CN213126490U - Split type 5G communication intelligent turn-off device - Google Patents

Abstract

The utility model discloses a split type 5G communication intelligent shutoff device of request protection, it includes macro base station end and at least one room branch station end; the macro base station end comprises a first main control module, a first electrical parameter detection module, a first automatic reclosing module, a first timing module and a first communication module, wherein the first electrical parameter detection module, the first automatic reclosing module, the first timing module and the first communication module are respectively connected to the first main control module; the indoor substation end comprises a second main control module, and a second electrical parameter detection module, a second automatic reclosing module, a second timing module, a second communication module and a second metering module which are respectively connected to the second main control module; the device can turn off the base station and the indoor substation under the base station at regular time, and also can turn off the base station and the indoor substation with less user quantity through remote control. The energy consumption of different base stations and indoor substations can also be detected by the device and transmitted to external terminal equipment.

Description

Split type 5G communication intelligent turn-off device

Technical Field

The utility model relates to a shutoff apparatus field, in particular to split type 5G communication intelligence shutoff apparatus.

Background

Because the LTE (Long Term Evolution ) mobile network service is in a rapid development and construction stage, the concern of an operator on the early stage of energy consumption of an LTE mobile base station is mainly that the potential of a relevant solution reaches the limit through application and mining for many years on an auxiliary energy-saving and emission-reducing technical solution, and the real energy consumption is the electricity consumption of a main device. With the distributed base station becoming the main station building mode, the energy consumption ratio of the base station main equipment will continue to increase. Meanwhile, network traffic often has obvious tidal effect, and the difference between busy hours and idle hours can reach 4 times, but most base station equipment always keeps a 24-hour continuous operation state, and energy consumption is not dynamically adjusted along with the change of the traffic, so that considerable waste is caused. Therefore, for the master device, how to reduce the energy consumption by means of intelligent shutdown of the base station becomes a main consideration for energy saving of the base station.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art exists, the utility model aims to provide a split type 5G communication intelligence turn-off devices, the device can turn off the room substation under basic station and the basic station regularly, also can turn off the less basic station of user's volume and room substation through remote control. The energy consumption of different base stations and indoor substations can also be detected by the device and transmitted to external terminal equipment.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the split type 5G communication intelligent turn-off device comprises a macro base station end and at least one room branch station end; the macro base station end comprises a first main control module, and a first electrical parameter detection module, a first automatic reclosing module, a first timing module and a first communication module which are respectively connected to the first main control module; the indoor substation end comprises a second main control module, and a second electrical parameter detection module, a second automatic reclosing module, a second timing module, a second communication module and a second metering module which are respectively connected to the second main control module.

The first electrical parameter detection module is used for detecting the electrical parameters of the macro base station end where the first electrical parameter detection module is located, and the second electrical parameter detection module is used for detecting the electrical parameters of the indoor substation end where the second electrical parameter detection module is located.

The second metering module is used for calculating the power consumption of the indoor substation end where the second metering module is located according to the electric parameters detected by the second electric parameter detection module and storing the power consumption in the second main control module, and the second main control module is used for controlling the second communication module to transmit the power consumption to the first communication module.

The first automatic reclosing module is used for being connected to a switch of a standby power box at the macro base station end where the first automatic reclosing module is located, and the second automatic reclosing module is used for being connected to a switch of a standby power box at the branch station end where the second automatic reclosing module is located.

The first main control module is used for controlling the first automatic reclosing module to carry out switching-off action according to switching-off time preset by the first timing module so as to disconnect a switch of a standby power box at a macro base station end where the first main control module is located, and controlling the first automatic reclosing module to carry out switching-on action according to switching-on time preset by the first timing module so as to close the switch of the standby power box at the macro base station end where the first main control module is located; the second main control module is further used for controlling the second automatic reclosing module to conduct an opening action according to the opening time preset by the second timing module, so that a switch of a standby power box at the indoor substation end where the second timing module is located is disconnected, and controlling the second automatic reclosing module to conduct a closing action according to the closing time preset by the second timing module, so that the switch of the standby power box at the indoor substation end where the second timing module is located is closed.

