KR20190026193A - Switching apparatus and communication system comprising the same - Google Patents

Abstract

The present invention relates to a switching device usable in a disaster communication network and a communication system including the same. The disclosed communication system comprises: a switching device having a first switching state of connecting a first transmission line which is connected to mobile communication repeater equipment installed inside a building and a second transmission line which can be connected to a mobile communication network when power is supplied, and a second switching state of connecting the first transmission line and a third transmission line to which a radio device connection terminal installed at a ground level of the building can be connected; and a band distribution device, for a signal input through the radio device connection terminal, distributing, to the third transmission line, a first frequency band which is used as a disaster communication network in the mobile communication network and a second frequency band which is not used as a disaster communication network in the mobile communication network, and distributing a third radio signal of a third frequency band used as a fire safety network to a fourth transmission line connected to wireless communication auxiliary equipment installed inside the building.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching apparatus and a communication system including the switching apparatus.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching apparatus and a communication system including the switching apparatus, and more particularly, to a switching apparatus that can be used in a disaster communication network and a communication system including the switching apparatus.

As is well known, the underground space inside the building is likely to become a shadow area in the wireless communication with the outside of the building, and in the event of an emergency such as a fire, You can raise damage.

Accordingly, it is necessary to install a wireless communication auxiliary equipment capable of connecting wireless communication between the outside of the building and the inside of the building, especially the underground space. Accordingly, in the fire related laws and regulations, It is obligatory to install a wireless communication auxiliary equipment and a wireless device connection terminal capable of wired communication.

According to the related art, a leakage cable serving as an antenna is installed in an underground space inside a building, and a wireless device connection terminal capable of connecting the wireless communication device is installed on the ground of the building. For example, when a fire commander connects a radio to an external connection terminal and a fireman enters a basement while carrying a radio, fire commanders and firefighters can communicate with each other through a wireless auxiliary equipment.

Meanwhile, in a building with an underground space, a mobile communication relay facility can be installed separately from a wireless communication auxiliary facility in order to prevent the underground space from becoming a shadow area with respect to the mobile communication network.

In the conventional mobile communication relay facility, a mobile communication antenna is installed in an underground space inside a building, a mobile communication repeater is installed inside or outside a building, and a mobile communication antenna and a mobile communication repeater are connected by a coaxial cable.

In addition, a wireless communication auxiliary equipment and a mobile communication relay equipment are installed in one building, respectively, and the wireless communication auxiliary equipment and the mobile communication relay equipment are separately operated.

In Korea, the PS-LET (Public Safety LTE) standard was determined by the national disaster safety communication network. In March 2016, the PS-LET standard was adopted as the disaster communication network standard in the 3GPP, the global mobile communication standardization organization.

Therefore, in the interior of the building, both the frequency band used for the disaster communication network of the mobile communication network, the frequency band not used for the disaster communication network and the frequency band for the fire safety network must be served. Shadow areas should be avoided for the network.

Published Patent Publication No. 10-2016-0120107, published October 17, 2016.

According to an embodiment of the present invention, there is provided a switching device for enabling a mobile communication relay facility installed in an internal space of a building to be utilized in a disaster communication network, and a communication system including the same.

The problems to be solved by the present invention are not limited to those mentioned above, and another problem to be solved can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a communication system including a first contact terminal connected to a first transmission line connected to a mobile communication repeater installed inside a building, and a second contact terminal connected to a second transmission line, A third contact terminal connected to a third transmission line to which a radio equipment connection terminal provided at a ground portion of the building can be connected; and a third contact terminal connected to the first contact terminal and the second contact terminal, And a switching element having a switching state and a second switching state connecting the first contact terminal and the third contact terminal.

According to another aspect of the present invention, there is provided a mobile communication system including a first switching state in which a first transmission line connected to a mobile communication relay facility installed in a building and a second transmission line connected to a mobile communication network when power is supplied, A switching device having a second switching state for connecting a third transmission line to which a wireless device connection terminal installed at a ground level of the building can be connected and the first transmission line; A first frequency band used as a disaster communication network among the communication networks and a second frequency band not used as the disaster communication network among the mobile communication networks are distributed to a third transmission line and a third radio signal of a third frequency band To a fourth transmission line connected to a wireless communication auxiliary equipment installed inside the building And a communication system.

According to the embodiment of the present invention, the mobile communication relay facility installed in the internal space of the building can be utilized for the disaster communication network, so that the internal space of the building does not become a shadow area for the disaster communication network.

