CN203118190U - Air mouse remote controller - Google Patents

Abstract

The application discloses an air mouse remote controller. The remote controller comprises a remote control end and a receiving end, wherein the remote control end comprises a motion trail collecting module for collecting the motion trail of the remote control end, press keys for receiving the control information input by a user, a first control module for processing the motion trail data and the press key data to the to-be-sent data, a first transceiver module for sending the to-be-sent data to the receiving end, and a dormancy module which is connected with the first control module and used for sending a dormancy instruction to the first control module when the first control module does not need to process motion trail data and press key data within a preset cycle, the receiving end comprises a second transceiver module for receiving the to-be-sent data, a second control module for converting the to-be-sent data and an equipment connecting module for sending the converted to-be-sent data to controlled equipment. The arrangement of the dormancy module can be used for reducing the electricity consumption by the air mouse remote controller to prolong the endurance time.

Description

A kind of air mouse telepilot

Technical field

The application relates to the telepilot field, particularly relates to a kind of air mouse telepilot.

Background technology

Along with the sustainable development of " integration of three networks " trend in China, contacting of TV and internet is more and more tightr, and the content on more and more internets has entered into TV domain, and the user can be surfed the web on TV.

When the user need carry out operation such as web page browsing, literal input, video request program on TV, traditional Infrared remote controller can only be operated content displayed on TV and the screen by button, when the user needs mouse function at the enterprising line operate of TV screen, traditional Infrared remote controller just can't satisfy user's demand, in addition, traditional Infrared remote controller keypress function is too single, is unfavorable for every value-added service that the user uses Virtual network operator to carry out.

At present, though the air mouse telepilot of traditional infrared telepilot occurred substituting, existing air mouse telepilot can not effectively be controlled battery powered mode, thereby causes the consumption of battery electric quantity very big, influence the cruising time of telepilot, and then influence user's use.

The utility model content

In view of this, the application provides a kind of air mouse telepilot, can effectively reduce the energy consumption of air mouse telepilot, prolongs the cruising time of telepilot.

To achieve these goals, the technical scheme that provides of the application is as follows:

A kind of air mouse telepilot comprises: remote control end and receiving end, wherein:

Described remote control end comprises:

The movement locus acquisition module that is used for the movement locus of the described remote control end of collection;

The button that is used for the control information of reception user input;

Be used for motion trace data and/or button data are processed into first control module of data to be sent;

Be used for described data to be sent are sent to first transceiver module of described receiving end;

Be connected with described first control module, be used for when described first control module does not receive described motion trace data and/or button data in a predetermined period, sending the sleep block of dormancy instruction to described first control module;

Described receiving end comprises:

Be used for receiving second transceiver module of described data to be sent;

For second control module that described data to be sent are changed;

Data described to be sent after being used for changing send to the equipment link block of controlled device.

Preferably, described remote control end sends the acknowledge character request when sending described data to be sent to described receiving end, and described receiving end returns acknowledge character to described remote control end after receiving described data to be sent and described acknowledge character request;

Described remote control end also comprises:

Be used for when described remote control end is not received described acknowledge character in default maximum number of retransmissions, sending the first frequency hopping module of first frequency hopping instruction to described first control module.

Preferably, described receiving end also comprises:

Be used for when described receiving end does not receive described data to be sent and described acknowledge character request in predetermined period, sending the second frequency hopping module of second frequency hopping instruction to described second control module.

Preferably, described movement locus acquisition module comprises: three number of axle word gyroscopes.

Preferably, described remote control end also comprises:

Be connected with described first control module, be used for the pairing button with described remote control end and the pairing of described receiving end.

Preferably, described remote control end also comprises:

Be connected with described first control module, be used for described sleep block is sent the button that wakes up that described remote control end after the dormancy instruction wakes up to described first control module.

Preferably, described remote control end also comprises:

Be connected with described first control module, be used for show that described pairing button is pressed, describedly wakes that button is pressed up or described sleep block sends pilot lamp after the dormancy instruction to described first control module.

Preferably, described controlled device comprises: at least a in set-top box, computer and the TV.

Preferably, described first transceiver module is the 2.4GHz radio receiving transmitting module.

