CN105516216A - Control system capable of controlling on-off of multiple motherboards via cloud - Google Patents

Abstract

A control system capable of controlling on-off of multiple motherboards via the cloud comprises multiple motherboards, multiple power supplies of which each is correspondingly connected with one of the motherboards, a cloud monitoring platform, and a power on-off control module connected with all the motherboards and electrically connected with the cloud monitoring platform. The cloud monitoring platform has a graphical control interface, and provides a user login operation to generate a control signal. After receiving the control signal, the power on-off control module interprets the control signal and decides to output a trigger signal to at least one motherboard so as to make the motherboard, after receiving the trigger signal, output a power on-off signal to the power supply connected therewith to switch on or off the power supply.

Description

The control system that many mainboards open and close can be controlled through high in the clouds

Technical field

The present invention relates to a kind of control system of computer installation, espespecially a kind of control system that can control many mainboards through high in the clouds and open and close.

Background technology

With the progress of Long-distance Control science and technology, possesses Remote Wake Up (WakeOnLan, WOL) computer system is general, and so-called Remote Wake Up refers to that user can be controlled the computer system entering resting state or off-mode by LAN or Ethernet, this computer system is made to be converted to open state by resting state or open state.But, for energy specific implementation Remote Wake Up function, this computer system at least needs to possess the network card that the mainboard of a support Remote Wake Up and a network enabled are waken up, and this mainboard needs to be connected with this network card with a specific cables, draws a small amount of electric current to carry out the supervision of network frame (frame) under the state making this network card can shut down in this computer system from a power supply unit of this computer system.And under this network card state of shutting down in this computer system, whether LAN that continuous surveillance connects or Ethernet have a WOL package (MagicPacket) and are captured, this network card understands this WOL package further, and makes this computer export a power supply keying signal to this power supply unit through this specific cables entering open state.

But, from the above, when this computer system existing is implemented, be with this WOL package had in this network card acquisition LAN or Ethernet.Therefore, when this computer system is equipped with multiple mainboard, each this mainboard just needs to be respectively fitted with this network card, and all need the function having WOL, thus, namely the operation of Remote Wake Up can be caused to become complicated, and each this network card need independently this specific cables to cause distribution also quite complicated, also can cause opening and closing control and be tending towards complicated.In addition, existing remote wake up technology, user only can control from a control end (main frame), and cannot control the startup of this computer system everywhere through this control end of Internet connection.

Summary of the invention

Main purpose of the present invention, is the problem that solution prior art Remote Wake Up framework produces under many mainboards framework.

For reaching above-mentioned purpose, the invention provides a kind of control system that can control many mainboards through high in the clouds and open and close, this control system includes multiple mainboard, multiple power supply unit, a high in the clouds monitor supervision platform and a power supply and opens and closes control module.Wherein, each this mainboard has a device identification respectively and produces by a triggering signal controls respectively a power supply keying signal.Those power supply units are electrically connected with wherein this mainboard respectively, and this power supply keying signal that wherein this mainboard that each this power supply unit is electrically connected respectively exports triggers and starts or close.This high in the clouds monitor supervision platform provides a user to login to carry out operating and published those device identification, this high in the clouds monitor supervision platform includes a graphical control interface, and this graphical control interface has one provides this user select each this mainboard and make this control signal include the control selectionbar of this device identification of this user-selected this mainboard at least one.This power supply opens and closes control module and includes one and to be connected with this high in the clouds monitor supervision platform telecommunications and the signal receiving unit and receiving this control signal connects the keying control unit that this signal receiving unit receives this control signal, this keying control unit understands this device identification at least one that this control signal comprises, and exporting this triggering signal according to this device identification to corresponding this mainboard at least one, this mainboard at least one that order receives this triggering signal exports the startup of this power supply keying signal or closes this power supply unit.

In an embodiment, this high in the clouds monitor supervision platform to be arranged in a network host and to provide user to login use through an internet, and this network host has one and to be connected transmission line with transmission of signal with this signal receiving unit.

In an embodiment, each this power supply unit starts backward connected wherein this mainboard and exports a power work signal, this power supply keying control module receives each this power work signal from each this mainboard and is sent to this network host through this transmission line publishes in this high in the clouds monitor supervision platform, provides this user to understand the operating state of each this power supply unit according to each this power work signal.

In an embodiment, this graphical control interface has one carries out showing to represent each this power supply unit operating state operating state district according to each this power work signal.

In an embodiment, this operating state district is with at least each this power supply unit operating state of the different pictorial data representaton of two-phase.

