CN211981859U - Portable wireless converged communication system - Google Patents

Abstract

The utility model provides a portable wireless fusion communication system, which comprises a plurality of interphones, 1 hand microphone, a box body for carrying the interphones of a command system and a hand microphone terminal, an aluminum plate, a battery, a circuit board, a row of square trays I for placing a plurality of interphones and a square tray II for placing the hand microphone; the interphone is characterized in that a cavity is arranged in the box body, a step-shaped notch is formed in the edge of the cavity, and the aluminum plate is embedded in the step-shaped notch; the interphone slot position and the hand microphone slot position are arranged in the box body, so that the problem that the communication equipment, the interphone and the hand microphone terminal need to be carried and fused separately is solved, and the carrying is more convenient; simultaneously because intercom and hand miaow back of finishing using can directly place and carry in the box trench, need not connect the cable again during follow-up use, it is very swift when emergent occasion uses.

Description

Portable wireless converged communication system

Technical Field

The utility model relates to a communication equipment technical field specifically is a portable wireless integration communication system.

Background

The current public safety event is frequent, how to rapidly deploy and coordinate with multiple parties when the public safety event occurs, and new requirements are provided for the disposal of the public safety event. At present, a communication tool commonly used by a line of duty personnel is a cluster interphone, and all doors cannot communicate with each other due to different frequency points of the interphone. When a plurality of departments need to be simultaneously commanded and coordinated to cooperatively work, the integration of command communication is necessary.

At present, wireless converged communication systems in the market do not well solve the problems of convenient carrying and rapid deployment. The interphone terminal and the command box body are carried separately, so that the interphone is not convenient to carry. Meanwhile, due to the fact that the interphone is carried separately, when the use environment needs to be deployed every time, the cable between the interphone and the command box body needs to be reconnected, and precious time cannot be won for emergency disposal.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable wireless integration communication system has solved the problem that proposes among the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a portable wireless fusion communication system comprises a plurality of interphones, 1 hand microphone, a box body (001) for carrying the interphones of a command system and a hand microphone terminal, an aluminum plate (002), a battery (013), a circuit board (014), a row of square trays I (0151) for placing the interphones and a square tray II (0152) for placing the hand microphone;

a cavity (0011) is arranged in the box body (001), a step-shaped notch (0012) is arranged at the edge of the cavity (0011), an aluminum plate (002) is embedded in the step-shaped notch (0012),

a row of interphone slots (008) used for embedding a plurality of interphones, a hand microphone slot (009) used for embedding a hand microphone, a serial port screen slot (0031) used for embedding a serial port screen (003) and 2 rows of small blind slots (011) used for sticking user labels are formed in the aluminum plate (002); the user labels attached to the 2 rows of small blind slots (011) are used for distinguishing cluster user names during multi-department collaborative command scheduling;

the aluminum plate (002) is further provided with a power switch (004), a charging port (005), an Ethernet interface (006) and 2 rows of user audio interfaces (007), the 2 rows of user audio interfaces (007) are arranged in parallel with the 2 rows of small blind slots (011), and the distance between the user audio interface (007) and the adjacent small blind slot (011) is 0.5 cm-1 cm;

one row of interphone slots (008) on the aluminum plate (002) are positioned between 2 rows of small blind slots (011), and 1 interphone slot (008) is arranged between every two adjacent small blind slots (011);

the power switch (004), the charging port (005) and the Ethernet interface (006) on the aluminum plate (002) are respectively arranged in parallel up and down and are positioned at one side of the serial port screen slot position (0031);

the battery (013), the circuit board (014) and the serial port screen (003) are arranged side by side from bottom to top in sequence;

serial port screen (003) are connected through special display screen winding displacement with circuit board (014), and charging mouth (005) are connected through taking the line to plug-in terminal with battery (013), and battery (013) are connected and are supplied power for the circuit board through switch (004) and circuit board (014), and Ethernet interface (006) and 9 way user audio interface (007) are all connected with the circuit board through 8 core shielded wires.

