CN112416112A

CN112416112A - Energy-saving self-service terminal system and operation method

Info

Publication number: CN112416112A
Application number: CN202011023695.7A
Authority: CN
Inventors: 胡焱; 赵金鹏; 安静
Original assignee: Inspur Financial Information Technology Co Ltd
Current assignee: Inspur Financial Information Technology Co Ltd
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2021-02-26

Abstract

The invention discloses an energy-saving self-service terminal system and an operation method, wherein the energy-saving self-service terminal system comprises a cloud server, wherein the cloud server is connected with at least one self-service terminal; the module of the self-service terminal comprises a power module, a communication module and a plurality of components; the drives of all modules in the self-service terminal are arranged in the cloud server; the power supplies of the components are all provided with independent power supply switch circuits, and the power supply module controls the on-off of the power supply switch circuits; the USB interfaces of the components are all provided with independent communication switch circuits, and the communication module controls the communication switch circuits to be switched on and off; a single self-service terminal is connected with the cloud server, so that resource sharing of multiple self-service terminals is realized, repeated calculation and processing are avoided, and a double-machine hot standby function is realized to a certain extent.

Description

Energy-saving self-service terminal system and operation method

Technical Field

The invention relates to an energy-saving self-service terminal system and an operation method, and belongs to the technical field of self-service terminals.

Background

In recent years, the power consumption and the bandwidth occupation of a power supply are increased due to the development of a biological identification technology and a core processor, the number of components contained in the self-service terminal is relatively large, and the requirement on power supply is higher and higher; the power capacity of a single self-service terminal is related to the number of contained components, the increase of USB devices puts higher requirements on a host, the increase of the power capacity leads to the increase of the power of the whole self-service terminal, and how to utilize the power to the maximum efficiency and achieve the aim of saving energy is an important subject.

The cloud technology is based on the general names of network technology, information technology, integration technology, management platform technology, application technology and the like of cloud computing application, can form a resource pool, is used as required, and is flexible and convenient. Cloud technology has also been greatly developed in recent years, cloud computer technology based on cloud technology has been verified to some extent in the market at present, Huashi cloud computer technology based on cloud technology is a better application case, and development of 5G technology at present enables halation computer technology to be practically applied in daily life, and the problems of blockage and slow data transmission are solved.

Disclosure of Invention

In view of the above technical problems, the present invention aims to: on the basis of the cloud technology, the development of the current 5G communication technology is utilized to provide a unique solution of the power management technology and the cloud computer technology.

The technical solution of the invention is realized as follows: an energy-saving self-service terminal system comprises a cloud server, wherein the cloud server is connected with at least one self-service terminal; the module of the self-service terminal comprises a power module, a communication module and a plurality of components; the drives of all modules in the self-service terminal are arranged in the cloud server; the power supplies of the components are all provided with independent power supply switch circuits, and the power supply module controls the on-off of the power supply switch circuits; the USB interfaces of the components are all provided with independent communication switch circuits, and the communication modules control the communication switch circuits to be switched on and switched off.

Preferably, the cloud server is provided with a driver of all modules of at least one self-service terminal.

Preferably, the USB interface of the component does not need to be plugged and unplugged to recover communication.

The invention also discloses an operation method of the energy-saving self-service terminal system, which comprises the following steps:

s100, electrifying the components in a time-sharing mode by adopting a time-sharing multiplexing principle; when any part in the self-service terminal is in a non-calling state, the part is judged to be in a temporary unused state, and the cloud server drives the power supply module and the communication module to control the power supply switch circuit to cut off the power supply and communication of the part; when any component in the self-service terminal needs to be used, the cloud server drives the power supply module and the communication module to control the power supply switch circuit to start the power supply and communication of the component;

s200, data sharing processing, namely distributing data to be processed to an idle self-service terminal by the cloud server, processing the data by the idle self-service terminal, uploading the processed data to the cloud server after the data processing of the idle self-service terminal is finished, and sharing the data to the needed self-service terminal by the cloud server.

Preferably, the design capacity of the power supply of the self-service terminal is based on the sum of the power of all modules in the self-service terminal working at the same time.

Preferably, the cloud server can simultaneously share data of a plurality of self-service terminals.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the cloud power supply management system adopts a novel cloud power supply management strategy to deal with the situation of hardware increase, and adopts time-sharing multiplexing, so that the power supply capacity can be saved as much as possible, and multiple plugging and unplugging are avoided; bandwidth resources are fully utilized, and the requirement on a host platform is reduced; a single self-service terminal is connected with the cloud server, so that resource sharing of multiple self-service terminals is realized, repeated calculation and processing are avoided, and a double-machine hot standby function is realized to a certain extent.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

FIG. 1 is an example of a hardware setup scheme for an energy-efficient self-service terminal system of the present invention;

FIG. 2 is another example of a hardware setup scheme for an energy-efficient self-service terminal system of the present invention;

wherein: 1. a cloud server; 2. a self-service terminal; 3. a power supply module; 4. a communication module; 5. a component; 6. a power switching circuit; 7. a USB interface; 8. a communication switch circuit.

