WO2017063213A1

WO2017063213A1 - Stereoscopic projection 3d eyeglasses special for electric power engineering

Info

Publication number: WO2017063213A1
Application number: PCT/CN2015/092631
Authority: WO
Inventors: 仝进峰; 包峰
Original assignee: 南通精华动力科技有限公司
Priority date: 2015-10-15
Filing date: 2015-10-23
Publication date: 2017-04-20
Also published as: CN106597685A

Abstract

Stereoscopic projection 3D eyeglasses special for electric power engineering comprise an eyeglass frame (1), lenses (2), a recorder (3), a control switch (4), and a transfer switch (5); the eyeglass frame (1) comprises a lens clamp A (1a) and a lens clamp B (1b), a connecting cross beam (1c), and a glasses leg A (1f) and a glasses leg B (1b); the lens clamp A (1a) and the lens clamp B (1b) are connected and arranged on the front surface of the eyeglass frame (1) by means of the connecting cross beam (1c) therebetween; the lenses (2) are divided into a lens A (1d) and a lens B (1e) which are respectively arranged on the lens clamp A (1a) and the lens clamp B (1b); and the recorder (3) is disposed above the connecting cross beam (1c), two sides of the lens clamp A (1a) and the lens clamp B (1b) are respectively provided with a glasses leg A (1f) and a glasses leg B (1g), and the control switch (4) and the transfer switch (5) are arranged at the outer side of the glasses leg A (1f) in parallel, and are connected to the recorder (3) by means of guide lines (6). When students accept class teaching by using the 3D eyeglasses, class content can be recorded according to demands of the students.

Description

A stereoscopic projection 3D glasses for electric power engineering

Technical field:

The present invention relates to the field of electric power engineering, and in particular to a stereoscopic projection 3D glasses for electric power engineering.

Background technique:

3D projection mainly adopts DLP Link technology. The principle is to output a 120MHz refresh rate picture through the DMD chip, and the left and right eyes are alternately used, so that the human eye forms the illusion of 3D. The advantages are simple and easy to implement, and the hardware requirements are relatively low.

The 3D picture is first loaded with a computer that can support the 3D picture card, and then the corresponding driver software is installed, and then these pictures are transmitted to the projector through the data line. Because the projector can support a refresh rate of up to 120HZ. Therefore, the left and right eyes can simultaneously see the 60HZ frequency frame picture, and then combine the 3D glasses to receive signals from the transmitter to synchronize the shutter signals of the left and right glasses, thereby realizing a stereoscopic image of the 3D effect.

In the past three-dimensional projection research of power engineering drawings, operators can improve the recognition of pictures by wearing 3D glasses teaching, but the recognition of operators often differs. For some important knowledge fields, important records are needed.

Summary of the invention:

In order to solve the above problems, the present invention provides a technical solution that is simple in structure, low in cost, and capable of recording research contents as needed by an operator when using a 3D instrument for teaching and research.

A stereoscopic projection 3D glasses for power engineering, including a glasses frame, a lens, a recorder, a control switch, a switch, a lens frame including a lens holder A and a lens holder B, a connecting beam, a temple A and a temple B, and a lens holder A And the lens holder B is attached to the front surface of the spectacle frame through a connecting beam between the lens holder A and the lens holder B. The lens is divided into a lens A and a lens B, and the lens A and the lens B are respectively mounted on the lens holder A and On the lens holder B, a recorder is mounted above the connecting beam, and a temple A and a temple B are respectively mounted on both sides of the lens holder A and the lens holder B. The control switch and the switch are mounted side by side on the outside of the arm A. , connected to the recorder by wires.

Preferably, the lens A and the lens B are high definition red and blue 3D spectacle lenses.

Preferably, the recorder is a rectangular parallelepiped plastic case, a camera is mounted on the front side of the recorder, a microprocessor is mounted inside the recorder, a battery is mounted under the microprocessor, and a display is mounted on the back of the recorder. The screen is equipped with a USB interface on the side of the recorder, a camera, a microprocessor, a battery, a display, a USB interface, and a wire connection.

Preferably, the display is a 3.5 inch LED touch input display and the camera is a 3D camera.

Preferably, the camera is a 3D camera.

The beneficial effects of the invention are:

(1) The invention has the advantages of simple structure and low cost, and the use of the spectacle frame, the lens, the recorder, the control switch and the changeover switch can record the research content according to the needs of the operator when the operator uses the 3D instrument to conduct the research.

(2) In the present invention, the lens A and the lens B are high-definition red and blue 3D glare glasses, which can provide a realistic and clear 3D effect for the operator.

(3) In the invention, the recorder is a rectangular parallelepiped plastic case, a camera is mounted on the front side of the recorder, a microprocessor is installed inside the recorder, and a battery is installed under the microprocessor, and is mounted on the back of the recorder. There is a display screen, and a USB interface is installed on the side of the recorder. The camera, the microprocessor, the battery, the display screen, and the USB interface are connected by wires, and the recorder can be activated by the control switch, and then the camera can be photographed or photographed and operated through the switch. The research content of the person's line of sight synchronization, and the recorded content is transmitted to the memory card of the operator through the USB interface, and the battery can be charged through the USB interface when not in use.