The circuit board (014) includes 9 sockets, 9 audio codec modules and 1 ARM module. The audio interface of the hand microphone corresponding to the socket 0 and the audio interfaces of the interphone corresponding to the sockets 1 to 8 are respectively connected with the socket 0 and the socket 8; the audio encoding and decoding module is responsible for encoding and decoding voice signals, encoding analog voice signals transmitted by the interphone and the hand microphone terminal and then transmitting the encoded analog voice signals to the ARM module, and decoding PCM digital signals transmitted by the ARM module and then transmitting the decoded PCM digital signals to the interphone and the hand microphone terminal; the ARM module is responsible for storing and forwarding each path of voice signals, processing human-computer interaction instructions sent by the serial port screen, and providing an Ethernet interface for upgrading and debugging by a user; the serial port screen is used as a human-computer interaction window, grouping operation can be carried out on multi-channel cluster users during command and scheduling, and some current states of the system are displayed; the charging port is used for charging the battery; the power switch is used for controlling the on-off of the system power supply.

The interphone slots (008) are respectively positioned on the edge of the notch of the corresponding square tray I (0151), and the hand microphone slots (009) are respectively positioned on the edge of the notch of the corresponding square tray II (0152);

the interphone is sequentially embedded into the corresponding square tray I (0151) from top to bottom, and the hand microphone is sequentially embedded into the corresponding square tray II (0152) from top to bottom.

Preferably, the method comprises the following steps: battery (013) buckle in infrabasal plate (019), infrabasal plate (019) fixed mounting is on box (001) inside bottom surface, and two buckle support (018) are fixed the both sides of battery (013) centre gripping, and two buckle support and infrabasal plate (019) fixed connection, can be with battery (013) fixed mounting on box (001) inside bottom surface like this.

Preferably, the method comprises the following steps: the circuit board (014) is fixedly arranged above the battery (013) and below the serial port screen (003) through the upper substrate frame (017). Thus, the use space in the box body (001) is saved by adopting a superposition installation mode.

Preferably, the method comprises the following steps: a large blind groove (012) is arranged between the serial port screen slot position (0031) and the serial port screen (003), and a screen protective film is attached in the large blind groove (012).

Preferably, the method comprises the following steps: a sponge protective sleeve (016) is arranged in the square tray II (0152). The battery charging port (005) is used for preventing the battery of the interphone from directly contacting with metal, and the direct hard impact between the interphone and the hand microphone and the metal in the transportation process is also avoided.

Preferably, the method comprises the following steps: a layer of egg sponge is arranged inside the upper cover of the box body (001), and the egg sponge is stuck inside the upper cover through strong glue. The egg sponge has better compliance, and the contact of egg sponge and intercom and hand miaow after closing the upper cover can ensure that in the transportation, intercom and hand miaow can not rock, also can not cause the harm to intercom and hand miaow simultaneously.

Preferably, the method comprises the following steps: because the commander needs to frequently use the hand microphone for commanding and dispatching, it is not very convenient to take out the hand microphone from the hand microphone placing slot each time. The utility model discloses utilize the principle of magnet, pass through circular magnet of screw fixed mounting at hand miaow back, be equipped with a metal iron plate (010) that are used for as hand miaow stores pylon in box (001) upper cover side. Thus, the metal iron plate (010) is used as a hand microphone hanging rack, and the metal iron plate (010) is fixed on the upper cover of the box body (001) through strong glue. After the command scheduling personnel complete command scheduling through the hand microphone each time, the hand microphone can be hung on the hand microphone hanging frame, and the use is more convenient.

Preferably, the method comprises the following steps: the battery (013) adopts a lithium battery.

The terms related to the present invention are explained as follows:

hand microphone: a bidirectional mobile communication tool, namely an interphone, is more convenient to carry and use after being improved. The telephone can be communicated without any network support, no telephone charge is generated, and the telephone is suitable for occasions with relatively fixed and frequent communication.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1) the interphone groove is arranged in the box body of the utility model, which solves the problem that the interphone is not placed in the place and is easy to fall down when a user uses the interphone;

2) the interphone slot position and the hand microphone slot position are arranged in the box body, so that the problem that the communication equipment, the interphone and the hand microphone terminal need to be carried and fused separately is solved, and the carrying is more convenient; meanwhile, after the interphone and the hand microphone are used, the interphone and the hand microphone can be directly placed in the box body groove to be carried, and cables do not need to be connected during subsequent use, so that the interphone and the hand microphone are very quick to use in emergency occasions;

3) the egg sponge with strong flexibility is mounted on the upper cover of the box body, and the sponge protective sleeves are respectively stuck on the inner sides of the interphone and the hand microphone groove positions, so that the problem that the interphone and the hand microphone collide with the box body and are easily damaged in the transportation and carrying processes is solved;

4) one metal iron plate is installed beside the upper cover of the box body and serves as a hand microphone hanging frame, and a magnet is fixed on the back of the hand microphone, so that the problem that the hand microphone can be conveniently placed after a dispatcher speaks every time is solved.

