CN111093146A - Emergency communication system and emergency communication method - Google Patents

Abstract

The invention relates to the technical field of communication, in particular to an emergency communication system and an emergency communication method, wherein the system comprises: a wearing assembly having a guide rail; wherein the wearing component is used for wearing on a human body; one end of the adjusting component is connected with the guide rail, and the other end of the adjusting component is used for fixing communication equipment; wherein, the adjusting component is used for adjusting the position and the angle of the communication equipment. This system is including setting up the guide rail on wearing the subassembly to and one end is connected with the guide rail, and communication equipment's adjustment subassembly is fixed to the other end, through adjustment subassembly adjustment communication equipment's position and angle, utilizes wearing the subassembly to realize communication equipment's fixing on the one hand, and on the other hand utilizes the adjustment subassembly can adjust its position and angle, has simplified this emergency communication system's operation, can improve emergency operation personnel's the efficiency of operating this emergency communication system.

Description

Emergency communication system and emergency communication method

Technical Field

The invention relates to the technical field of communication, in particular to an emergency communication system and an emergency communication method.

Background

When serious natural disasters occur and emergency treatment is urgently needed, the work efficiency of front-line emergency treatment personnel is improved, and loss and casualties can be obviously reduced. The emergency of disasters needs to be completed rapidly in industries such as electric power, hydraulic power, medical treatment, traffic and the like, an efficient and stable communication mode is needed to connect an emergency site and an emergency command center, and meanwhile, the communication means does not interfere with the service working capacity of shut-down disposal personnel.

In the existing emergency communication system, satellite communication and other communication modes are fused to ensure the emergency field communication capability. Even when the field communication capacity is guaranteed, the emergency operation system is complex to operate, so that the working efficiency of emergency disposal personnel is low, and the emergency disposal efficiency is also influenced.

Disclosure of Invention

In view of this, embodiments of the present invention provide an emergency communication system and an emergency communication method, so as to solve the problem that an emergency processing system is complex to operate.

According to a first aspect, an embodiment of the present invention provides an emergency communication system, including:

a wearing assembly having a guide rail; wherein the wearing component is used for wearing on a human body;

one end of the adjusting component is connected with the guide rail, and the other end of the adjusting component is used for fixing communication equipment; wherein, the adjusting component is used for adjusting the position and the angle of the communication equipment.

The emergency communication system provided by the embodiment of the invention comprises a guide rail arranged on a wearing component and an adjusting component, wherein one end of the adjusting component is connected with the guide rail, the other end of the adjusting component is used for fixing the communication equipment, and the position and the angle of the communication equipment are adjusted through the adjusting component.

With reference to the first aspect, in a first implementation manner of the first aspect, the adjusting component includes:

a connecting part connected with the guide rail;

a fixing part for fixing the communication device;

one end of the first mechanical arm is connected with the connecting part, and the other end of the first mechanical arm is hinged with the fixing part; wherein the first robot arm moves relative to the rail based on the connection portion.

With reference to the first aspect, in a second embodiment of the first aspect, the system further includes:

and the voice control device is connected with the communication equipment, and the communication equipment is provided with a voice processing module adaptive to the voice control device and used for performing voice control on the emergency communication system.

According to the emergency communication system provided by the embodiment of the invention, the voice control device is adopted to carry out voice control on the emergency communication system, so that the time for manually holding and operating the communication equipment is reduced, the hands are released, and the efficiency of field emergency disposal work is improved.

With reference to the first aspect, or the first embodiment of the first aspect, or the second embodiment of the first aspect, in a third embodiment of the first aspect, the system further includes:

a communication device connected with the communication apparatus; wherein the communication mode of the communication device is different from the communication mode of the communication equipment.

According to the emergency communication system provided by the embodiment of the invention, the communication device with the communication mode different from that of the communication equipment is arranged in the emergency communication system, so that when one communication mode fails, the device or equipment corresponding to the other communication mode can still be used, and the reliability of the emergency communication system can be ensured.

With reference to the third embodiment of the first aspect, in the fourth embodiment of the first aspect, the communication device is connected to the guide rail through a second mechanical arm.

According to the emergency communication system provided by the embodiment of the invention, the communication device is connected with the guide rail through the second mechanical arm, so that the position of the communication device can be adjusted, and the communication reliability of the emergency communication system is ensured.

