CN114285885B - Control system based on intelligent cloud box - Google Patents

Abstract

The application relates to the technical field of intelligent cloud boxes, in particular to a control system of an intelligent cloud box. The control system of the intelligent cloud box comprises a first switch, a first controller, a second controller and a power supply part; the second controller is provided with a network control end, a network port switching end, a first detection end and a network port connecting end, wherein the network control end comprises a first network control end and a second network control end, the first switch is connected with the first network control end, the first controller is connected with the first detection end in a communication way, the first detection end is connected with the second network control end in a communication way, the first controller is connected with the second network control end through a power supply part, the network control end is connected with the network port switching end in a communication way, the first controller and the second controller are both connected with the power supply part, the network port connecting end is connected with the network port switching end in a communication way so as to be connected with an internal network port of a network or an external network port of the network, and the first detection end is used for detecting whether the second controller is electrified; the application has the network switching function and increases the application range.

Description

Control system based on intelligent cloud box

Technical Field

The application relates to the technical field of intelligent cloud boxes, in particular to a control system of an intelligent cloud box.

Background

Along with the development of internet technology, a cloud box appears, and is a device which is connected with a data acquisition system by wireless or wire, and through the cloud box, the functions of acquisition, information input, information output, centralized control, remote control, linkage control and the like of system information are realized, for example, the cloud box is needed in the cloud printing technology, and data are remotely transmitted to a cloud server through the cloud box, so that printing server resources can be integrated, a shared printing platform is built, the quality standardized printing service is provided for the whole society at any time and any place, and convenience is provided for life and work of people.

However, the application network of the existing cloud box control system is limited, and the application scope is limited because the existing cloud box control system can only be applied in the scene of an intranet (i.e. a local area network) or in the scene of an extranet (i.e. a wide area network).

Disclosure of Invention

The application mainly aims to provide a control system of an intelligent cloud box, which can be applied in an intranet scene and an extranet scene, can be used for network switching through hardware equipment and software equipment, and can be used for increasing the application range.

In order to achieve the above object, a control system of an intelligent cloud box includes: the power supply device comprises a first switch, a first controller, a second controller and a power supply part;

The second controller is provided with a network control end, a network port switching end, a first detection end and a network port connecting end, wherein the network control end comprises a first network control end and a second network control end, the first switch is connected with the first network control end, the first controller is connected with the first detection end in a communication manner, the first detection end is connected with the second network control end in a communication manner, the first controller is connected with the second network control end through a power supply part, the network control end is connected with the network port switching end in a communication manner, the first controller and the second controller are both connected with the power supply part, the network port connecting end is connected with the network port switching end in a communication manner so as to be connected with an internal network port of a network or an external network port of the network, and the first detection end is used for detecting whether the second controller is electrified.

As an improvement of the above scheme, the second controller is further provided with a first indication end, a second indication end, a third indication end, a fourth indication end, a first network port indication end and a second network port indication end, the network control end is respectively connected with the first network port indication end and the second network port indication end in a communication manner, the first network port indication end is connected with the first indication end and the fourth indication end in a communication manner, and the second network port indication end is connected with the second indication end and the third indication end in a communication manner;

The first indication end is connected with the LINK lamp of the internal network port, the second indication end is connected with the ACT lamp of the internal network port, the third indication end is connected with the LINK lamp of the external network port, and the fourth indication end is connected with the ACT lamp of the external network port.

As an improvement of the above scheme, the method further comprises: a second switch;

The second controller is also provided with a first power switch end, a first power control end, a second power control end, a power input end and a WDI end;

The second switch is connected to the first power switch end, the first power switch end is connected to the first power control end through WDI end communication, the first power control end is connected to the power supply part through the second power control end, the output end of the power supply part is connected to the power input end, the first power control end is connected with the first detection end communication, and the WDI end is connected with the power input end communication.

As an improvement of the above scheme, the method further comprises: a third controller;

the second controller is also provided with a second power switch end, the third controller is in communication connection with the second power switch end, the second power switch end is in communication connection with the first power control end through the WDI end, the first power switch end is in communication connection with the first power control end through the WDI end, and the WDI end is in communication connection with the second power control end;

The third controller is in communication connection with a network and is used for acquiring a starting command of the second control.