Preferably, described second transceiver module is the 2.4GHz radio receiving transmitting module.

Therefore, the air mouse telepilot that the application provides is integrated movement locus acquisition module, can gather the movement locus of telepilot and show at controlled device, can make the user utilize the air mouse telepilot to finish more complicated operations at controlled device, such as: web page browsing and video request program etc., satisfied the requirement of user Geng Gao, secondly, when telepilot does not have data to send within a certain period of time, sleep block can send the dormancy instruction makes the air mouse telepilot enter park mode, telepilot is very little to the consumption of battery electric quantity in park mode, thereby reduced the power consumption of air mouse telepilot, prolong the cruising time of telepilot, avoided the user to need frequent trouble and because the inconvenient problem with use that the replacing battery brings of changing battery.

In addition, aloft in the frequency of operation of mouse remote control device, much other electronic equipment is being worked in addition, be very easy to the data transmission of air mouse telepilot is caused interference, be provided with the frequency hopping module in the air mouse telepilot that the application provides, can when serious interference, adjust the transmission frequency of remote control end and the receive frequency of receiving end, thereby avoid interior other electronic equipments of same frequency to the interference of air mouse telepilot.

Description of drawings

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, the accompanying drawing that describes below only is some embodiment that put down in writing among the application, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The structural representation of the remote control end of the air mouse telepilot that Fig. 1 provides for the embodiment of the present application one;

The structural representation of the receiving end of the air mouse telepilot that Fig. 2 provides for the embodiment of the present application one;

The structural representation of the receiving end of the air mouse telepilot that Fig. 3 provides for the embodiment of the present application two;

The structural representation of the receiving end of the air mouse telepilot that Fig. 4 provides for the embodiment of the present application two;

The structural representation of the remote control end of the air mouse telepilot that Fig. 5 provides for the embodiment of the present application three.

Embodiment

In order to make those skilled in the art person understand technical scheme among the application better, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment only is the application's part embodiment, rather than whole embodiment.Based on the embodiment among the application, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all should belong to the scope of the application's protection.

Embodiment one:

As shown in Figure 1, it is the structural representation of the remote control end of the air mouse telepilot that provides of the embodiment of the present application, the air mouse telepilot that the embodiment of the present application provides comprises remote control end and receiving end two parts, wherein, the remote control end comprises: movement locus acquisition module 1, first control module 2, button 3, first transceiver module 4 and sleep block 5 describe its structure below in conjunction with the course of work of air mouse telepilot.

The electric power of remote control end is provided by electric battery or rechargeable battery 6, electric battery or rechargeable battery 6 can be common dry cell batteries or rechargeable batteries, the remote control end after powering on, movement locus acquisition module 1, first control module 2, first transceiver module 4 and sleep block 5 initialization.

Movement locus acquisition module 1 is connected with first control module 2, be used for gathering the motion trace data of remote control end, and the motion trace data that collects is transferred to first control module 2, movement locus acquisition module 1 can be selected gyroscope, acceleration transducer or other sensors for use, in the embodiment of the present application, employing is three number of axle word gyroscopes.

The air mouse telepilot that the application provides is provided with button 3, button 3 comprises the mousebutton of common digital keys and other function buttons and air mouse function, the user utilizes button 3 can import various control informations, can carry out mouse function simultaneously when pressing mousebutton.

First control module 2 is with fixing frequency sweeping button 3 and movement locus acquisition module 1, if a certain button is pressed, comprise that mousebutton is pressed, then first control module 2 is processed into data to be sent with the motion trace data that button data and/or movement locus acquisition module 1 collect, the compression of these data can being encoded in the processing procedure, simultaneously, processing to motion trace data comprises processes such as filtering, compensation and correction, these processing procedures are solved by other algorithms, repeat no more here.

First transceiver module 4 is connected with first control module 2, first control module 2 is handled the data to be sent that obtain send to receiving end, first control module 2 is handled the data to be sent that obtain and can be sent in the storer of first transceiver module 4 earlier, storer can adopt in the first in first out data buffer (FIF0) that is integrated in first transceiver module 4, first transceiver module 4 can detect the state of FIF0 automatically, once there being new data to automatically switch to emission mode, data to be sent are sent.