With reference to the fourth implementation manner of the first aspect, in the fifth implementation manner of the first aspect, the system further includes:

a power management device having a first power supply unit;

the power management device is respectively connected with the communication equipment and the voice control device and is used for controlling the first power supply unit to charge the communication equipment and/or the voice control device.

According to the emergency communication system provided by the embodiment of the invention, the first power supply unit is controlled to charge the communication equipment and/or the voice control device, namely, the service time of the communication equipment and/or the voice control device is ensured to the greatest extent through automatic electric quantity control.

With reference to the fifth implementation manner of the first aspect, in the sixth implementation manner of the first aspect, the communication device further includes:

a second power supply unit; the communication device is connected with the power management device, and the power management device is used for controlling the second power supply to charge the communication equipment and/or the voice control device.

With reference to the sixth implementation manner of the first aspect, in the seventh implementation manner of the first aspect, the power management device includes:

a first power control circuit having an input connected to the communication device and an output connected to the communication device and the voice control apparatus, respectively;

the first power supply control circuit is used for controlling the first power supply unit and/or the second power supply unit to charge the communication equipment and/or the voice control device based on the output signal of the communication equipment.

With reference to the sixth implementation manner of the first aspect, in the eighth implementation manner of the first aspect, the power management device includes:

a second power control circuit having inputs connected to the communication device and the communication apparatus, respectively; the second power supply control circuit is used for controlling the first power supply unit and/or the second power supply unit to charge the communication equipment and/or the voice control device based on the residual power of the communication equipment and the voice control device.

According to a second aspect, an embodiment of the present invention further provides an emergency communication method, including:

acquiring the relative position between the communication equipment and the human body;

controlling an adjustment component to adjust the position and angle of the communication device based on the relative position; wherein, the one end of adjustment subassembly is connected with the guide rail of wearing in the subassembly, and the other end is used for fixed communication equipment.

According to the emergency communication method provided by the embodiment of the invention, based on the relative position adjustment between the communication equipment and the human body, namely the relative position between the communication equipment and the human body is automatically adjusted, the operation of emergency operators on the emergency communication system can be simplified; namely, utilize the wearing subassembly to realize communication equipment's fixing on the one hand, on the other hand utilizes the adjusting part can adjust its position and angle, can improve emergency operation personnel's the efficiency of operating this emergency communication system.

With reference to the second aspect, in a first embodiment of the second aspect, the method further comprises:

acquiring the residual electric quantity of the communication equipment;

judging whether the residual electric quantity of the communication equipment is smaller than a first electric quantity threshold value or not;

when the residual capacity of the communication equipment is smaller than the first capacity threshold value, judging whether a first power supply unit in a power supply management device and/or a second power supply unit in a communication device has residual capacity; wherein the power management device is connected with the communication equipment and the communication device respectively, and the communication device is connected with the communication equipment;

when the first power supply unit in the power management device and/or the second power supply unit in the communication device have the residual capacity, controlling the first power supply unit and/or the second power supply unit to charge the communication equipment.

According to the emergency communication method provided by the embodiment of the invention, the service time of the communication equipment and/or the voice control device is ensured to the greatest extent through automatic electric quantity control.

With reference to the first embodiment of the second aspect, in a second embodiment of the second aspect, the method further comprises:

when the residual electric quantity of the communication equipment is larger than or equal to the first electric quantity threshold value, judging whether a voice control device stops working or not; the voice control device is connected with the communication equipment, and the communication equipment is provided with a voice processing module which is adaptive to the voice control device and is used for performing voice control on the emergency communication system;

when the voice control device stops working, judging whether a first power supply unit in the power supply management device and/or a second power supply unit in the communication device has residual electric quantity;

when the first power supply unit in the power management device and/or the second power supply unit in the communication device have the residual capacity, controlling the first power supply unit and/or the second power supply unit to charge the voice control device.

Drawings

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

Fig. 1 is a schematic structural diagram of an emergency communication system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an adjustment assembly according to an embodiment of the invention;

fig. 3 is a schematic structural diagram of an emergency communication system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an emergency communication system according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an emergency communication system according to an embodiment of the present invention;

FIG. 6 is a flow chart of an emergency communication method according to an embodiment of the invention;

fig. 7 is a flow chart of an emergency communication method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An emergency communication system provided by an embodiment of the present invention, as shown in fig. 1, includes a wearing component 10 and an adjusting component 20. Wherein the wearing assembly 10 is adapted to be worn on a human body.