As an improvement of the above scheme, the method further comprises: the download burning part is provided with a burning connecting end, and the download burning part is connected with the burning connecting end.

As an improvement of the scheme, the second controller is provided with a reset end and a recording clock end, the reset end and the recording clock end are both connected with the downloading recording part, the downloading recording part is provided with a recording power end, and the recording power end is connected with the power supply part.

As an improvement of the above solution, the second controller further includes a restart end;

the first detection end is in communication connection with the WDI end, the WDI end is in communication connection with the second network control end, the second network control end is in communication connection with the restarting end, and the restarting end is in communication connection with the WDI end.

As an improvement of the scheme, the system also comprises an online upgrading serial port;

the second controller further comprises a serial port transmission end and a serial port control end, wherein the serial port transmission end is in communication connection with the first controller, and the serial port control end is connected with the online upgrading serial port;

the serial port transmission end is used for upgrading the second controller on line.

As an improvement of the above solution, the second controller further includes a first data terminal and a first clock terminal, where the first data terminal and the first clock terminal are both connected to the power supply unit.

As an improvement of the above-mentioned scheme, the power supply part includes a first power supply module, a second power supply module, and a third power supply module;

The input end of the first power supply module is connected with an external power supply, the output end of the first power supply module is connected with the second power supply module, and the first power supply module is a synchronous rectification buck converter;

The output end of the second power supply module is connected with the second network control end;

The input end of the third power supply module is respectively connected with the second power supply control end and an external power supply;

The output end of the first power supply module and the output end of the third power supply module are both connected to the power input end.

Compared with the prior art, the control system of the intelligent cloud box has the beneficial effects that:

The control system of intelligent cloud box is equipped with first switch, first controller and network control end:

The switching connection between the internal network port and the external network port is realized by utilizing a network control end, a network port switching end and a network port connecting end;

the first switch, the first network control end, the network port switching end and the network port connecting end are utilized to realize the switching between the internal network and the external network under the operation of the first switch, namely the switching between the internal network and the external network can be realized through hardware equipment;

The first detection end is utilized to acquire whether the second controller is in a power-on state or not, and then the first controller, the second network control end, the network port switching end and the network port connecting end are utilized to realize the switching between the internal network and the external network under the operation of the first controller, namely the switching between the internal network and the external network can be realized through software equipment.

In this way, the application scope is increased in both aspects of applicable networks and operating devices.

Drawings

The present application will be described with reference to the accompanying drawings. The drawings of the present application are for illustration purposes only and are for the purpose of describing the embodiments. Other embodiments will be readily apparent to those skilled in the art from the following description, without departing from the principles of the application.

Fig. 1 is a schematic diagram of connection of a first portion of a second controller of a control system of a smart cloud cartridge according to an embodiment of the present application.

Fig. 2 is a schematic diagram of connection of a second portion of a second controller of the control system of the intelligent cloud cartridge according to an embodiment of the present application.

Fig. 3 is a schematic diagram of connection of a third portion of a second controller of the control system of the intelligent cloud box according to an embodiment of the present application.

Main elements and symbol description:

100. a second controller; 200. a power supply unit; 300. a network port; 400. and downloading the burning part.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present application are shown in the drawings. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms "first," "second," and the like in this disclosure are used for distinguishing between different objects and not for describing a particular sequential order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 3, a control system of an intelligent cloud box includes: a first switch, a first controller, a second controller 100, and a power supply section 200;

The second controller 100 is provided with a network control end, a network port switching end, a first detection end and a network port connecting end, the network control end comprises a first network control end and a second network control end, the first switch is connected to the first network control end, the first controller is connected to the first detection end in a communication manner, the first detection end is connected to the second network control end in a communication manner, the first controller is connected to the second network control end through the power supply part 200, the network control end is connected to the network port switching end in a communication manner, the first controller and the second controller 100 are both connected to the power supply part 200, the network port connecting end is connected to be connected to an intranet port of a network or an extranet port of the network through the communication connection with the network port switching end, and the first detection end is used for detecting whether the second controller 100 is electrified.

