CN211375553U - Gesture control big clock device - Google Patents

Abstract

The utility model relates to a big clock device of gesture control belongs to big clock device technical field. Including installing in the display in the clock frame dead ahead, the display back is equipped with the circuit board, the camera standing groove has been seted up on the clock frame, the camera standing groove is located the display top, install outer box of camera in the camera standing groove, install angle adjusting part in the outer box of camera, install the camera subassembly that is used for gathering the gesture image on the angle adjusting part, install the camera window on the camera standing groove, be equipped with the singlechip on the circuit board, the singlechip passes through serial ports connection GPS receiving time information, the singlechip passes through IO interface receiving camera subassembly's gesture image information, the singlechip passes through IO interface connection driver, the driver is connected with the display. The utility model discloses can gather gesture information and change into corresponding instruction through the camera, the flexible operation is simple and convenient, has filled the blank of gesture control technique among the clock equipment, has richened the functional structure of clock networking.

Description

Gesture control big clock device

Technical Field

The utility model relates to a big clock device of gesture control belongs to big clock device technical field.

Background

The control mode of current clock is mostly the remote controller or control platform on the net controls, the control mode of most big clocks is mostly the relevant operation through remote controller or control platform control big clock on the net, the remote controller is connected with big clock through the mode of infrared and bluetooth usually, control big clock through pressing the function button of predetermineeing on the remote controller, but the remote controller needs the special messenger to take care of, take care of improper then loses easily, and the remote controller is difficult to realize the expansion of function, and the operation mode is comparatively fixed. If the network platform is used for controlling the big clock, the big clock is excessively dependent on network communication, and if the communication network is interrupted, the equipment cannot be controlled. Therefore, a method and structure for clock control based on gestures are needed.

Disclosure of Invention

An object of the utility model is to solve the weak point that above-mentioned prior art exists, provide one kind and can gather gesture information and change into the big clock device of gesture control of corresponding instruction through the camera, the flexible operation is simple and convenient, has filled the blank of gesture control technique among the clock equipment, has richened the functional structure of clock networking.

The utility model discloses a big clock device of gesture control, its special character lies in including installing in display 15 in clock frame 18 dead ahead, display 15 back is equipped with circuit board 16, clock frame 18 has seted up camera standing groove 19, camera standing groove 19 is located display 15 top, install outer camera box 1 in the camera standing groove 19, install angle adjusting part in the outer camera box 1, install the camera subassembly 26 that is used for gathering the gesture image on the angle adjusting part, install camera window 20 on the camera standing groove 19, be equipped with singlechip 22 on circuit board 16, singlechip 22 connects GPS24 through serial ports 23 and receives time information, singlechip 22 receives the gesture image information of camera subassembly 26 through I/O interface 25, singlechip 22 connects driver 27 through I/O interface 25, driver 27 is connected with display 15;

the circuit board 16 is connected with a USB interface 10, and the USB interface 10 is arranged on a clock frame 18;

the bottom of the camera placing groove 19 is provided with a line passing opening 21;

the single chip microcomputer 22 is connected with a crystal oscillator 28;

the serial port 23 is connected with the server 17 through a network 29;

the display 15 is an LED display;

the camera assembly 26 comprises a camera inner box 2 and a camera 3 arranged on the camera inner box 2, and the USB interface 10 is connected with the camera 3 through a data line 9;

the angle adjusting assembly comprises a horizontal rotation adjusting mechanism and a pitching adjusting mechanism, the horizontal rotation adjusting mechanism comprises a first rotating shaft 8 and an arc-shaped support 7 arranged at the top of the first rotating shaft 8, the arc-shaped support 7 is connected with the inner camera box 2 through a connecting rod 4, a first pointer 12 is fixed on the rotating shaft 8, and a first dial 11 matched with the first pointer 12 for use is arranged on the bottom surface of the outer camera box 1;

every single move adjustment mechanism is including installing in the second pivot 5 of the box 2 left and right sides in the camera, and connecting rod 4 outside is located to second pivot 5 cover, installs the screw 6 that is used for fastening second pivot 5 in the current position on the second pivot 5, and the side of box 2 is equipped with second calibrated scale 13 in the camera, installs the second pointer 14 that uses with second calibrated scale 13 cooperation on the connecting rod 4.

