CN113432845B - Multifunctional optical experiment test platform - Google Patents

Abstract

The invention discloses a multifunctional optical experiment test platform, which comprises a test support, test glass, a light source assembly and a camera assembly, wherein the test glass is connected to the test support in a sliding way through a sliding table, and the light source assembly comprises an upper light source, a plurality of lower light sources and a light source seat board; the camera assembly comprises a camera mounting frame, a plurality of cameras and a camera adjusting mechanism, wherein the camera mounting frame comprises four supporting upright posts, a camera supporting inclined beam and a camera supporting cross beam, the camera is arranged on the camera supporting inclined beam through a first camera adjusting mechanism, and the camera is arranged on the camera supporting cross beam through a second camera adjusting mechanism; the upper light source is arranged at the lower part of the camera mounting frame through an upper light source mounting seat, the middle lower light source is arranged on the light source seat plate through a lower light source mounting seat, and the lower light sources at two sides are arranged on the light source seat plate through light source adjusting plates. The invention ensures the experimental test efficiency, the comprehensiveness and the accuracy of the light source irradiation and the shooting position and angle of the camera, and the layout is reasonable.

Description

Multifunctional optical experiment test platform

Technical Field

The invention relates to an optical experiment testing tool, in particular to a multifunctional optical experiment testing platform.

Background

The optical experiment test platform or the test device is characterized in that test glass is usually fixed, an object to be tested is placed on the test glass, and the position movement of the object to be tested is that the object to be tested is stopped firstly and then is manually moved, so that the experiment test efficiency is affected;

The light source assembly usually adopts one or more light sources to irradiate at different angles, and when a single light source is adopted, the structure is simple, but the irradiation position and angle are usually not comprehensive and accurate enough, and the installation and arrangement are troublesome; the existing test platform adopting a plurality of light sources is very troublesome in installation position layout due to the limitation of the installation positions of the light sources, and the comprehensiveness and accuracy of the irradiation positions and angles are also affected;

Camera assemblies typically employ one or more cameras to take pictures at different angles, and when a single camera is employed, the structure is simple, but the shooting position and angle are often not comprehensive and accurate enough, and the installation and arrangement are cumbersome; at present, a plurality of camera test platforms are adopted, and because the mounting positions of the cameras are limited, the mounting position layout is very troublesome, and the comprehensiveness and accuracy of shooting positions and angles can be influenced.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the invention provides the test glass which is connected to the test support in a sliding way by adopting the sliding table, and can automatically move to drive the movement of an object to be tested, so that the experimental test efficiency is ensured; the light source assembly irradiates at upper and lower positions and at a plurality of angles by adopting a plurality of light sources, the camera assembly installs a plurality of cameras by adopting a plurality of camera supporting inclined beams and camera supporting cross beams, and adjusts the positions and the angles of the cameras by a plurality of groups of camera adjusting mechanisms, so that the comprehensiveness and the accuracy of the light source irradiation and the camera shooting positions and angles are ensured, the firm installation of the light source and the cameras is ensured, and the position layout is reasonable.

The technical scheme of the invention is as follows: the multifunctional optical experiment test platform comprises a test support, test glass arranged on the test support, a light source assembly and a camera assembly, wherein the test glass is connected on the test support in a sliding way through a sliding table,

The light source assembly comprises an upper light source positioned above the test glass, a plurality of lower light sources positioned below the test glass and a light source seat board matched with the lower light sources;

The camera assembly comprises a camera mounting frame, a plurality of cameras mounted on the camera mounting frame and a camera adjusting mechanism for adjusting the position and the angle of the cameras, wherein the camera mounting frame comprises four support posts, at least one pair of camera support diagonal beams mounted between the four support posts and at least one pair of camera support cross beams connected to two support posts, a camera is mounted between each pair of camera support diagonal beams, a camera is mounted between each pair of camera support cross beams, the camera is mounted on the camera support diagonal beams through a first camera adjusting mechanism, and the camera is mounted on the camera support cross beams through a second camera adjusting mechanism;

The upper light source is arranged at the lower part of the camera mounting frame through an upper light source mounting seat, the middle lower light source is arranged on the light source seat plate through a lower light source mounting seat, and the lower light sources at two sides are arranged on the light source seat plate through light source adjusting plates.