The switching connection between the internal network port and the external network port is realized by utilizing the network port switching end and the network port connecting end;

the first switch, the first network control end, the network port switching end and the network port connecting end are utilized to realize the switching between the internal network and the external network under the operation of the first switch, namely the switching between the internal network and the external network can be realized through hardware equipment;

the first detection end is utilized to obtain whether the second controller 100 is in a power-on state, and then the first controller, the second network control end, the network port switching end and the network port connecting end are utilized to realize the switching between the internal network and the external network under the operation of the first controller, namely the switching between the internal network and the external network can be realized through software equipment.

In this way, the application scope is increased in both aspects of applicable networks and operating devices.

In this embodiment, the control system of the intelligent cloud box further includes a first plug, the first switch is connected to the first network control end through the first plug, the first switch is a single-pole double-throw switch, and the network port switching end includes a first network port switching end and a second network port switching end.

1. The first switch comprises two closed states, when the first switch is in a first closed state, the first network control end inputs a low level, the network is switched to an intranet state, so that the first and second network port switching ends output the low level at the same time, the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed;

when the first switch is in the second closed state, the first network control end inputs a high level, the network is switched to the external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, the network port connecting end is connected with the external network port, and at the moment, the external network mode switching of the network is completed.

2. When the first detection end is at a low level, ending the network switching state, and when the first detection end is at a high level (i.e. when the second controller 100 is in a working state), inputting a high level signal or a low level signal to the second network control end by the first controller;

When the second network control end is in a low level, the network is switched to an intranet state, so that the first network port switching end and the second network port switching end output low level at the same time, and the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed;

When the second network control end is at a high level, the network is switched to an external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, and the network port connecting end is connected with an external network port, and at the moment, the external network mode switching of the network is completed.

Referring to fig. 1, the second controller 100 is further provided with a first indication end, a second indication end, a third indication end, a fourth indication end, a first network port indication end and a second network port indication end, where the network control end is respectively connected to the first network port indication end and the second network port indication end in a communication manner, the first network port indication end is connected to the first indication end and the fourth indication end in a communication manner, and the second network port indication end is connected to the second indication end and the third indication end in a communication manner;

The first indication end and the second indication end are connected through PHY lamps of a network port 300, the first indication end is connected with LINK lamps of an internal network port, the second indication end is connected with ACT lamps of the internal network port, the third indication end is connected with LINK lamps of an external network port, and the fourth indication end is connected with ACT lamps of the external network port.

In this embodiment, the first network port indication end is phy_ljd1, and the second network port indication end is phy_ljd2;

when the first network control end is at a low level, or the second network control end is at a low level, namely when the network is switched to an intranet state, the first portal indicating end acquires an input level signal of the network portal 300 and transmits a reverse level of the input level signal to the first indicating end, the first indicating end outputs the reverse level to a LINK lamp of the intranet portal, and whether a line is normally connected in the intranet state is acquired by using the first indicating end and the LINK lamp of the intranet portal;

The second port indication end obtains an input level signal of the network port 300 and transmits the same level of the input level signal to the second indication end, the second indication end outputs the same level to the ACT lamp of the internal network port, and the second indication end and the ACT lamp of the internal network port are utilized to obtain whether the internal network state is in a data transmission state or not.

When the first network control end is at a high level, or the second network control end is at a high level, namely when the network is switched to an external network state, the second network port indication end acquires an input level signal of the network port 300 and transmits the same level of the input level signal to the third indication end, the third indication end outputs the same level to a LINK lamp of the external network port, and whether a line is normally connected in the external network state is acquired by using the third indication end and the LINK lamp of the external network port;

The second port indication end obtains an input level signal of the network port 300, and transmits a reverse level of the input level signal to the fourth indication end, the fourth indication end outputs the reverse level to the ACT lamp of the external network port, and the fourth indication end and the ACT lamp of the external network port are utilized to obtain whether the internal network state is in a data transmission state or not.

In this embodiment, the color of the LINK lamp of the internal network port is orange, the color of the ACT lamp of the internal network port is green, the color of the LINK lamp of the external network port is green, and the color of the ACT lamp of the external network port is orange; the method is convenient for distinguishing whether the network is in an intranet state or an extranet state, and can acquire the use states of the LINK lamp and the ACT lamp.

Referring to fig. 2, the method further includes: a second switch;

the second controller 100 is further provided with a first power switch end, a first power control end, a second power control end, a power input end and a WDI end;

The second switch is connected to the first power switch end, the first power switch end is connected to the first power control end through the WDI end in a communication manner, the first power control end is connected to the power supply portion 200 through the second power control end, the output end of the power supply portion 200 is connected to the power input end, the first power control end is connected to the first detection end in a communication manner, and the WDI end is connected to the power input end in a communication manner.

