KR101300027B1 - Intercommunication apparatus for helicopter - Google Patents

Abstract

PURPOSE: A star-type intercommunication apparatus for a helicopter is provided to allow user terminals to perform internal communications and external communications even when there exist a malfunctioning user terminal among a plurality of user terminals. CONSTITUTION: A communication repeater (220) is connected with a plurality of user terminals so as to relay signals from the plurality of user terminal for internal or external communications. A walkie-talkie (230) is connected with the communication repeater so as to transmit or receive the signals from the communication repeater to or from the outside. An external control center (100) connected with the walkie-talkie wirelessly so as to transmit or receive the signals from the walkie-talkie. [Reference numerals] (100) External control center; (211) User terminal 1; (212) User terminal 2; (213) User terminal 3; (220) Communication repeater; (230) Walkie-talkie

Description

Intercommunication apparatus for helicopter

The present invention relates to an intercom device for a star helicopter, and more particularly, a communication repeater and a plurality of user terminals are connected in a star type with independent communication links, and are transmitted and received within communication data or communication repeaters transmitted and received by the communication repeater and the user terminals. The present invention relates to an intercom device for a star helicopter capable of improving communication quality and communication stability by using digital communication data frames separated from each other, and easily extending a user terminal connected to a communication repeater.

Helicopters are aircraft that fly with lift and propulsion by rotating the rotor blades to the engine. Helicopter intercoms are equipped with helicopters to relay internal communications between the pilot and the crew or between the crew, or between the pilot or the crew and the external control center. It is a device that relays communication.

Referring to the conventional intercom for helicopters with reference to Figure 1, a plurality of user terminals (11, 12, 13) used by the crew or the pilot, and the internal communication between the helicopter crew through the user terminal or helicopter crew through the user terminal And a communication repeater 20 for relaying external communication between the external control center 100 and a radio 30 connected to the communication repeater 20 to perform external communication between the helicopter crew and the external control center 100. Doing.

The plurality of user terminals 11, 12, 13 are connected to the communication repeater 20 in a ring through a single communication link. That is, the user terminal 1 (11) is connected to the communication repeater 20 through a communication link, and starting with the user terminal 1 (11), the user terminal 2 (12) and the user terminal 3 (13) have the same communication link. In order to be connected sequentially through the user terminal 3 (13) is finally connected to the communication repeater 20.

The user terminals 11, 12, and 13 and the communication repeater 20 perform internal communication or external communication using one communication frame E1, which uses one communication frame E1 in a conventional intercom for a helical computer. The internal communication and the external communication method will be described in more detail. When the external communication data received from the external control center 100 through the radio 30 is present, the communication repeater 20 stores the external communication data in the external communication channel of the communication frame E1 and updates the updated communication frame ( E1-1) is generated and sent to user terminal 1 (11). The user terminal 1 (11) checks the message received from the external control center through the external communication data stored in the external communication channel, performs internal communication with the user terminal 2 (12) or the user terminal 3 (13) or the external control center In order to perform external communication with the user terminal 2 by storing communication data in the audio channel or the external communication channel of the communication frame E1 allocated to the user terminal 1 11 and generating an updated communication frame E1-2. Send to (12). User terminal 2 (11) and user terminal 3 (13) also check external communication data in the updated communication frame like user terminal 1 (11) or communication allocated to user terminal 2 (12) or user terminal 3 (13). Communication data is stored in an audio channel or an external communication channel of the frame E1 to perform internal communication or external communication.

In the conventional helicopter intercom described above, a plurality of user terminals 11, 12, 13 are sequentially connected to the communication repeater 20 using one communication link, and a plurality of user terminals 11, 12, 13, The communication repeater 20 and the transceiver 30 perform internal communication or external communication by using one communication frame. Therefore, the conventional intercom for helicopters, when any one of the plurality of user terminals (11, 12, 13) is abnormally operated or the communication repeater is abnormally operated, the entire helicopter intercom due to the abnormal user terminal or communication repeater There is a problem that it does not work properly. In addition, the conventional intercom for helicopters has the inconvenience of adding or removing the user terminal after disassembling the user terminal connected to the existing communication link in the communication link to add or remove the user terminal according to the operation.

