CN220440867U - Voice intercom communication system - Google Patents

Abstract

The application provides a voice intercom communication system. The voice intercom communication system comprises a service end device and at least one terminal device, wherein the at least one terminal device comprises a first terminal device. The first terminal device comprises a communication module and a detection module. The first terminal device can receive the voice signal sent by the server device through the communication module, and the voice signal transmission is achieved. In addition, the detection module of the first terminal device may detect an environment around the first terminal device, so as to determine whether a harmful gas exists in the environment where the first user is located. If the detection module detects that harmful gas exists in the environment where the first user is located, the terminal equipment can send a first alarm signal to the server-side equipment so as to inform the server-side equipment that the position where the user corresponding to the first terminal equipment is located possibly exists harmful gas, and the physical security of the first user is threatened. Therefore, dangerous environments can be found in time, and the user is prevented from being injured.

Description

Voice intercom communication system

Technical Field

The utility model relates to the technical field of communication equipment, in particular to a voice intercom communication system.

Background

The voice intercom communication system can realize voice communication between more than two users, and is widely applied in a plurality of fields. The voice intercom communication system may comprise at least two terminal devices. The terminal devices can communicate through a preset frequency band so as to realize the transmission of voice signals.

In some application scenarios where command is required, a voice intercom communication system including a server device and at least one communication terminal may be used. The user using the server device may send a voice signal to the communication terminal through the server device, and the user using the terminal device may send a voice signal to the server device through the terminal device. In this way, the director can send voice instructions to one or more terminal devices through the server device, and can also receive information reported by a user using the terminal devices through the server device.

In a scene of using a voice intercom communication system including a server-side device, a scene with a relatively complex working condition is often used. In these scenarios, the physical health of the user using the terminal device may be compromised.

Disclosure of Invention

In view of this, the present application provides a voice intercom communication system under complex working conditions, which aims to monitor the physical condition of the user of the terminal device.

In a first aspect, the present application provides a voice intercom communication system, where the system includes a server device and a first terminal device; the first terminal device comprises a communication module;

the communication module is used for sending a first voice signal to the server-side equipment;

the server device is used for receiving a first voice signal sent by the server device;

the terminal equipment further comprises a detection module;

the detection module is used for detecting whether harmful gas exists around the first terminal equipment;

the communication module is further configured to send a first alarm signal to the server device when the harmful gas exists around the first terminal device.

In some possible implementations, the first terminal device further includes a prompt module,

and the prompting module is used for prompting the first user through a first mode when the harmful gas exists around the first terminal equipment.

In some possible implementations, the first terminal device includes a headset portion;

the prompting module is specifically configured to play a first audio through the headset part, where the first audio is used to prompt the first user that the harmful gas exists around the first user.

In some possible implementations, the alert module includes a first alert light,

the prompting module is specifically configured to control the first prompting lamp to be turned on when the harmful gas exists around the first terminal device.

In some possible implementations, the harmful gas includes one or more of the following:

carbon monoxide and hydrogen sulfide.

The application provides a voice intercom communication system. The voice intercom communication system comprises a service end device and at least one terminal device, wherein the at least one terminal device comprises a first terminal device. The first terminal device comprises a communication module and a detection module. The first terminal device can receive the voice signal sent by the server device through the communication module, and the voice signal transmission is achieved. Optionally, the first terminal device may also send a voice signal to the server device through the communication module. In addition, the detection module of the first terminal device may detect an environment around the first terminal device, so as to determine whether a harmful gas exists in the environment where the first user is located. Wherein the presence of the harmful gas means that the concentration of the harmful gas exceeds a preset concentration. The preset concentration may be a preset concentration threshold, or may be the lowest concentration that can be detected by the sensor in the detection module. If the detection module detects that harmful gas exists in the environment where the first user is located, the terminal equipment can send a first alarm signal to the server-side equipment so as to inform the server-side equipment that the position where the user corresponding to the first terminal equipment is located possibly exists harmful gas, and the physical security of the first user is threatened. Therefore, dangerous environments can be found in time, and the user is prevented from being injured.

Drawings

In order to more clearly illustrate the present embodiments or the technical solutions in the prior art, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a voice intercom communication system under a complex working condition according to an embodiment of the present application.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions provided by the present utility model, the present utility model will be further described in detail below with reference to specific drawings and specific embodiments.

In disaster relief application scenes such as fire scene rescue, pollutant treatment and the like, disaster relief personnel entering a dangerous area can carry terminal equipment with them. The disaster relief director can send a voice signal to terminal equipment carried by disaster relief personnel through the service end equipment. The terminal equipment can play the voice sent by the disaster relief director so that the disaster relief personnel can act according to the instruction of the disaster relief director. In addition, the disaster relief personnel can also send voice to the disaster relief director through the terminal equipment so as to enable the disaster relief director to know the specific conditions in the dangerous area. And communication can also be carried out between different terminal devices, so that a plurality of disaster relief personnel work cooperatively.