When the power is required to be turned on, the initial level of the first power switch end is in a high level state, the initial level of the WDI end is in a low level, a second switch is utilized to send a power on command to the first power switch end, if the high level of the first power switch end is not pulled down, the power on command is terminated, if the high level of the first power switch end is pulled down to be in a low level, a signal is sent to the WDI end, and if the level of the WDI end is pulled up to be in a high level, a signal is sent to the power input end, so that the power input end is connected with the power supply part 200; if the level of the WDI terminal is not pulled up, a signal is sent to the first power control terminal, so that the output level of the first power control terminal is converted from a low level to a high level, a signal is sent to the second power control terminal, so that the output level of the second power control terminal is converted from a low level to a high level, that is, the second power control terminal is connected to the power supply portion 200, whether the level of the WDI terminal is pulled up is detected again, if the level of the WDI terminal is pulled up to a high level, a signal is sent to the power input terminal, so that the power input terminal is connected to the power supply portion 200, and the startup is completed.

When the power-off is needed, the first detection end is used for acquiring the power-on state of the second controller 100, judging whether the high level detected by the first detection end is pulled down to be low level, if the high level detected by the first detection end is pulled down to be low level, sending a signal to the first power supply control end, enabling the output level of the first power supply control end to be converted from high level to low level, then sending a signal to the second power supply control end, enabling the output level of the second power supply control end to be converted from high level to low level, namely enabling the second power supply control end to be disconnected from the power supply part 200, and completing the power-off.

In this way, the second controller 100 is in the power-on state by using the second switch and the first power switch, so that the power-on through the hardware device is realized.

The power input end is equipped with a plurality ofly, is first power input end, second power input end, third power input end, fourth power input end and fifth power input end respectively for dock please refer to fig. 2 of different states, still include: a third controller;

The second controller 100 is further provided with a second power switch end, the third controller is communicatively connected to the second power switch end, the second power switch end is communicatively connected to the first power control end through the WDI end, the first power switch end is communicatively connected to the first power control end through the WDI end, and the WDI end is communicatively connected to the second power control end;

The third controller is in communication connection with a network and is used for acquiring a starting command of the second control.

When the power-on is needed, the initial level of the second power switch end is in a high level state, the initial level of the WDI end is in a low level, a third controller is utilized to send a power-on command to the second power switch end, if the high level of the second power switch end is not pulled down, the power-on command is terminated, if the high level of the second power switch end is pulled down to be in a low level, a signal is sent to the WDI end, and if the level of the WDI end is pulled up to be in a high level, a signal is sent to the power input end, so that the power input end is connected with the power supply part 200; if the level of the WDI terminal is not pulled up, a signal is sent to the first power control terminal, so that the output level of the first power control terminal is converted from a low level to a high level, a signal is sent to the second power control terminal, so that the output level of the second power control terminal is converted from a low level to a high level, that is, the second power control terminal is connected to the power supply portion 200, whether the level of the WDI terminal is pulled up is detected again, if the level of the WDI terminal is pulled up to a high level, a signal is sent to the power input terminal, so that the power input terminal is connected to the power supply portion 200, and the startup is completed.

In this way, the third controller and the second power switch end are utilized to enable the second controller 100 to be in a starting-up state through the network, network starting-up is achieved, and wireless remote control starting-up is facilitated.

Referring to fig. 3, the method further includes: the download recording unit 400 is provided with a recording connection end in the second controller 100, and the download recording unit 400 is connected to the recording connection end.

The download burning unit 400 provides the download burning function of the second controller 100.

Referring to fig. 3, the second controller 100 is provided with a reset terminal and a recording clock terminal, both of which are connected to the download recording portion 400, the download recording portion 400 is provided with a recording power terminal, and the recording power terminal is connected to the power supply portion 200.

The reset terminal is used to add a reset function to the download burning part 400, and the burning clock terminal is used to add a clock timing function to the download burning part 400.

Referring to fig. 2, the second controller 100 further includes a restart end;

the first detection end is in communication connection with the WDI end, the WDI end is in communication connection with the second network control end, the second network control end is in communication connection with the restarting end, and the restarting end is in communication connection with the WDI end.