In an embodiment, this user can utilize and login this high in the clouds monitor supervision platform by an explorer, a mobile applications and a mail server through this Internet connection.

In an embodiment, this power supply opens and closes control module to be had this signal receiving unit of a connection and is connected to the network connection unit of an internet, this high in the clouds monitor supervision platform is arranged at a user terminal apparatus, when this user terminal apparatus of this user operation logins this high in the clouds monitor supervision platform, control module telecommunications need be opened and closed via this internet and this power supply and be connected.

In an embodiment, each this power supply unit starts backward connected wherein this mainboard and exports a power work signal, and this power supply opens and closes control module and receives each this power work signal from each this mainboard and be sent to this user terminal apparatus being provided with this high in the clouds monitor supervision platform with this network connection unit through this internet.

In an embodiment, this graphical control interface has one carries out showing to represent each this power supply unit operating state operating state district according to each this power work signal.

In an embodiment, this operating state district is with at least each this power supply unit operating state of the different pictorial data representaton of two-phase.

In an embodiment, this user terminal apparatus can by an intelligent mobile phone, a flat computer and a notebook computer form one of them of group.

In an embodiment, this high in the clouds monitor supervision platform can be arranged at this user terminal apparatus with this mobile applications.

In an embodiment, this power supply keying control module is the circuit module independent of each this mainboard.

In an embodiment, this power supply opens and closes control module and has multiple telecommunication circuit connected respectively between each this mainboard and this keying control unit.

In an embodiment, each this telecommunication circuit is provided with one to export this triggering signal when conducting control switch by this keying control unit controls.

Disclosed in above-mentioned by the present invention, compared to prior art, there is following characteristics:

1. the present invention opens and closes control module with this power supply and connects each this mainboard, makes each this mainboard need not set up network card for Remote Wake Up and special circuit, decreases setup cost.

2. the invention provides this user terminal apparatus that this user can hold via this internet or this user and login this high in the clouds monitor supervision platform, and each this mainboard is carried out to the control of electric power supply, solve prior art execution mode, this user only can be fixed on a control end and be carried out operating the problem controlled.

Accompanying drawing explanation

Fig. 1 is the implementation unit schematic diagram of one embodiment of the invention.

Fig. 2 is the implementation unit schematic diagram of another embodiment of the present invention.

Fig. 3 is the local composition cell schematics of one embodiment of the invention.

Fig. 4 A is the enforcement schematic diagram () of the graphical control interface of one embodiment of the invention.

Fig. 4 B is the enforcement schematic diagram (two) of the graphical control interface of one embodiment of the invention.

Embodiment

Relate to detailed description of the present invention and technology contents, now just coordinate graphic being described as follows:

Refer to Fig. 1 and Fig. 2, the present invention can control the control system that many mainboards open and close through high in the clouds, includes multiple mainboard 1, multiple power supply unit 2, high in the clouds monitor supervision platform 3 and a power supply and opens and closes control module 4.In an embodiment, each this mainboard 1 has the device identification of a uniqueness respectively, and each this mainboard 1 produces by a triggering signal D1 controls a power supply keying signal (Ps_on).Each this power supply unit 2 is electrically connected wherein this mainboard 1 respectively, and this power supply keying signal (Ps_on) that each this power supply unit 2 is exported by be electrically connected wherein this mainboard 1 respectively triggers and produces startup or close.This high in the clouds monitor supervision platform 3 in the present embodiment can be then utilize Logic Programming languages to be established in a network host 5, this network host 5 has more a transmission line 51 and opens and closes control module 4 with this power supply and be electrically connected, this network host 5 provides a user 6 can login online by an internet 7, this user 6 can carry out suitable operation and produce a control signal D2 after logining this high in the clouds monitor supervision platform 3 online, and this control signal D2 includes at least one device identification.Moreover this user 6 can utilize and login this high in the clouds monitor supervision platform 3 by an Internet server or a mobile applications (Mobileapplication is called for short APP) through this internet 7.

Hold, this power supply opens and closes control module 4 and is electrically connected each this mainboard 1, and login this high in the clouds monitor supervision platform 3 through this transmission line 51 with this network host 5, more specifically illustrate, this power supply keying control module 4 includes and is connected this high in the clouds monitor supervision platform 3 once this transmission line 51 with this network host 5 and energy telecommunications and receives the signal receiving unit 41 of this control signal D2, and one connects the keying control unit 42 that this signal receiving unit 41 receives this control signal D2.Wherein, this keying control unit 42 can, by the mode of load logic program language, make this keying control unit 42 have suitable logical capability, with the deciphering of combine digital information in an embodiment.This keying control unit 42 is in implementation of the present invention, understand this device identification at least one that this control signal D2 comprises, and exporting this triggering signal D1 according to this device identification to corresponding wherein this mainboard 1, wherein this mainboard 1 that order receives this triggering signal D1 exports this power supply keying signal (Ps_on) to connected wherein this power supply unit 2 and starts or close this power supply unit 2.

