CN109819115B - Clock, communication transfer assembly and transfer method - Google Patents

Abstract

The invention discloses a clock, comprising: a first housing; the caller identification device is arranged on the surface of the first shell; the first communication device and the data processor are arranged in the first shell; the first communication device is used for receiving an incoming call signal; the data processor is used for determining the incoming call number according to the incoming call signal, so that the incoming call number is displayed through an incoming call display device. The invention can help the user to acquire the external information in time and communicate and contact with the outside in time, thereby improving the satisfaction degree of the user.

Description

Clock, communication transfer assembly and transfer method

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a clock, a communication transfer module, and a transfer method.

Background

The existing communication equipment (such as a mobile phone, a bracelet, etc.) needs to remind a user in real time in a ring tone and vibration mode, and when the user is alone in a home to care for a baby or is in an environment needing to keep quiet, the mobile phone or other communication terminals often need to be turned to a mute state, but in the mute state, the user may not answer the incoming call in time because the user cannot answer the incoming call ring, thereby seriously hindering the information exchange with the outside.

Therefore, it is necessary to provide a clock, a communication transfer module, and a transfer method capable of transferring an incoming call of a communication terminal.

Disclosure of Invention

To achieve the above object, a first aspect of the present invention provides a clock, including:

a first housing;

the caller identification device is arranged on the surface of the first shell; and

the first communication device and the data processor are arranged in the first shell;

wherein,

the first communication device is used for receiving an incoming call signal;

the data processor is used for determining the incoming call number according to the incoming call signal, so that the incoming call number is displayed through an incoming call display device.

Preferably, the method further comprises the following steps:

the image acquisition device is used for acquiring image information;

a call device for performing a voice call;

and the data processor matches the image information from the image acquisition device with prestored posture information in response to the caller ID display device displaying the caller ID, and controls the starting of the communication device according to a matching result.

Preferably, the call device includes:

a microphone;

a speaker; and

a display screen;

and the data processor matches the image information from the image acquisition device with prestored posture information in response to the caller ID display device displaying the caller ID, and controls the microphone, the loudspeaker and the display screen to be turned on according to a matching result.

Preferably, the data processor is further configured to compare the real-time voice information from the microphone with pre-stored voice information, and control the call device to be turned off according to the comparison result.

Preferably, the caller identification device comprises a plurality of nixie tubes for displaying the number of the caller.

Preferably, the number of the nixie tubes is 11, and the 11 nixie tubes and the image acquisition device are respectively arranged at 12 time scale positions of the clock.

Preferably, a wireless charging device is further disposed on the first housing, and the wireless charging device is configured to charge the clock.

A second aspect of the present invention provides a communication transfer assembly, comprising:

the clock; and

a communication terminal;

the communication terminal is provided with a trigger device, and the trigger device responds to the trigger of a user to control the communication terminal to be interconnected with the first communication device.

The third aspect of the present invention provides a method for performing communication transfer by using the clock, including the following steps:

receiving an incoming call signal;

determining an incoming call number according to the incoming call signal;

and displaying the incoming call number.

Preferably, the method further comprises the following steps:

acquiring image information;

and when the incoming call number is displayed, matching the image information with prestored posture information, and controlling the starting of voice communication according to a matching result.

Preferably, the method further comprises the following steps:

collecting real-time voice information;

and comparing the real-time voice information with pre-stored voice information, and controlling the closing of the voice call according to a comparison result.

The invention has the following beneficial effects:

the invention has the advantages of clear principle and simple design, when in work, a user can receive an incoming call signal through the first communication device of the clock and transmit the incoming call signal to the data processor, the data processor determines an incoming call number according to the incoming call signal and displays the incoming call number on the incoming call display device, so that the user can timely obtain the incoming call information, the occurrence of missing connection is avoided, the user is helped to timely obtain the external information and timely communicate and contact with the outside, and the satisfaction degree of the user is improved.

Drawings

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Fig. 1 shows a schematic structural diagram of a clock according to a first embodiment of the present invention;

fig. 2 is a block diagram showing the connection relationship of the inside of the clock in the present embodiment;

FIG. 3 is a flowchart illustrating the operation of the present embodiment in conjunction with a practical application scenario;

FIG. 4 is a schematic structural view of a preferred embodiment of the present embodiment;

fig. 5 is a block diagram showing a communication transfer unit according to a second embodiment of the present invention;

fig. 6 is a block diagram showing the structure of a communication terminal in the present embodiment;

fig. 7 shows a flowchart of a method for performing communication transfer using the clock according to a third embodiment of the present invention.

In the figure: 100. a first housing; 200. an image acquisition device; 300. a caller identification device; 400. provided is a wireless charging device.