The specific structure of the wearing assembly 10 can be set according to actual conditions, for example, it can be a waistcoat, a neck ring, etc. The specific structure of the wearing assembly 10 is not limited herein, and it is only necessary to ensure that the wearing assembly 10 has the guide rails. The guide rail may be a closed guide rail or a non-closed guide rail, and the specific form of the guide rail is not limited in any way.

One end of the adjusting component 20 is connected with the guide rail, the other end is used for fixing the communication equipment, and the adjusting component 20 is used for adjusting the position and the angle of the communication equipment. The connection relationship between the adjusting assembly and the guide rail can be specifically set according to actual conditions, for example, the guide rail has a groove, the adjusting assembly 20 has a connecting part adapted to the groove, and the connecting part can slide in the groove, so as to drive the communication device to move, and adjust the position of the communication device; or, the adjusting component 20 has a connecting portion adapted to the size of the guide rail, the connecting portion is sleeved on the guide rail, and the connecting portion slides along the guide rail, so as to drive the communication device to move, and adjust the position of the communication device.

Wherein, the adjustment of the position and the angle of the communication equipment can be that the emergency personnel manually operate the adjustment component to adjust the position and the angle of the communication equipment; the relative position between the communication device and the emergency treatment personnel can be monitored in real time by the communication device, the position and the angle are calculated based on the relative position, so that an adjustment instruction is formed, the position and the angle of the communication device are adjusted, the antenna of a communication module built in the communication device is not blocked by the emergency treatment personnel, a display screen of the communication device can be over against human eyes, and the like, the adjustment mode of the communication device can be specifically set according to the actual situation, and the adjustment mode is not limited at all.

The emergency communication system of this embodiment, this system is including setting up the guide rail on wearing subassembly 10 to and one end is connected with the guide rail, and the adjustment assembly 20 of the fixed communication equipment of other end, through adjustment assembly 20 adjustment communication equipment's position and angle, utilize wearing subassembly 10 can realize fixed of communication equipment on the one hand, on the other hand utilizes adjustment assembly 20 to adjust its position and angle, has simplified this emergency communication system's operation, can improve the efficiency that emergency operating personnel operated this emergency communication system.

As an alternative embodiment of this embodiment, as shown in fig. 2, the adjusting assembly 20 includes a connecting portion 21, a fixing portion 22 and a first robot arm 23.

Wherein, connecting portion 21 and guide rail adaptation, it slides for the guide rail to drive the communication equipment motion. The connecting portion 21 may be a sliding block adapted to the guide rail, or a ring-shaped member adapted to the guide rail, and may be specifically configured according to actual conditions, and only needs to be ensured to slide relative to the guide rail.

The fixing portion 22 is used to fix the communication device 10, for example, the fixing portion 22 is implemented by using a clamping member, and the communication device 10 is fixed by using the clamping member, or alternatively, the fixing portion 22 may be implemented by using a magnetic attraction type fixing manner, an adhesive type fixing manner, or the like.

One end of the first mechanical arm 23 is connected to the connecting portion 21, and the other end is hinged to the fixing portion 22. As for the specific structure of the connecting portion 21, as shown above, since the first mechanical arm 23 is connected to the guide rail through the connecting portion 21, the first mechanical arm 23 is driven to move relative to the guide rail when the connecting portion 21 moves relative to the guide rail. The other end of the first mechanical arm 23 is hinged to the fixing portion 23, for example, the fixing portion may be connected to a spherical hinge, so that the communication device fixed on the fixing portion 23 can rotate relative to the first mechanical arm 23 by using the spherical hinge; of course, the other end of the first mechanical arm 23 and the fixing portion 23 may be hinged in other manners. The first mechanical arm 23 may be a multi-degree-of-freedom mechanical arm, and may be specifically configured according to actual conditions, which is not limited herein.

The action of the first mechanical arm 23 may be manual operation by emergency personnel, or an adjustment module in the communication device may form an adjustment instruction based on a corresponding algorithm to control the action of the first mechanical arm 23 and the connection portion 21. It should be noted that, when the actions of the first robot arm 23 and the connecting portion 21 are controlled by control commands, the adjusting component further includes a corresponding control unit and a communication connection, so as to ensure that the first robot arm 23 and the connecting portion 21 can execute the adjusting commands.

In some optional embodiments of this embodiment, as shown in fig. 3, the emergency communication system further includes a voice control device 30, the voice control device 30 is connected to the communication apparatus 10, and the communication apparatus 10 has a voice processing module adapted to the voice control device, and is configured to perform voice control on the communication apparatus 10.