Drawings

Fig. 1 is a front view of a portable wireless converged communication system of the present invention;

fig. 2 is an exploded view of the internal structure of a portable wireless converged communication system according to the present invention;

fig. 3 is a circuit frame diagram of the present invention;

the figures in the drawings are marked with numbers: box (001), cavity (0011), step form notch (0012), aluminum plate (002), serial ports screen (003), serial ports screen trench (0031), switch (004), the mouth that charges (005), ethernet interface (006), user audio interface (007), intercom trench (008), hand miaow trench (009), metal iron plate (010), little blind groove (011), big blind groove (012), battery (013), circuit board (014), square tray I (0151), square tray II (0152), sponge protective sheath (016), go up base plate frame (017), support (018) of bending, infrabasal plate (019).

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, to achieve the above object, the present invention provides the following technical solutions: a portable wireless fusion communication system comprises a plurality of interphones, 1 hand microphone, a box body 001 for carrying the interphones of a command system and a hand microphone terminal, an aluminum plate 002, a battery 013, a circuit board 014, a row of square trays I0151 for placing the interphones and a square tray II 0152 for placing the hand microphone; a cavity 0011 is arranged in the box body 001, a step-shaped notch 0012 is formed in the edge of the cavity 0011, the aluminum plate 002 is embedded in the step-shaped notch 0012, a row of interphone slots 008 for embedding a plurality of interphones, a hand microphone slot 009 for embedding a hand microphone, a serial port screen slot 0031 for embedding a serial port screen 003, and 2 rows of small blind slots 011 for attaching a user label are formed in the aluminum plate 002; the user labels attached to the 2 rows of small blind slots 011 are used for distinguishing cluster user names during multi-department collaborative command scheduling; a power switch 004, a charging port 005, an ethernet interface 006 and 2 rows of user audio interfaces 007 are further mounted on the aluminum plate 002, the 2 rows of user audio interfaces 007 are arranged in parallel with the 2 rows of small blind slots 011, and the distance between each user audio interface 007 and the adjacent small blind slot 011 is 0.5 cm-1 cm; one row of interphone slots 008 on the aluminum plate 002 is positioned between 2 rows of small blind slots 011, and 1 interphone slot 008 is arranged between every two adjacent 2 small blind slots 011; the power switch 004, the charging port 005 and the ethernet interface 006 on the aluminum plate 002 are respectively arranged in parallel up and down and are positioned on one side of the serial port screen slot 0031; the battery 013, the circuit board 014 and the serial port screen 003 are sequentially arranged side by side from bottom to top; serial port screen 003 passes through the display screen winding displacement with circuit board 014 and is connected, and the mouth of charging 005 and battery 013 are connected through the strip line pair plug terminal, and battery 013 passes through switch 004 and is connected with circuit board 014 and supplies power for circuit board 014, and ethernet interface 006 and 9 way user audio interface 007 all are connected with the circuit board through 8 core shielded wires. The circuit board 014 includes 9 sockets, 9 audio codec modules and 1 ARM module. The audio interface of the hand microphone corresponding to the socket 0 and the audio interfaces of the interphones corresponding to the sockets 1 to 8 are respectively connected with the socket 0 and the socket 8; the audio encoding and decoding module is responsible for encoding and decoding voice signals, encoding analog voice signals transmitted by the interphone and the hand microphone terminal and then transmitting the encoded analog voice signals to the ARM module, and decoding PCM digital signals transmitted by the ARM module and then transmitting the decoded PCM digital signals to the interphone and the hand microphone terminal; the ARM module is responsible for storing and forwarding each path of voice signals, processing human-computer interaction instructions sent by the serial port screen, and providing an Ethernet interface for upgrading and debugging by a user; the serial port screen is used as a human-computer interaction window, grouping operation can be carried out on multi-channel cluster users during command and scheduling, and some current states of the system are displayed; the charging port is used for charging the battery; the power switch is used for controlling the on-off of the system power supply. The interphone slots 008 are respectively positioned on the edge of a notch corresponding to the square tray I0151, and the hand microphone slots 009 are respectively positioned on the edge of a notch corresponding to the square tray II 0152; the interphone is sequentially embedded into the corresponding square tray I0151 from top to bottom, and the hand microphone is sequentially embedded into the corresponding square tray II 0152 from top to bottom.