Reach the purpose that reduces battery power consumption for the air mouse telepilot that the application is provided, be provided with sleep block 5 at the remote control end, in existing air mouse telepilot, though also can make telepilot enter park mode, but need the user to make the telepilot dormancy by a certain button operation, make user's operating process loaded down with trivial details and forget when carrying out sleep operation as the user like this, telepilot just can not dormancy, increased the energy consumption of telepilot, the sleep block 5 that arranges in the embodiment of the present application is connected with first control module 2, when first control module 2 does not receive motion trace data and/or button data in a predetermined period, then sleep block 5 sends the dormancy instruction to first control module 2, first control module 2 is after receiving the dormancy instruction, namely control the remote control end and enter park mode, when comprising the function conductively-closed when movement locus acquisition module 1, closing movement track acquisition module 1 also shields the data that movement locus acquisition module 1 produces, the remote control end generally is by electric battery or rechargeable battery 6 supply electric power, the remote control end is just very little to consumption of electric after entering park mode, the electric weight of conserve batteries to a great extent, prolong the cruising time of telepilot, avoided the user to need frequent trouble and because the inconvenient problem with use that the replacing battery brings of changing battery.

As shown in Figure 2, the receiving end of the air mouse telepilot that the embodiment of the present application provides comprises: second transceiver module 9, second control module 7 and equipment link block 8, wherein:

Receiving end powers on after being connected to controlled device 10, second control module 7, equipment link block 8 and 9 initialization of second transceiver module.

Second transceiver module 9 is connected with second control module 7, be used for receiving the data to be sent that the remote control end sends out, and give second control module 7 with these data transmission to be sent, second transceiver module 9 of first transceiver module 4 of remote control end and receiving end all adopts the 2.4GHz radio receiving transmitting module in the embodiment of the present application.

The data to be sent that 7 pairs of second transceiver modules 9 of second control module receive are carried out treatment conversion, the motion trace data in these data to be sent and/or button data can be converted to USB HID mouse data form and the USB HID keyboard data form of standard respectively.

Equipment link block 8 respectively with second control module 7, controlled device 10 is connected, equipment link block 8 is connected with controlled device 10 by the interface on the controlled device 10, equipment link block 8 in the embodiment of the present application can be the USB device controller that is integrated in second control module 7, equipment link block 8 can be connected by the USB interface on the controlled device 10, equipment link block 8 just can send to the USB HID mouse data of the standard that obtains and USB HID keyboard data the usb host in the controlled device 10 after the conversion of second control module 7, usb host in the controlled device 10 is presented at USB HID mouse data and the reduction of USB HID keyboard data of standard on the display of controlled device 10, controlled device is carried out corresponding operation according to these data, and the controlled device 10 in the embodiment of the present application can be set-top box, computer or television.

Embodiment two:

In the above-described embodiments, remote control end in the air mouse telepilot that the embodiment of the present application provides and receiving end adopt wireless mode to transmit data, can certainly adopt other modes to transmit, when the air mouse telepilot adopts some frequency ranges, when for example the 2.4GHz frequency range is carried out radio communication, because this frequency range is the use of increasing income, so it is a lot of to be operated in the electronic equipment of this frequency range, as bluetooth equipment, Wireless USB, WLAN (wireless local area network) Wi-Fi etc., if the electronic equipment in this frequency range work is too much, these electronic equipments will produce the data transmission between air mouse telepilot remote control end and the receiving end and disturb, and are very easy to cause receiving end can not accurately receive the data to be sent that the remote control end sends out.

For fear of this interference, the air mouse telepilot that the embodiment of the present application provides is provided with the first frequency hopping module and the second frequency hopping module respectively at remote control end and receiving end, can avoid the interference of other electronic equipments by changing the frequency of operation of remote control end and receiving end respectively.