Furthermore, in the conventional intercom for helicopters, a plurality of user terminals 11, 12, 13, the communication repeater 20, and the transceiver 30 use one communication frame, and the user terminals 11, 12, 13, or the transceiver 30 are used. Since internal communication and external communication are performed using the communication channels assigned to the devices, the limited channel does not facilitate the expansion of the user terminal or the radio and the immediate internal or external communication is impossible. In addition, since a plurality of user terminals 11, 12, and 13 share one communication frame, there is a problem that a secret call is not possible between user terminals.

The present invention is to solve the problems of the conventional intercom for helicopters, the object of the present invention is to connect the communication repeater and the plurality of user terminals in a star type (star) by an independent communication link abnormally among the plurality of user terminals Even if there is a user terminal in operation, the remaining user terminals provide an intercom for a star helicopter capable of normal internal communication and external communication.

Another object of the present invention is to provide an intercom for a star helicopter which can be operated by adding or removing a user terminal connected to a communication repeater easily.

Another object of the present invention is to provide an intercom for a star helicopter that can improve call quality since the uplink communication frame and the downlink communication frame transmitted and received between the user terminal and the communication repeater are separated from each other.

It is still another object of the present invention to provide an intercom for a helicopter in which a plurality of user terminals are connected to a communication repeater by a separate communication link, allowing secret calls between user terminals.

Another object of the present invention is to form an audio bus and two control buses independently of each other in the communication repeater to quickly transmit and receive audio communication data and control communication data, one of the two control bus In the event of a failure, the remaining one control bus is used to transmit and receive control communication data to provide a helicopter intercom that can operate stably.

In the intercom device for a star helicopter according to the invention,

A plurality of user terminals in communication with the inside or the outside; A communication repeater connected to the user terminal to relay communication between a user terminal and a signal from inside or outside; A transceiver connected to the communication repeater for transmitting and receiving a signal from a communication repeater to the outside; And an external control center wirelessly connected to the radio and transmitting and receiving a signal from the radio.

The user terminal is connected to the communication terminal between the user terminal or the external control center through the communication relay, respectively,

Communication data from the user terminal to the communication repeater is transmitted in a unicasting manner, and communication data from the communication repeater to the plurality of user terminals is transmitted in a multicasting manner.

In addition, communication data between the user terminal and the communication repeater is digitally converted and transmitted and received.

In addition, communication data from the user terminal to the communication repeater is transmitted in an uplink communication frame,

Communication data from the communication repeater to the user terminal is transmitted in a downlink communication frame.

In addition, the uplink communication frame is 32 channels composed of 16 bits per channel, the downlink communication frame is 64 channels composed of 16 bits per channel.

The audio communication data transmitted from the user terminal to the communication repeater is stored in an audio channel of the uplink communication frame.

The audio communication data transmitted from the communication repeater to the user terminal is stored in an audio channel of the downlink communication frame allocated to the user terminal.

In addition, the audio communication data is transmitted and received by forming an audio frame in the communication repeater, and the control communication data is transmitted and received by forming a control frame.

In addition, the communication repeater is formed separately from the audio communication bus for transmitting and receiving the audio frame and the control communication bus for transmitting and receiving the control frame.

In addition, the control communication bus is divided into a control bus and an Ethernet bus, which is formed in two to transmit and receive a large amount of control data quickly, and if one of the control bus or Ethernet bus is abnormally operated, the remaining normal control It can be operated stably using the communication bus.

The communication repeater stores audio communication data only in an audio channel of the downlink communication frame allocated to the secret communication user terminal among the plurality of user terminals based on the secret communication user terminal information input from the user terminal.

