CN103457626A - Remote communication equipment - Google Patents

Abstract

Remote communication equipment comprises a sending end and a receiving end. The sending end is connected to a mobile communication terminal, and the sending end comprises a first sensor and a first controller. The receiving end comprises a second controller and a first display device. The first sensor detects the physical parameters of the state of the environment where the first sensor is located, the first controller carries out data processing on the physical parameters to obtain environmental information, and the mobile communication terminal sends the environmental information to a server. The server sends the environmental information to the receiving end through the Internet, the second controller carries out data processing on the environmental information received by the receiving end to obtain environmental data, and the fist display device displays the environmental data. The environmental conditions of the sending end are collected by the remote communication equipment through the sensor, the environmental conditions are directly displayed on the display device of the receiving end, the operation is simple, the remote communication equipment is very convenient to carry, the user of the receiving end can know the conditions of the surrounding of the remote sending end by observing the first display device, and the opposite side cannot be disturbed.

Description

Remote communication device

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a remote communication device.

Background

Most of the common communication devices require user operation to work normally. When performing communication, especially communication between different terminals, a user needs to perform multiple operations on a communication device, such as a computer, a mobile communication tool, and the like. In some applications, for example, when a child or woman needs to communicate with an elderly parent, the elderly will not make any calls, let alone use a computer. These complicated operations may hinder the user's normal communication.

Disclosure of Invention

In view of the above, it is desirable to provide a telecommunication apparatus that is simple to operate, in view of the problems of the prior art.

A remote communication device comprising a transmitting end and a receiving end, wherein,

the sending terminal is electrically connected to the mobile communication terminal and comprises a first sensor and a first controller; the receiving end comprises a second controller and a first display device;

the first sensor detects physical parameters of the environment state, the first controller performs data processing on the physical parameters to obtain environment information, and the mobile communication terminal sends the environment information to the server;

the server sends the environment information to the receiving end through the Internet, the second controller carries out data processing on the environment information received by the receiving end to obtain environment data, and the first display device displays the environment data.

According to the remote communication equipment, the sending end uses the mobile communication terminal as a carrier, the first sensor is used for detecting the physical parameters of the environment state, the first controller is used for carrying out data processing on the physical parameters to obtain the environment information, and then the server is used for transmitting the environment information to the receiving end and displaying the environment information. The remote communication equipment collects the environmental condition of the transmitting end through the sensor, then directly displays the environmental condition on the display device of the receiving end, has simple operation and very convenient carrying, and a user of the receiving end can know the environmental condition of the remote transmitting end by watching the first display device without disturbing the other side.

Drawings

FIG. 1 is a block diagram of a telecommunications device in accordance with one embodiment of the present invention;

FIG. 2 is a functional diagram of a telecommunications device in accordance with one embodiment of the present invention;

fig. 3 is a schematic structural diagram of a transmitting end according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a receiving end according to an embodiment of the present invention;

the meaning of each reference number in the figures is:

100-transmitting end, 110-first sensor, 111-temperature sensor, 112-sound sensor, 113-first light intensity sensor, 114-indicator light, 120-first controller, 130-protective cover, 140-data transmission head, 200-receiving end, 210-first display device, 211-weather display area, 212-time display area, 213-temperature display area, 214-light emitting area, 215-camera, 216-shooting button, 220-second controller, 230-shell.

Detailed Description

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

Referring to fig. 1 and 2, a remote communication apparatus includes a transmitting end 100 and a receiving end 200. Wherein,

the transmitting end 100 is electrically connected to a mobile communication terminal, and the transmitting end 100 includes a first sensor 110 and a first controller 120. The receiving end 200 includes a second controller 220 and a first display device 210. In this embodiment, the mobile communication terminal is a mobile phone, and the transmitting end 100 is connected to the mobile phone through an earphone hole of the mobile phone.

The first sensor 110 detects physical parameters of the environment state, the first controller 120 performs data processing on the physical parameters to obtain environment information, and the mobile communication terminal sends the environment information to the server.

The server transmits the environment information to the receiving end through the internet, the second controller 220 performs data processing on the environment information received by the receiving end 200 to obtain environment data, and the first display device 210 displays the environment data.

Referring to fig. 3, the transmitting end 100 is specifically described:

the transmitting end 100 includes a protection cover 130 and a data transmission head 140, a PCB is disposed in the protection cover 130, a first sensor 110 and a first controller 120 are disposed on the PCB, and the first sensor 110, the first controller 120 and the data transmission head 140 are electrically connected in sequence. The whole protective cover 130 is in the shape of a pentagonal cone, and the data transmission head 140 is matched with the earphone hole of the mobile phone. The user inserts the transmitting end 100 into the earphone hole of the mobile phone.

The first sensor 110 includes a temperature sensor 111, a sound sensor 112, and a first light intensity sensor 113.