Detailed Description

The invention is described below with reference to the accompanying drawings.

As shown in fig. 1, in the first embodiment:

the cloud server 1 is connected with a self-service terminal 2, the self-service terminal 2 comprises a power module 3, a communication module 4 and a plurality of components 5, and all modules in the self-service terminal 2 are driven in the cloud server 1; the power supply of each component 5 is provided with an independent power supply switch circuit 6, and the power supply module 3 controls the on-off of the power supply switch circuit 6; the USB interface 7 of each component 5 is provided with an independent communication switch circuit 8, and the communication module 4 controls the communication switch circuit 8 to be switched on and switched off; when any part 5 in the self-service terminal 2 is in a non-calling state, the state is judged to be in a temporary non-use state, and the cloud server 1 drives the power supply module 3 and the communication module 4 to control the power supply switch circuit 6 to cut off the power supply and communication of the part 5; when any part 5 in the self-service terminal 2 needs to be used, the cloud server 1 drives the power module 3 and the communication module 4 to control the power switch circuit 6 to start the power supply and the communication of the part 5.

As shown in fig. 2, the second embodiment:

the cloud server 1 is connected with two self-service terminals 2, each self-service terminal 2 comprises a power supply module 3, a communication module 4 and a plurality of components 5, and all modules in the two self-service terminals 2 are driven in the cloud server 1; the power supply of each component 5 is provided with an independent power supply switch circuit 6, and the power supply module 3 controls the on-off of the power supply switch circuit 6; the USB interface 7 of each component 5 is provided with an independent communication switch circuit 8, and the communication module 4 controls the communication switch circuit 8 to be switched on and switched off; when any part 5 in the self-service terminal 2 is in a non-calling state, the state is judged to be in a temporary non-use state, and the cloud server 1 drives the power supply module 3 and the communication module 4 to control the power supply switch circuit 6 to cut off the power supply and communication of the part 5; when any component 5 in the self-service terminal 2 needs to be used, the cloud server 1 drives the power module 3 and the communication module 4 to control the power switch circuit 6 to start power supply and communication of the component 5; during data processing, the cloud server 1 distributes data to be processed to the idle self-service terminals 2, the idle self-service terminals 2 perform data processing, the idle self-service terminals 2 upload the processed data to the cloud server 1 after the data processing is finished, the cloud server 1 shares the data to the needed self-service terminals 2, and the sharing of computing resources of the self-service terminals 2 is completed.

Complex data are processed by the cloud server 1, information is shared among the self-service terminals 2 through the cloud server 1, the data processing time of a single self-service terminal 2 is shortened, repeated data processing is avoided, data sharing is completed, and the function of dual-machine hot standby is achieved to a certain extent; and the overall rapid deployment and invocation are facilitated.

The cloud server 1 is connected with at least one self-service terminal 2, the drives of all modules in the self-service terminal 2 are all placed in the cloud server 1, namely one cloud server 1 is provided with the drives of all modules of at least one host, and the cloud server 1 can drive any module of any self-service terminal 2 and comprises a power supply module 3, a communication module 4 and a plurality of components 5; information sharing is carried out among the self-service terminals 2 through the cloud server 1, and the cost of each self-service terminal 2 can be reduced.

The above-mentioned embodiments are merely illustrative of the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.

Claims

1. An energy-saving self-service terminal system, its characterized in that: the system comprises a cloud server (1), wherein the cloud server (1) is connected with at least one self-service terminal (2); the module of the self-service terminal (2) comprises a power supply module (3), a communication module (4) and a plurality of components (5); the drives of all modules in the self-service terminal (2) are arranged in the cloud server (1); the power supply of the component (5) is provided with an independent power supply switch circuit (6), and the power supply module (3) controls the power supply switch circuit (6) to be switched on and off; USB interface (7) of part (5) all are provided with solitary communication switch circuit (8), communication module (4) control communication switch circuit (8) break-make.

2. The energy-saving self-service terminal system according to claim 1, wherein: the cloud server (1) is provided with at least one self-service terminal (2) and drives of all modules.

3. The energy-saving self-service terminal system according to claim 1, characterized in that: the USB interface (7) of the component (5) is not required to be plugged and unplugged to recover communication.

4. An operation method of the energy-saving self-service terminal system according to claim 1, characterized in that: the method comprises the following steps:

5. The operation method of the energy-saving self-service terminal system according to claim 3, characterized in that: the design capacity of the power supply of the self-service terminal (2) is based on the sum of the working power of all the modules of the self-service terminal at the same time.

6. The operation method of the energy-saving self-service terminal system according to claim 3, characterized in that: the cloud server (1) can simultaneously share data of the self-service terminals (2).