In a disaster situation in which the power supplied to the switching device is cut off and the power supplied to the switching device is shut off, the mobile communication relay device installed in the inner space of the building is used mainly as a commercial mobile communication network, And the communication relay facility is used as a disaster communication network and a commercial mobile communication network through a wireless device connection terminal installed on the ground of the building. As described above, if the mobile communication relay facility is not connected to the wireless device connection terminal installed in the ground, the loss of communication quality that may occur when connected to the wireless device connection terminal does not occur in a normal situation.

1 is a configuration diagram of a communication network built in a building according to an embodiment of the present invention.
2 is a configuration diagram of a switching device used for building a communication network inside a building.
3 is a block diagram of a communication network constructed inside a building according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. It should be understood, however, that the invention is not limited to the disclosed embodiments, but may be embodied in various forms and should not be construed as limited to the embodiments set forth herein, To fully disclose the scope of the invention to a person skilled in the art, and the scope of the invention is only defined by the claims.

In describing embodiments of the present invention, a detailed description of well-known functions or constructions will be omitted unless otherwise described in order to describe embodiments of the present invention. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a configuration diagram of a communication network built in a building according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of a switching device used for building a communication network in a building.

1 and 2, a communication network inside a building 10 is connected to a switching device 110 and a band distribution device 210 by a transmission line 310 to construct a communication system.

The switching device 110 includes a first switching state in which a first transmission line connected to a mobile communication relay facility installed inside the building 10 and a second transmission line that can be connected to a mobile communication network when power is supplied, And has a second switching state in which the third transmission line to which the radio device connection terminal 220 installed at the ground level of the building 10 can be connected is connected to the first transmission line.

The switching device 110 is connected to at least one mobile communication antenna 170 installed in the building 10 and a mobile communication repeater 120 installed inside or outside the building 10, The switching state is maintained and when the power supply is interrupted, a transition is made to a second switching state in which the radio device connection terminal 220 installed at the ground level of the building 10 is connected to the mobile communication antenna 170. [

The switching device 110 includes a first contact terminal 111 connected to the first transmission line to which the mobile communication antenna 170 is connected, a second contact terminal 111 connected to the second transmission line to which the mobile communication repeater 120 is connected, A third contact terminal 113 connected to the third transmission line through which the radio device connection terminal 220 installed on the ground portion of the building 10 is connected through the band distribution device 210, And a switching element 114. The switching device 114 connects the first contact terminal 111 and the second contact terminal 112 when the power is supplied to connect the mobile communication antenna 170 and the mobile communication repeater 120 to the first switching state . The switching device 114 connects the first contact terminal 111 and the third contact terminal 113 when the power supply is interrupted and connects the radio device connection terminal 220 and the mobile communication antenna 170 And transitions to the second switching state.

The mobile communication repeater 120 connected to the second contact terminal 112 of the switching device 110 is connected to the directional antenna 130 for mobile communications installed outside the building 10. The mobile communication repeater 120 may share a power source with the switching device 114 of the switching device 110.

The mobile communication repeater installed inside the building 10 includes a distributor 140, a transmission line 150, a coupler 160, and a mobile communication antenna 170. The splitter 140 is connected to the first contact terminal 111 of the switching device 110 and the transmission line 150 is branched to various paths by the splitter 140. The splitter 140 is connected to the transmission line 150 Is extended. An antenna 170 for mobile communication may be installed at the end of the transmission line 150 and the coupler 160. For example, the distributor 140 may be formed with terminals having a 1: 2 distribution relationship, and a distributor in which terminals are formed to have various distribution relationships such as 1: N (where N is a natural number of 2 or more) It is possible.

The mobile communication antenna 170 can transmit and receive a first radio signal in a first frequency band used as a disaster communication network and a second radio signal in a second frequency band not used as a disaster communication network in a mobile communication network. The first type terminal device 30 using the first frequency band and the second type terminal device 40 using the second frequency band can be connected to the mobile communication network through the mobile communication antenna 170.

The band distribution device 210 connected to the third contact terminal 113 of the switching device 110 transmits a signal input through the radio device connection terminal 220 to the first frequency band used as a disaster communication network The third wireless signal of the third frequency band, which is used as a fire safety net, is distributed to a wireless communication auxiliary equipment (not shown) installed in the building 10, Lt; RTI ID = 0.0 > transmission line. ≪ / RTI > In addition, the band distribution device 210 combines the first and second frequency bands received through the third transmission line with the radio signals of the third frequency band input through the fourth transmission line And outputs it to the radio device connection terminal 220.