In addition, the plurality of user terminals are each connected to a communication repeater in a star type through independent communication links L1, L2, and L3, so that secret internal communication is possible between the user terminals.

Star-shaped helicopter intercom according to the present invention has a variety of effects as compared to the conventional intercom for helicopters.

First, the star-type helicopter intercom according to the present invention is connected to the communication repeater and the plurality of user terminals in a star type (star) by using an independent communication link, even if there are abnormally operated user terminals among the plurality of user terminals. The terminal can normally communicate internally and externally.

Second, the star-type helicopter intercom according to the present invention can be easily operated by adding or removing the user terminal connected to the communication repeater.

Third, the star-type helicopter intercom according to the present invention can improve the call quality since the uplink communication frame and the downlink communication frame transmitted and received between the user terminal and the communication repeater are distinguished from each other.

Fourth, the intercom for star helicopter according to the present invention, a plurality of user terminals are connected to the communication repeater by a separate communication link is possible for a secret call between the user terminals.

Fifth, the intercom for star helicopter according to the present invention is an audio bus and two control buses are formed independently of each other in the communication repeater to quickly transmit and receive audio communication data and control communication data, one of the two control bus Even if a control bus fails, the remaining one control bus can be used to transmit and receive control communication data and operate it stably.

1 is a functional block diagram illustrating a conventional intercom device for a helicopter.
2 is a functional block diagram for explaining the intercom device for a star helicopter according to the present invention.
3 illustrates an example of an uplink communication frame and a downlink communication frame used in an intercom device for a star helicopter according to the present invention.
4 is a view for explaining the internal communication structure of the communication repeater of the star-type helicopter intercom according to the present invention.
5 is a view for explaining an example of an audio frame and a control frame of a communication repeater according to the present invention.
6 is a view for explaining the secret internal communication in the intercom device for a star helicopter according to the present invention.

Hereinafter, a star helicopter intercom device according to the present invention will be described in more detail with reference to the accompanying drawings.

Figure 2 is a functional block diagram for explaining the intercom device for a star helicopter according to the present invention.

The present invention is the intercom device for a star helicopter according to the present invention,

A plurality of user terminals in communication with the inside or the outside; A communication repeater connected to the user terminal to relay communication between a user terminal and a signal from inside or outside; A transceiver connected to the communication repeater for transmitting and receiving a signal from a communication repeater to the outside; And an external control center wirelessly connected to the radio and transmitting and receiving a signal from the radio.

The user terminal is connected to the communication terminal between the user terminal or the external control center through the communication relay, respectively,

Communication data from the user terminal to the communication repeater is transmitted in a unicasting manner, and communication data from the communication repeater to the plurality of user terminals is transmitted in a multicasting manner.

In addition, communication data between the user terminal and the communication repeater is digitally converted and transmitted and received.

Referring to Figure 2, the star type intercom device for a helicopter according to the invention relays the internal communication between the plurality of user terminals (211, 212, 213) used by the crew or pilot, and the helicopter crew through the user terminal or The communication repeater 220 relays external communication between the helicopter crew member and the external control center 100 through the user terminal, and is connected to the communication repeater 220 to perform external communication between the helicopter crew member and the external control center 100. The transceiver 230 is provided. In FIG. 2, only three user terminals 211, 212, and 213 are shown connected to the communication repeater 220. However, various numbers of user terminals may be connected to the communication repeater 220 according to the field to which the present invention is applied. Can be. In addition, although only one radio 230 is illustrated in FIG. 2 as being connected to the communication repeater 220, various numbers of user terminals may be connected to the communication repeater 220 according to the field to which the present invention is applied.

The plurality of user terminals 211, 212, and 213 are connected to the communication repeater 220 in a star form through independent communication links L1, L2, and L3, respectively. That is, the user terminal 1 211 is connected to the communication repeater 220 through the first communication link L1, and the user terminal 2 212 is connected to the communication repeater 220 through the second communication link L2. The user terminal 3 213 is connected to the communication repeater 220 through the third communication link L3.