(4) In the present invention, the display screen is a 3.5-inch LED touch input display, and the contents of the shot can be viewed through the display input command and stored in the memory card of the operator.

(5) In the present invention, the camera is a 3D camera, which ensures the consistency of the captured content and the content seen by the operator through the 3D glasses.

BRIEF DESCRIPTION OF THE DRAWINGS:

Figure 1 is a schematic view showing the front structure of the present invention;

2 is a schematic side view of the structure of the present invention;

3 is a schematic view showing the structure of the back side of the recorder of the present invention.

detailed description:

The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings.

As shown in FIG. 1 to FIG. 3, the present invention provides a stereoscopic projection 3D glasses for electric power engineering, including a spectacle frame 1, a lens 2, a recorder 3, a control switch 4, and a changeover switch 5. The spectacle frame 1 includes a lens holder. A1a and lens holder B 1b, connecting beam 1c, temple A1f and temple B1g, lens holder A1a and lens holder B 1b are connected to the front of spectacle frame 1 by connecting beam 1c between lens holder A1a and lens holder B 1b The lens 2 is divided into a lens A1d and a lens B 1e. The lens A1d and the lens B 1e are respectively mounted on the lens holder A1a and the lens holder B 1b. A recorder 3 is mounted above the connecting beam 1c, and the lens holder A1a and the lens holder are mounted. Both sides of B 1b are respectively mounted with a temple A1f and a temple B1g, and the control switch 4 and the changeover switch 5 are mounted side by side on the outside of the temple A1f, and are connected to the recorder 3 through the wire 6.

As shown above, in the present invention, the lens A1d and the lens B 1e are high-definition red and blue 3D spectacles, which can provide a realistic and clear 3D effect for the operator.

Further, in the invention, the recorder 3 has a rectangular parallelepiped plastic case, a camera 3a is attached to the front surface of the recorder 3, a microprocessor 3b is mounted inside the recorder 3, and a microprocessor 3b is mounted below the microprocessor 3b. The battery 3c is provided with a display screen 3d on the back side of the recorder 3, and a USB interface 3e is mounted on the side of the recorder 3. The camera 3a, the microprocessor 3b, the battery 3c, the display screen 3d, and the USB interface 3e are connected by a wire 6. By controlling the switch 4, the recorder can be activated, and then the switch 5 can be used to photograph or photograph the research content synchronized with the operator's line of sight, and the recorded content is transmitted to the memory card of the operator via the USB interface 3e, and The battery 3c can be charged via the USB interface 3e when not in use.

Moreover, in the invention, the display screen 3d is a 3.5-inch LED touch input display, and the contents of the shot can be viewed through the input command of the display screen 3d and the photographed contents can be stored on the memory card of the operator.

Finally, in the present invention, the camera 3a is a 3D camera, which ensures the consistency of the captured content and the operator seeing the content through the 3D glasses.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the technical solutions of the present invention. Any technical solutions that can be implemented on the basis of the above embodiments without creative work should be considered as falling into the present invention. The scope of protection of rights.

Claims

A stereoscopic projection 3D glasses for electric power engineering, comprising: a spectacle frame (1), a lens (2), a recorder (3), a control switch (4), a switch (5), and the spectacle frame (1) ) includes lens holder A (1a), lens holder B (1b), connecting beam (1c), temple A (1f) and temple B (1g), lens holder A (1a) and lens holder B (1b) pass A connecting beam (1c) between the lens holder A (1a) and the lens holder B (1b) is attached to the front surface of the spectacle frame (1), and the lens (2) is divided into a lens A (1d) and a lens B (1e). The lens A (1d) and the lens B (1e) are respectively mounted on the lens holder A (1a) and the lens holder B (1b), and a recorder (3) is mounted above the connection beam (1c), in the lens holder A ( 1a) and both sides of the lens holder B (1b) are respectively mounted with a temple A (1f) and a temple B (1g), and the control switch (4) and the switch (5) are mounted side by side on the temple A (1f) On the outside, it is connected to the recorder (3) through the wire (6).
The stereoscopic projection 3D glasses for electric power engineering according to claim 1, wherein the lens A (1d) and the lens B (1e) are high-definition red and blue 3D spectacle lenses.
The stereoscopic projection 3D glasses for electric power engineering according to claim 1, wherein the recorder (3) is a rectangular parallelepiped plastic case, and a camera (3a) is mounted on a front surface of the recorder (3). A microprocessor (3b) is mounted inside the recorder (3), a battery (3c) is mounted under the microprocessor (3b), and a display screen (3d) is mounted on the back of the recorder (3). The side of the recorder (3) is equipped with a USB interface (3e), a camera (3a), a microprocessor (3b), a battery (3c), a display (3d), a USB interface (3e), and are connected by wires (6). .
The stereoscopic projection 3D glasses for power engineering according to claim 3, wherein the display screen (3d) is a 3.5-inch LED touch input display.
The stereoscopic projection 3D glasses for electric power engineering according to claim 3, wherein the camera (3a) is a 3D camera.