The wireless communication auxiliary equipment built inside the building 10 includes a distributor 230, a leakage cable 240 and a terminating resistor 250. The leakage cable 240 is branched to another path by the distributor 230. For example, the distributor 230 may be formed with terminals having a 1: 2 distribution relationship, and a distributor in which terminals are formed to have various distribution relations such as 1: N (where N is a natural number of 2 or more) It is possible. The leakage cable 240 can transmit and receive a third radio signal of a third frequency band used as a fire safety net. The transceiver 20 using the third frequency band can be connected to the fire safety net via the leakage cable 240.

1, power is supplied to the switching device 110 in a normal state while the communication network is established inside the building 10, and the switching device 114 of the switching device 110 is connected to the first contact terminal And the second contact point 112 is connected to the second contact point 111 to maintain the first switching state in which the mobile communication antenna 170 and the mobile communication relay 120 are connected.

In the first switching state of the switching device 110, the first type terminal device 30 located inside the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, The switching device 110, the mobile communication repeater 120, and the directional antenna 130 for mobile communications. The second type terminal device 40 located inside the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, a distributor 140, a switching device 110, And connects to the commercial mobile communication network base station 60 through the repeater 120 and the directional antenna 130 for mobile communication.

On the other hand, a power failure may occur when a disaster such as a fire occurs, or a power supply to the switching device 110 and the mobile communication repeater 120 may be intentionally blocked. The switching device 114 of the switching device 110 placed in the first switching state connects the first contact terminal 111 and the third contact terminal 113 to connect the radio device connection terminal 220 and the mobile communication antenna (170).

In the second switching state of the switching device 110, the first type terminal device 30 located inside the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, And connects to the base station 50 for the disaster communication network through the switching device 140, the switching device 110, the transmission line 310, the band distributing device 210 and the radio device connecting terminal 220. The second type terminal device 40 located inside the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, a distributor 140, a switching device 110, And connects to the commercial mobile communication network base station 60 through the base station 310, the band distribution unit 210 and the radio equipment connection terminal 220.

The transceiver 20 located inside the building is connected to the transceiver 20 located outside the building 10 via the leakage cable 240, the distributor 230, the band distributor 210, (20).

Although not shown in FIG. 1, a multiple signal combining / amplifying device may be connected to the radio device connecting terminal 220. The multi-signal combining / amplifying apparatus includes a first frequency band used as a disaster communication network of a mobile communication network and a second frequency band not used as a disaster communication network of a mobile communication network, The first frequency band transmitted from the base station 50 for the disaster communication network and the second frequency band transmitted from the commercial mobile communication network base station 60 are amplified and transmitted to the wireless device To the band distribution apparatus 210 via the connection terminal 220. [

3 is a block diagram of a communication network constructed inside a building according to another embodiment of the present invention. 3 shows that the communication system including the switching device 120 and the band distribution device 210 can be applied to the building system which is a mobile communication terminal.

Referring to FIG. 3, the switching device 110 includes a first transmission line connected to a mobile communication repeater installed inside the building 10, a communication device installed inside the building and located outside the building, A first switching state in which a second transmission line that can be connected to a building device 180 that is a mobile communication device that transmits and receives a signal for mobile communication is connected to a wireless device connection terminal 220 connected to the first transmission line and the third transmission line to which the second transmission line can be connected.

The switching device 110 maintains a first switching state in which at least one mobile communication antenna 170 installed in the building 10 is connected to a building device 180 that is a mobile communication device when power is supplied, When the supply is interrupted, the mobile communication terminal transitions to the second switching state in which the radio communication connection terminal 220 installed at the ground level of the building 10 and the mobile communication antenna 170 are connected.

In the first switching state of the switching device 110, the first type terminal device 30 located inside the building 10 includes an antenna 170 for mobile communication, a coupler 160, a transmission line 150, a distributor 140, a switching device 110, a mobile communication repeater 120, and a building device 180 that is a mobile communication terminal. The second type terminal device 40 located inside the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, a distributor 140, a switching device 110, And connects to the commercial mobile communication network base station 60 through the repeater 120 and the building device 180 which is a mobile communication.