Wherein, battery 013 buckle in infrabasal plate 019, infrabasal plate 019 fixed mounting is on the inside bottom surface of box 001, and two buckling support carry out the centre gripping with battery 013's both sides end and fix, and two buckling support and infrabasal plate 019 fixed connection, can be with battery 013 fixed mounting on the inside bottom surface of box 001 like this.

The circuit board 014 is fixedly installed on the battery 013 and below the serial port screen 003 through the upper substrate frame 017. Thus, the use space in the box body 001 is saved by adopting a superposition installation mode.

Wherein, be provided with big blind groove 012 between serial ports screen trench 0031 and serial ports screen 003, and in this big blind groove 012 in-paste has a layer of screen protection film.

Wherein, a sponge protective sleeve 016 is arranged in the square tray II 0152. The battery charging port 005 for preventing the interphone from directly contacting with metal, and the interphone and the hand microphone are prevented from directly and hard impacting with the metal in the transportation process.

Wherein, install one deck egg sponge in box 001 upper cover internally mounted, the egg sponge passes through the powerful glue and pastes inside the upper cover. The egg sponge has better compliance, and the contact of egg sponge and intercom and hand miaow after closing the upper cover can ensure that in the transportation, intercom and hand miaow can not rock, also can not cause the harm to intercom and hand miaow simultaneously.

Wherein, because the commander needs frequently to use the hand miaow to command and dispatch, and it is not very convenient to take out the hand miaow from the hand miaow place trench each time. The utility model discloses utilize the principle of magnet, pass through circular magnet of screw fixed mounting at hand miaow back, be equipped with a metal iron plate 010 that is used for as hand miaow stores pylon in box 001 upper cover side. Thus, the metal iron plate 010 is used as a hand microphone hanging rack, and the metal iron plate 010 is fixed on the upper cover of the box body 001 through the strong glue. After the command scheduling personnel complete command scheduling through the hand microphone each time, the hand microphone can be hung on the hand microphone hanging frame, and the use is more convenient.

Wherein, the battery 013 adopts a lithium battery.

The utility model discloses a wireless integration communication system uses integration communication as the means, arranges fast and conveniently carries for basic design thinking, when letting emergency incident proruption, the real-time full duplex many parties meeting of a plurality of departments of the organization that the user can be quick, many people, multiunit. The method can be widely applied to various application environments and use scenes such as vehicle-mounted command scheduling and outdoor portability, is suitable for being deployed and used by various departments of a police service system, and strives for time for public safety event handling.

The utility model discloses a wireless communication system that fuses, system adopt portable aviation box design, and box internally mounted has lithium cell, circuit board, and box fixed surface is an aluminum plate, is equipped with serial ports screen, switch, the mouth that charges, ethernet interface, multichannel intercom user interface on the aluminum plate, and the box sets up 4 interphones and places the trench and 1 mike's transportation of hand and places the trench. The box structure reaches the American military standard, has characteristics such as wearability, high low temperature resistance, high strength nature, reaches IP54 protection level. The special shockproof structure treatment supports various transportation and carrying modes. The intercom all places in the box in use and transportation, and the hand miaow also puts in the box in the transportation, has solved terminal and system box and has separately carried inconvenient problem. Meanwhile, as the interphone and the hand microphone are provided with the transportation and placement slot positions in the box body, after the interphone and the hand microphone are used up each time, the connecting cable does not need to be detached, the interphone can be directly used when being on duty next time, and the use environment is convenient and rapid to deploy.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A portable wireless fusion communication system is characterized by comprising a plurality of interphones, 1 hand microphone, a box body (001) used for carrying the interphones of a command system and a hand microphone terminal, an aluminum plate (002), a battery (013), a circuit board (014), a row of square trays I (0151) used for placing the interphones and a square tray II (0152) used for placing the hand microphone;

a cavity (0011) is arranged in the box body (001), a step-shaped notch (0012) is arranged at the edge of the cavity (0011), an aluminum plate (002) is embedded in the step-shaped notch (0012),