According to the invention, the test glass is connected to the test support in a sliding way by adopting the sliding table, so that the test glass can automatically move to drive the object to be tested to move, and the test efficiency of an experiment is ensured; the light source assembly irradiates at upper and lower positions and at a plurality of angles by adopting a plurality of light sources, the camera assembly installs a plurality of cameras by adopting a plurality of camera supporting inclined beams and camera supporting cross beams, and adjusts the positions and the angles of the cameras by a plurality of groups of camera adjusting mechanisms, so that the comprehensiveness and the accuracy of the light source irradiation and the camera shooting positions and angles are ensured, the firm installation of the light source and the cameras is ensured, and the position layout is reasonable.

Preferably, the top both sides of test support are equipped with the slip table guide rail of cooperation slip table, the both sides of slip table are equipped with the slip table slider of cooperation slip table guide rail, the top one end of test support is equipped with the gliding driving motor of drive slip table, driving motor passes through hold-in range drive assembly and is connected with the slip table slider, hold-in range drive assembly is including connecting the action wheel on driving motor, connecting the hold-in range from the driving wheel and connecting action wheel and from the hold-in range from the driving wheel at the test support top other end, the slip table slider is fixed on the hold-in range.

The structure ensures that the sliding table drives the test glass to slide stably and reliably on the test support.

Preferably, the upper portion of light source regulating plate is equipped with hinge hole and arc regulation hole, and the lower light source both sides of installing on the light source regulating plate are equipped with the pinhole of cooperation hinge hole and the bolt locking hole of cooperation arc regulation hole, the bottom of light source regulating plate is equipped with a plurality of vertical regulation holes, be equipped with the horizontal regulation hole of cooperation vertical regulation hole on the light source bedplate.

The structure ensures that the irradiation angle and the position of the lower light source can be well regulated by the light source regulating plate.

Preferably, the first camera adjusting component comprises a camera up-down position adjusting component and a camera left-right position adjusting component, the second camera adjusting component comprises a camera left-right position adjusting component, the camera up-down position adjusting component is mounted on the camera supporting oblique beam, and the camera is mounted on the camera left-right position adjusting component.

The structure enables the camera on the camera supporting oblique beam to be adjusted up and down and left and right, and the camera on the camera supporting transverse beam can be adjusted left and right.

Preferably, the camera left-right position adjusting assembly comprises a camera position adjusting optical axis and a left-right moving slide block matched with the camera position adjusting optical axis, and the camera is installed on the left-right moving slide block through a camera installation seat.

The structure not only ensures that the left and right adjustment of the camera is stable and reliable; and the camera can perform angle adjustment on the camera position adjustment optical axis.

Preferably, the camera up-and-down position adjusting assembly comprises two camera position adjusting guide rails and up-and-down moving sliding blocks matched with the camera position adjusting guide rails, each camera supporting oblique beam is provided with one camera position adjusting guide rail, the end part of a camera position adjusting optical axis on the first camera adjusting assembly is connected with the up-and-down moving sliding blocks through a connecting plate, and the end part of the camera position adjusting optical axis on the second camera adjusting assembly is connected with the camera supporting cross beam through a supporting seat.

The structure ensures that the camera can be adjusted up and down and left and right stably and reliably.

Preferably, the upper light source is installed on the upper light source installation seat through an upper light source end plate and an upper light source installation shaft, the middle lower light source is installed on the lower light source installation seat through a lower light source end plate and a lower light source installation shaft, and openings are formed in one end of the left-right moving sliding block, the top of the upper light source seat, the top of the lower light source seat and the top of the supporting seat.

The structure enables the camera to adjust the shooting angle of the camera along with the left-right moving sliding block around the camera position adjusting optical axis (when the locking bolt at the opening of the left-right moving sliding block is loosened), the camera position adjusting optical axis can adjust the shooting angle of the camera on the supporting seat (when the locking bolt at the opening of the supporting seat is loosened), the upper light source mounting shaft can adjust the irradiation angle of the upper light source on the upper light source mounting seat (when the locking bolt at the opening of the upper light source mounting seat is loosened), and the lower light source mounting shaft can adjust the irradiation angle of the lower light source on the lower light source mounting seat (when the locking bolt at the opening of the lower light source mounting seat is loosened).