To sum up, the utility model discloses following beneficial effect has:

the utility model discloses a split type 5G communication intelligence turn-off device can realize becoming more meticulous as required energy-conserving, and low or the user volume is minimum time quantum in basic station load, regularly turn-offs dormancy basic station, and when basic station load is higher, regularly open the basic station to reach energy saving and emission reduction's purpose, also reduced enterprise's operation cost simultaneously. The device is mainly used for timing turn-off of base stations or indoor substations in traffic burst scenes such as exhibition halls, stadiums, shopping malls or schools and other non-important places at night.

Drawings

Fig. 1 is a schematic structural diagram of a split-type 5G communication intelligent shutdown device according to a first embodiment.

Reference numerals: 10. a macro base station end; 101. a first master control module; 102. a first electrical parameter detection module; 103. a first automatic reclosing module; 104. a first timing module; 105. a first communication module; 106. a first protection module; 20. a room branch station end; 201. a second master control module; 202. a second electrical parameter detection module; 203. a second automatic reclosing module; 204. a second timing module; 205. a second communication module; 206. a second metering module; 207. and a second protection module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous specific details are set forth in order to provide a better understanding of the present invention. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some cases, operations related to the present invention are not shown or described in the specification, so as to avoid the core part of the present invention being overwhelmed by excessive description, and it is not necessary for those skilled in the art to describe these related operations in detail, and they can fully understand the related operations according to the description in the specification and the general knowledge in the art. Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connect" or "connect" as used herein includes both direct and indirect connections (connections), unless otherwise specified.

The first embodiment is as follows:

fig. 1 is a schematic structural diagram of a split-type 5G communication intelligent shutdown device of this embodiment, which includes a macro base station terminal 10 and at least one indoor substation terminal 20; the macro base station 10 includes a first main control module 101, and a first electrical parameter detection module 102, a first automatic reclosing module 103, a first timing module 104 and a first communication module 105 which are respectively connected to the first main control module 101; the substation terminal 20 includes a second main control module 201, and a second electrical parameter detection module 202, a second automatic reclosing module 203, a second timing module 204, a second communication module 205, and a second metering module 206 respectively connected to the second main control module 201.

The first electrical parameter detecting module 102 is used for detecting the electrical parameter of the macro base station terminal 10 where the first electrical parameter detecting module 102 is located, and the second electrical parameter detecting module 202 is used for detecting the electrical parameter of the indoor substation terminal 20 where the second electrical parameter detecting module 202 is located. The electrical parameter in this embodiment may be, for example, an operating voltage and/or an operating current.

The second metering module 206 is configured to calculate power consumption of the indoor substation 20 where the second metering module 202 is located according to the electrical parameter detected by the second electrical parameter detection module 202, and store the power consumption in the second main control module 201, where the second main control module 201 is configured to control the second communication module 205 to transmit the power consumption to the first communication module 105.

The first automatic reclosing module 103 is used for connecting to the switch of the standby box of the macro base station end 10 where the first automatic reclosing module is located, and the second automatic reclosing module 203 is used for connecting to the switch of the standby box of the indoor substation end 20 where the second automatic reclosing module is located.

The first main control module 101 is configured to control the first automatic reclosing module 103 to perform an opening operation according to an opening time preset by the first timing module 104, so as to disconnect a switch of a standby power box of the macro base station end 10 where the first automatic reclosing module is located, and control the first automatic reclosing module 103 to perform a closing operation according to a closing time preset by the first timing module 104, so as to close the switch of the standby power box of the macro base station end 10 where the first automatic reclosing module is located; the second main control module 201 is further configured to control the second auto-reclosing module 203 to perform an opening operation according to the opening time preset by the second timing module 204, so that the switch of the backup power box of the substation end 20 where the second timing module is located is turned off, and control the second auto-reclosing module 203 to perform a closing operation according to the closing time preset by the second timing module 204, so that the switch of the backup power box of the substation end 20 where the second timing module is located is turned on.

The first communication module 105 and the second communication module 205 perform signal transmission or transmit instructions through NB-IOT wireless communication, 4G wireless communication, or 5G wireless communication.