Detailed Description

In order to more clearly illustrate the invention, the invention is further described below with reference to preferred embodiments and the accompanying drawings. Similar parts in the figures are denoted by the same reference numerals. It is to be understood by persons skilled in the art that the following detailed description is illustrative and not restrictive, and is not to be taken as limiting the scope of the invention.

In order to solve the problems in the background art, fig. 1 shows a block diagram of a clock according to a first embodiment of the present invention, and as shown in fig. 1, the clock includes: a first housing 100, a caller id display device 300, a first communication device, and a data processing device (wherein the first communication device and the data processing device are not shown in fig. 1).

In the specific example of fig. 1, the incoming call display device 300 is disposed on the surface of the first housing 100, in the specific example of fig. 2, a first communication device and a data processor are disposed in the first housing 100, the incoming call display device 300 is mainly used for displaying an incoming call number, and specifically may be a display or a device with a display function, and the first communication device is mainly used for implementing interconnection with a communication terminal, so that the first communication device receives an incoming call signal from the communication terminal, specifically may be a WIFI device or a bluetooth device, and it should be noted that the communication terminal should be understood as a terminal with a communication function, for example: the data processor is configured to determine an incoming call number according to an incoming call signal from the first communication device, and further display the incoming call number through the incoming call display device 300, and specifically, the data processor may be a device or a component having a data processing function, such as: a processing chip or processor, and more specifically, a microprocessor such as a single chip microcomputer.

That is, as can be seen from the specific examples of fig. 1 and 2: since the clock is interconnected with the communication terminal via the first communication means. Thus, for example, when the communication terminal to be muted receives an incoming call signal, the incoming call signal is sent to the data processor via the first communication device, and when the data processor receives the incoming call signal, the data processor further determines an incoming call number based on the received incoming call signal, and displays the determined incoming call number on the incoming call display device 300.

Since the clock is usually hung in a striking position, and people are also usually used to watch time through the clock, the user can see the incoming call number and perform further actions in time.

Therefore, the clock is arranged at a position which is easy to observe by the user, when the user cares the baby at home alone or is in a special environment and cannot start the voice prompt of the communication terminal, the user can transfer the incoming call of the communication terminal through the clock in the embodiment, so that the user can receive the incoming call information through visual observation in time while closing the voice prompt of the communication terminal, and the satisfaction degree of the user is improved.

Further, the caller id display device 300 is normally in a sleep state, and when receiving an incoming call signal, the data processor wakes up the caller id display device 300 to display, thereby realizing low power consumption.

Further, in the specific examples of fig. 1 and fig. 2, the clock described in this embodiment further includes: the image capturing device 200 and the communication device, wherein the image capturing device 200 and the communication device are respectively in communication with the data processor.

Specifically, the image capturing device 200 is mainly used for capturing image information, and the communication device is mainly used for performing voice communication, for example, the image capturing device 200 may be a camera, and the communication device may be a voice device having a communication function, wherein when the caller id display device 300 displays the caller id number, the data processor matches the image information from the image capturing device 200 with pre-stored posture information, and controls the communication device to be turned on according to the matching result, where the pre-stored posture information should be understood as the pre-stored posture information, and after the image capturing device 200 captures the image information, the data processor matches the image information from the image capturing device 200 with the pre-stored posture information, and controls the communication device to be turned on according to the matching result, and it should be noted that the user may store various posture information in advance, and different attitude information may correspond to different control commands, such as: the user may store the "head-up" gesture as gesture information for controlling the opening of the communication device, and when the image information acquired by the image acquisition device 200 matches the pre-stored "head-up" gesture, the data processing unit may control the opening of the communication device.

Further, the communication device includes: the microphone, the loudspeaker and the display screen are in data processor communication respectively.

Specifically, the microphone is mainly used for collecting an audio signal, the speaker is mainly used for outputting an audio signal, the display screen is mainly used for displaying video data input through the first communication device, in practical application, when the caller id display device 300 displays the caller id number, the data processor matches image information from the image collection device 200 with pre-stored posture information, and controls the microphone, the speaker and the display screen to be turned on according to matching results, as can be seen from the above, a user can store various posture information in advance, and different posture information can correspond to different control instructions, that is, the user can set different gestures or facial information as feedback signals for judging the incoming call condition of the user according to needs, for example: the 'shaking head' represents neglecting hanging up, 'shaking head' represents opening a loudspeaker to answer and opening a microphone to carry out voice call, and 'shaking head' represents opening a display screen to display video data sent by a communication terminal, it should be noted that the image acquisition device 200 not only can acquire image information to send to a data processing unit to be matched with prestored posture information, but also can be used for a user to realize the function of video call, and the data processing unit can send instant image information acquired by a camera to a call object through a first communication device in the form of electric signals, so that the function of video call is realized.