As shown in fig. 4, the voice control device 30 may be a wireless headset or other voice control device. The voice control device 30 is configured to collect an audio signal of an emergency treatment staff, and send the collected audio signal to a voice processing module in the communication device 10, where the voice processing module converts the received audio signal into a corresponding control instruction to control the emergency communication system. For example, the speech processing module may be an acoustic I/O. When the emergency communication system is controlled, voice control can be performed on the communication equipment, or voice control can be performed on the adjusting component. The wireless headset is connected with the acoustic I/O in the communication equipment, commands are input through a voice input mode, and instructions are output through a voice synthesis mode by the communication equipment. For example, an audio signal sent by the emergency treatment personnel is 'open the address book', and a control instruction is formed after the voice processing module receives the audio signal to control the communication equipment to open the address book. For another example, the audio signal sent by the emergency disposal person is "mobile communication device to the position", and after the voice processing module receives the audio signal, a control instruction is formed to control the adjustment component to move the communication device to the position.

In the emergency communication system in this embodiment, the voice control device 30 is used to perform voice control on the communication device 10, so that the time for manually holding the communication device 10 and operating the communication device 10 is reduced, both hands are released, and the efficiency of the field emergency disposal work is improved.

Optionally, as shown in fig. 4, the emergency communication system further includes a communication device 40, and the communication device 40 is connected to the communication device 10. Wherein the communication mode of the communication device 40 is different from that of the communication apparatus 10. For example, the communication mode of the communication device 10 is an astronomical satellite, and the communication mode of the communication apparatus 40 is a beidou satellite system. By providing the communication device 40 in the emergency communication system in a mode different from the communication mode of the communication apparatus 10, it can be ensured that, when one of the communication modes fails, the device or apparatus corresponding to the other communication mode can still be used, and the reliability of the emergency communication system can be ensured.

The communication device 40 may be fixed on the body of the emergency treatment personnel, or may be connected to the guide rail through a second mechanical arm, so as to adjust the position and angle of the communication device 40. For example, the connection mode of the communication device 40 and the guide rail can be referred to as the connection mode of the communication device and the guide rail, and the connection mode of the communication device 40 and the guide rail is not limited at all, and only the position and the angle of the communication device 40 are ensured to be adjustable.

As an alternative embodiment of this embodiment, as shown in fig. 4, the emergency communication system further includes a power management device 50, and the power management device 50 has a first power supply unit. The power management device 50 is connected to the communication device 10 and the voice control device 30, and the power management device 50 is used for controlling the first power supply unit to charge the communication device and/or the voice control device.

Specifically, the power management device 50 includes a first power control circuit, an input end of which is connected to the communication device 10, and an output end of which is connected to the communication device 10 and the voice control device 30, respectively. The communication device 10 acquires the remaining power of the communication device and the voice control device 30, and when the remaining power of one of the communication device and the voice control device is lower than a threshold value, a charging control instruction can be formed to control the first power supply unit to charge the first power supply unit; the first power control circuit may be a power control circuit formed by a relay or a controllable switch, and the power control circuit is controlled by the control instruction to charge the communication device 10 or the voice control apparatus 30 by the first power supply unit.

Further, the communication device 40 further comprises a second power supply unit, wherein the communication device is connected to a power management device for controlling the second power supply to charge the communication device and/or the voice control device. For a specific charging manner, reference may be made to a manner in which the first power supply unit charges the communication device and/or the voice control apparatus.

As an alternative to this embodiment, the power management device 50 includes a second power control circuit, the inputs of which are connected to the communication apparatus 10 and the communication device 30, respectively; the second power supply control circuit is used for controlling the first power supply unit and/or the second power supply unit to charge the communication equipment and/or the voice control device based on the residual power of the communication equipment 10 and the voice control device. Specifically, the second power supply control circuit is a programmable logic device, and the second power supply circuit obtains the remaining power of the communication device 10 and the voice control device 40, and controls the first power supply unit and/or the second power supply unit to charge the first power supply unit and/or the second power supply unit when the remaining power of one of the communication device and the voice control device is lower than a preset value.

Thus, for the power management apparatus 50, it may be that the first power control circuit is used in conjunction with the communication device to control the charging of the first power unit and/or the second power unit to other devices or apparatuses; the second power control circuit may be used to control the charging of the first power unit and/or the second power unit to other devices or apparatuses.

