CN116828576B - Energy saving method and system for elevator signal coverage system - Google Patents

Abstract

The invention relates to an energy-saving method and a system of an elevator signal coverage system, wherein the method comprises the following steps: the car unit and the host unit are in wireless communication through the working frequency band, so that the signal coverage of the elevator car is realized; monitoring, by the host unit, a drive motor current of an elevator corresponding to the car unit; if the host unit monitors that the current of the driving motor is not changed and exceeds a preset time, a stop notification is sent to a car unit corresponding to the elevator, and the stop notification is used for notifying the car unit to close a power amplifier of the car unit; the car unit is in wireless communication with the control frequency band. According to the invention, the power amplifier of the host unit and the power amplifier of the car unit of the elevator signal coverage system are subjected to energy-saving operation by monitoring that the current of the power line of the elevator driving motor is unchanged and reaches the preset time length, so that energy waste is avoided, and energy saving is realized.

Description

Energy saving method and system for elevator signal coverage system

Technical Field

The invention relates to the technical field of mobile communication, in particular to an energy-saving method and system of an elevator signal coverage system.

Background

Elevator signal coverage systems are developed to address the problem of elevator mobile network coverage. However, the coverage environment of the elevator is used by more people in a fixed time period, and more than 1/2 of the idle time except the fixed use time is used by no people. For example, late night in an office area; or working day operating time of the office building, etc., and the frequency of use of the elevator is very low. The communication equipment such as the elevator signal coverage system is kept continuously working in the time periods, so that unnecessary energy waste is caused. Therefore, how to save energy in an elevator signal coverage system without affecting the perception of user use is a considerable and resolvable problem.

Disclosure of Invention

In order to solve the technical problems, the invention provides an energy-saving method and an energy-saving system for an elevator signal coverage system.

A first aspect of the invention provides a method of saving energy of an elevator signal coverage system, the method comprising the steps of:

s1, the car unit and the host unit are in wireless communication through a working frequency band, so that the signal coverage of the elevator car is realized;

s3, monitoring the current of a driving motor of the elevator corresponding to the car unit through the host unit;

s5, if the host unit monitors that the current of the driving motor is not changed and exceeds a preset time, a stop notification is sent to a corresponding car unit of the elevator, and the stop notification is used for notifying the car unit to close a power amplifier of the car unit; the car unit is in wireless communication with the control frequency band.

As a preferable technical scheme, after the host unit sends a stop notification to all the corresponding car units, the power amplifier of the host unit is turned off.

As a preferable technical solution, when the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit which has sent the stop notification changes, the host unit sends a start notification to the car unit through the control frequency band of the host unit, where the start notification is used to notify the car unit to start the power amplifier of the elevator.

As a preferable technical scheme, when the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit which has sent the stop notification changes, starting a power amplifier of the host unit; and sending a start notification to the car unit through the control frequency band of the host unit, wherein the start notification is used for notifying the car unit to start the power amplifier.

As an preferable technical scheme, the power amplifier of the car unit is started immediately after the car unit receives the starting notification.

As an preferable technical scheme, the control frequency band is closed after the car unit starts the power amplifier.

A second aspect of the invention provides an energy saving system for an elevator signal coverage system comprising a stationary host unit and a car unit moving with an elevator; the host unit and the car unit are in wireless communication through a working frequency band so as to realize the coverage of elevator car signals; the energy-saving system comprises a current induction module, a timer and an energy-saving control module, wherein the current induction module is used for monitoring whether the current of a driving motor of an elevator corresponding to the car unit changes or not; the timer is used for calculating whether the time when the current of the driving motor is unchanged exceeds a preset time; the energy-saving control module is used for sending a stop notification to the corresponding car unit of the elevator when the time that the current of the driving motor does not change exceeds the preset time, wherein the stop notification is used for notifying the car unit to close the power amplifier; the car unit is in wireless communication with the control frequency band.

