CN211087662U

CN211087662U - Optical-mechanical-electrical measurement and control experiment control mechanism

Info

Publication number: CN211087662U
Application number: CN201922298032.5U
Authority: CN
Inventors: 刘海波
Original assignee: Suzhou Jinsi Port Intelligent Development Co ltd
Current assignee: Suzhou Jinsi Port Intelligent Development Co ltd
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-07-24
Anticipated expiration: 2029-12-19

Abstract

The utility model belongs to the technical field of optomechanical electrical measurement and control, especially, be an optomechanical electrical measurement and control experiment control mechanism, including mechanism body and laser lamp, the spout has been seted up to the inside of mechanism body, and the internally mounted of spout has the pulley to the avris of pulley is fixed with the connecting rod, the avris of connecting rod is fixed with the installation cavity, and the inside of installation cavity runs through there is the inserted bar to the externally mounted of inserted bar has the spring, the opening has been seted up to the below of inserted bar, the laser lamp is installed in the top of connecting rod, and the inside of laser lamp runs through there is the regulation pole to the end department of adjusting the pole installs the nut, the avris of laser lamp is connected with the apron, and the internally mounted of apron has the pivot to magnet is installed to the below of. This optical-mechanical-electrical measurement and control experiment control mechanism is provided with the pulley, and the pulley drives the laser lamp and removes in mechanism body top, adjusts the position of laser lamp, has made things convenient for the implementation operation of measurement and control experiment.

Description

Optical-mechanical-electrical measurement and control experiment control mechanism

Technical Field

The utility model relates to an optical-mechanical-electrical measurement and control technical field specifically is an optical-mechanical-electrical measurement and control experiment control mechanism.

Background

The optical-mechanical-electrical measurement and control experiment control mechanism is an experimental device capable of controlling the experimental process of the optical-mechanical-electrical measurement and control experiment, and is designed for ensuring the smooth operation of the experiment and achieving the purpose of the experiment.

Most of the existing opto-electro-mechanical measurement and control experiment control mechanisms on the market are inconvenient to adjust the position of the laser lamp, the development speed of the experiment is delayed, the accuracy of an experiment structure is influenced, meanwhile, the protection performance of the laser lamp is poor, and the laser lamp easily causes harm to a human body.

Aiming at the problems, innovative design is urgently needed on the basis of the original optical-mechanical-electrical measurement and control experiment control mechanism.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optomechanical electrical measurement and control experiment control mechanism to solve the current optomechanical electrical measurement and control experiment control mechanism on the market that proposes in the above-mentioned background art, mostly be inconvenient for adjust the position of laser lamp, the control variable of the experiment of being not convenient for causes the influence to the experimental result, and the laser lamp has certain penetrability simultaneously, causes the problem of injury to the human body easily.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an experiment control mechanism is observed and controled to photoelectricity, includes mechanism body and laser lamp, the spout has been seted up to the inside of mechanism body, and the internally mounted of spout has the pulley to the avris of pulley is fixed with the connecting rod, the avris of connecting rod is fixed with the installation cavity, and the inside of installation cavity runs through there is the inserted bar to the externally mounted of inserted bar has the spring, the opening has been seted up to the below of inserted bar, the laser lamp is installed in the top of connecting rod, and the inside of laser lamp runs through there is the regulation pole, and the end department of adjusting the pole installs the nut, the avris of laser lamp is connected with the apron, and the internally mounted of apron has the pivot to magnet is installed to the below of apron, the outside of laser lamp is provided with the mounting panel, and the internally mounted of mounting panel has the display.

Preferably, the pulley and the chute form a sliding structure, and the central axis of the pulley and the central axis of the chute coincide with each other.

Preferably, the inserted link passes through the spring with the installation cavity and constitutes elevation structure, and is connected for the block between inserted link and the opening.

Preferably, the adjusting rod is in threaded connection with the nut, and the adjusting rod and the laser lamp are arranged on the same horizontal plane.

Preferably, the cover plate and the magnet are arranged by adopting unlike magnetic poles, and the cover plate and the laser lamp form a rotating structure through a rotating shaft.

Preferably, the display panel and the mounting plate form a detachable mounting structure through a fixing rod, and the display panel is tightly attached to the mounting plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the optical-electromechanical measurement and control experiment control mechanism is provided with an inserted link, the inserted link is lifted upwards, a spring is stressed and compressed, the inserted link is clamped with an opening and separated from the opening, then a connecting rod moves along a sliding groove under the driving of a pulley to adjust the position of a laser lamp, the inserted link is loosened, the inserted link moves downwards under the action of the elastic force of the spring and is clamped with the opening again, the position of the connecting rod can be fixed through the arrangement of the inserted link, a user can record experiment data conveniently, the accuracy of an experiment result is guaranteed, and the possibility of error occurrence is reduced;