Wherein, a description will be made below regarding a specific electricity amount control method.

According to the emergency communication system provided by the embodiment, the first power supply unit is controlled to charge the communication equipment and/or the voice control device, namely, the service time of the communication equipment and/or the voice control device is guaranteed to the greatest extent through automatic electric quantity control.

As a specific application example of the emergency communication system in the embodiment of the present invention, as shown in fig. 5, the emergency communication system includes: wearing subassembly 10, adjustment subassembly 20, communication device 30, voice control device 40 and communication device 50.

A communication device is fixed to the adjustment unit 20, and a software program module corresponding to each hardware device of the emergency communication system is built in the communication device and is used for correspondingly controlling each hardware device. Referring to fig. 5, the communication device includes hardware and software of the satellite communication module, and can independently perform satellite communication to the outside. The electric quantity management system, the adjustment control module, the standby communication system and the acoustic I/O in the communication equipment are software modules for controlling the external connection hardware of the communication equipment. The electric quantity management system is used for adjusting the electric quantity of various devices on the body of the emergency disposal personnel, and the emergency communication can be ensured to run for a long time. The communication device is connected with the standby communication system and the power management system in the communication equipment, is the independent satellite communication equipment in the embodiment, and completes external satellite communication when the communication equipment is damaged. The adjusting assembly 20 is connected with a suspension control module and a power management device in the communication equipment and is responsible for position control of the communication equipment. The wireless headset is connected with the acoustic I/O in the communication equipment, commands are input in a voice input mode, and the terminal outputs instructions in a voice synthesis mode. The power management device is connected with the electric quantity management system, the communication device, the adjusting assembly and the wireless headset of the communication equipment, controls the external output of the power supply units in the communication device and the power management device, and supplements energy for the equipment with low electric quantity. The communication device controls other external devices as a core control device. In this embodiment, the adjustment component automatically completes antenna alignment of the communication device in the open state, and fixedly faces the screen of the communication device to emergency personnel in the closed state. Optionally, an adaptive communication module is further included in the communication device, and the communication mode, the communication parameters, the communication protocol and the communication content of the communication device are continuously adjusted from the aspect of software, so that the requirement for emergency handling of the communication service is met to the maximum extent.

The emergency treatment system wearing component 10 fixes the adjusting component 20 on the body of an emergency personnel and is connected with the wireless headset, the power management device, the communication device and the communication equipment in a wired mode. The power supply unit in the communication device and the power supply management device supplements the electric quantity for the communication equipment and the wireless headset in a wired mode. And the communication among the devices is completed through the wireless network, and the wired connection is cut off, so that the emergency treatment service of the system is not influenced. The power management device and the communication device can be respectively and independently fixed on the body of an emergency worker. The wired connection in fig. 5 represents a line connection path and does not limit the flexibility of power transmission. When needed, the power inside the communication device can pass through the wearing component, but the rotary loan component is not powered, and the power is directly supplemented to the communication equipment.

In accordance with an embodiment of the present invention, there is provided an emergency communication method embodiment, it being noted that the steps illustrated in the flowchart of the drawings may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowchart, in some cases, the steps illustrated or described may be performed in an order different than presented herein.

In this embodiment, an emergency communication method is provided, which can be used in the communication device, such as a mobile phone, a tablet computer, and the like, fig. 6 is a flowchart of the emergency communication method according to the embodiment of the present invention, as shown in fig. 6, where the flowchart includes the following steps:

s11, a relative position between the communication device and the human body is acquired.

The communication equipment acquires the relative position between the communication equipment and the human body in real time, and the acquisition of the relative position can be measuring the distance between the communication equipment and the human body or comprehensively calculating the relative position between the communication equipment and the human body by combining with the image of the current body posture of the human body. Of course, other ways of obtaining the relative position are also possible, and the specific form is not limited in any way here.

And S12, controlling the adjusting component to adjust the position and the angle of the communication equipment based on the relative position.

Wherein, the one end of adjustment subassembly is connected with the guide rail of wearing in the subassembly, and the other end is used for fixed communication equipment.

The method can realize that the optimal form of the relative position between the communication equipment and the human body is stored in the memory of the communication equipment, after the communication equipment acquires the relative position between the communication equipment and the human body, the current relative position can be matched with the optimal relative position to calculate the relative error, and after the relative error is obtained, a control instruction can be formed to control the adjusting component to adjust the position and the angle of the communication equipment.