The user terminals 211, 212, and 213 generate uplink communication frames F1-1, F1-2, and F1-3 for internal communication or external communication, respectively, and transmit them to the communication repeater 220, and the communication repeater 220. ) Generates a downlink communication frame F2 for internal communication or external communication and transmits it to the user terminals 211, 212, and 213.

Therefore, communication data from the user terminal to the communication repeater is transmitted in the uplink communication frame, and communication data from the communication repeater to the user terminal is transmitted in the downlink communication frame.

Audio communication data transmitted from the user terminal to the communication repeater is stored in an audio channel of the uplink communication frame.

Audio communication data transmitted from the communication repeater to the user terminal is stored in an audio channel of the downlink communication frame allocated to the user terminal.

Here, the uplink communication frame from the user terminals 211, 212, and 213 to the communication repeater 220 is transmitted from the user terminal to the communication repeater 220 in a unicasting manner, and from the communication repeater 220 to the user terminals 211 and 212. The downlink communication frame to 213 is transmitted to all user terminals 211, 212, and 213 connected to the communication repeater 220 in a multicasting manner.

When the communication repeater 220 receives the uplink communication frame F1 from the user terminals 211, 212, and 213, the communication repeater 220 extracts internal communication data from each uplink communication frame received from the user terminals 211, 212, and 213. An internal communication is performed by generating a downlink communication frame including the extracted communication data and transmitting the same to the user terminals 211, 212, and 213.

Meanwhile, when the communication repeater 220 receives external communication data included in an uplink communication frame from the first user terminal among the user terminals 211, 212, and 213, the communication repeater 220 generates an audio frame F3 of the communication repeater 220. The generated audio frame F3 is transmitted to the transceiver 230 through the audio bus. The radio 230 digitally-analog converts and amplifies external communication data stored in the audio frame F3 and transmits the external communication data to the external control center 100. When the communication repeater 220 receives the external communication data from the external control center 100 through the radio 230, the communication repeater 220 generates an audio frame F3 including the received external communication data, and generates the generated audio frame F3. ) Is changed back to the downlink communication frame (F2) and transmitted to the user terminals (211, 212, 213).

In the intercom device for a star helicopter according to the present invention, a plurality of user terminals 211, 212, and 213 are connected to the communication repeater 220 through independent communication links L1, L2, and L3, respectively. Even if some of the user terminals (211, 212, 213) operates abnormally, the remaining user terminals can normally communicate with the internal communication through the communication repeater 220, and a new user terminal is added or deleted. Is easy. In addition, since the intercom device for a star helicopter according to the present invention uses separate uplink communication frames and downlink communication frames, internal communication and external communication are possible in real time when communication is required. The same variety of applications can be applied.

3 illustrates an example of an uplink communication frame and a downlink communication frame used in an intercom device for a star helicopter according to the present invention.

Referring to Figure 3 (a), the uplink communication frame (F1) used in the star-shaped helicopter intercom device according to the present invention is composed of 32 channels consisting of 16 bits per channel. It consists of 2 channels of synchronization channel, 1 channel of header channel, 2 channels of audio channel, and 27 channels of control channel for command / response. The synchronization channel is used to transmit and receive synchronization data for synchronizing the communication relay with the user terminal, the header channel is used to transmit and receive the header data of the uplink communication frame transmitted by the user terminal, the audio channel is used by the user terminal internal communication or external It is used to transmit and receive communication data for communication, and the control channel is used to transmit and receive command / response data for controlling the operation of the user terminal.