In disaster relief scenarios, there may be a large amount of harmful gases affecting the safety of disaster relief personnel. For example, in a fire scenario, there may be harmful fumes or other harmful gases generated by combustion. In the case of chemical leakage, there may be harmful gases generated by chemical volatilization. In an underground or other enclosed space environment, there may be harmful gases generated for various reasons. If these gases are not protected, the health of the disaster relief personnel may be affected by prolonged exposure to harmful gases.

If harmful gases possibly exist in the scene are known in advance, the prevention can be performed in time. Specifically, disaster relief personnel can choose to wear a gas mask and wear protective clothing to enter a disaster relief site. For example, in a fire or chemical leakage scenario, a gas mask worn by a disaster relief person may effectively protect the health of the disaster relief person. However, if it is not known that there is a harmful gas in the scene, for example, in environments of underground rescue, underground exploration, and article search, the harmful gas may harm the health of disaster relief personnel.

Still alternatively, in some emergency rescue scenarios, enough protection tools may not be available, and then disaster relief personnel may be required to enter a site where harmful gases may be present to perform disaster relief work. Thus, in order to secure the safety of disaster relief personnel, the disaster relief personnel are required to avoid harmful gases as much as possible.

Therefore, in order to ensure the safety of disaster relief personnel, the hand of the disaster relief personnel can be led to enter a disaster relief site. For example, assuming that a disaster relief team includes a plurality of disaster relief personnel, one of the personnel may be provided with a sensing device, the person monitors the concentration of harmful gases in the environment and prompts the other disaster relief personnel to leave after the concentration of harmful gases reaches a threshold. Alternatively, in some more advanced devices, the above mentioned prompting functionality may be integrated in the sensing device in the form of software.

Although the above method can improve the safety of disaster relief personnel, the sensing device in the above method is inconvenient for the disaster relief personnel to carry. For this reason, in the embodiment of the present application, the sensor is integrated in the communication terminal of the voice intercom system so as to be carried by the disaster relief person.

On the other hand, in the disaster relief process, not only disaster relief personnel need to know the situation of the site, but also disaster relief directors need to know the situation of the site. Therefore, the conventional mode of carrying the sensing equipment by the disaster relief personnel also needs to report the concentration condition of the harmful gas to the commander through the voice communication intercom system, and automatic warning cannot be achieved. Therefore, in the embodiment of the application, a simple logic function is deployed in the communication terminal of the voice intercom system, so that whether the concentration of the harmful gas is higher than a preset threshold value can be judged. And when the threshold value is higher than the threshold value, alarming is carried out through the communication module. It can be understood that the above logic function belongs to a simpler judging logic function, and is not different from the traditional condition judging logic, and a person skilled in the art can easily think of the implementation of the judging logic according to the actual requirement.

The application provides a voice intercom communication system. The voice intercom communication system comprises a service end device and at least one terminal device, wherein the at least one terminal device comprises a first terminal device. The first terminal device comprises a communication module and a detection module. The first terminal device can receive the voice signal sent by the server device through the communication module, and the voice signal transmission is achieved. Optionally, the first terminal device may also send a voice signal to the server device through the communication module. In addition, the detection module of the first terminal device may detect an environment around the first terminal device, so as to determine whether a harmful gas exists in the environment where the first user is located. Wherein the presence of the harmful gas means that the concentration of the harmful gas exceeds a preset concentration. The preset concentration may be a preset concentration threshold, or may be the lowest concentration that can be detected by the sensor in the detection module. If the detection module detects that harmful gas exists in the environment where the first user is located, the terminal equipment can send a first alarm signal to the server-side equipment so as to inform the server-side equipment that the position where the user corresponding to the first terminal equipment is located possibly exists harmful gas, and the physical security of the first user is threatened. Therefore, dangerous environments can be found in time, and the user is prevented from being injured.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a voice intercom communication system according to an embodiment of the present application. The voice intercom communication system includes a server apparatus 100 and a first terminal apparatus 200. In addition, the voice intercom communication system may further include a second terminal apparatus 300. Wherein the server device 100 and the first terminal device 200 may establish a connection through a wireless signal, thereby transmitting messages to each other.

In the embodiment of the present application, the first terminal device 200 includes at least a communication module 210 and a detection module 220. Wherein, the communication module 210 is configured to implement wireless communication with the server device 100, and the detection module 220 is configured to detect whether a harmful gas exists around the first terminal device 200.

Wherein the first user refers to a user of the first terminal device 200. Harmful gases refer to gases that the detection module 220 can detect that may pose a threat to the physical monitoring of the first person. Alternatively, the detection module 220 may detect multiple gases. That is, the above-mentioned harmful gas may include various gases that may affect the body of the first user, such as carbon monoxide, hydrogen sulfide, toluene, or other toxic gases, etc.

