CN211506719U - Low-power consumption remote controller - Google Patents

Abstract

The utility model discloses a low-power consumption remote controller, which comprises a power supply battery, a main control board, a remote rod, a display screen, an intelligent sensor and an antenna, wherein the power supply battery supplies power to the main control board through a power supply circuit; the main control board comprises a first dormancy module, and when the remote rod, the intelligent inductor and/or the display screen are operated, the main control board electrically triggers and awakens the remote rod, the intelligent inductor, the antenna and/or the display screen; when the remote rod, the intelligent inductor and/or the display screen are not operated, the remote rod, the intelligent inductor, the antenna and/or the display screen are in a dormant state; the novel intelligent sensor can quickly sense whether the remote controller is taken up or used, so that the dormant state of the remote controller can be more quickly awakened, and the time waiting for awakening the remote controller is reduced; more aspect use, and increase multiple awakening mode, it is more convenient.

Description

Low-power consumption remote controller

Technical Field

The utility model relates to a remote controller technical field especially relates to a low-power consumption remote controller.

Background

The low power consumption of the remote controller is to prolong the service time of the remote controller, and intelligently identify whether the remote controller is in a use state or not under the condition of forgetting to turn off the remote controller, so that the remote controller can intelligently enter a low power consumption mode, and the electric quantity is saved. At present, the low power consumption of the remote controller on the market is mainly used for judging whether to enter the power consumption by detecting no change on the rocker, and awakening the rocker or the remote rod on the remote controller also needs to be operated, so that the mode is inaccurate in identification on one hand and not intelligent on the other hand. The technology can completely get rid of manual operation on one hand, has high recognition degree on the other hand, can exclude the change of the electronic gyroscope caused by general vibration, and accurately recognize the posture change caused by manually using the remote controller to awaken the remote controller.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a following technical scheme realizes above-mentioned purpose:

a low power consumption remote controller includes: the intelligent sensor comprises a power supply battery, a main control board, a remote rod, a display screen, an intelligent sensor and an antenna, wherein the power supply battery supplies power to the main control board through a power supply circuit, the main control board is respectively and electrically connected with the display screen, the remote rod, the antenna and the intelligent sensor, and the intelligent sensor comprises an electronic gyroscope, an electronic accelerometer and an electronic compass; the main control board comprises a first dormancy module, and when the remote rod, the intelligent inductor and/or the display screen are operated, the main control board electrically triggers and awakens the remote rod, the intelligent inductor, the antenna and/or the display screen; when the remote rod, the intelligent sensor and/or the display screen are not operated, the remote rod, the intelligent sensor, the antenna and/or the display screen are in a dormant state.

Further, the intelligent sensor further comprises a pressure sensor and/or a temperature sensor, the main control board further comprises a first awakening module, and when the pressure sensor and/or the temperature sensor are triggered, the main control board is electrically triggered to awaken the remote rod, the display screen and the antenna.

The electronic gyroscope comprises a gesture detector, wherein the gesture detector is used for detecting gesture data of the remote controller and judging whether the gesture of the remote controller changes within a period of time, when the gesture does not change, the main control board enters a first sleep module, and the remote rod, the electronic gyroscope, the antenna and the display screen are in a sleep state; when the gesture changes, the main control board is electrically triggered to wake up the remote rod, the electronic gyroscope, the antenna and the display screen.

Further, the low-power consumption remote controller also comprises an antenna and a shell; the antenna is arranged at the front end of the shell, the remote rod is arranged at the front part of the top surface of the shell, and the display screen is arranged at the rear part of the top surface of the shell; the power supply battery and the main control board are arranged inside the shell.

Furthermore, the remote rods are provided with two groups, and the two groups of remote rods are arranged in a central symmetry mode.

Further, the attitude detector comprises a tilt sensor assembly and a signal processor.