In the second switching state of the switching device 110, the first type terminal device 30 located inside the building 10 includes an antenna 170 for mobile communication, a coupler 160, a transmission line 150, a distributor The base station 50 for the disaster communication network is connected via the switching device 110, the distributors 320 and 330, the transmission line 310, the band distributing device 210 and the radio device connecting terminal 220. The second type terminal device 40 located in the building 10 includes a mobile communication antenna 170, a coupler 160, a transmission line 150, a distributor 140, a switching device 110, a distributor 320, and 330, the transmission line 310, the band distribution unit 210, and the radio device connection terminal 220.

The transceiver 20 located inside the building is connected to the transceiver 20 located outside the building 10 via the leakage cable 240, the distributor 230, the band distributor 210, (20).

As described above, according to the embodiment of the present invention, the mobile communication relay facility installed in the internal space of the building can be utilized in the disaster communication network, so that the internal space of the building does not become a shadow area for the disaster communication network.

Meanwhile, as another embodiment of the present invention, it is also possible to further provide a band distribution apparatus which performs the same or similar function as the band distribution apparatus 210, and to replace the switching apparatus 110 with a further equipped band distribution apparatus An embodiment can be considered. However, in this embodiment, the mobile communication repeater installed in the building 10 is always connected to the radio device connection terminal 220 through the band distribution device 210. In this case, while the first-type terminal device 30 and the second-type terminal device 40 perform wireless communication through the mobile communication repeater 120 and the directional antenna 130 for mobile communication, There is a loss of the call quality depending on the connected state. However, according to the embodiment employing the switching device 110, when the power is supplied to the switching device 110, the mobile communication repeater installed in the internal space of the building is connected to the mobile communication repeater 120 and the directional antenna for mobile communication In a disaster situation where the power supplied to the switching device 110 is shut off, the mobile communication relay facility installed in the inner space of the building is connected to the wireless device connection terminal installed on the ground of the building Disaster communication network and commercial mobile communication network. As described above, if the mobile communication relay facility is not connected to the wireless device connection terminal installed in the ground, the loss of communication quality that may occur when connected to the wireless device connection terminal does not occur in a normal situation.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

According to the embodiment of the present invention, the mobile communication relay facility installed in the internal space of the building can be utilized for the disaster communication network, so that the internal space of the building does not become a shadow area for the disaster communication network. The present invention can be applied to and utilized in a technical field for constructing an internal space of a building as a disaster communication network service area.

100: switching device 111: first contact terminal
112: second contact terminal 113: third contact point terminal
114: switching element 120: mobile communication repeater
210: band distributor 220: wireless device connection terminal

Claims (6)

A first contact terminal connected to a first transmission line connected to a mobile communication repeater installed inside the building,
A second contact terminal connected to a second transmission line that can be connected to the mobile communication network when power is supplied,
A third contact terminal connected to a third transmission line to which a wireless device connection terminal installed at a ground portion of the building can be connected,
And a switching element having a first switching state for connecting the first contact terminal and the second contact terminal and a second switching state for connecting the first contact terminal and the third contact terminal,
Switching device. The method according to claim 1,
The switching device maintains the first switching state when power is supplied and changes from the first switching state to the second switching state when the supplied power is shut off
Switching device. The method according to claim 1,
A building device that is a mobile communication device installed in the inside of the building to transmit and receive a signal for mobile communication to a communication device located outside the building in the first switching state, Connecting the antenna and the first transmission line
Switching device. A first switching state in which a first transmission line connected to a mobile communication relay facility installed inside a building and a second transmission line connected to a mobile communication network when power is supplied, A switching device having a second switching state connecting a third transmission line to which the terminal can be connected and the first transmission line;
A first frequency band used as a disaster communication network of a mobile communication network and a second frequency band not used as the disaster communication network among the mobile communication network are distributed to a third transmission line, A third wireless signal in a third frequency band used as a fire safety net includes a band distribution device for distributing to a fourth transmission line connected to a wireless communication auxiliary equipment installed inside the building
Communication system. 5. The method of claim 4,
The switching device includes:
A first contact terminal connected to the first transmission line,
A second contact terminal connected to the second transmission line,
A third contact terminal connected to the third transmission line,
When the power source is turned off, the first contact terminal and the second contact terminal are maintained in the first switching state when power is supplied, and the second contact terminal is connected to the second contact terminal, And a switching element that transitions to a switching state
Communication system. 5. The method of claim 4,
A building device that is a mobile communication device installed in the inside of the building to transmit and receive a signal for mobile communication to a communication device located outside the building in the first switching state, Connecting the antenna and the first transmission line
Communication system.

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