On the other hand, referring to Figure 3 (b), the downlink communication frame (F2) used in the star-shaped helicopter intercom device according to the present invention is composed of 64 channels consisting of 16 bits per channel. It consists of 2 channels of synchronization channel, 1 channel of header, 24 channels of audio channel, 1 channel of address channel, and 36 channels of control channel for command / response. The synchronization channel is used to transmit and receive synchronization data for synchronizing the communication repeater with the user terminal, the header channel is used to transmit and receive header data of the downlink communication frame transmitted by the communication repeater, and the audio channel is used by the communication relay at the user terminal or the radio. The communication channel is used to transmit and receive communication data for internal communication or external communication, and the control channel is used to transmit and receive command / response data for controlling the operation of the communication repeater or the user terminal. The address channel is used to transmit and receive an address of a user terminal that performs a secret communication in secret communication.

Here, the audio channel of the downlink communication frame is 24 channels, and one audio channel is allocated to one user terminal. Therefore, a plurality of user terminals can be connected to and operated by a communication repeater, and various interlocking devices such as a radio, a navigation device, and a warning message generating device can be freely connected and extended to operate.

4 is a view for explaining the internal communication structure of the communication repeater of the star-type helicopter intercom according to the present invention.

Referring to FIG. 4, the plurality of communication boards 221, 222, 223, and 224 constituting the communication repeater 220 transmit and receive audio data between the plurality of communication boards 221, 222, 223, and 224. To generate an audio frame F3 and a control frame F4 for transmitting and receiving control data, and to generate the audio frame F3 and the control frame F4 to the audio communication bus 225 and the control communication bus 226. 227).

Here, the audio communication bus and the control communication bus are formed separately from each other.

For example, when a user terminal performs external communication with an external control center via a radio, the communication repeater receives a downlink communication frame F1 storing external communication data from the user terminal and receives an external communication frame in the received downlink communication frame. The communication data is extracted to generate an audio frame F3. The communication repeater transmits the generated audio frame F3 to the radio through the audio bus 225. On the other hand, the communication repeater generates an audio frame (F3) containing the external communication data when receiving the external communication data from the external control center through the radio. The communication repeater converts the audio frame F3 including external communication data into a downlink communication frame F2 used between the communication repeater and the user terminal, which stores the external communication data, and transmits the generated audio frame F3 to the user terminal.

Multiple communication boards 221, 222, 223, 224 of the communication repeater transmit and receive control frames using either or both of the two control communication buses 226, 227. For example, the plurality of communication boards 221, 222, 223, and 224 may transmit and receive control frames by using the control bus 226 and the Ethernet bus 227, or the control bus 226 or the Ethernet bus 227. Only one control communication bus can be selected to transmit and receive control frames.

In the communication repeater of the star-type helicopter intercom device according to the present invention, the audio frame and the control frame are used separately, and the communication bus for transmitting and receiving the audio frame and the control frame is distinguished. This is possible. In addition, in the communication repeater of the intercom device for a star helicopter according to the present invention, the control communication bus is composed of a control bus and an Ethernet bus, which can transmit and receive a large amount of control data quickly, and one of the control bus or the Ethernet bus is abnormal. In case of operation, the helicom intercom device can be stably operated by using the remaining normal control communication bus.

5 is a view for explaining an example of an audio frame and a control frame of a communication repeater according to the present invention.

Referring to the audio frame F3 with reference to FIG. 5 (a), the audio frame F3 has 34 reserved channels, and thus, a plurality of interworking devices may be connected to the communication repeater and used. On the other hand, referring to the control frame (F4) with reference to Figure 5 (b), there are 59 control channels for transmitting and receiving control data, a large amount of control data through one control frame (F4) via the control communication bus Can be processed at high speed.

6 is a view for explaining the secret internal communication in the intercom device for a star helicopter according to the present invention.

Referring to FIG. 6, the plurality of user terminals 211, 212, and 213 are connected to the communication repeater 220 in a star type through independent communication links L1, L2, and L3, respectively.

When the first user terminal 211 intends to perform secret internal communication with the second user terminal 212, a user command for designating a secret internal communication counterpart user terminal is input through the first user terminal 211, The first user terminal 211 generates an uplink communication frame F1-1 including input designated counterpart user terminal information and communication data. Information indicating the secret internal communication is stored in the header of the uplink communication frame F1-1 or in the control channel field.