Furthermore, the data processor is further configured to compare the real-time voice information from the microphone with pre-stored voice information, and control the switching off of the communication device according to the comparison result.

It should be noted that, similar to the posture information, the user may store the voice information in advance, and different voice signals may correspond to different notification instructions, for example: the user can use the voice information of closing the call as the voice instruction for controlling the closing of the call device, and when the real-time voice information collected by the microphone is matched with the pre-stored voice information of closing the call, the data processing unit can control the closing of the call device, thereby ending the call.

Here, the clock further includes a storage device, which may be a memory, and the storage device is electrically connected to the data processing unit, and the storage device is mainly used for storing pre-stored posture information and pre-stored voice information, so that the data processor can respectively retrieve predicted posture information and predicted voice information matched with the image information from the image capturing device 200 and the voice signal from the microphone from the storage device, thereby sending corresponding instructions.

In the following, the clock of this embodiment is further described with reference to an actual application scenario, when a user is at home to take care of a baby alone or is in an environment where it is necessary to keep quiet, the mobile phone or other communication terminal often needs to be turned to a mute state, but in the mute state, the user may not answer the incoming call in time because the user cannot answer the incoming call ring, thereby seriously hindering information communication with the outside, and the clock of this embodiment can solve the above-mentioned problem.

As shown in fig. 3, a user can be interconnected with the communication terminal through the first communication device, when the communication terminal receives an incoming call signal, the first communication device transfers the incoming call signal to the data processor, and the data processor determines an incoming call number according to the incoming call signal and displays the incoming call number on the incoming call display device 300.

Further, the image acquisition device 200 on the clock can recognize the gesture information of the user to acquire an instruction whether to answer the incoming call, when the clock acquires the instruction to answer the incoming call, the clock can correspondingly turn on the microphone, the loudspeaker and the display screen under the control of the user, and when the clock acquires the instruction to hang up the incoming call, the clock can simultaneously turn off the image acquisition device 200 and the incoming call display device 300, so that the user can timely acquire the incoming call information through the clock, the phenomenon of missed call is avoided, the user can timely acquire external information and timely communicate and contact with the outside, and the user satisfaction is improved.

Further, the first housing 100 is circular, and the caller id display device 300 includes a plurality of nixie tubes.

After the data processing unit determines the incoming call number according to the incoming call signal from the communication terminal, the data processing unit sends the incoming call signal to the nixie tubes, so that the plurality of nixie tubes display the incoming call number based on the incoming call signal.

Further, the number of the nixie tubes is 11, and 11 of the nixie tubes and the image acquisition device 200 are respectively arranged at 12 time scale positions of the clock.

It should be understood by those skilled in the art that the number of nixie tubes is not limited in any way, and the user can set the number according to the number of digits of the commonly used telephone number, for example, in consideration of the structural features of the clock, the surface of the clock has scales representing 12 hours, and since the commonly used telephone number is 11 digits, in the specific example shown in fig. 3, the number of nixie tubes is set to 11, the 11 nixie tubes are uniformly distributed along the central axis of the surface of the first housing 100, and the 11 nixie tubes are located at 1-11 scale positions of the clock in the clockwise direction, and the image capturing device 200 is located at the 12 o' clock tick position of the clock, and the clock further includes the time display function of the commonly used clock, i.e. a quartz clock with hour, minute, and second hands, for example. Such an arrangement not only facilitates the user to view the incoming call number but also enables the clock to still function as a clock.

Of course, it will be understood by those skilled in the art that the present invention is not limited to the image pickup device 200 being disposed at the 12-dot scale position of the clock, and it may be disposed at a 3-dot, 5-dot, etc. scale position.

It should be understood that when the number of the incoming call is less than 11 digits, for example, eight digits, 8 of the number of the incoming call of eight digits should be sequentially selected from the 11 nixie tubes for corresponding display.

Further, the clock further comprises a wireless charging device 400 disposed in the first housing 100, wherein the wireless charging device 400 is used for charging the clock.

In the example of fig. 4, a charging platform for wirelessly charging the clock is shown, wherein corresponding magnetic induction coils are respectively disposed on the charging platform and the wireless charging device 400 of the clock, and it should be understood by those skilled in the art that, since the wireless charging technology is the prior art, the invention is not specifically described in this regard.

Fig. 5 shows a block diagram of a communication transfer module according to a second embodiment of the present invention, which includes the clock and the communication terminal.