Preferably, the number of the camera supporting oblique beams is two, the two pairs of the camera supporting oblique beams are installed between the four supporting upright posts in opposite directions, the number of the camera supporting cross beams is one, and the camera supporting oblique beams are installed below the lower camera supporting oblique beams.

The structure ensures that the position layout of the cameras is reasonable, and the position and angle adjustment of each camera is stable and reliable.

Preferably, a plurality of upright post supporting longitudinal beams are arranged between two supporting upright posts at the same end of the pair of supporting inclined beams, and upright post supporting cross beams are arranged between bottoms of the two supporting upright posts at two ends of the same supporting inclined beam.

The structure ensures that the support of the support upright post is stable and reliable, and further ensures that the camera is firmly and reliably installed.

Preferably, the inboard of test support is equipped with the light source cover of light source under the cooperation, and the outside of test support is equipped with the protection casing, the top both ends of protection casing are equipped with the extension cover of cooperation hold-in range drive assembly, the bottom of test support is equipped with a plurality of adjustable height footings, go up the light source mount pad and install on stand supporting beam, the top of test support is equipped with the guide rail fixed plate of cooperation slip table guide rail, the top of protection casing is equipped with the shrouding of cooperation slip table guide rail, and one side of protection casing is equipped with the access panel.

The structure not only ensures that the structure plays a good role in protecting all parts in the interior, but also has attractive and elegant appearance; meanwhile, the installation of the sliding table guide rail is firm and reliable, the support of the whole equipment is firm and reliable, and the maintenance of the internal structure is convenient.

According to the invention, the test glass is connected to the test support in a sliding way by adopting the sliding table, so that the test glass can automatically move to drive the object to be tested to move, and the test efficiency of an experiment is ensured; the light source assembly irradiates at upper and lower positions and at a plurality of angles by adopting a plurality of light sources, the camera assembly installs a plurality of cameras by adopting a plurality of camera supporting inclined beams and camera supporting cross beams, and adjusts the positions and the angles of the cameras by a plurality of groups of camera adjusting mechanisms, so that the comprehensiveness and the accuracy of the light source irradiation and the camera shooting positions and angles are ensured, the firm installation of the light source and the cameras is ensured, and the position layout is reasonable.

Drawings

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

FIG. 2 is a schematic view of the structure of the present invention with the protective cover and camera assembly removed;

FIG. 3 is a schematic view of a camera assembly according to the present invention;

FIG. 4 is an enlarged schematic view of the portion I in FIG. 2;

FIG. 5 is an enlarged schematic view of the portion II in FIG. 3;

FIG. 6 is an assembly view of the timing belt transfer assembly and the slipway guide of the present invention;

The light source is mounted to the housing by means of a bracket, 2,3, a sliding table, 4, 5, a lower light source, 6, a light source seat plate, 7, an upper light source mounting base, 8, a lower light source mounting base, 9, a light source adjustment plate, 10, a drive motor, 11, a support post, 12, a camera support diagonal, 13, a camera support cross member, 14, a camera, 15, a camera position adjustment optical axis, 16, a left-right movement slide, 17, a camera mounting base, 18, a camera position adjustment guide, 19, an up-down movement slide, 20, a connecting plate, 21, a support base, 22, an opening, 23, a post support cross member, 24, a post support cross member, 25, a sliding table guide, 26, a sliding table slide, 27, a driving wheel, 28, a driven wheel, 29, a timing belt, 30, a hinge hole, 31, an arc hole, 32, a pin hole, 33, a bolt locking hole, 34, a longitudinal adjustment hole, 35, a lateral adjustment hole, 36, a light source cover, 37, 38, an extension cover, 39, an adjustable height, 40, a guide fixing plate, 41, a sealing plate, 42, a sealing plate, 43, a lower end plate, a light source, and a lower end plate, 45.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings, without limiting the scope of the invention.