Further, the shutdown device of the present embodiment further includes a first protection module 106 connected to the first main control module 101 and a second protection module 207 connected to the second main control module 201.

The first protection module 106 is configured to detect whether a short circuit, a fault arc, or an over-temperature phenomenon occurs in a circuit of the macro base station 10 where the first protection module is located, and send a short circuit signal, a fault arc signal, or an over-temperature signal to the first main control module 101 when it is determined that the short circuit, the fault arc, or the over-temperature phenomenon occurs in the circuit of the macro base station 10 where the first protection module is located, so that the first main control module 101 controls the first automatic reclosing module 103 to perform an opening operation.

The second main control module 201 is configured to detect whether a short circuit, a fault arc, or an over-temperature phenomenon occurs in a circuit of the substation end 20 of the room where the second main control module is located, and send a short circuit signal, a fault arc signal, or an over-temperature signal to the second main control module 201 when it is determined that the short circuit, the fault arc, or the over-temperature phenomenon occurs in the circuit of the substation end 20 of the room where the second main control module is located, so that the second main control module 201 controls the second automatic reclosing module 203 to perform an opening operation.

Further, when the first protection module 106 stops sending the short-circuit signal, the fault arc signal or the over-temperature signal to the first main control module 101, the first main control module 101 controls the first automatic reclosing module 103 to perform a closing action; when the second protection module 207 stops sending the short-circuit signal, the fault arc signal, or the over-temperature signal to the second main control module 201, the second main control module 201 controls the second auto-reclosing module 203 to perform a closing operation.

Further, the first communication module 105 is configured to establish communication with an external terminal device, so as to transmit a device status signal of the macro base station 10 to the external terminal device, where the external terminal device may be a control terminal such as a mobile phone, a computer, or a cloud server, and the second communication module 205 transmits the device status signal of the substation 20 to the external terminal device through the first communication module 105.

Further, the device status signal transmitted by the first communication module 105 includes the time taken for the first automatic reclosing module 103 to perform the opening action and the closing action; the device status signal transmitted by the second communication module 205 includes the time taken for the second automatic reclosing module 203 to perform the opening operation and the closing operation and the power consumption detected by the second metering module 206.

Further, the turn-off device of this embodiment is still including setting up the emergency light on the device, and the emergency light is used for providing illumination under no light environment, and when the device broke down, the maintenance personal can use the emergency light to throw light on, convenient maintenance.

Furthermore, the emergency lamp comprises a light emitting diode, an emergency lamp switch and a standby power supply which are connected in sequence; the standby power supply is used for supplying power to the light-emitting diode, and the emergency lamp switch is used for controlling the on and off of the light-emitting diode.

The utility model discloses a split type 5G communication intelligence turn-off device can realize becoming more meticulous as required energy-conserving, and low or the user volume is minimum time quantum in basic station load, regularly turn-offs dormancy basic station, and when basic station load is higher, regularly open the basic station to reach energy saving and emission reduction's purpose, also reduced enterprise's operation cost simultaneously. The device can also transmit information such as the time length of the base station shutdown dormancy and the power consumption to the external terminal equipment through the communication module, so that the energy saving amount is calculated through the time length of the base station shutdown dormancy or the power charge is calculated through the power consumption. The device is mainly used for timing turn-off of base stations or indoor substations in traffic burst scenes such as exhibition halls, stadiums, shopping malls or schools and other non-important places at night.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (8)

1. The split type intelligent cut-off device for 5G communication is characterized by comprising a macro base station end (10) and at least one room substation end (20); the macro base station (10) comprises a first main control module (101), and a first electrical parameter detection module (102), a first automatic reclosing module (103), a first timing module (104) and a first communication module (105) which are respectively connected to the first main control module (101); the room substation end (20) comprises a second main control module (201), and a second electrical parameter detection module (202), a second automatic reclosing module (203), a second timing module (204), a second communication module (205) and a second metering module (206) which are respectively connected to the second main control module (201);

the first electrical parameter detection module (102) is used for detecting the electrical parameters of the macro base station end (10) where the first electrical parameter detection module is located, and the second electrical parameter detection module (202) is used for detecting the electrical parameters of the branch station end (20) where the second electrical parameter detection module is located;