Exemplarily, fig. 6 shows a block diagram of a communication terminal in the present embodiment, and as shown in fig. 6, the communication terminal includes: the second shell, the second communication device and the trigger device. Wherein the triggering device is used for controlling the second communication device to be interconnected with the first communication device in response to manual operation of a user.

In the specific example of fig. 6, the communication terminal may be a mobile phone, and those skilled in the art should understand that the communication terminal may also be other terminals having a communication function, which is not limited in the present invention.

The communication terminal can be interconnected with the first communication device through the second communication device, specifically, the second communication device and the first communication device can both adopt a WIFI device or a Bluetooth device, and the wireless data transmission between the first communication device and the second communication device can adopt an 802.11ad protocol, so that the real-time transmission of high-capacity videos can be realized, and the signal delay caused by the fact that information transmitted by the communication terminal is transmitted to a clock can be avoided as far as possible.

The triggering device may be a button or a rotation, or may be a virtual key according to software on the communication terminal. The user may open the interconnection between the second communication device and the first communication device by means of a triggering device, for example by manually pressing a key, even by means of voice instructions. For example, the triggering device and a mute key on the mobile phone may be integrated, and when the user switches the mobile phone to a mute state through the mute key, the mobile phone may be interconnected with the first communication device through the second communication device, so as to achieve the purpose of communication transfer.

Fig. 7 shows a flowchart of a method for performing communication transfer by using the clock according to a third embodiment of the present invention, and as shown in fig. 7, the method includes:

receiving an incoming call signal;

determining an incoming call number according to the incoming call signal;

and displaying the incoming call number.

Specifically, the first communication device is interconnected with a communication terminal to receive an incoming call signal from the communication terminal, the data processor determines an incoming call number according to the incoming call signal, and further displays the incoming call number through the incoming call display device 300.

Further, this embodiment further includes:

acquiring image information;

and when the incoming call number is displayed, matching the image information with prestored posture information, and controlling the starting of voice communication according to a matching result.

Furthermore, the present embodiment further includes:

collecting real-time voice information;

and comparing the real-time voice information with pre-stored voice information, and controlling the closing of the voice call according to a comparison result.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations or modifications may be made on the basis of the above description, and all embodiments may not be exhaustive, and all obvious variations or modifications may be included within the scope of the present invention.

Claims (9)

1. A clock, comprising:

a first housing;

the caller identification device is arranged on the surface of the first shell; and

the first wireless communication device is arranged in the first shell and is a WIFI device or a Bluetooth device;

wherein,

the first wireless communication device is used for receiving an incoming call signal;

the data processor is used for determining the incoming call number according to the incoming call signal so as to display the incoming call number through an incoming call display device; further comprising:

the image acquisition device is used for acquiring facial posture image information of a user;

a call device for performing a voice call;

and the data processor matches the facial gesture image information of the user from the image acquisition device with prestored gesture information in response to the caller identification number displayed by the caller identification device, and controls the starting of the communication device according to a matching result.

2. The timepiece according to claim 1, wherein said talking device comprises:

a microphone;

a speaker; and

a display screen;

and the data processor matches the facial gesture image information of the user from the image acquisition device with prestored gesture information in response to the caller identification number displayed by the caller identification display device, and controls the microphone, the loudspeaker and the display screen to be turned on according to a matching result.

3. The clock of claim 2, wherein the data processor is further configured to compare the real-time voice message from the microphone with a pre-stored voice message and to control the closing of the communicator based on the comparison.

4. The timepiece of claim 1 wherein said caller identification means comprises a plurality of nixie tubes for displaying the number of incoming calls.

5. The timepiece of claim 4, wherein 11 of said nixie tubes, 11 of said nixie tubes and said image capturing device are respectively disposed at 12 time scale positions of the timepiece.

6. The timepiece of any one of claims 1-5 wherein said first housing further includes a wireless charging device disposed thereon for charging said timepiece.

7. A communication transfer assembly, comprising:

the clock of any one of claims 1-6; and

a communication terminal;

the communication terminal is provided with a trigger device, and the trigger device responds to the trigger of a user to control the communication terminal to be interconnected with the first wireless communication device.

8. A method of communication transfer using the clock of any of claims 1-6, comprising the steps of:

receiving an incoming call signal;

determining an incoming call number according to the incoming call signal;

displaying the incoming call number; further comprising:

acquiring facial posture image information of a user;

and when the incoming call number is displayed, matching the facial gesture image information of the user with prestored gesture information, and controlling the starting of voice call according to a matching result.

9. The method of claim 8, further comprising:

collecting real-time voice information;

and comparing the real-time voice information with pre-stored voice information, and controlling the closing of the voice call according to a comparison result.

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