As shown in fig. 1 to 6, a multifunctional optical experiment test platform comprises a test support 1, a test glass 2 arranged on the test support 1, a light source assembly and a camera assembly, wherein the test glass 2 is connected on the test support 1 in a sliding way through a sliding table 3,

The light source assembly comprises an upper light source 4 positioned above the test glass 2, three lower light sources 5 positioned below the test glass 2 and a light source seat board 6 matched with the lower light sources 5;

The camera assembly comprises a camera mounting frame, three cameras 14 mounted on the camera mounting frame and a camera adjusting mechanism for adjusting the position and angle of the cameras 14, wherein the camera mounting frame comprises four support posts 11, two pairs of camera support diagonal beams 12 mounted between the four support posts 11 and a pair of camera support cross beams 13 connected to the two support posts, one camera is mounted between each pair of camera support diagonal beams, one camera is mounted between each pair of camera support cross beams, the camera 14 is mounted on the camera support diagonal beams 12 through the first camera adjusting mechanism, and the camera 14 is mounted on the camera support cross beams 13 through the second camera adjusting mechanism. The first camera adjusting assembly comprises a camera up-down position adjusting assembly and a camera left-right position adjusting assembly, the second camera adjusting assembly comprises a camera left-right position adjusting assembly, the camera up-down position adjusting assembly is arranged on the camera supporting oblique beam 12, and the camera 14 is arranged on the camera left-right position adjusting assembly. The camera left-right position adjusting assembly comprises a camera position adjusting optical axis 15 and a left-right moving slide block 16 matched with the camera position adjusting optical axis 15, and the camera 14 is mounted on the left-right moving slide block 16 through a camera mounting seat 17. The camera up-and-down position adjusting assembly comprises two camera position adjusting guide rails 18 and up-and-down moving slide blocks 19 matched with the camera position adjusting guide rails 18, each camera supporting oblique beam is provided with a camera position adjusting guide rail, the end part of a camera position adjusting optical axis on the first camera adjusting assembly is connected with the up-and-down moving slide blocks 19 through a connecting plate 20, and the end part of the camera position adjusting optical axis on the second camera adjusting assembly is connected with the camera supporting cross beam 13 through a supporting seat 21. Two pairs of camera supporting diagonal beams 12 are installed between the four supporting upright posts 11 in opposite directions, and the camera supporting cross beams are installed below the underlying camera supporting diagonal beams. Two upright post supporting longitudinal beams 24 are arranged between two supporting upright posts at the same end of the pair of supporting inclined beams, and upright post supporting cross beams 23 are arranged between the bottoms of the two supporting upright posts at the two ends of the same supporting inclined beam.

The upper light source 4 is arranged at the lower part of the camera mounting frame through an upper light source mounting seat 7, the middle lower light source is arranged on the light source seat board 6 through a lower light source mounting seat 8, and the lower light sources at two sides are arranged on the light source seat board 6 through a light source adjusting plate 9.

The upper light source 4 is mounted on the upper light source mount 7 through an upper light source end plate 43 and an upper light source mounting shaft 45, and the intermediate lower light source is mounted on the lower light source mount 8 through a lower light source end plate 44 and a lower light source mounting shaft 46.

Openings 22 are provided at one end of the left-right moving slider 16, the top of the support base 21, the top of the upper light source mount 7, and the top of the lower light source mount 8.