With the restart end, a restart function is provided to the second controller 100.

If the second controller 100 needs to be restarted, the first detection end is used to obtain the power-on state of the second controller 100, if the second controller 100 is in the power-on state (i.e. the second controller 100 is in the power-on state), the first detection end sends a signal to the WDI end to obtain the input level of the WDI end, judges whether the input level of the WDI end changes, if the input level of the WDI end does not change, the WDI end sends a signal to the second network control end, so that the level input by the second network control end is converted from high level to low level, then the restart end obtains whether to restart the second controller 100 by powering on or not through the restart end, if the restart command is yes, the restart end sends the signal to the first detection end

Referring to fig. 3, the system further includes an online upgrade serial port;

the second controller 100 further includes a serial port transmission end and a serial port control end, where the serial port transmission end is in communication connection with the first controller, and the serial port control end is connected to the online upgrade serial port;

the serial port transmission end is used for upgrading the second controller 100 online.

In this embodiment, the serial port transmission end is provided with a serial port input end and a serial port output end.

Referring to fig. 3, the second controller 100 further includes a first data end and a first clock end, where the first data end and the first clock end are both connected to the power supply unit 200, and the first data end is used to implement data transmission of the second controller 100, and the first clock end is used to obtain a clock signal to control data transmission of the second controller 100.

Referring to fig. 1 to 3, the power supply portion 200 includes a first power supply module, a second power supply module, and a third power supply module;

The input end of the first power supply module is connected with an external power supply, the output end of the first power supply module is connected with the second power supply module, and the first power supply module is a synchronous rectification buck converter;

The output end of the second power supply module is connected with the second network control end;

The input end of the third power supply module is respectively connected with the second power supply control end and an external power supply;

The output end of the first power supply module and the output end of the third power supply module are both connected to the power input end.

And rectifying and reducing the voltage of the external power supply by using the synchronous rectifying and reducing converter, providing low voltage to the power input end by using the output end of the first power supply module, providing high voltage to the power input end by using the output end of the third power supply module, and transmitting a signal to the second network control end by using the output end of the second power supply module.

Referring to fig. 1 to 3, the working principle of the control system of the intelligent cloud box of the present application is as follows:

1. The first switch comprises two closed states, when the first switch is in a first closed state, the first network control end inputs a low level, the network is switched to an intranet state, so that the first and second network port switching ends output the low level at the same time, the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed;

when the first switch is in the second closed state, the first network control end inputs a high level, the network is switched to the external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, the network port connecting end is connected with the external network port, and at the moment, the external network mode switching of the network is completed.

2. When the first detection end is at a low level, ending the network switching state, and when the first detection end is at a high level (i.e. when the second controller 100 is in a working state), inputting a high level signal or a low level signal to the second network control end by the first controller;

When the second network control end is in a low level, the network is switched to an intranet state, so that the first network port switching end and the second network port switching end output low level at the same time, and the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed;

When the second network control end is at a high level, the network is switched to an external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, and the network port connecting end is connected with an external network port, and at the moment, the external network mode switching of the network is completed.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the application, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in other related arts, either directly or indirectly, which fall within the scope of the present application.

Claims (10)

1. The utility model provides a control system of intelligent cloud box which characterized in that includes: the power supply device comprises a first switch, a first controller, a second controller and a power supply part;

The second controller is provided with a network control end, a network port switching end, a first detection end and a network port connecting end, the network control end comprises a first network control end and a second network control end, the first switch is connected with the first network control end, the first controller is connected with the first detection end in a communication manner, the first detection end is connected with the second network control end in a communication manner, the first controller is connected with the second network control end through a power supply part, the network control end is connected with the network port switching end in a communication manner, the first controller and the second controller are both connected with the power supply part, the network port connecting end is connected with the network port switching end in a communication manner so as to be connected with an internal network port of a network or an external network port of the network, and the first detection end is used for detecting whether the second controller is electrified;

Wherein:

the first switch is a single-pole double-throw switch, based on the operation of the first switch, the switching between the intranet and the extranet is realized through hardware equipment, and the method comprises the following steps: the first switch comprises two closed states, when the first switch is in a first closed state, the first network control end inputs a low level, the network is switched to an intranet state, so that the first and second network port switching ends output the low level at the same time, the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed; when the first switch is in a second closed state, the first network control end inputs a high level, the network is switched to an external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, the network port connecting end is connected with an external network port, and at the moment, the external network mode of the network is switched;