Implement process for this case can be illustrated, be described with a specific embodiment in this.This control system of the present invention is initial in what implement, first this device identification is formulated for each this mainboard 1, and two these device identification of wantonly two these mainboards 1 are different, suppose in the present embodiment, this device identification of this mainboard 1 is " MB1 ", this device identification of another this mainboard 1 is then " MB2 ", and in addition, this device identification more can the mode of binary digital encoding be worked out.After this, two these device identification of two these mainboards 1 can be recorded in respectively among this high in the clouds monitor supervision platform 3 and this power supply keying control module 4, make this high in the clouds monitor supervision platform 3 provide this user 6 can select two these mainboards 1, to control.This power supply opens and closes control module 3 and is then connected with this network host 5 telecommunications with this transmission line 51, after this, this user 6 can be connected with this network host 5 through this internet 7 and logins this high in the clouds monitor supervision platform 3 and operate, and determine whether start wherein this mainboard 1, in determine start wherein this mainboard 1 time, this user 6 can be operated by this device option code of this high in the clouds monitor supervision platform 3 display, after selected wherein this mainboard 1 that will operate of this user 6, this high in the clouds monitor supervision platform 3 is about to should this device option code of mainboard 1 write among this control signal D2, in other words, this control signal D2 contains the message of " MB1 ".Further, this control signal D2 exports to this power supply keying control module 4 through this transmission line 51 by this high in the clouds monitor supervision platform 3.This power supply opens and closes this signal receiving unit 41 of control module 4 after this transmission line 51 receives this control signal D2, the information comprised in this control signal D2 is understood immediately with Logic Programming languages, separate to read in this control signal D2 and record code this device option code for " MB1 ", and this device option code searches corresponding wherein this mainboard 1, and this mainboard 1 exports this triggering signal D1 wherein.After this mainboard 1 receives this triggering signal D1, this power supply keying signal (Ps_on) of corresponding generation also exports to this power supply unit 2 be connected with this mainboard 1.After this power supply unit 2 receives this power supply keying signal (Ps_on), enter start or shutdown immediately.More specifically illustrate, when this power supply unit 2 is in start, user determines to close this mainboard 1 be connected with this power supply unit 2, this high in the clouds monitor supervision platform 3 can be logined operate, make this power supply open and close control module 4 after receiving this control signal D2, send this triggering signal D1 to this mainboard 1, and after this mainboard 1 understands this triggering signal D1, export this power supply keying signal (Ps_on) having and represent shutdown to this power supply unit 2, this power supply unit 2 enters shutdown.Moreover, this power supply keying signal (Ps_on) of the present invention can make this power supply enter start or shutdown for supply 2 by this power supply keying signal (Ps_on) of different potentials, for example, this power supply keying signal (Ps_on) controlling the start of this power supply unit 2 can be electronegative potential, and this power supply keying signal (Ps_on) controlling the shutdown of this power supply unit 2 then can be high potential.Moreover, when each this power supply unit 2 of the present invention transfers start by the triggering of this keying control signal (Ps_on) to from shutdown, except providing except electric power to connected wherein this mainboard 1, more produce with the time and have a power work signal (P_G), when this mainboard 1 receives this power work signal (P_G), namely judge the electric power that can obtain needed for work, enter start.Further, this power supply of the present invention opens and closes control module 4 can receive each this power work signal (P_G) from each this mainboard 1, and be sent to this network host 5 through this transmission line 51 and publish in this high in the clouds monitor supervision platform 3, there is provided this user 6 can understand the operating state of each this power supply unit 2 according to each this power work signal (P_G), and then learn the operative scenario of each this mainboard 1.