2. the optical-mechanical-electrical measurement and control experiment control mechanism is provided with an adjusting rod, the adjusting rod rotates anticlockwise, a nut moves towards the outer side of a laser lamp, the laser lamp can rotate around the adjusting rod, the angle of the laser lamp is adjusted, the adjusting rod rotates clockwise after adjustment is finished, one side, provided with the nut, of the top of a connecting rod moves towards the direction of the laser lamp and is attached to the laser lamp, the laser lamp is fixed, and through the arrangement of the adjusting rod, a user can adjust the angle of the laser lamp according to experiment needs;

3. this optical-mechanical-electrical measurement and control experiment control mechanism is provided with the mounting panel, and the display panel passes through the dead lever to be installed in the inside of mounting panel, through the setting of mounting panel, convenience of customers takes to the dismantlement of display panel, and the better data result to the experiment of the user of being convenient for carries out the analysis summary, has improved the speed of development of experiment, is convenient for simultaneously to the recovery of display panel preserve.

Drawings

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

FIG. 2 is a schematic view of the structure of the pulley and the chute of the present invention;

FIG. 3 is a schematic view of the connection structure of the laser lamp and the connecting rod of the present invention;

fig. 4 is a schematic view of the connection structure between the mounting plate and the display panel according to the present invention.

In the figure: 1. a mechanism body; 2. a chute; 3. a pulley; 4. a connecting rod; 5. a mounting cavity; 6. inserting a rod; 7. a spring; 8. an opening; 9. a laser light; 10. adjusting a rod; 11. a nut; 12. a cover plate; 13. a rotating shaft; 14. a magnet; 15. mounting a plate; 16. a display panel; 17. and (5) fixing the rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a photoelectric measurement and control experiment control mechanism comprises a mechanism body 1, a sliding groove 2, pulleys 3, a connecting rod 4, a mounting cavity 5, an inserted link 6, a spring 7, an opening 8, a laser lamp 9, an adjusting rod 10, a nut 11, a cover plate 12, a rotating shaft 13, a magnet 14, a mounting plate 15, a display plate 16 and a fixing rod 17, wherein the sliding groove 2 is arranged inside the mechanism body 1, the pulleys 3 are arranged inside the sliding groove 2, the connecting rod 4 is fixed on the lateral side of the pulleys 3, the mounting cavity 5 is fixed on the lateral side of the connecting rod 4, the inserted link 6 penetrates through the mounting cavity 5, the spring 7 is arranged outside the inserted link 6, the opening 8 is arranged below the inserted link 6, the laser lamp 9 is arranged on the top of the connecting rod 4, the adjusting rod 10 penetrates through the inside of the laser lamp 9, the nut 11 is arranged at the end of the adjusting rod 10, the lateral side of the laser lamp 9, a rotating shaft 13 is arranged in the cover plate 12, a magnet 14 is arranged below the cover plate 12, an installation plate 15 is arranged outside the laser lamp 9, a display plate 16 is arranged in the installation plate 15, and a fixing rod 17 penetrates through the display plate 16;

the pulley 3 and the chute 2 form a sliding structure, the central axis of the pulley 3 and the central axis of the chute 2 coincide with each other, the connecting rod 4 is driven by the pulley 3 to slide in the mechanism body 1, and through the arrangement of the pulley 3, a user can move the laser lamp 9 more quickly and smoothly, so that the operation of the instrument in the using process is facilitated;

the inserted link 6 and the installation cavity 5 form a lifting structure through a spring 7, the inserted link 6 is connected with the opening 8 in a clamping manner, the inserted link 6 is lifted upwards, the spring 7 is compressed under stress, the inserted link 6 is disengaged from the opening 8 in the clamping manner, then the connecting link 4 is driven by the pulley 3 to move along the chute 2, the position of the laser lamp 9 is adjusted, finally the inserted link 6 is loosened, the inserted link 6 moves downwards under the elastic action of the spring 7 and is clamped with the opening 8 again, and the position of the connecting link 4 can be fixed through the arrangement of the inserted link 6, so that a user can record experimental data conveniently, the accuracy of experimental results is ensured, and the possibility of error occurrence is reduced;

the adjusting rod 10 is in threaded connection with the nut 11, the adjusting rod 10 and the laser lamp 9 are arranged on the same horizontal plane, the adjusting rod 10 rotates anticlockwise, the nut 11 moves towards the outer side of the laser lamp 9, meanwhile, the laser lamp 9 can rotate around the adjusting rod 10, the angle of the laser lamp 9 is adjusted, the adjusting rod 10 rotates clockwise after adjustment is completed, one side, provided with the nut 11, of the top of the connecting rod 4 moves towards the direction of the laser lamp 9 and is attached to the laser lamp 9, the laser lamp 9 is fixed, and through the arrangement of the adjusting rod 10, a user can adjust the angle of the laser lamp 9 according to experimental needs, the structure is simple, and operation and adjustment are convenient;