The utility model discloses a big clock device of gesture control structural design is ingenious, through the angle of the accurate manual regulation camera subassembly of angle adjustment subassembly, thereby make the accurate appointed regional collection gesture information of aiming at of camera, the singlechip passes through information such as serial ports connection GPS receiving time, the camera subassembly is gathered real-time gesture image and is handed in by the singlechip and handle, the gesture results produces corresponding instruction and has the I/0 interface to spread into the driver into, show corresponding time information through driver drive display, through the discernment of gesture, the complexity of equipment operation has been reduced, the blank of gesture control technique in the clock equipment has been filled, the functional structure of clock networking has been richened, and the device has a good application prospect.

Drawings

FIG. 1: the utility model discloses a mounting structure block diagram of a clock frame;

FIG. 2: the structure schematic diagram in the camera outer box;

FIG. 3: a schematic structural view of the bottom surface of the camera outer box;

FIG. 4: the side surface of the camera inner box is schematically structured;

FIG. 5: and structural block diagrams of components on the circuit board.

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.

Example 1

Referring to fig. 1-5, the utility model provides a big clock device of gesture control, including installing in display 15 in the dead ahead of clock frame 18, the back of display 15 is equipped with circuit board 16, clock frame 18 has seted up camera standing groove 19, camera standing groove 19 is located display 15 top, install camera outer box 1 in the camera standing groove 19, install angle adjusting part in the camera outer box 1, install the camera subassembly 26 that is used for gathering the gesture image on the angle adjusting part, install camera window 20 on the camera standing groove 19, be equipped with singlechip 22 on the circuit board 16, singlechip 22 connects GPS24 through serial ports 23 and receives time information, singlechip 22 receives the gesture image information of camera subassembly 26 through I/O interface 25, singlechip 22 connects driver 27 through I/O interface 25, driver 27 is connected with display 15; the circuit board 16 is connected with a USB interface 10, and the USB interface 10 is arranged on a clock frame 18; the bottom of the camera placing groove 19 is provided with a line passing opening 21; the singlechip 22 is connected with a crystal oscillator 28; the serial port 23 is connected with the server 17 through a network 29; the camera assembly 26 comprises a camera inner box 2 and a camera 3 arranged on the camera inner box 2, the USB interface 10 is connected with the camera 3 through a data line 9, and the display 15 is an LED display;

for the quick and portable of guaranteeing equipment fixing, stand when equipment is not fixed on the wall and use laser range finder with laser in the candidate district of gesture and beat the equipment fixing district with laser, can acquire horizontal deviation angle and vertical deviation angle, for making the candidate district of aiming at that the camera can be relatively accurate, this embodiment has added the bevel protractor in camera box inside to convenient and fast carries out the adjustment of angle. The angle adjusting assembly comprises a horizontal rotation adjusting mechanism and a pitching adjusting mechanism, the horizontal rotation adjusting mechanism comprises a first rotating shaft 8 and an arc-shaped support 7 arranged at the top of the first rotating shaft 8, the arc-shaped support 7 is connected with the inner camera box 2 through a connecting rod 4, a first pointer 12 is fixed on the rotating shaft 8, and a first dial 11 matched with the first pointer 12 for use is arranged on the bottom surface of the outer camera box 1;

every single move adjustment mechanism is including installing in the second pivot 5 of the box 2 left and right sides in the camera, and connecting rod 4 outside is located to second pivot 5 cover, installs the screw 6 that is used for fastening second pivot 5 in the current position on the second pivot 5, and the side of box 2 is equipped with second calibrated scale 13 in the camera, installs the second pointer 14 that uses with second calibrated scale 13 cooperation on the connecting rod 4.