Moreover refer to Fig. 3 to Fig. 4 B, in addition to the above embodiments, this power supply opens and closes control module 4 and has this signal receiving unit 41 of a connection and the network connection unit 43 that can connect this internet 7 in the present invention.In this embodiment, this high in the clouds monitor supervision platform 3 can utilize this mobile applications to be arranged at a user terminal apparatus 8, this user terminal apparatus 8 can by an intelligent mobile phone, a flat computer and a notebook computer form one of them of group.Moreover in the implementation process of the present embodiment, this user 6 can pass through this held user terminal apparatus 8 and login this high in the clouds monitor supervision platform 3, and connect this internet 7 and open and close control module 4 telecommunications with this power supply and be connected.When this user 6 operates this high in the clouds monitor supervision platform 3, and determine control this power supply open and close control module 4 connects wherein this mainboard 1 start or shut down time, this control signal D2 that this high in the clouds monitor supervision platform 3 produces can through this internet 7 and this network connection unit 43, be passed to this signal receiving unit 41, after this power supply keying control module 4 understands this control signal D2, export this triggering signal D1 to controlled wherein this mainboard 1, control corresponding wherein this power supply unit 2 and start or close.Moreover, in the present embodiment, when each this power supply unit 2 starts, same output has this power work signal (P_G), each this mainboard 1 also opens and closes control module 4 to this power supply and provides this power work signal (P_G), and this power supply opens and closes control module 4 can be passed to through this network connection unit 43 this user terminal apparatus 8 being provided with this high in the clouds monitor supervision platform 3.

Refer to Fig. 3 again, the present invention is in an embodiment, this power supply keying control module 4 is the circuit module independent of each this mainboard 1, more specifically illustrate, this power supply opens and closes control module 4 and has multiple telecommunication circuit 44 connected respectively between each this mainboard 1 and this keying control unit 42, makes this keying control unit 42 be able to each this telecommunication circuit 44 and carries out the exchange of teledata with corresponding wherein this mainboard 1.Further, each this telecommunication circuit 44 is more respectively arranged with a control switch 441 controlled by this keying control unit 42, this control switch 441 has two operating states, one is conducting, its two for cut-off, and when this control switch 441 conducting export have this triggering signal D1 to export to this mainboard 1.

Hold, and refer to Fig. 4 A, can be known by above-mentioned, this high in the clouds monitor supervision platform 3 of the present invention provide this user 6 through this internet 7 is online login after, can suitable control operation be carried out.In one embodiment of the invention, this high in the clouds monitor supervision platform 3 more includes a graphical control interface 31, this graphical control interface 31 alleged can be load on this high in the clouds parametric controller 3 with a Hypertext Markup Language (HyperTextMarkupLanguage, HTML) equally.This graphical control interface 31 has one provides this user 6 select each this mainboard 1 and make this control signal D1 include the control selectionbar 311 of wherein this device identification of this mainboard 1 selected by this user 6, and this control selectionbar 311 can include several choice box provides user choice for use.For knowing citing, each this power supply unit 2 is illustrated with code name " A ", " B ", " C " etc. respectively by the present invention in Fig. 4 A, Fig. 4 B.And refer to Fig. 4 B, moreover the present invention is in an embodiment, and this graphical interface has more an operating state district 312, this operating state district 312 shows according to each this power work signal (P_G), to represent the operating state of each this power supply unit 2.More specifically illustrate, this operating state district 312 can be the operating state with at least each this power supply unit 2 of the different pictorial data representaton of two-phase.For example, with black circle, this operating state district 312 represents that wherein this power supply unit 2 is for start, and represent that wherein this power supply unit 2 is for shutdown with soft dot.Moreover, when this high in the clouds parametric controller 3 to obtain wherein this power supply unit 2 this power work signal (P_G) through this internet 7, namely represent that this power supply unit 2 is open state.More clearly demonstrate, each this power supply unit 2 of the present invention just can export this power work signal (P_G) to connected a little wherein this mainboard 1 after starting up, wherein this power supply unit 2 of not starting shooting then can not produce this power work signal (P_G), therefore, this high in the clouds parametric controller 3 only to judge whether to receive record this power work signal (P_G) of each this power supply unit 2 published, namely can know the operating state of each this power supply unit 2.

In sum, the present invention can control the control system that many mainboards open and close through high in the clouds, include multiple mainboard, power supply unit that multiple respectively corresponding wherein this mainboard connects, a high in the clouds monitor supervision platform and connect the power supply that each this mainboard is connected with this high in the clouds monitor supervision platform telecommunications and open and close control module.This high in the clouds monitor supervision platform has a graphical control interface, and provides a user to login to carry out operating and producing a control signal.After this power supply keying control module receives this control signal, understand this control signal to determine to export a triggering signal to this mainboard at least one, make this mainboard after this triggering signal of reception, export a power supply keying signal to connected wherein this power supply unit, this power supply unit is started or closes.By this, complicated and cannot the problem that controls of high in the clouds to simplify prior art distribution.