the cover plate 12 and the magnet 14 are arranged in a different magnetic pole mode, the cover plate 12 and the laser lamp 9 form a rotating structure through the rotating shaft 13, the cover plate 12 is arranged and attracted to the magnet 14 when the laser lamp 9 stops being used, the laser lamp 9 is shielded, the harm of laser to the body of an experiment operator is reduced, and the cover plate 12 is rotated to the position above the laser lamp 9 along the rotating shaft 13 when the laser lamp is used, so that the normal use of the laser lamp 9 is not influenced;

display panel 16 and mounting panel 15 constitute demountable installation structure through dead lever 17, and display panel 16 and mounting panel 15 closely laminate, and display panel 16 installs in mounting panel 15's inside through dead lever 17, through mounting panel 15's setting, convenience of customers takes display panel 16's dismantlement, and the better data result to the experiment of the user of being convenient for carries out the analysis summary, has improved the speed of progress of experiment, is convenient for simultaneously to the recovery save of display panel 16.

The working principle is as follows: the using process of the opto-electro-mechanical measurement and control experiment control mechanism comprises the steps that firstly, as shown in figures 1-3, an inserted rod 6 is lifted upwards, a spring 7 in an installation cavity 5 is compressed under the stress, at the moment, the inserted rod 6 is disengaged from an opening 8 in a clamping manner, then a connecting rod 4 is driven by a pulley 3 to move along a sliding groove 2, the position of a laser lamp 9 on a mechanism body 1 is adjusted, finally, the inserted rod 6 is loosened, the inserted rod 6 moves downwards under the elastic force of the spring 7 and is clamped with the opening 8 again to fix the position of the connecting rod 4, the laser lamp 9 is prevented from moving in the using process, then, an adjusting rod 10 rotates anticlockwise, a nut 11 moves towards the outer side of the laser lamp 9, meanwhile, the laser lamp 9 can rotate around the adjusting rod 10 to adjust the angle of the laser lamp 9, the adjusting rod 10 rotates clockwise after the adjustment is finished, so that one side, provided with the nut 11, on the top of, the laser lamp 9 is attached, so that the angle of the laser lamp 9 is fixed;

according to fig. 1 and 4, when the laser lamp 9 stops using, rotating the apron 12 around rotation axis 13, apron 12 and magnet 14 attract each other, shield laser lamp 9, reduce laser and to experiment operating personnel's health injury, and display panel 16 passes through dead lever 17 and installs the inside at mounting panel 15, and convenience of customers takes to the dismantlement of display panel 16, and the better data result to the experiment of the user of being convenient for carries out the analysis summary.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an optomechanical electrical measurement and control experiment control mechanism, includes mechanism body (1) and laser lamp (9), its characterized in that: the mechanism is characterized in that a sliding groove (2) is formed in the mechanism body (1), a pulley (3) is arranged in the sliding groove (2), a connecting rod (4) is fixed on the side of the pulley (3), a mounting cavity (5) is fixed on the side of the connecting rod (4), an insertion rod (6) penetrates through the mounting cavity (5), a spring (7) is arranged outside the insertion rod (6), an opening (8) is formed below the insertion rod (6), a laser lamp (9) is arranged at the top of the connecting rod (4), an adjusting rod (10) penetrates through the laser lamp (9), a nut (11) is arranged at the end of the adjusting rod (10), the side of the laser lamp (9) is connected with a cover plate (12), a rotating shaft (13) is arranged inside the cover plate (12), a magnet (14) is arranged below the cover plate (12), and a mounting plate (15) is arranged on the outer side of the laser lamp (9), and a display panel (16) is installed inside the mounting plate (15), and a fixing rod (17) penetrates through the inside of the display panel (16).

2. The optical-electromechanical measurement and control experiment control mechanism according to claim 1, characterized in that: pulley (3) and spout (2) constitute sliding construction, and the axis of pulley (3) and the axis of spout (2) coincide each other.

3. The optical-electromechanical measurement and control experiment control mechanism according to claim 1, characterized in that: the inserted bar (6) and the installation cavity (5) form a lifting structure through a spring (7), and the inserted bar (6) is connected with the opening (8) in a clamping manner.

4. The optical-electromechanical measurement and control experiment control mechanism according to claim 1, characterized in that: the adjusting rod (10) is in threaded connection with the nut (11), and the adjusting rod (10) and the laser lamp (9) are arranged on the same horizontal plane.

5. The optical-electromechanical measurement and control experiment control mechanism according to claim 1, characterized in that: the cover plate (12) and the magnet (14) are arranged by adopting different magnetic poles, and the cover plate (12) and the laser lamp (9) form a rotating structure through a rotating shaft (13).

6. The optical-electromechanical measurement and control experiment control mechanism according to claim 1, characterized in that: the display panel (16) and the mounting plate (15) form a detachable mounting structure through a fixing rod (17), and the display panel (16) is tightly attached to the mounting plate (15).