As an preferable technical solution, the energy-saving control module is further configured to close the power amplifier of the host unit after the host unit sends a stop notification to all the corresponding car units.

As an preferable technical solution, the energy-saving control module is further configured to send a start notification to the car unit through the control frequency band when the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit that has sent the stop notification changes, where the start notification is used to notify the car unit to start the power amplifier.

As an preferable technical scheme, the energy-saving control module is further used for starting a power amplifier of the host unit when the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit which has sent the stop notification changes; and sending a start notification to the car unit through the control frequency band, wherein the start notification is used for notifying the car unit to start the power amplifier.

Compared with the prior art, the invention monitors that the current of the driving motor of the elevator corresponding to the elevator car unit is unchanged and exceeds the preset time through the host unit, judges that no user exists in the elevator car, and sends a stop notification to the elevator corresponding to the elevator, wherein the stop notification is used for notifying the elevator car unit to close the power amplifier, thereby realizing energy saving.

Drawings

For further disclosure of the present invention, exemplary embodiments thereof are described in more detail below with reference to the attached drawing figures, wherein:

fig. 1 is a schematic connection diagram of an energy saving system of an elevator signal coverage system according to an embodiment of the present invention;

fig. 2 is a flow chart of an energy saving method of an elevator signal coverage system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, an elevator signal coverage system in an energy saving system of an elevator signal coverage system according to an embodiment of the present invention is used for covering a mobile network signal of an elevator car. The elevator signal coverage system comprises a car unit 10 moving with the elevator and a host unit 20 communicating mobile network signals with the car unit 10 and stationary. As can be appreciated, the car unit 10 is mounted to an elevator car; both the host unit 20 and the elevator drive motor 30 driving the elevator car are mounted in the elevator machine room or at the top of the hoistway in which the elevator car is running. Specifically, the car unit 10 and the host unit 20 perform wireless communication through an operating frequency band, thereby realizing elevator car signal coverage. The drive motor 30 of the elevator has a power cord for supplying power thereto.

The energy saving system of the elevator signal coverage system includes a current sensing module 50, a timer 60, and an energy saving control module 70. In this embodiment, one end of the current sensing module 50 is connected to a power line for supplying power to the driving motor 30 of the elevator, so as to sense the current variation condition of the power line for supplying power to the driving motor 30; and the current sense module 50 is integrated into the host unit 20. The timer 60 is connected to the host unit 20 of the integrated current sensing module 50 and the energy saving control module 70 at both ends, respectively. The current sensing module 50 integrated with the host unit 20 monitors whether the current of the driving motor 30 of the elevator corresponding to the car unit 10 is changed. The timer 60 is used to calculate whether the time during which the current of the driving motor 30 is not changed exceeds a preset time. The energy saving control module 70 is used for sending a stop notification to the corresponding car unit 10 of the elevator when the time that the current of the driving motor 30 is not changed exceeds the preset time. The stop notification is used to notify the car unit 10 to turn off its power amplifier. After the car unit 10 turns off its power amplifier, the car unit 10 subsequently performs wireless communication through the control frequency band.

In this embodiment, the other end of the current sensing module 50 is connected to the host unit 20, and the host unit 20 knows whether the current in the power line of the elevator driving motor 30 is changed or not through the direct feedback of the current sensing module 50. It will be appreciated that the current in the power cord of the elevator drive motor 30 will become greater when the elevator car is in operation. For example, if the current sensing module 50 monitors a change in current in the power cord of the elevator drive motor, then the elevator car is deemed to be running and the network signal coverage system of the elevator car needs to remain operational. Otherwise, if the current sensing module 50 monitors that the current in the power line of the elevator driving motor has not changed, it is determined that the elevator is in a stationary state without a user.

Further, the energy-saving control module 70 is further configured to turn off the power amplifier of the host unit 20 after the host unit 20 sends a stop notification to all the corresponding car units 10. The car unit 10 also turns off its power amplifier upon receiving the stop notification. In this way, the power amplifiers of the host unit 20 and the car unit 10 are turned off, and energy saving of the elevator signal coverage system is achieved.

