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CN-224217090-U - Photoelectric interactive conversion device

CN224217090UCN 224217090 UCN224217090 UCN 224217090UCN-224217090-U

Abstract

The utility model discloses a photoelectric interactive conversion device, which relates to the technical field of high-voltage fuses and aims to solve the problems that the overall recognition effect is poor in the use process due to the fact that the position and the height of an experimenter are different, namely the overall recognition effect is poor because the gesture cannot be recognized according to the position and the height of the identifier, and the photoelectric interactive conversion device is technically characterized by comprising a first infrared optical ranging detector for sensing the change of the height position of a human hand, a second infrared optical ranging detector for sensing the change of the far and near positions of the human hand, a control server for collecting and converting information of the infrared optical ranging detectors and a display for displaying the change activity of an object. The effects of convenient demonstration, adaptation to different crowds and convenient maintenance are achieved.

Inventors

  • WANG XIUHUA

Assignees

  • 北京亚洲卫星通信技术有限公司

Dates

Publication Date
20260508
Application Date
20250530

Claims (6)

  1. 1. The photoelectric interactive conversion device comprises a first infrared optical distance measuring detector (1) for sensing the change of the height position of a human hand, a second infrared optical distance measuring detector (2) for sensing the change of the distance position of the human hand, a control server (3) for collecting information of the infrared optical distance measuring detector and converting the information, and a display (4) for displaying the change activity of an object, and is characterized in that a first adjusting mechanism (5) for driving the first infrared optical distance measuring detector (1) to longitudinally move is detachably connected to the outer side of the first infrared optical distance measuring detector (1), a second adjusting mechanism (6) for driving the second infrared optical distance measuring detector (2) to transversely move is detachably connected to the outer side of the second infrared optical distance measuring detector (2), and the first infrared optical distance measuring detector (1), the second infrared optical distance measuring detector (2) and the display (4) are all electrically connected with the control server (3).
  2. 2. The photoelectric interactive conversion device according to claim 1, wherein the first adjusting mechanism (5) and the second adjusting mechanism (6) are identical in specification, the first adjusting mechanism (5) and the second adjusting mechanism (6) are internally provided with a mounting frame body (51), one end of the mounting frame body (51) is fixedly connected with a driving motor (52), the output end of the driving motor (52) penetrates through the outer side of the mounting frame body (51) to extend into the mounting frame body (51), the output end of the driving motor (52) is fixedly connected with a screw rod body (53), the outer side of the screw rod body (53) is movably connected with a screw rod sliding block (54) matched with the screw rod body (53), and the outer side of the screw rod sliding block (54) is fixedly connected with a mounting frame (55) for mounting the first infrared optical ranging detector (1) and the second infrared optical ranging detector (2).
  3. 3. The photoelectric interactive conversion device according to claim 2, wherein the installation frame (55) is provided with an installation groove (56) for installing the first infrared optical ranging detector (1) and the second infrared optical ranging detector (2) on one surface far away from the installation frame body (51), the front end surface of the installation frame (55) is provided with a movable groove (57) communicated with the installation groove (56), a movable block (58) is movably connected inside the movable groove (57), and a positioning clamping block (59) is fixedly connected on one surface, close to the installation groove (56), of the movable block (58).
  4. 4. The photoelectric interactive conversion device according to claim 3, wherein one end of the first infrared optical ranging detector (1) and one end of the second infrared optical ranging detector (2) are fixedly connected with a mounting base (510), positioning clamp holes (511) matched with the positioning clamp blocks (59) are formed in the side wall of the mounting base (510), and the positioning clamp holes (511) are distributed corresponding to the positioning clamp blocks (59).
  5. 5. The interactive photoelectric conversion device of claim 3, wherein a compression spring (512) is fixedly connected inside the movable groove (57), one end of the compression spring (512) is fixedly connected with the movable block (58), the movable block (58) is movably connected with the movable groove (57) through the compression spring (512), and a pressing block (513) is fixedly connected to the outer side of the movable block (58).
  6. 6. The interactive photoelectric conversion device of claim 5, wherein a positioning block (514) is fixedly connected to the outer side of the movable block (58), a positioning chute (515) communicated with the mounting groove (56) is formed in the side wall of the movable groove (57), and the positioning chute (515) is in sliding connection with the positioning block (514).

Description

Photoelectric interactive conversion device Technical Field The utility model relates to the technical field of photoelectric interactive conversion devices, in particular to a photoelectric interactive conversion device. Background The photoelectric interactive conversion device is a device type very common in scientific museums, astronomical museums and interactive science popularization exhibitions, and is commonly called as an interactive astronomical simulation device or a star attribute interactive demonstrator; The core physical principle is correct: The color temperature and the surface temperature are accurately simulated by the device. A higher surface temperature corresponds to a higher color temperature and a lower surface temperature corresponds to a lower color temperature (reddish). This is the fundamental knowledge of sidereal physics; The luminosity and distance device strictly follow the inverse square law, the brightness of the light source is directly proportional to the luminosity of the light source, and the brightness is inversely proportional to the square of the distance from the observer to the light source; The interaction mode is realized: opto-electronic/distance sensing devices typically use infrared sensors, ultrasonic sensors, toF sensors or depth cameras to detect changes in the position of a human hand in both the vertical and horizontal directions. The prior art scheme has the defects that the overall recognition effect is poor in the use process due to the fact that the positions and the heights of the experimenters are different, namely the overall recognition effect is poor because the gesture cannot be recognized according to the positions and the heights of the recognizers. Disclosure of utility model The utility model aims to provide a photoelectric interactive conversion device which is fast to assemble and convenient to use according to experienters. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides an interactive conversion equipment of photoelectricity, includes the first infrared optical ranging detector that is used for responding to human hand high and low position change, is used for responding to the second infrared optical ranging detector that human hand far and near position change, is used for collecting infrared optical ranging detector information and the control server of conversion and the display that is used for showing object change activity, first infrared optical ranging detector outside can be dismantled and be connected with the first adjustment mechanism that is used for driving first infrared optical ranging detector longitudinal movement, second infrared optical ranging detector outside can be dismantled and be connected with the second adjustment mechanism that is used for driving second infrared optical ranging detector lateral movement, first infrared optical ranging detector, second infrared optical ranging detector, display all are connected with the control server electrical signal. Further, the first adjustment mechanism is consistent with the second adjustment mechanism in specification, the first adjustment mechanism and the second adjustment mechanism are internally provided with a mounting frame body, one end of the mounting frame body is fixedly connected with a driving motor, the output end of the driving motor penetrates through the outer side of the mounting frame body and extends to the inner side of the mounting frame body, the output end of the driving motor is fixedly connected with a screw rod body, the outer side of the screw rod body is movably connected with a screw rod sliding block matched with the screw rod body, and the outer side of the screw rod sliding block is fixedly connected with a mounting frame for mounting the first infrared optical ranging detector and the second infrared optical ranging detector. Through adopting above-mentioned technical scheme, the location card hole can carry out abundant block with the location card button to conveniently carry out the dismouting to installation base and high voltage fuse main part, increased holistic flexibility, guaranteed holistic quick installation and dismantlement speed. Further, the mounting frame is far away from the mounting frame body one side and has been seted up the mounting groove that is used for installing first infrared optical range finder and second infrared optical range finder, the mounting frame front end face has been seted up the movable groove that communicates each other with the mounting groove, the inside swing joint of movable groove has the movable block, the one side fixedly connected with location fixture block that the movable block is close to the mounting groove. Further, the first infrared optical ranging detector and the second infrared optical ranging detector are fixedly connected with the installation base at one end, positioning clamping ho