the second metering module (206) is configured to calculate power consumption of the substation end (20) in the room where the second metering module (206) is located according to the electrical parameter detected by the second electrical parameter detection module (202) and store the power consumption in the second main control module (201), and the second main control module (201) is configured to control the second communication module (205) to transmit the power consumption to the first communication module (105);

the first automatic reclosing module (103) is used for being connected to a switch of a standby power box of a macro base station end (10) where the first automatic reclosing module is located, and the second automatic reclosing module (203) is used for being connected to a switch of a standby power box of a room substation end (20) where the second automatic reclosing module is located;

the first main control module (101) is used for controlling the first automatic reclosing module (103) to perform an opening action according to the opening time preset by the first timing module (104), so that a switch of a standby power box of the macro base station end (10) where the first automatic reclosing module is located is disconnected, and controlling the first automatic reclosing module (103) to perform a closing action according to the closing time preset by the first timing module (104), so that the switch of the standby power box of the macro base station end (10) where the first automatic reclosing module is located is closed; the second main control module (201) is further configured to control the second automatic reclosing module (203) to perform an opening operation according to the opening time preset by the second timing module (204), so that the switch of the standby power box of the indoor substation end (20) where the second automatic reclosing module is located is turned off, and control the second automatic reclosing module (203) to perform a closing operation according to the closing time preset by the second timing module (204), so that the switch of the standby power box of the indoor substation end (20) where the second automatic reclosing module is located is turned on.

2. The split type 5G communication intelligent turn-off device as claimed in claim 1, wherein the first communication module (105) and the second communication module (205) perform signal transmission or instruction transmission through NB-IOT wireless communication or 5G wireless communication.

3. The split type 5G communication intelligent shutdown device of claim 1, further comprising a first protection module (106) connected to the first master control module (101) and a second protection module (207) connected to the second master control module (201);

the first protection module (106) is used for detecting whether a circuit of the macro base station end (10) where the first protection module is located is short-circuited, and when the circuit of the macro base station end (10) where the first protection module is located is judged to be short-circuited, a short-circuit signal is sent to the first main control module (101), so that the first main control module (101) controls the first automatic reclosing module (103) to perform an opening operation;

the second main control module (201) is used for detecting whether a circuit of the room substation end (20) where the second main control module is located is short-circuited, and when the circuit of the room substation end (20) where the second main control module is located is judged to be short-circuited, a short-circuit signal is sent to the second main control module (201), so that the second main control module (201) controls the second automatic reclosing module (203) to perform an opening operation.

4. The split type 5G communication intelligent turn-off device as claimed in claim 3, wherein when the first protection module (106) stops sending a short-circuit signal to the first master control module (101), the first master control module (101) controls the first automatic reclosing module (103) to perform a closing action; when the second protection module (207) stops sending a short-circuit signal to the second main control module (201), the second main control module (201) controls the second automatic reclosing module (203) to perform a closing action.

5. The split type 5G communication intelligent shutdown device of claim 1, wherein the first communication module (105) is configured to establish communication with an external terminal device, so as to transmit the device status signal of the macro base station terminal (10) to the external terminal device, and the second communication module (205) transmits the device status signal of the room substation terminal (20) to the external terminal device through the first communication module (105).

6. The split type 5G communication intelligent turn-off device as claimed in claim 5, wherein the device status signal transmitted by the first communication module (105) comprises the time taken for the first automatic reclosing module (103) to perform an opening action and a closing action; the device state signal transmitted by the second communication module (205) comprises the time from the opening action to the closing action of the second automatic reclosing module (203) and the power consumption calculated by the second metering module (206).

7. The split type 5G communication intelligent turn-off device as claimed in any one of claims 1 to 6, further comprising an emergency lamp arranged on the device, wherein the emergency lamp is used for providing illumination in a non-illumination environment.

8. The split type 5G communication intelligent turn-off device as claimed in claim 7, wherein the emergency lamp comprises a light emitting diode, an emergency lamp switch and a standby power supply which are connected in sequence; the standby power supply is used for supplying power to the light emitting diode, and the emergency lamp switch is used for controlling the on and off of the light emitting diode.

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