The top both sides of test support 1 are equipped with the slip table guide rail 25 of cooperation slip table 3, and the both sides of slip table 3 are equipped with the slip table slider 26 of cooperation slip table guide rail 25, and the top one end of test support 1 is equipped with the gliding driving motor 10 of drive slip table 3, and driving motor 10 passes through hold-in range transmission subassembly and is connected with slip table slider 26, and hold-in range transmission subassembly is including connecting the action wheel 27 on driving motor 10, connecting the follow driving wheel 28 at the test support 1 top other end and connecting action wheel 27 and follow the hold-in range 29 from the driving wheel 28, and slip table slider 26 is fixed on hold-in range 29. The upper portion of the light source adjusting plate 9 is provided with a hinge hole 30 and an arc adjusting hole 31, two sides of a lower light source arranged on the light source adjusting plate are provided with a pin hole 32 matched with the hinge hole 30 and a bolt locking hole 33 matched with the arc adjusting hole 31, the bottom of the light source adjusting plate 9 is provided with two longitudinal adjusting holes 34, and the light source seat plate 6 is provided with a transverse adjusting hole 35 matched with the longitudinal adjusting holes 34. The inboard of test support 1 is equipped with the light source cover 36 of cooperation lower light source 5, the outside of test support 1 is equipped with protection casing 37, the top both ends of protection casing 37 are equipped with the extension cover 38 of cooperation hold-in range drive assembly, the bottom of test support 1 is equipped with four adjustable height footings 39, go up light source mount pad 7 and install on stand supporting beam 23, the top of test support 1 is equipped with the guide rail fixed plate 40 of cooperation slip table guide rail 25, the top of protection casing 37 is equipped with the shrouding 41 of cooperation slip table guide rail 25, one side of protection casing 37 is equipped with access panel 42.

When the glass test device is used, the bottom of the supporting upright post is arranged at the top of the test bracket, so that the camera can be aligned with an object to be tested on the test glass; three cameras can be used simultaneously according to requirements, one or two cameras can be used, the cameras on the camera supporting oblique beam can be subjected to left and right position adjustment (sliding left and right on an optical axis of camera position adjustment), up and down position adjustment (sliding up and down on a guide rail of camera position adjustment) and certain angle adjustment (loosening a locking bolt on an opening of a left and right moving slide block, carrying out proper rotation around the optical axis of camera position adjustment, and then screwing the locking bolt); the camera on the camera supporting beam can be adjusted in left and right positions and a certain angle.

According to the invention, four cameras can be used simultaneously according to the requirements, 1-3 light sources can be used, and the lower light sources on two sides can be used for adjusting the irradiation position and angle according to the requirements (the lower light sources and the light source adjusting plate are hinged through a hinge hole and a pin hole by a pin shaft, and then a locking bolt is screwed into a bolt locking hole for locking after sliding to a designated position on an arc-shaped adjusting hole); the upper light source and the middle lower light source can perform proper irradiation angle adjustment (loosening the locking bolts on the openings of the upper light source mounting seat and the lower light source mounting seat, properly rotating the upper light source mounting shaft and the lower light source mounting shaft, and then tightening the locking bolts).

The support upright post, the camera support oblique beam, the camera support cross beam, the upright post support cross beam and the upright post support longitudinal beam are all made of sectional materials.

According to the invention, the test glass is connected to the test support in a sliding way by adopting the sliding table, so that the test glass can automatically move to drive the object to be tested to move, and the test efficiency of an experiment is ensured; the light source assembly irradiates at upper and lower positions and at a plurality of angles by adopting a plurality of light sources, the camera assembly installs a plurality of cameras by adopting a plurality of camera supporting inclined beams and camera supporting cross beams, and adjusts the positions and the angles of the cameras by a plurality of groups of camera adjusting mechanisms, so that the comprehensiveness and the accuracy of the light source irradiation and the camera shooting positions and angles are ensured, the firm installation of the light source and the cameras is ensured, and the position layout is reasonable.

Claims (8)

1. A multifunctional optical experiment test platform is characterized in that: which comprises a test bracket, test glass arranged on the test bracket, a light source component and a camera component, wherein the test glass is connected on the test bracket in a sliding way through a sliding table,

The light source assembly comprises an upper light source positioned above the test glass, a plurality of lower light sources positioned below the test glass and a light source seat board matched with the lower light sources;

The camera assembly comprises a camera mounting frame, a plurality of cameras mounted on the camera mounting frame and a camera adjusting mechanism for adjusting the position and the angle of the cameras, wherein the camera mounting frame comprises four support posts, at least one pair of camera support diagonal beams mounted between the four support posts and at least one pair of camera support cross beams connected to two support posts, a camera is mounted between each pair of camera support diagonal beams, a camera is mounted between each pair of camera support cross beams, the camera between each pair of camera support diagonal beams is mounted on the camera support diagonal beams through a camera adjusting mechanism, and the camera between each pair of camera support cross beams is mounted on the camera support cross beams through a camera adjusting mechanism II;