The transmitting end 100 is provided with a second display device. In this embodiment, the second display device is an indicator lamp 114. Accordingly, the receiving end 200 is provided with a second light intensity sensor (not shown). The indicator lamp 114 is turned on or off according to the intensity of the light fed back by the second light intensity sensor. If the light intensity value is greater than or equal to the preset value, the indicator lamp 114 is turned on; if the light intensity value is less than the predetermined value, the indicator lamp 114 is turned off. When the indicator 114 is turned on, the user of the transmitting end 100 can know that the surrounding of the receiving end 200 is in a lighting state; otherwise, the lamp is in the light-off state.

The first controller 120 is provided with a timing starter (not shown). In general, the illumination in the daytime is relatively strong, and it is unnecessary for people to turn on the light, and at this time, it is unnecessary to determine whether the light is turned on around the transmitting end 100, so that the operating time of the first light intensity sensor 113 of the receiving end 200 is set from six points every night to six points the next morning by the timing starter. The working time can also be adjusted appropriately according to the geographical location of the receiving end 200.

Referring to fig. 4, the receiving end 200 is specifically described:

the receiving end 200 includes a housing, and a second controller 220, a first display device 210, a camera, a weather information collector (not shown), and a second sensor disposed on the housing.

A weather information collector: the weather information of the geographical position of the sending terminal is obtained through the server and displayed through the first display device 210.

The first display device 210 displays weather information, time information, temperature information, and sound information in the form of numbers and/or patterns. In the present embodiment, the first display device 210 includes four display areas, which are a weather display area 211, a time display area 212, a temperature display area 213, and a light emitting area 214. Wherein,

weather display area 211: and displaying the acquired weather information in the form of patterns, such as a sun pattern representing sunny days, a combination of clouds and raindrops representing rainy days, a combination of clouds and lightning representing thunderstorms, and the like.

Temperature display area 213: the temperature value transmitted from the transmitting terminal 100 is displayed in a digital manner, such as "15 ℃.

Light-emitting region 214: the second controller 220 determines whether the surroundings of the transmitting end 100 are in a lighting state or a lighting-off state according to the light intensity value transmitted from the transmitting end 100. If the sound is in a light-on state, the light-emitting region 214 is turned on, and the sound flickers at different frequencies are performed according to the decibel value of the sound transmitted from the transmitting terminal 100; if the light is off, light-emitting region 214 is off. In order to determine whether the surroundings of the transmitting end 100 are in a light-on state or a light-off state, a light intensity critical value is preset, and when the transmitted light intensity value is lower than the light intensity critical value, it is determined that the surroundings of the transmitting end 100 are in the light-off state, and the light-emitting area 214 is closed; otherwise, it is determined as a light-on state, and the light-emitting region 214 is turned on. In the lighting state, the light emitting intensity and the flicker frequency of the light emitting region 214 are adjusted according to the decibel value of the sound transmitted from the transmitting end 100. The luminous intensity and flicker frequency of the luminous region 214 increases with increasing received decibel value. When the light intensity and the flicker frequency of the light-emitting region 214 are large, it is determined that the periphery of the transmitting terminal 100 is relatively hot; when the light intensity and the flicker frequency of the light emitting region 214 are small, it is determined that the surroundings of the transmitting end 100 are relatively quiet.

Time display area 212: when the surrounding of the transmitting end 100 is changed from a light-up state to a light-off state, a time value of the state change is displayed in a numerical form, such as "23: 00". The user of the receiving end 200 can think that the counterpart has gone out of light to sleep and know the sleep time of the user of the transmitting end 100.

The shooting device: for taking a picture and transmitting the obtained picture to the mobile communication terminal to which the transmitting end 100 is connected. The camera 215 and the shooting button 216 are included, and when the shooting button 216 is pressed for 10s, the camera 215 takes a picture and directly transmits the picture to the mobile communication terminal where the transmitting terminal 100 is located. The user of the receiving end 200 can feed back his/her own close condition to the user of the transmitting end 100 by taking a picture.

A second sensor: the physical quantity for detecting the environmental status around the receiving end 200 is fed back to the transmitting end 100. In this embodiment, the second sensor is a second light intensity sensor.

The receiving end 200 may be provided with a housing 230, and the housing 230 has a house shape with an upper portion being a slanted top and a lower portion being a square. By designing the shape of the housing 230 of the receiving end 200 to be house-like, the surrounding environment of the transmitting end 100 is simulated as a case of a small house. The front of the house has a window with a light-emitting area 214. And a second light intensity sensor is arranged on the back surface of the house. The roof is provided with a camera 215. A weather display area 211, a time display area 212, and a temperature display area 213 are sequentially disposed from left to right above the window. In addition, the top of the house is also provided with a vertical chimney, and a shooting button 216 is arranged in the chimney. The user of the receiving end 200 can visually see the environment of the transmitting end 100 and is vivid.