The utility model discloses the beneficial effect who reaches is: a low-power consumption remote controller comprises a power supply battery, a main control board, a remote rod, a display screen, an intelligent inductor and an antenna, wherein the power supply battery supplies power to the main control board through a power supply circuit, the main control board is respectively and electrically connected with the display screen, the remote rod and the intelligent inductor, and the intelligent inductor comprises an electronic gyroscope; the main control board comprises a first dormancy module, and when the remote rod, the intelligent inductor and/or the display screen are operated, the main control board electrically triggers and awakens the remote rod, the intelligent inductor, the antenna and/or the display screen; when the remote rod, the intelligent inductor and/or the display screen are not operated, the remote rod, the intelligent inductor, the antenna and/or the display screen are in a dormant state; the novel intelligent sensor can quickly sense whether the remote controller is taken up or used, so that the dormant state of the remote controller can be more quickly awakened, and the time waiting for awakening the remote controller is reduced; more aspect use, and increase multiple awakening mode, it is more convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a low power consumption remote controller according to the present invention;

the reference numerals are explained below:

1. a power supply battery; 2. a main control board; 3. a remote lever; 4. a display screen; 5. an intelligent sensor; 6. an antenna; 7. a housing; 51. an electronic gyroscope; 52. a pressure sensor.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Preferred embodiments of the present invention include at least one or any suitable combination of the following features:

the first embodiment:

as shown in fig. 1, a low power consumption remote controller includes: the intelligent remote control system comprises a power supply battery 1, a main control board 2, a remote rod 3, a display screen 4, an intelligent inductor 5 and an antenna 6, wherein the power supply battery 1 supplies power to the main control board 2 through a power supply circuit, and the main control board 2 is respectively and electrically connected with the display screen 4, the remote rod 3, the antenna 6 and the intelligent inductor 5; the intelligent sensor 5 comprises an electronic gyroscope 51; the main control board 2 comprises a first dormancy module, and when the remote rod 3, the electronic gyroscope 51 or the display screen 4 is operated, the main control board 2 electrically triggers and awakens the corresponding remote rod 3, the electronic gyroscope 51 or the display screen 4; when the remote rod 3, the electronic gyroscope 51 or the display screen 4 are not operated, the main control board 2 controls the corresponding remote rod 3, the electronic gyroscope 51 or the display screen 4 to be in a dormant state. The electronic gyroscope is arranged in the middle of the top surface of the shell 7; it should be noted here that the electronic accelerometer and the electronic compass can be used to replace the electronic gyroscope 51 to form a new tactile pattern.

Preferably, the intelligent sensor 5 further includes a pressure sensor 52, the main control board 2 further includes a first wake-up module, when the pressure sensor 52 is triggered, that is, when the remote controller is under pressure, the pressure sensor 52 transmits a signal to the main control board 2, and the main control board 2 enters the first wake-up module, that is, the main control board 2 electrically triggers and wakes up the remote lever 3, the antenna 6 and the display screen 4; the pressure sensors 52 are disposed on both sides of the housing 7, and a user can pick up the remote controller from the side, so that the force point of the pressure sensor 52 is disposed on the side to accurately determine whether the user picks up the remote controller.

Preferably, the electronic gyroscope 51 includes an attitude detector, and the attitude detector is configured to detect attitude data of the remote controller (the operation of the electronic gyroscope 51 corresponds to the attitude detector detecting that there is an attitude change in the remote controller, and the non-operation of the electronic gyroscope 51 corresponds to the attitude detector detecting that there is no attitude change in the remote controller), determine whether there is an attitude change in the remote controller for a period of time, and when there is no attitude change, the main control board 2 enters a first sleep mode, and the remote rod 3, the electronic gyroscope 51, the antenna 6, and the display screen 4 are in a sleep state; when the posture changes, the main control board 2 electrically triggers and wakes up the remote rod 3, the electronic gyroscope 51, the antenna 6 and the display screen 4.

Preferably, the low-power consumption remote controller further comprises a shell 7; the antenna 6 is arranged at the front end of the shell 7, the remote rod 3 is arranged at the front part of the top surface of the shell 7, and the display screen 4 is arranged at the rear part of the top surface of the shell 7; the power supply battery 1 and the main control board 2 are arranged inside the shell 7.

Preferably, the two sets of the remote rods 3 are arranged, and the two sets of the remote rods 3 are arranged in a central symmetry manner.