Claims (15)

1. can control the control system that many mainboards open and close through high in the clouds, it is characterized in that, include:

Multiple mainboard, mainboard described in each has a device identification respectively and produces by a triggering signal controls respectively a power supply keying signal;

Multiple power supply unit, is electrically connected with wherein mainboard described in respectively, and the described power supply keying signal that the wherein mainboard described in that power supply unit described in each is electrically connected respectively exports triggers and starts or close;

One high in the clouds monitor supervision platform, there is provided a user to login and carry out operating and published described device identification, described high in the clouds monitor supervision platform includes a graphical control interface, and described graphical control interface has one provides described user select mainboard described in each and make described control signal include the control selectionbar of the described device identification of described user-selected at least one described mainboard;

One power supply opens and closes control module, include one to be connected with described high in the clouds monitor supervision platform telecommunications and the signal receiving unit and receiving described control signal connects the keying control unit that described signal receiving unit receives described control signal, described keying control unit understands at least one described device identification that described control signal comprises, and exporting described triggering signal according to described device identification to corresponding at least one described mainboard, at least one described mainboard that order receives described triggering signal exports the startup of described power supply keying signal or closes described power supply unit.

2. the control system that can control many mainboards through high in the clouds and open and close according to claim 1, it is characterized in that, described high in the clouds monitor supervision platform to be arranged in a network host and to provide described user to login use through an internet, and described network host has one and to be connected transmission line with transmission of signal with described signal receiving unit.

3. the control system that can control many mainboards through high in the clouds and open and close according to claim 2, it is characterized in that, power supply unit described in each starts backward connected wherein mainboard described in and exports a power work signal, described power supply keying control module receives power work signal described in each from mainboard described in each and is sent to described network host through described transmission line publishes in described high in the clouds monitor supervision platform, provides described user to understand the operating state of power supply unit described in each according to power work signal described in each.

4. the control system that can control many mainboards through high in the clouds and open and close according to claim 3, it is characterized in that, described graphical control interface has one carries out showing to represent power supply unit operating state described in each operating state district according to power work signal described in each.

5. the control system that can control many mainboards through high in the clouds and open and close according to claim 4, is characterized in that, described operating state district is with at least different pictorial data representaton of two-phase power supply unit operating state described in each.

6. the control system that can control many mainboards through high in the clouds and open and close according to claim 2, it is characterized in that, described user can utilize and login described high in the clouds monitor supervision platform by an Internet server, a mobile applications and a mail server through described Internet connection.

7. the control system that can control many mainboards through high in the clouds and open and close according to claim 1, it is characterized in that, described power supply opens and closes control module to be had the described signal receiving unit of a connection and is connected to the network connection unit of an internet, described high in the clouds monitor supervision platform is arranged at a user terminal apparatus, when user terminal apparatus logins described high in the clouds monitor supervision platform described in described user operation, control module telecommunications need be opened and closed via described internet and described power supply and be connected.

8. the control system that can control many mainboards through high in the clouds and open and close according to claim 7, it is characterized in that, power supply unit described in each starts backward connected wherein mainboard described in and exports a power work signal, and described power supply opens and closes control module and receives power work signal described in each from mainboard described in each and be sent to the described user terminal apparatus being provided with described high in the clouds monitor supervision platform with described network connection unit through described internet.

9. the control system that can control many mainboards through high in the clouds and open and close according to claim 7, it is characterized in that, described graphical control interface has one carries out showing to represent power supply unit operating state described in each operating state district according to power work signal described in each.

10. the control system that can control many mainboards through high in the clouds and open and close according to claim 9, is characterized in that, described operating state district is with at least different pictorial data representaton of two-phase power supply unit operating state described in each.

11. control system can controlled mainboard at the most through high in the clouds and open and close according to claim 7, is characterized in that, described user terminal apparatus can by an intelligent mobile phone, a flat computer and a notebook computer form one of them of group.

12. control system can controlled mainboard at the most through high in the clouds and open and close according to claim 11, it is characterized in that, described high in the clouds monitor supervision platform can be arranged at described user terminal apparatus with a mobile applications.

13. control system that can control many mainboards through high in the clouds and open and close according to claim 1, it is characterized in that, it is the circuit module independent of mainboard described in each that described power supply opens and closes control module.

14. control system that can control many mainboards through high in the clouds and open and close according to claim 13, is characterized in that, described power supply opens and closes control module to be had and multiplely connect mainboard described in each and the telecommunication circuit between described keying control unit respectively.

15. control system that can control many mainboards through high in the clouds and open and close according to claim 14, is characterized in that, telecommunication circuit described in each is provided with one to export described triggering signal when conducting control switch by the control of described keying control unit.