The angle of the camera component is adjusted through the angle adjusting component accurately and manually, so that the camera is accurately aligned to the designated area to acquire gesture information, the single chip microcomputer is connected with information such as GPS receiving time through a serial port, real-time gesture images acquired by the camera component are processed by the single chip microcomputer, a gesture result is generated and corresponds to an instruction, an I/0 interface is transmitted into a driver, and the driver drives the display to display corresponding time information. When the device is powered on for the first time, the time information of the GPS24 is received to calibrate the device, the single chip microcomputer 22 reads the neural network information and the gesture information preset in the ROM, and starts the neural network module to recognize the real-time gesture information. After the gesture command is obtained through filtering, the command corresponding to the gesture is inquired from the ROM, and the clock equipment executes the command. After the equipment is installed, the default gesture is that the time is corrected immediately, the information of the year, month and day is displayed for the < fist, palm and fist >, the information of the year, month and day is displayed for the < fist, scissors and fist >, and the optional function can be configured by the server and then sent to the equipment. The terminal equipment can monitor data sent by the server all the time, when the terminal receives information sent by the server, gesture recognition can be interrupted, after the information is received and the information is verified, the original network and the original parameters are covered, and the recognition model is started again for recognition.

The device of the utility model adopts a gesture control mode to operate the clock in the clock field for the first time, and the invention further realizes the modularization of the clock peripheral equipment by designing the clock outer frame and the camera outer box, so that the engineering personnel can more conveniently install the equipment; by designing the supporting structure of the camera, the visual field of the camera on the clock can be accurately adjusted, the cost is low, and the operation is portable; the convolutional neural network model is constructed and trained, the model can be used for gesture recognition, the complexity of equipment operation is reduced, the blank of a gesture control technology in clock equipment is filled, and the functional structure of clock networking is enriched.

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 (9)

1. The utility model provides a big clock device of gesture control, its characterized in that is including installing the display in the clock frame dead ahead, the display back is equipped with the circuit board, the camera standing groove has been seted up on the clock frame, the camera standing groove is located the display top, install outer box of camera in the camera standing groove, install angle adjusting part in the outer box of camera, install the camera subassembly that is used for gathering the gesture image on the angle adjusting part, install the camera window on the camera standing groove, be equipped with the singlechip on the circuit board, the singlechip passes through serial ports connection GPS receiving time information, the singlechip passes through IO interface receiving camera subassembly's gesture image information, the singlechip passes through IO interface connection driver, the driver is connected with the display.

2. The device as claimed in claim 1, wherein the circuit board is connected to a USB interface, and the USB interface is mounted on the clock frame.

3. The device as claimed in claim 1, wherein the bottom of the camera slot is provided with a circuit through hole.

4. The device for controlling the big clock by gestures as claimed in claim 1, wherein the single chip is connected with a crystal oscillator.

5. A gesture-controlled clock apparatus as claimed in claim 1, wherein the serial port is connected to the server via a network.

6. A gesture controlled bell jar device according to claim 1 wherein said display is an LED display.

7. A gesture-controlled clock apparatus according to claim 2, wherein the camera assembly comprises an inner camera housing and a camera mounted on the inner camera housing, the USB interface being connected to the camera via a data line.

8. The device as claimed in claim 1, wherein the angle adjustment assembly comprises a horizontal rotation adjustment mechanism and a pitch adjustment mechanism, the horizontal rotation adjustment mechanism comprises a first rotating shaft and an arc-shaped support installed at the top of the first rotating shaft, the arc-shaped support is connected with the inner camera box through a connecting rod, a first pointer is fixed on the rotating shaft, and a first dial used in cooperation with the first pointer is arranged on the bottom surface of the outer camera box.

9. A hand gesture controlled clock apparatus as claimed in claim 8, wherein the pitch adjustment mechanism comprises a second shaft mounted on the left and right sides of the inner box of the camera, the second shaft is sleeved outside the connecting rod, a screw for fastening the second shaft to a current position is mounted on the second shaft, a second dial is provided on the side of the inner box of the camera, and a second pointer used in cooperation with the second dial is mounted on the connecting rod.

Images