The upper light source is arranged at the lower part of the camera mounting frame through an upper light source mounting seat, the middle lower light source is arranged on the light source seat plate through a lower light source mounting seat, and the lower light sources at two sides are arranged on the light source seat plate through a light source adjusting plate;

The upper part of the light source adjusting plate is provided with a hinge hole and an arc adjusting hole, two sides of a lower light source arranged on the light source adjusting plate are provided with pin holes matched with the hinge hole and bolt locking holes matched with the arc adjusting hole, the bottom of the light source adjusting plate is provided with a plurality of longitudinal adjusting holes, and the light source base plate is provided with a transverse adjusting hole matched with the longitudinal adjusting hole;

The first camera adjusting mechanism comprises a camera up-down position adjusting component and a camera left-right position adjusting component, the second camera adjusting mechanism comprises a camera left-right position adjusting component, the camera up-down position adjusting component is mounted on a camera supporting oblique beam, and the camera is mounted on the camera left-right position adjusting component.

2. The multifunctional optical experiment test platform according to claim 1, wherein: the test support is characterized in that sliding table guide rails matched with the sliding table are arranged on two sides of the top of the test support, sliding table sliding blocks matched with the sliding table guide rails are arranged on two sides of the sliding table, a driving motor for driving the sliding table to slide is arranged at one end of the top of the test support, the driving motor is connected with the sliding table sliding blocks through a synchronous belt transmission assembly, the synchronous belt transmission assembly comprises a driving wheel connected to the driving motor, a driven wheel connected to the other end of the top of the test support and a synchronous belt connected with the driving wheel and the driven wheel, and the sliding table sliding blocks are fixed on the synchronous belt.

3. The multifunctional optical experiment test platform according to claim 1, wherein: the camera left-right position adjusting assembly comprises a camera position adjusting optical axis and a left-right moving slide block matched with the camera position adjusting optical axis, and the camera is installed on the left-right moving slide block through a camera installation seat.

4. A multifunctional optical experiment testing platform according to claim 3, wherein: the camera up-and-down position adjusting assembly comprises two camera position adjusting guide rails and up-and-down moving sliding blocks matched with the camera position adjusting guide rails, each camera supporting oblique beam is provided with one camera position adjusting guide rail, the end part of a camera position adjusting optical axis on the first camera adjusting mechanism is connected with the up-and-down moving sliding blocks through a connecting plate, and the end part of the camera position adjusting optical axis on the second camera adjusting mechanism is connected with the camera supporting cross beam through a supporting seat.

5. The multifunctional optical experiment test platform according to claim 4, wherein: the upper light source is installed on the upper light source installation seat through the upper light source end plate and the upper light source installation shaft, the middle lower light source is installed on the lower light source installation seat through the lower light source end plate and the lower light source installation shaft, and openings are formed in one end of the left-right moving sliding block, the top of the upper light source seat, the top of the lower light source seat and the top of the supporting seat.

6. The multifunctional optical experiment test platform according to claim 1, wherein: the camera support sloping is in two pairs, the camera support sloping is installed in opposite directions between four support columns, the camera support crossbeam is in a pair, and the camera support sloping is installed below.

7. The multifunctional optical experiment test platform according to claim 2, wherein: a plurality of upright post supporting longitudinal beams are arranged between two supporting upright posts at the same end of the pair of supporting inclined beams, and upright post supporting cross beams are arranged between bottoms of the two supporting upright posts at two ends of the same supporting inclined beam.

8. The multifunctional optical experiment test platform of claim 7, wherein: the inboard of test support is equipped with the light source cover of light source under the cooperation, and the outside of test support is equipped with the protection casing, the top both ends of protection casing are equipped with the extension cover of cooperation hold-in range drive assembly, the bottom of test support is equipped with a plurality of adjustable height footings, go up the light source mount pad and install on stand supporting beam, the top of test support is equipped with the guide rail fixed plate of cooperation slip table guide rail, the top of protection casing is equipped with the shrouding of cooperation slip table guide rail, and one side of protection casing is equipped with the access panel.