As shown in Figure 3, be the structural representation of the remote control end of the air mouse telepilot that provides of present embodiment, the workflow of the first frequency hopping module of remote control end is as follows:

The remote control end also sends acknowledge character request (ACK request) and gives receiving end when sending motion trace data and button data, and receiving end returns acknowledge character (ACK) to the remote control end after receiving data to be sent and acknowledge character request;

If the remote control end does not receive that in predetermined period receiving end returns the symbol of reading really, show that then receiving end does not receive data to be sent, the remote control end repeats to send to receiving end with data to be sent, if the remote control end has been received receiving end and has been returned the symbol of reading really in predetermined period, show that then receiving end received data to be sent, remote control end decision data sends successfully, no longer repeats to send;

After the remote control end does not receive all that in a plurality of predetermined period receiving end returns the symbol request of reading really, then the remote control end judges that receiving end does not receive data, the number of a plurality of predetermined period here also sets, this moment, the first frequency hopping module 11 sent the frequency hopping instruction to first control module 2, make the transmission frequency of remote control end jump to next default transmission frequency, and repeat to send data to be sent and acknowledge character request again, receive that up to the remote control termination receiving end returns the symbol back of reading really and just no longer sends this data to be sent.

Because receiving end can't utilize the acknowledge character request msg to assess the disturbed condition of current frequency, and may there be the situation of frequency hopping in the remote control end, consistent with the frequency of operation of remote control end for guaranteeing receiving end, then receiving end also needs to carry out frequency hopping, as shown in Figure 4, be the structural representation of the receiving end of the air mouse telepilot that provides of present embodiment, the concrete workflow of the second frequency hopping module is as follows:

Receiving end only stops the data that a predetermined period waits for that the remote control end sends in each frequency preset, if in predetermined period, do not receive data, then the second frequency hopping module 12 sends the frequency hopping instruction to second control module 7 immediately, make the receive frequency of receiving end jump to next frequency preset and stop a predetermined period, so repeat;

Up to receive once data to be sent and acknowledge character request in some frequencies, then receiving end judges that the remote control end is in this frequency work, receiving end just rests on this frequency and receives data and return acknowledge character to the remote control end, after not receiving data and acknowledge character request through a predetermined period, then the second frequency hopping module 12 sends the frequency hopping instruction to second control module 7, makes the frequency of operation of receiving end change into next predeterminated frequency.

The predetermined period of remote control end and the predetermined period of receiving end can be the same or different, and in order to guarantee the continuity of data transmission, the predeterminated frequency number of remote control end and receiving end is set at 3 to 5.

Be provided with the first frequency hopping module like this and the second frequency hopping module can make remote control end and receiving end avoid the interference of other electronic equipments, guaranteed stability of data transmission.

Embodiment three:

In order to make the more perfect functions of air mouse telepilot, as shown in Figure 5, button 3 parts at the remote control end also are provided with pairing button 13, can also be through pairing before can sending data mutually at remote control end and receiving end, press the pairing process that pairing then starts remote control end and receiving end behind the button 13, the remote control end sends the address information of remote control end to receiving end, after receiving end receives the address information of remote control end, the address information of remote control end is kept in the storer of receiving end.

In addition, aloft the remote control end of mouse remote control device also is provided with and wakes button 14 up, receive the dormancy instruction of sleep block transmission in first control module 2 after, first control module, 2 control remote control ends enter park mode, when the remote control end need send new data to be sent, the remote control end that just needs to be in park mode wakes up to normal duty, the remote control end of air mouse telepilot can also comprise and wakes button 14 up like this, when the remote control end wake that button 14 is pressed or other buttons are pressed up and when producing new data and need send, the rearming of remote control end.

Aloft the remote control end of mouse remote control device can also be provided with the pilot lamp (not shown), and pilot lamp can the display remoting end powers on, pairing, dormancy and information such as wake up,

Can be seen by above technical scheme, the air mouse telepilot that the application provides is integrated movement locus acquisition module, can gather the movement locus of telepilot and show at controlled device, can make the user that controlled device is carried out more complicated operations, such as: web page browsing and video request program etc., satisfied the requirement of user Geng Gao, secondly, when telepilot does not have data to send within a certain period of time, can enter park mode, thereby reduced the power consumption of air mouse telepilot, prolonged the cruising time of telepilot, avoided the user to need frequent trouble and because the inconvenient problem with use that the replacing battery brings of changing battery.