In other embodiments, the transmitting end 100 may also be connected with other data ports of the mobile communication terminal, such as a USB port. Accordingly, the data transfer head 140 is appropriately deformed.

The first sensor 110 and the second sensor of the above embodiments are only examples of temperature sensors, sound sensors, and light intensity sensors, but are not limited to the above sensors, and may be devices that can collect physical quantities of the surrounding environment, such as humidity sensors, fire sensors, and smoke sensors. At the same time, the corresponding display device will make adjustments. The mobile communication terminal can also be a palm computer or other communication equipment supporting wireless internet access.

In the remote communication device, the transmitting end 100 uses a mobile communication terminal as a carrier, detects physical quantities of the ambient environmental state by using the first sensor 110, performs data processing on the collected physical quantities by using the first controller 120 to obtain environmental information, and then transmits the environmental information to the mobile communication terminal. The mobile communication terminal transmits the data to the server, the server transmits the data to the receiving terminal 200 through the internet, and the second controller 220 performs data processing on the environment information to obtain environment data, which is displayed through the first display device 210. The user only needs to connect the transmitting end 100 to the mobile communication terminal and then set the first controller 120. The receiving end 200 is connected to the internet, and then the receiving end 200 can receive and display the environmental information around the transmitting end 100, thereby knowing the situation of the other party. The remote communication equipment collects the environment condition of the transmitting end 100 through the sensor, then directly displays the environment condition on the first display device 110 of the receiving end 200, has simple operation and very convenient carrying, and a user of the receiving end 200 can know the condition of the surrounding environment of the remote transmitting end 100 by watching the first display device 110, can not disturb the other party, and can be used as an auxiliary device for the emotional communication of people in different places.

In addition, the user of the receiving end 200 can know the ambient temperature condition, sleep condition, weather condition, and emotional condition of the user of the transmitting end 100, and can also transmit the user's own nearby condition to the other party in the form of a picture by the photographing device. The user of the transmitting end 100 can know whether the user of the receiving end 200 has gone to sleep through the indicator lamp 114. In this way, both the user of the receiving end 100 and the user of the transmitting end 200 can know the situation of the other. Particularly, children at a remote location can observe the daily condition of the parent without disturbing the parent. In contrast, the parent can also know the condition of the child in this way without any complicated operation.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A telecommunication device, comprising a transmitting end and a receiving end, wherein,

the sending terminal is electrically connected to the mobile communication terminal and comprises a first sensor and a first controller; the receiving end comprises a second controller and a first display device;

the first sensor detects physical parameters of the environment state, the first controller performs data processing on the physical parameters to obtain environment information, and the mobile communication terminal sends the environment information to the server;

the server sends the environment information to the receiving end through the Internet, the second controller carries out data processing on the environment information received by the receiving end to obtain environment data, and the first display device displays the environment data.

2. The telecommunication device according to claim 1, wherein the receiving end further comprises a second sensor, the transmitting end further comprises a second display device, the second sensor detects physical parameters of the environment state where the receiving end is located, the second controller performs data processing on the physical parameters to obtain feedback environment information and transmits the feedback environment information to the server, and the server transmits the feedback environment information to the second display device of the transmitting end through the internet for display.

3. The telecommunications apparatus of claim 1, wherein the first display device displays the environmental data in a pattern and/or a digital format.

4. The telecommunication device as claimed in claim 1, wherein the receiving end is provided with a photographing device for photographing and transmitting the obtained photograph to the mobile communication terminal connected to the transmitting end for displaying.

5. The telecommunication device of claim 1, wherein the receiving end is provided with a weather information collector, and the weather information collector displays the weather information of the geographical position of the sending end through the server and the first display device.

6. The telecommunications apparatus of claim 1, wherein the receiving end is provided with a housing in the form of a house having a slanted top at an upper portion and a square bottom at a lower portion.

7. The telecommunications device of claim 1, wherein the first sensor comprises one or more of a temperature sensor, a sound sensor, and a first light intensity sensor.

8. The telecommunication apparatus of claim 7, wherein the second controller determines whether the surrounding of the transmitting end is in a light-on state or a light-off state according to the light intensity value transmitted from the transmitting end, and if the surrounding of the transmitting end is in the light-on state, the first display device is turned on, and simultaneously flashes at different frequencies according to the decibel value of the sound transmitted from the transmitting end; if the status is light-off, the first display device is turned off.

9. The telecommunication terminal according to claim 2, wherein the second sensor is a second light intensity sensor, the second display device adjusts the display status according to the light intensity fed back by the second light intensity sensor, and if the light intensity is greater than or equal to a preset value, the second display device is turned on; and if the light intensity value is smaller than the preset value, the second display device is closed.

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