Preferably, the attitude detector comprises a tilt sensor assembly, a signal processor; it should be noted that the electronic gyroscope 51 is used for measuring the angular velocity of the detector and transmitting the angular velocity to the signal processor; the inclination angle sensor combination is used for measuring the gravity acceleration of the detector and transmitting the gravity acceleration to the signal processor; the signal processor includes a detector attitude detection device, which includes an attitude preparation combination resolving module and a detector operation combination resolving module (described in detail in a pipeline attitude detector of patent No. 201310732744.8, in the present invention, only the attitude detector is used as a detection remote controller to detect whether there is a change, and transmits different signals to the main control board); the remote controller attitude detection device is used for judging the change of the attitude and acquiring the attitude data of the remote controller, the signal processor determines which mode (sleep mode or working mode) the current remote controller should be in according to the attitude change and acquires the attitude data of the remote controller, and the signal processor determines the current state of the remote controller by comparing the attitude of the remote controller with the attitude of the remote controller entering the sleep state. If the posture of the remote controller is obviously changed at the moment, the remote controller is awakened, a normal working mode is entered, and the display screen is brightened.

Second embodiment:

as shown in fig. 1, a low power consumption remote controller includes: the intelligent remote control system comprises a power supply battery 1, a main control board 2, a remote rod 3, a display screen 4, an intelligent inductor 5 and an antenna 6, wherein the power supply battery 1 supplies power to the main control board 2 through a power supply circuit, and the main control board 2 is respectively and electrically connected with the display screen 4, the antenna 6, the remote rod 3 and the intelligent inductor 5; the intelligent sensor 5 comprises an electronic gyroscope 51; the main control board 2 comprises a first dormancy module, and when the remote rod 3, the electronic gyroscope 51 or the display screen 4 is operated, the main control board 2 electrically triggers and awakens the remote rod 3, the electronic gyroscope 51, the antenna 6 and the display screen 4; when the remote rod 3, the electronic gyroscope 51 or the display screen 4 are not operated, the main control board 2 controls the corresponding remote rod 3, the electronic gyroscope 51, the antenna 6 and the display screen 4 to be in a dormant state. The electronic gyroscopes are commonly mounted in the middle of the top surface of the housing 7.

Preferably, the intelligent sensor 5 further includes a temperature sensor (replacing the position of the pressure sensor 52 in the first embodiment), the main control board 2 further includes a first wake-up module, when the temperature sensor is triggered, the temperature sensor sends a signal to the main control board 2, and the main control board 2 enters the first wake-up module, that is, the main control board 2 electrically triggers and wakes up the remote rod 3, the antenna 6 and the display screen 4; temperature sensor establishes in the both sides of casing 7, and general user all takes up the remote controller from the side, so temperature sensor establishes and can accurately judge whether there is temperature variation in the temperature of contact department at the side, and then judges whether the user takes up the remote controller.

Preferably, the electronic gyroscope 51 includes an attitude detector, and the attitude detector is configured to detect attitude data of the remote controller (the operation of the electronic gyroscope 51 corresponds to the attitude detector detecting that there is an attitude change in the remote controller, and the non-operation of the electronic gyroscope 51 corresponds to the attitude detector detecting that there is no attitude change in the remote controller), determine whether there is an attitude change in the remote controller for a period of time, and when there is no attitude change, the main control board 2 enters a first sleep mode, and the remote rod 3, the electronic gyroscope 51, the antenna 6, and the display screen 4 are in a sleep state; when the posture changes, the main control board 2 electrically triggers and wakes up the remote rod 3, the electronic gyroscope 51, the antenna 6 and the display screen 4.

Preferably, the low power consumption remote controller further comprises a housing 7; the antenna 6 is arranged at the front end of the shell 7, the remote rod 3 is arranged at the front part of the top surface of the shell 7, and the display screen 4 is arranged at the rear part of the top surface of the shell 7; the power supply battery 1 and the main control board 2 are arranged inside the shell 7.

Preferably, the two sets of the remote rods 3 are arranged, and the two sets of the remote rods 3 are arranged in a central symmetry manner.

Preferably, the attitude detector comprises a tilt sensor assembly, a signal processor; the electronic gyroscope 51 is used for measuring the angular speed of the detector and transmitting the angular speed to the signal processor; the inclination angle sensor combination is used for measuring the gravity acceleration of the detector and transmitting the gravity acceleration to the signal processor; the signal processor includes a detector attitude detection device, which includes an attitude preparation combination resolving module and a detector operation combination resolving module (described in detail in a pipeline attitude detector of patent No. 201310732744.8, in the present invention, only the attitude detector is used as a detection remote controller to detect whether there is a change, and transmits different signals to the main control board); the remote controller attitude detection device is used for judging the change of the attitude and acquiring the attitude data of the remote controller, the signal processor determines which mode (sleep mode or working mode) the current remote controller should be in according to the attitude change and acquires the attitude data of the remote controller, and the signal processor determines the current state of the remote controller by comparing the attitude of the remote controller with the attitude of the remote controller entering the sleep state. If the posture of the remote controller is obviously changed at the moment, the remote controller is awakened, a normal working mode is entered, and the display screen is brightened.