In addition, the first frequency hopping module in the air mouse telepilot and the second frequency hopping module can be in same frequency other equipment more for a long time during serious interference, adjust the transmission frequency of remote control end and the receive frequency of receiving end, thereby avoided interior other equipment of same frequency to be subjected to the interference of other equipment than mouse remote control device in the multi-space.

Need to prove, in this article, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thereby make and comprise that process, method, article or the equipment of a series of key elements not only comprise those key elements, but also comprise other key elements of clearly not listing, or also be included as the intrinsic key element of this process, method, article or equipment.Do not having under the situation of more restrictions, the key element that is limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment that comprises described key element and also have other identical element.

Need to prove, the above only is a part of preferred embodiment of present techniques scheme, make those skilled in the art can fully understand or realize the application, rather than whole embodiment, defined General Principle can realize under the situation of the spirit or scope that do not break away from the application in other embodiments herein.Therefore; based on above embodiment; for those skilled in the art; do not break away from the application's principle, do not making under the creative work prerequisite, can also make multiple apparent modification and retouching; the every other embodiment that obtains by these modifications and retouching; can be applied to the present techniques scheme, these do not influence the application's realization, all should belong to the application's protection domain.Therefore, the application will can not be restricted to these embodiment shown in this article, but will accord with principle disclosed herein and features of novelty the wideest consistent scope.

More than the application is described in detail, but using specific case herein sets forth the application's principle and embodiment, the explanation of above embodiment just is used for helping to understand the application's method and core concept thereof, simultaneously, for one of ordinary skill in the art, according to the application's thought, part in specific embodiments and applications all can change, in sum, this description should not be construed as the restriction to the application.

Claims (10)

1. an air mouse telepilot is characterized in that, comprising: remote control end and receiving end, wherein:

Described remote control end comprises:

The movement locus acquisition module that is used for the movement locus of the described remote control end of collection;

The button that is used for the control information of reception user input;

Be used for motion trace data and/or button data are processed into first control module of data to be sent;

Be used for described data to be sent are sent to first transceiver module of described receiving end;

Be connected with described first control module, be used for when described first control module does not receive described motion trace data and/or button data in a predetermined period, sending the sleep block of dormancy instruction to described first control module;

Described receiving end comprises:

Be used for receiving second transceiver module of described data to be sent;

For second control module that described data to be sent are changed;

Data described to be sent after being used for changing send to the equipment link block of controlled device.

2. air mouse telepilot according to claim 1, it is characterized in that, described remote control end sends the acknowledge character request when sending described data to be sent to described receiving end, and described receiving end returns acknowledge character to described remote control end after receiving described data to be sent and described acknowledge character request

Described remote control end also comprises:

Be used for when described remote control end is not received described acknowledge character in default maximum number of retransmissions, sending the first frequency hopping module of first frequency hopping instruction to described first control module.

3. air mouse telepilot according to claim 2 is characterized in that, described receiving end also comprises:

Be used for when described receiving end does not receive described data to be sent and described acknowledge character request in predetermined period, sending the second frequency hopping module of second frequency hopping instruction to described second control module.

4. air mouse telepilot according to claim 1 is characterized in that, described movement locus acquisition module comprises: three number of axle word gyroscopes.

5. air mouse telepilot according to claim 1 is characterized in that, described remote control end also comprises:

Be connected with described first control module, be used for the pairing button with described remote control end and the pairing of described receiving end.

6. air mouse telepilot according to claim 1 is characterized in that, described remote control end also comprises:

Be connected with described first control module, be used for described sleep block is sent the button that wakes up that described remote control end after the dormancy instruction wakes up to described first control module.

7. according to claim 5 or 6 described air mouse telepilots, it is characterized in that described remote control end also comprises:

Be connected with described first control module, be used for show that described pairing button is pressed, describedly wakes that button is pressed up or described sleep block sends pilot lamp after the dormancy instruction to described first control module.

8. air mouse telepilot according to claim 1 is characterized in that, described controlled device comprises: at least a in set-top box, computer and the TV.

9. air mouse telepilot according to claim 1 is characterized in that, described first transceiver module is the 2.4GHz radio receiving transmitting module.

10. air mouse telepilot according to claim 1 is characterized in that, described second transceiver module is the 2.4GHz radio receiving transmitting module.

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