The detection module 220 detects the harmful gas, and essentially detects the concentration of the harmful gas. The detection module 220 may determine that there is a harmful gas around the first terminal device 200 if the concentration of the harmful gas exceeds a threshold value. The threshold may be a preset threshold or the lowest concentration of the harmful gas that can be detected by the detection module 220. That is, the first terminal device 200 may alert the server device 100 as long as the detection module 220 is able to detect the presence of harmful gases.

If the first terminal device 200 determines that harmful gas exists around the first terminal device 200, the first terminal device 200 may transmit a first alarm signal to the service-side device 100 through the communication module 210. After receiving the first alarm signal, the server device 100 may determine that harmful gas exists around the first terminal device 200 according to the first alarm signal. In this way, the user using the server device 100 can transmit voice to the first terminal device 200 through the server device 100 to instruct the first user to return to the secure area.

Optionally, the first alert signal may include related information indicating the first user. For example, the first alert signal may include an identification of the first terminal device 200. As another example. The first alert signal may also include a user identification of the first user. In this way, after receiving the first alarm signal, the server device 100 may determine, according to the first alarm signal, that the location where the first user is located may have harmful gas, so as to specifically notify the first user to avoid.

In some implementations of the foregoing description, the first terminal device 200 may alert the server device 100 when a harmful gas exists around the first terminal device 200, so that a user of the server device 100 knows that the first user may have a safety hazard. Alternatively, the first terminal device 200 may alert the first user in addition to the alert service 100. For example, the first terminal device 200 may further include a prompt module, where the prompt module is configured to remind the first user.

For example, in a scenario where the first terminal device 200 includes a headset portion, the first terminal device 200 may play a first alert voice to alert the first user that there is a harmful gas in the environment in which the first user is located, and thus, protection or avoidance needs to be performed in time. Accordingly, the circuitry in the headset portion that plays audio may be considered a cue module.

Alternatively, the first terminal device 200 may further include a warning light. After determining that the physical state parameter of the first user is abnormal, the first terminal device 200 may prompt that the first user has harmful gas in the environment where the first user is located by lighting the prompt lamp, so that the first user needs to be protected or avoided in time. Accordingly, the cue light in the first terminal device 200 may be regarded as a cue module.

In an actual application scenario, the connection between the terminal device and the server device may be broken due to the influence of the environment, so that the terminal device may not be able to send an alarm signal to the server device through the connection with the server device. Therefore, in order to enable the detected harmful gas message to be timely acquired by the server side device, the terminal device in the embodiment of the application can also have a forwarding function.

Specifically, after the connection between the second terminal device and the server device is disconnected, the second terminal device may send an alarm signal to the server device through the other terminal device. For example, assuming that the distance between the second terminal device and the server device is far and the distance between the second terminal device and the first terminal device is near, the second terminal device may send a second alarm signal to the first terminal device if harmful gas exists around the second terminal device. The second alarm signal is used for indicating that harmful gas exists around the second terminal equipment. After receiving the second alert signal, the first terminal device may forward the second alert signal to the server device. It will be appreciated that if the connection between the first terminal device and the server device is broken, the first terminal device may also send the first alarm signal and the second alarm signal to the server device through other terminal devices in the voice intercom communication system.

The above is merely a preferred embodiment of the present application, and is not intended to limit the present application in any way. While the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application. Any person skilled in the art may make many possible variations and modifications to the technical solution of the present application, or modify equivalent embodiments, using the methods and technical contents disclosed above, without departing from the scope of the technical solution of the present application. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present application, which do not depart from the content of the technical solution of the present application, still fall within the scope of protection of the technical solution of the present application.

Claims (5)

1. A voice intercom communication system is characterized in that the system comprises a server device and a first terminal device; the first terminal device comprises a communication module;

the communication module is used for sending a first voice signal to the server-side equipment;

the server device is used for receiving a first voice signal sent by the server device;

the terminal equipment further comprises a detection module;

the detection module is used for detecting whether harmful gas exists around the first terminal equipment;

the communication module is further configured to send a first alarm signal to the server device when the harmful gas exists around the first terminal device.

2. The voice intercom communication system of claim 1 wherein said first terminal device further comprises a prompt module,

the prompting module is used for prompting a first user through a first mode when the harmful gas exists around the first terminal equipment, and the first user is a user using the first terminal equipment.

3. The voice intercom communication system of claim 2 wherein said first terminal device comprises a headset portion;

the prompting module is specifically configured to play a first audio through the headset part, where the first audio is used to prompt the first user that the harmful gas exists around the first user.

4. A voice intercom communication system as in claim 2 or 3 wherein said alert module comprises a first alert light,

the prompting module is specifically configured to control the first prompting lamp to be turned on when the harmful gas exists around the first terminal device.

5. The voice intercom communication system of claim 1 wherein said hazardous gas comprises one or more of:

carbon monoxide and hydrogen sulfide.