a row of interphone slots (008) used for embedding a plurality of interphones, a hand microphone slot (009) used for embedding a hand microphone, a serial port screen slot (0031) used for embedding a serial port screen (003) and 2 rows of small blind slots (011) used for sticking user labels are formed in the aluminum plate (002);

the aluminum plate (002) is further provided with a power switch (004), a charging port (005), an Ethernet interface (006) and 2 rows of user audio interfaces (007), the 2 rows of user audio interfaces (007) are arranged in parallel with the 2 rows of small blind slots (011), and the distance between the user audio interface (007) and the adjacent small blind slot (011) is 0.5 cm-1 cm;

one row of interphone slots (008) on the aluminum plate (002) are positioned between 2 rows of small blind slots (011), and 1 interphone slot (008) is arranged between every two adjacent small blind slots (011);

the power switch (004), the charging port (005) and the Ethernet interface (006) on the aluminum plate (002) are respectively arranged in parallel up and down and are positioned at one side of the serial port screen slot position (0031);

the battery (013), the circuit board (014) and the serial port screen (003) are arranged side by side from bottom to top in sequence;

the serial port screen (003) is connected with the circuit board (014) through a display screen flat cable, the charging port (005) is connected with the battery (013) through a strip line plug-in terminal, the battery (013) is connected with the circuit board (014) through a power switch (004) and supplies power to the circuit board (014), and the Ethernet interface (006) and the multi-channel user audio interface (007) are connected with the circuit board (014) through 8-core shielding wires;

the circuit board (014) comprises a plurality of sockets, a plurality of audio encoding and decoding modules and 1 ARM module;

one of the sockets is used for being correspondingly connected with the audio interface of the hand microphone, and the other sockets are used for being correspondingly connected with the audio interface of the interphone;

the audio coding and decoding module is used for coding and decoding voice signals, coding analog voice signals transmitted by the interphone and the hand microphone terminal and then transmitting the analog voice signals to the ARM module, and decoding PCM digital signals transmitted by the ARM module and then transmitting the PCM digital signals to the interphone and the hand microphone terminal;

the ARM module is used for storing and forwarding each path of voice signals, processing a human-computer interaction instruction sent by the serial port screen (003) and providing an Ethernet interface for upgrading and debugging by a user;

the serial port screen (003) is used as a human-computer interaction window, and can perform grouping operation on multi-channel cluster users and display the current state of the system when commanding and scheduling; a charging port (005) for charging the battery;

the power switch (004) is used for controlling the on-off of the system power supply;

the interphone slots (008) are respectively positioned on the edge of the notch of the corresponding square tray I (0151), and the hand microphone slots (009) are respectively positioned on the edge of the notch of the corresponding square tray II (0152);

the interphone is sequentially embedded into the corresponding square tray I (0151) from top to bottom, and the hand microphone is sequentially embedded into the corresponding square tray II (0152) from top to bottom.

2. A portable wireless convergence communication system according to claim 1, wherein the battery (013) is snapped into a lower substrate (019), the lower substrate (019) is fixedly installed on the inner bottom of the case (001), two bending brackets clamp and fix both ends of the battery (013), and the two bending brackets are fixedly connected to the lower substrate (019), so that the battery (013) can be fixedly installed on the inner bottom of the case (001).

3. A portable wireless convergence communication system according to claim 1 wherein the circuit board (014) is fixedly mounted above the battery (013) and below the serial port screen (003) by an upper substrate holder (017).

4. A portable wireless convergence communication system according to claim 1, wherein a large blind groove (012) is provided between the serial screen groove (0031) and the serial screen (003), and a screen protection film is attached to the inside of the large blind groove (012).

5. A portable wireless convergence communication system according to claim 1, wherein a sponge case (016) is installed in the square tray ii (0152).

6. A portable wireless convergence communication system according to claim 1, wherein a layer of egg sponge is installed inside the upper cover of the case (001), and the egg sponge is adhered inside the upper cover by strong glue.

7. A portable wireless convergence communication system according to claim 1, wherein a circular magnet is fixedly installed at the back of the hand microphone by means of screws, and a metal iron plate (010) for a hand microphone hanger is installed at the side of the upper cover of the case (001).

8. A portable wireless converged communication system according to claim 1, wherein the battery (013) is a lithium battery.

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