It will be appreciated that both the car unit 10 and the host unit 20 have an operating frequency band and a control frequency band. Wherein the operating frequency band of the car unit 10 or the host unit 20 includes the operation of the power amplifier. The power amplifier is a main power consumption part of the elevator signal coverage system, and the power consumption of the working frequency bands of the car unit 10 and the host unit 20 is large. In this embodiment, when the elevator is operating normally, the operating frequency band and the control frequency band of the car unit 10 and the host unit 20 may be both in the on state. When the energy-saving operation is performed, the operating frequency bands of the car unit 10 and the host unit 20 are closed, and the control frequency bands thereof are kept open for communication with each other. For example, when the host unit 20 monitors that the drive motor current of the elevator corresponding to the car unit 10, for which the stop notification has been sent, changes, the host unit 20 can send a start notification to the car unit 10 through its control frequency band. The start notification is used to notify the car unit 10 of turning on its power amplifier. In this case, the control band of the car unit 10 is turned on, and a start notification transmitted from the control band of the host unit 20 can be received.

In this embodiment, the energy-saving control module 70 is configured to send a start notification to the car unit 10 through the control frequency band of the host unit 20 when the host unit 20 monitors that the current of the drive motor 30 of the elevator corresponding to the car unit 10 that has sent the stop notification changes. After receiving the start notification, the car unit 10 immediately starts its power amplifier.

Preferably, after the car unit 10 starts its power amplifier, the control band of the car unit 10 is closed, so as to further save energy.

In another embodiment, when the host unit 20 monitors that the current of the driving motor 30 of the elevator corresponding to the car unit 10, which has sent the stop notification, changes, the host unit 20 may first turn on its power amplifier and send a start notification to the car unit 10, notifying the car unit 10 to turn on its power amplifier. In this case, the energy saving control module 70 is used to turn on the power amplifier of the host unit 20 when the host unit 20 monitors that the current of the drive motor 30 of the elevator corresponding to the car unit 10, which has sent the stop notification, is changed. And at the same time transmits a start notification to the car unit 10 through the control band of the host unit 20. It will be appreciated that a start notification may also be sent to the car unit 10 through the operating band of the host unit 20 after the power amplifier of the host unit 20 is started. In this way, both the power amplifiers of the host unit 20 and the car unit 10 are turned on, and the normal coverage of the network signals of the elevator signal coverage system is restored.

An energy saving method of an energy saving system of an elevator signal coverage system according to an embodiment of the present invention will be described in detail with reference to fig. 1 and 2, and includes the following steps:

s1, the car unit 10 and the host unit 20 perform wireless communication through a working frequency band, so that the signal coverage of the elevator car is realized;

s3, monitoring the current of a driving motor of the elevator corresponding to the car unit 10 through the host unit 20;

s5, if the host unit 20 monitors that the current of the driving motor 30 is not changed and exceeds the preset time, a stop notification is sent to the corresponding car unit 10 of the elevator. The stop notification is used to notify the car unit 10 to turn off its power amplifier. The car unit subsequently communicates wirelessly via the control band.

Further, after the host unit 20 sends a stop notification to all the car units 10 corresponding thereto, the power amplifier of the host unit 20 is turned off. At this time, the host unit 20 may transmit a stop notification to the car unit 10 through the operating band or the control band. It will be appreciated that the car unit 10 corresponds to a stop notification sent over its operating frequency band to the receiving host unit 20 operating frequency band. The car unit 10 corresponds to a stop notification transmitted through its control band reception host unit 20 control band.