Upon receiving the uplink communication frame F1-1, the communication repeater 220 searches for the header channel or the control channel of the uplink communication frame F1-1 so that the uplink communication frame F1-1 is uplink for internal secret communication. Determine if it is a frame. As a result of determination, when the uplink communication frame F1-1 is an uplink communication frame for internal secret communication, the downlink communication frame F2 storing the address of the designated counterpart user terminal is generated in the address channel, and the downlink communication frame is transmitted only to the designated counterpart user terminal. (F2) is transmitted.

On the basis of secret communication user terminal information input from the user terminal, audio communication data is stored only in an audio channel of the downlink communication frame allocated to the secret communication user terminal among the plurality of user terminals.

In the intercom device for a star helicopter according to the present invention, a plurality of user terminals 211, 212, and 213 are connected to a communication repeater in a star type through a separate communication link L1, L2, and L3, respectively. Secret internal communication is possible between the terminals.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art to which the present invention pertains can carry out various modifications to the embodiments of the present invention. Therefore, the scope of the patent rights of the present invention The embodiments within the scope of the equivalents without departing from the spirit and scope of the present invention are not limited to the embodiments described in the present invention.

100: external control center 211, 212, 213: user terminal
220: communication repeater 230: radio

Claims (10)

In the intercom device for a star helicopter,
A plurality of user terminals in communication with the inside or the outside;
A communication repeater connected to the user terminal to relay communication between a user terminal and a signal from inside or outside;
A transceiver connected to the communication repeater for transmitting and receiving a signal from a communication repeater to the outside; and
And an external control center wirelessly connected to the radio to transmit and receive a signal from the radio.
The user terminal is connected to the communication terminal between the user terminal or the external control center through the communication relay, respectively,
And communication data from the user terminal to the communication repeater is transmitted in a unicasting manner, and communication data from the communication repeater to the plurality of user terminals is transmitted in a multicasting manner. The method of claim 1,
Communication data between the user terminal and the communication repeater is a star-type helicopter intercom device, characterized in that the digital transmission and reception. The method of claim 1,
Communication data from the user terminal to the communication repeater is transmitted in an uplink communication frame,
And communication data from the communication repeater to the user terminal is transmitted in a downlink communication frame. The method of claim 3, wherein
The uplink communication frame is 32 channels consisting of 16 bits per channel, the downlink communication frame is a star-shaped helicopter intercom device, characterized in that 64 channels consisting of 16 bits per channel. The method of claim 3, wherein
Audio communication data transmitted from the user terminal to the communication repeater is stored in an audio channel of the uplink communication frame.
And the audio communication data transmitted from the communication repeater to the user terminal is stored in an audio channel of the downlink communication frame allocated to the user terminal. The method of claim 5, wherein
And the audio communication data is transmitted and received by forming an audio frame in the communication repeater, and the control communication data is transmitted and received by forming a control frame. The method according to claim 6,
The communication repeater is an intercom device for a star helicopter, characterized in that the audio communication bus for transmitting and receiving the audio frame and the control communication bus for transmitting and receiving the control frame are formed separately from each other. The method of claim 7, wherein
The control communication bus is divided into a control bus and an Ethernet bus, which is formed in two, and when one of the control bus or the Ethernet bus is abnormally operated, the star-type helicopter intercom, characterized in that to use a normally operated control communication bus Device. 6. The communication repeater of claim 5, wherein the communication repeater
Based on the secret communication user terminal information input from the user terminal for the star-shaped helicopter, characterized in that for storing the audio communication data only in the audio channel of the downlink communication frame allocated to the secret communication user terminal of the plurality of user terminals; Intercom device. The method of claim 1,
The plurality of user terminals are connected to a communication repeater in a star type through a separate communication link (L1, L2, L3), respectively, so that the internal communication between the star type helicopters is possible. Device.

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