The network port switching end comprises a first network port switching end and a second network port switching end, and based on the operation of the first controller, the switching between the internal network and the external network is realized through software equipment, and the network port switching end comprises: when the first detection end is at a low level, ending the network switching state, and when the first detection end is at a high level, inputting a high level signal or a low level signal to the second network control end by the first controller; when the second network control end is in a low level, the network is switched to an intranet state, so that the first network port switching end and the second network port switching end output low level at the same time, and the network port connecting end is connected with an intranet port, and at the moment, the intranet mode switching of the network is completed; when the second network control end is at a high level, the network is switched to an external network state, so that the first network port switching end and the second network port switching end output the high level at the same time, and the network port connecting end is connected with an external network port, and at the moment, the external network mode switching of the network is completed.

2. The control system of the intelligent cloud cartridge of claim 1, wherein,

The second controller is further provided with a first indication end, a second indication end, a third indication end, a fourth indication end, a first network port indication end and a second network port indication end, the network control end is respectively connected with the first network port indication end and the second network port indication end in a communication mode, the first network port indication end is connected with the first indication end and the fourth indication end in a communication mode, and the second network port indication end is connected with the second indication end and the third indication end in a communication mode;

The first indication end is connected with the LINK lamp of the internal network port, the second indication end is connected with the ACT lamp of the internal network port, the third indication end is connected with the LINK lamp of the external network port, and the fourth indication end is connected with the ACT lamp of the external network port.

3. The control system of the intelligent cloud cartridge of claim 1, further comprising: a second switch;

The second controller is also provided with a first power switch end, a first power control end, a second power control end, a power input end and a WDI end;

The second switch is connected to the first power switch end, the first power switch end is connected to the first power control end through WDI end communication, the first power control end is connected to the power supply part through the second power control end, the output end of the power supply part is connected to the power input end, the first power control end is connected with the first detection end communication, and the WDI end is connected with the power input end communication.

4. The control system of the intelligent cloud cartridge of claim 3, further comprising: a third controller;

the second controller is also provided with a second power switch end, the third controller is in communication connection with the second power switch end, the second power switch end is in communication connection with the first power control end through the WDI end, the first power switch end is in communication connection with the first power control end through the WDI end, and the WDI end is in communication connection with the second power control end;

The third controller is in communication connection with a network and is used for acquiring a starting command of the second control.

5. The control system of the intelligent cloud cartridge of claim 1, further comprising:

The download burning part is provided with a burning connecting end, and the download burning part is connected with the burning connecting end.

6. The control system of the intelligent cloud cartridge of claim 5,

The second controller is provided with a reset end and a recording clock end, the reset end and the recording clock end are both connected with the download recording part, the download recording part is provided with a recording power end, and the recording power end is connected with the power supply part.

7. The control system of the intelligent cloud cartridge of claim 4,

The second controller further comprises a restarting end;

the first detection end is in communication connection with the WDI end, the WDI end is in communication connection with the second network control end, the second network control end is in communication connection with the restarting end, and the restarting end is in communication connection with the WDI end.

8. The control system of the intelligent cloud box of claim 1, further comprising an online upgrade serial port;

the second controller further comprises a serial port transmission end and a serial port control end, wherein the serial port transmission end is in communication connection with the first controller, and the serial port control end is connected with the online upgrading serial port;

the serial port transmission end is used for upgrading the second controller on line.

9. The control system of the intelligent cloud cartridge according to any one of claims 1 to 8,

The second controller further comprises a first data end and a first clock end, and the first data end and the first clock end are connected with the power supply part.

10. The control system of the intelligent cloud cartridge of claim 3, wherein the power supply section comprises a first power supply module, a second power supply module, and a third power supply module;

The input end of the first power supply module is connected with an external power supply, the output end of the first power supply module is connected with the second power supply module, and the first power supply module is a synchronous rectification buck converter;

The output end of the second power supply module is connected with the second network control end;

The input end of the third power supply module is respectively connected with the second power supply control end and an external power supply;

The output end of the first power supply module and the output end of the third power supply module are both connected to the power input end.