The optimal relative position may be that the display screen of the communication device faces the human eye, the antenna of the communication module built in the communication device is not shielded by the human body, and the like. The optimal relative position can be set specifically according to the actual situation, and is not limited in any way here.

For details of the adjusting assembly and the wearing assembly, please refer to the related descriptions of the embodiments shown in fig. 1 to 5, which are not repeated herein.

According to the emergency communication method provided by the embodiment, the operation of emergency operators on the emergency communication system can be simplified based on the adjustment of the relative position between the communication equipment and the human body, namely the relative position between the communication equipment and the human body is automatically adjusted; namely, utilize the wearing subassembly to realize communication equipment's fixing on the one hand, on the other hand utilizes the adjusting part can adjust its position and angle, can improve emergency operation personnel's the efficiency of operating this emergency communication system.

In this embodiment, an emergency communication method is provided, which can be used in the communication device, such as a mobile phone, a tablet computer, and the like, fig. 7 is a flowchart of the emergency communication method according to the embodiment of the present invention, as shown in fig. 7, the flowchart includes the following steps:

s201, acquiring the relative position between the communication equipment and the human body.

Please refer to S11 in fig. 6 for details, which are not described herein.

S202, controlling the adjusting component to adjust the position and the angle of the communication equipment based on the relative position.

Wherein, the one end of adjustment subassembly is connected with the guide rail of wearing in the subassembly, and the other end is used for fixed communication equipment.

Please refer to S12 in fig. 6 for details, which are not described herein.

And S203, acquiring the residual power of the communication equipment.

And S204, judging whether the residual electric quantity of the communication equipment is smaller than a first electric quantity threshold value.

After acquiring the remaining power of the communication device, the communication device compares the remaining power with a first power threshold, and executes S205 when the remaining power of the communication device is smaller than the first power threshold; otherwise, S207 is executed.

And S205, judging whether the first power supply unit in the power supply management device and/or the second power supply unit in the communication device have residual power.

The power management device is respectively connected with the communication equipment and the communication device, and the communication device is connected with the communication equipment.

When the first power supply unit in the power management apparatus and/or the second power supply unit in the communication apparatus has the remaining power, it indicates that the communication device can be replenished with the remaining power of the first power supply unit and/or the second power supply unit, that is, S206 is executed; otherwise, S207 is executed.

And S206, controlling the first power supply unit and/or the second power supply unit to charge the communication equipment.

The communication equipment controls the first power supply unit and/or the second power supply unit to charge the first power supply unit and/or the second power supply unit, and the residual electric quantity of the communication equipment, the first power supply unit and the second power supply unit is detected in real time in the charging process; for example, when the remaining power of the communication device is greater than or equal to the first power threshold, S207 is performed; when the first power supply unit and/or the second power supply unit has no remaining power, S210 is performed.

And S207, judging whether the voice control device stops working or not.

The voice control device is connected with the communication equipment, and the communication equipment is provided with a voice processing module adapted to the voice control device and used for performing voice control on the emergency communication system.

When the voice control device stops working, S208 is executed; otherwise, S204 is executed.

And S208, judging whether the first power supply unit in the power supply management device and/or the second power supply unit in the communication device have residual capacity.

Executing S209 when the first power supply unit in the power management device and/or the second power supply unit in the communication device has a remaining power; otherwise, S210 is performed.

And S209, controlling the first power supply unit and/or the second power supply unit to charge the voice control device.

When the communication equipment detects that the voice control device stops working, and when the first power supply unit and/or the second power supply unit have residual electric quantity, the communication equipment controls the first power supply unit and/or the second power supply unit to charge the voice control device so as to supplement the electric quantity for the voice control device.

S210, the charging to the communication device or the voice control apparatus is stopped.

When first power supply unit and second power supply unit all do not have the residual capacity, stop to communication equipment, or voice control device charges, this emergency communication system utilizes the residual capacity of each equipment to work, can indicate emergency treatment personnel to need to charge this system simultaneously.

According to the emergency communication method provided by the embodiment, the service time of the communication equipment and/or the voice control device is guaranteed to the greatest extent through automatic electric quantity control.