Third embodiment of the invention

A low power consumption remote controller includes: the intelligent remote control system comprises a power supply battery 1, a main control board 2, a remote rod 3, a display screen 4, an intelligent inductor 5 and an antenna 6, wherein the power supply battery 1 supplies power to the main control board 2 through a power supply circuit, and the main control board 2 is respectively and electrically connected with the display screen 4, the remote rod 3, the antenna 6 and the intelligent inductor 5; the intelligent sensor 5 comprises an electronic gyroscope 51; the main control board 2 comprises a first dormancy module, and when the electronic gyroscope 51 is operated, the main control board 2 electrically triggers and awakens the corresponding remote rod 3, the intelligent inductor 5, the antenna 6 and the display screen 4; when the electronic gyroscope 51 is not operated, the main control board 2 controls the remote rod 3, the intelligent inductor 5, the antenna 6 and the display screen 4 to be in a dormant state. The electronic gyroscope 51 is mounted in the middle of the top surface of the housing 7.

The utility model discloses the beneficial effect who reaches is: a low-power consumption remote controller comprises a power supply battery, a main control board, a remote rod, a display screen, an intelligent inductor and an antenna, wherein the power supply battery supplies power to the main control board through a power supply circuit, the main control board is respectively and electrically connected with the display screen, the remote rod and the intelligent inductor, and the intelligent inductor comprises an electronic gyroscope; the main control board comprises a first dormancy module, and when the remote rod, the intelligent inductor and/or the display screen are operated, the main control board electrically triggers and awakens the remote rod, the intelligent inductor, the antenna and/or the display screen; when the remote rod, the intelligent inductor and/or the display screen are not operated, the remote rod, the intelligent inductor, the antenna and/or the display screen are in a dormant state; the novel intelligent sensor can quickly sense whether the remote controller is taken up or used, so that the dormant state of the remote controller can be more quickly awakened, and the time waiting for awakening the remote controller is reduced; more aspect use, and increase multiple awakening mode, it is more convenient.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. A low power consumption remote controller comprising: the intelligent remote control system comprises a power supply battery, a main control board, a remote rod, a display screen, an intelligent inductor and an antenna, wherein the power supply battery supplies power to the main control board through a power supply circuit, and the main control board is electrically connected with the display screen, the remote rod, the antenna and the intelligent inductor respectively; when the remote rod, the intelligent inductor and/or the display screen are not operated, the remote rod, the intelligent inductor, the antenna and/or the display screen are in a dormant state; the intelligent sensor comprises an electronic gyroscope, an electronic accelerometer, an electronic compass, a pressure sensor and a temperature sensor.

2. The remote controller with low power consumption of claim 1, wherein the main control board further comprises a first wake-up module, and when the pressure sensor and/or the temperature sensor is triggered, the main control board is electrically triggered to wake up the remote rod, the display screen and the antenna.

3. The remote controller with low power consumption of claim 1, wherein the electronic gyroscope comprises an attitude detector, the attitude detector is used for detecting attitude data of the remote controller, judging whether the attitude of the remote controller changes for a period of time, when the attitude does not change, the main control board enters a first sleep module, and the remote rod, the electronic gyroscope, the antenna and/or the display screen are in a sleep state; when the gesture changes, the main control board is electrically triggered to wake up the remote rod, the electronic gyroscope, the antenna and/or the display screen.

4. The low-power consumption remote controller according to claim 1 or 2, further comprising a housing; the antenna is arranged at the front end of the shell, the remote rod is arranged at the front part of the top surface of the shell, and the display screen is arranged at the rear part of the top surface of the shell; the power supply battery and the main control board are arranged inside the shell.

5. The low power consumption remote control of claim 1, wherein there are two sets of the telemetry rods, and the two sets of telemetry rods are arranged in a central symmetry.

6. The low power consumption remote control of claim 3, wherein the gesture detector comprises a tilt sensor assembly, a signal processor.

Images