In the present embodiment, when the host unit 20 monitors that the current of the drive motor 30 of the elevator corresponding to the car unit 10, which has sent the stop notification, changes, a start notification is sent to the car unit 10 through the control band of the host unit 20. The start notification is used to notify the car unit 10 of turning on its power amplifier. In this case, the host unit 20 may first turn on the power amplifier of the car unit 10, and then turn on the power amplifier of the host unit 20 itself. Preferably, the car unit 10 starts the power amplifier, and after the working frequency band is started, the control frequency band of the car unit 10 can be closed, so that further energy saving is achieved.

In an alternative embodiment, when the host unit 20 monitors that the current of the drive motor 30 of the elevator corresponding to the car unit 10, which has sent a stop notification, changes, the power amplifier of the host unit 20 is turned on; and transmits a start notification to the car unit 10 through the control band of the host unit 20. After receiving the start notification, the car unit immediately starts the power amplifier. That is, the host unit 20 starts the power amplifier, then makes the car unit 10 start the power amplifier, and then sends a start notification to the car unit 10 to start the power amplifier of the car unit 10.

The foregoing examples only illustrate preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that modifications and improvements can be made without departing from the spirit of the invention, such as combining different features of the various embodiments, which are all within the scope of the invention.

Claims (5)

1. A method of saving energy in an elevator signal coverage system comprising a stationary host unit and a car unit moving with an elevator, the method comprising the steps of:

s1, the car unit and the host unit are in wireless communication through a working frequency band, so that the signal coverage of the elevator car is realized;

s3, monitoring the current of a driving motor of the elevator corresponding to the car unit through the host unit;

s5, if the host unit monitors that the current of the driving motor is not changed and exceeds a preset time, a stop notification is sent to a corresponding car unit of the elevator, and the stop notification is used for notifying the car unit to close the working frequency range of the car unit; the car unit performs wireless communication through a control frequency band; the working frequency range of the car unit comprises the work of a car unit power amplifier;

the host unit sends a stop notice to the control frequency bands of all corresponding car units through the control frequency bands of the host unit, and then closes the working frequency band of the host unit, and reserves the control frequency band of the host unit; the working frequency range of the host unit comprises the work of a power amplifier of the host unit;

when the control frequency band of the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit which has sent the stop notification changes, a start notification is sent to the control frequency band of the car unit through the control frequency band of the host unit, and the start notification is used for notifying the car unit to start the working frequency band of the car unit.

2. The method of energy conservation for an elevator signal coverage system of claim 1 wherein the car unit immediately turns on its operating frequency band upon receiving the start notification.

3. The method of energy conservation for an elevator signal coverage system of claim 2, wherein the control band of the car unit is shut down after the car unit has started its operating band.

4. An energy saving system for an elevator signal coverage system, the elevator signal coverage system comprising a stationary host unit and a car unit moving with an elevator; the elevator car signal coverage system is characterized in that the host unit and the car unit are in wireless communication through a working frequency band so as to realize elevator car signal coverage; the energy-saving system comprises a current induction module, a timer and an energy-saving control module, wherein the current induction module is used for monitoring whether the current of a driving motor of an elevator corresponding to the car unit changes or not; the timer is used for calculating whether the time when the current of the driving motor is unchanged exceeds a preset time; the energy-saving control module is used for sending a stop notification to the corresponding car unit of the elevator when the time that the current of the driving motor does not change exceeds the preset time, wherein the stop notification is used for notifying the car unit to close the working frequency range of the car unit; the car unit performs wireless communication through a control frequency band subsequently;

the energy-saving control module is also used for closing the working frequency band of the host unit after the host unit sends a stop notice to all corresponding car units;

the energy-saving control module is also used for starting the working frequency band of the host unit when the host unit monitors that the current of the driving motor of the elevator corresponding to the car unit which has sent the stop notification changes; and sending a start notification to the control frequency band of the car unit through the control frequency band of the host unit, wherein the start notification is used for notifying the car unit to start the working frequency band of the car unit.

5. The energy conservation system of the elevator signal coverage system of claim 4 wherein the energy conservation control module is further configured to shut down the control band of the car unit after the car unit has started its operating band.