As a specific implementation manner of this embodiment, a charging process of the emergency communication system is described as follows: the whole system starts to operate from the communication equipment, the communication equipment restarts the power management device, the wearing assembly, the voice control device and the communication device, and then enters an electric quantity management flow. The remaining capacity of the communication device is checked first, the remaining capacities of the power management means and the communication means are detected when the capacity is less than a certain threshold, and the communication device is powered by the power management means or the power unit of the communication means when there is reserve energy for power supply until the capacity of the communication device exceeds the threshold. And when the power of the detection terminal is higher than the threshold value, entering a power supplementing flow for the voice control device, wherein the whole flow is the same as the power supplementing flow for the communication equipment. And restarting the detection process when the electric quantity of the communication equipment and the electric quantity of the voice control device are not lower than the threshold value. And when detecting that the power supply control device and the communication device have no replenishable electric energy, ending the energy replenishing flow until the energy of the communication terminal is exhausted, and stopping the system.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (12)

1. An emergency communication system, comprising:

a wearing assembly having a guide rail; wherein the wearing component is used for wearing on a human body;

one end of the adjusting component is connected with the guide rail, and the other end of the adjusting component is used for fixing communication equipment; wherein, the adjusting component is used for adjusting the position and the angle of the communication equipment.

2. The system of claim 1, wherein the adjustment component comprises:

a connecting part connected with the guide rail;

a fixing part for fixing the communication device;

one end of the first mechanical arm is connected with the connecting part, and the other end of the first mechanical arm is hinged with the fixing part; wherein the first robot arm moves relative to the rail based on the connection portion.

3. The system of claim 1, further comprising:

and the voice control device is connected with the communication equipment, and the communication equipment is provided with a voice processing module adaptive to the voice control device and used for performing voice control on the emergency communication system.

4. The system according to any one of claims 1-3, further comprising:

a communication device connected with the communication apparatus; wherein the communication mode of the communication device is different from the communication mode of the communication equipment.

5. The system of claim 4, wherein the communication device is coupled to the rail via a second robotic arm.

6. The system of claim 5, further comprising:

a power management device having a first power supply unit;

the power management device is respectively connected with the communication equipment and the voice control device and is used for controlling the first power supply unit to charge the communication equipment and/or the voice control device.

7. The system of claim 6, wherein the communication device further comprises:

a second power supply unit; the communication device is connected with the power management device, and the power management device is used for controlling the second power supply to charge the communication equipment and/or the voice control device.

8. The system of claim 7, wherein the power management device comprises:

a first power control circuit having an input connected to the communication device and an output connected to the communication device and the voice control apparatus, respectively;

the first power supply control circuit is used for controlling the first power supply unit and/or the second power supply unit to charge the communication equipment and/or the voice control device based on the output signal of the communication equipment.

9. The system of claim 7, wherein the power management device comprises:

a second power control circuit having inputs connected to the communication device and the communication apparatus, respectively; the second power supply control circuit is used for controlling the first power supply unit and/or the second power supply unit to charge the communication equipment and/or the voice control device based on the residual power of the communication equipment and the voice control device.

10. An emergency communication method, comprising:

acquiring the relative position between the communication equipment and the human body;

controlling an adjustment component to adjust the position and angle of the communication device based on the relative position; wherein, the one end of adjustment subassembly is connected with the guide rail of wearing in the subassembly, and the other end is used for fixed communication equipment.

11. The method of claim 10, further comprising:

acquiring the residual electric quantity of the communication equipment;

judging whether the residual electric quantity of the communication equipment is smaller than a first electric quantity threshold value or not;

when the residual capacity of the communication equipment is smaller than the first capacity threshold value, judging whether a first power supply unit in a power supply management device and/or a second power supply unit in a communication device has residual capacity; wherein the power management device is connected with the communication equipment and the communication device respectively, and the communication device is connected with the communication equipment;

when the first power supply unit in the power management device and/or the second power supply unit in the communication device have the residual capacity, controlling the first power supply unit and/or the second power supply unit to charge the communication equipment.

12. The method of claim 11, further comprising:

when the residual electric quantity of the communication equipment is larger than or equal to the first electric quantity threshold value, judging whether a voice control device stops working or not; the voice control device is connected with the communication equipment, and the communication equipment is provided with a voice processing module which is adaptive to the voice control device and is used for performing voice control on the emergency communication system;

when the voice control device stops working, judging whether a first power supply unit in the power supply management device and/or a second power supply unit in the communication device has residual electric quantity;

when the first power supply unit in the power management device and/or the second power supply unit in the communication device have the residual capacity, controlling the first power supply unit and/or the second power supply unit to charge the voice control device.

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