two side walls of the adjustable panel structure 25, the outer side of the pull rod structure 30 is provided with a layer of thread cushion structure 31, the thread cushion structure 31 is arranged for increasing friction force and facilitating holding and rotating actions, the periphery of the lower end of the support base structure 1 is respectively provided with a support leg structure 32, the lower end of the support leg structure 32 is provided with a buffer gasket structure 33, the end face of the optical instrument placing table structure 23 is provided with a level instrument device 34, and the level instrument device 34 is arranged for measuring the levelness of the whole device.

The invention has the beneficial effects that:

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing detailed description, or equivalent changes may be made in some of the features of the embodiments described above. All equivalent structures made by using the contents of the specification and the attached drawings of the invention can be directly or indirectly applied to other related technical fields, and are also within the protection scope of the patent of the invention.

Claims

1. A supporting structure for an optical instrument, characterized in that: the multifunctional lifting leg structure comprises a supporting base structure, wherein the supporting base structure is T-shaped, the upper end of the inner bottom of the supporting base structure is connected with a limiting supporting plate structure through a plurality of elastic damping block structures, the inner bottom of the supporting base structure is provided with a buffering groove structure, the elastic damping block structures are arranged in the buffering groove structures, two sides of the limiting supporting plate structure are respectively provided with a limiting pulley structure, the upper end of the limiting supporting plate structure is connected with three hydraulic lifting leg structures, each hydraulic lifting leg structure comprises a fixed leg structure and a sliding leg structure connected to the inner cavity of the fixed leg structure in a sliding mode, the upper ends of the three hydraulic lifting leg structures are provided with an optical instrument placing table structure, and a fixing ring structure is sleeved at the position where the hydraulic lifting leg structure is connected with the optical instrument placing table structure, the adjustable optical instrument placing table is characterized in that adjustable panel structures are arranged on two sides of the optical instrument placing table structure, supporting leg structures are arranged on the periphery of the lower end of the supporting base structure respectively, a buffer gasket structure is arranged at the lower end of each supporting leg structure, and a level device is arranged on the end face of the optical instrument placing table structure.

2. A support structure for an optical instrument according to claim 1, wherein: one side of slip leg structure is provided with a plurality of tooth block structures, runs through fixed leg structure is provided with the dwang structure, the outside cover of dwang structure is equipped with the rolling disc structure, sets up fixed leg structure inner chamber part the dwang is structural be provided with the gear structure of tooth block structure looks adaptation.

3. A support structure for an optical instrument according to claim 1, wherein: the sliding leg structure is far away from one side of the tooth block structure is provided with a plurality of limiting concave structures, the limiting concave structures are matched with each other in a clamping mode and are connected with limiting strip structures, the limiting strip structures penetrate through the fixed leg structure and the sliding leg structure and are connected with the limiting concave structures, the lower end of the sliding leg structure is provided with a fixed plate structure, and the lower end of the fixed plate structure is connected with a sliding block structure through a connecting piece.

4. A support structure for an optical instrument according to claim 3, wherein: and moving wheel structures are arranged on two sides of the sliding block structure.

5. A support structure for an optical instrument according to claim 1, wherein: the outside cladding of spacing pulley has one deck anti-skidding bed course structure.

6. A support structure for an optical instrument according to claim 1, wherein: the position, which is arranged on the side wall of the inner side of the supporting base structure and is contacted with the limiting pulley structure, is provided with a section of limiting groove structure.

7. The support structure for optical instrument as set forth in claim 5, wherein: the limiting groove structure is provided with a wear-resistant cushion layer structure, and the lower end of the limiting groove structure is arranged on the upper side of the supporting base structure and is provided with an elastic sheet structure.

8. A support structure for an optical instrument according to claim 1, wherein: the adjustable panel structure comprises a panel body structure, an elastic structure is arranged on one side, away from the instrument, of the panel body structure, a pull rod structure is arranged on one side, away from the panel body structure, of the elastic structure, and the pull rod structure penetrates through two side walls of the adjustable panel structure.

9. A support structure for an optical instrument according to claim 7, wherein: one side of the panel body structure close to the instrument structure is provided with a layer of anti-slip cushion layer structure.

10. A support structure for an optical instrument according to claim 7, wherein: and a layer of threaded cushion layer structure is arranged on the outer side of the pull rod structure.