CN104022407A - Socket device and control device and system of socket device - Google Patents

Abstract

The invention provides a socket device. The socket device comprises a socket shell, a socket base, a power terminal, a power source supply module, a control module, a wireless sending/receiving module, a memorizer, a current detecting module, a switch control module and a first contact module. The current detecting module is used for obtaining current waveform data on the contact module the moment a plug of a first electrical device in contact with the first contact module is inserted and sending the current waveform data to the control module, and the control module correspondingly marks the first electrical device according to the received current waveform data on the first contact module and stores the mark corresponding relation in the memorizer and/or sends the mark corresponding relation out through the wireless sending/receiving module. The control module receives a starting or stopping operation order of the first electrical device, and the contacted first contact module connected to the first electrical device is started or stopped through the switch control module according to the mark corresponding relation.

Description

A kind of socket device and control appliance thereof and system

Technical field

The present invention relates to the technical field of electric equipment, particularly relate to a kind of socket device and control appliance thereof and system.

Background technology

In general, in the scenes such as family, office or electric equipment scene, with electric device etc., provide power supply need to home appliance, office electrical installation or refrigerating/heating.It is all by by plug of locating of the power line of electrical equipment that common power supply provides, be inserted in the jack of power source patch board, or be directly inserted in the supply socket being positioned on wall, directly access power supply, then by the shift knob in electrical equipment, realize the access of power supply.

This plug of the prior art, socket or wiring board jack are realized as a pair of connection corollary equipment, only realize the direct access of power supply.

The socket of stating in the use carries out power supply while providing, and has dissimilar various electric equipments to be linked into power supply by its plug insertion socket.For different access electrical equipment and plugs thereof, socket of the prior art does not all know this plug is to belong to which access electrical equipment, be socket of the prior art be ignorant for the information of the electric equipment accessing by plug, be only for having the plug that physics is electrically connected to carry out the connection on circuit with it, thereby realize the most basic power supply, provide function.

Summary of the invention

In view of the above problems, embodiments of the invention provide a kind of overcome the problems referred to above or a kind of socket device addressing the above problem at least in part and control appliance and system.

An aspect according to the embodiment of the present invention, provide a kind of socket device: comprising: with the jack housing of jack, the socket base being connected with described jack housing, be arranged at the power supply terminal on described socket base, the power supply being electrically connected to described power supply terminal is supplied with module, supply with described power supply the control module that module is electrically connected, wireless transmission/reception the module being electrically connected with described control module, the memory being connected with described control module, the current detecting module that its one end and described control module are electrically connected, the switch that its one end is electrically connected with described control module and its switch is connected described power supply terminal and described contact assembly is controlled module, the first contact assembly that one end that the other end of its one end and described current detecting module and switch are controlled module is electrically connected and its other end and described power supply terminal are electrically connected, described the first contact assembly is set to corresponding with the jack in described jack housing, so that plug equipment inserts and described contact assembly phase physical contact by described jack, it is characterized in that: the plug of the first electric equipment that described current detecting module is configured to contact at the first contact assembly inserts and started just to obtain the current waveform data on contact assembly, and these current waveform data are sent to described control module, described control module, according to the current waveform data on the first contact assembly receiving, marks accordingly the first electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent, and described control module receives the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, the first contact assembly the first electric equipment being contacted by described switch control module is opened or shutoff operation.

An aspect according to the embodiment of the present invention, a kind of control appliance of socket device is provided, it includes: sending/receiving module, what its its first contact assembly that is configured to send from socket device described above by wireless and/or wired communication mode reception inserted is the mark corresponding relation of the first electric equipment, and this mark corresponding relation is presented in the display module of control appliance; Operational order sends module, and it is configured to be sent the unlatching of the first electric equipment or shutoff operation instruction are arrived to socket device as above by described sending/receiving module.

According to an aspect of the embodiment of the present invention, a kind of control system of socket device is provided, this system comprises: socket device as above; And the server unit as local area network (LAN) focus that receives the wireless signal that described socket device sends; And by wired and/or wireless network, forward information to the control appliance of socket device as above by the described server unit as local area network (LAN) focus; Wherein said socket device sends to described server unit by the mark corresponding relation of the current waveform data of its electric equipment that accesses detecting therein and itself and electric equipment; The control appliance of wherein said socket device sends to above-mentioned socket device by described server unit by the unlatching of electric equipment or shutoff operation instruction.

Embodiment according to the invention described above, the plug of the first electric equipment that is configured to contact at the first contact assembly due to the current detecting module in socket device of the present invention inserts and has started just to obtain the current waveform data on contact assembly, and these current waveform data are sent to described control module; Control module in insert arrangement is according to the current waveform data on the first contact assembly receiving, mark accordingly the first electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent.Owing to the electric current in the electric equipment being inserted in socket device having been carried out detect, obtained its current waveform data, to have made facility information that control module in socket device can know which electric equipment and this electric equipment by known to socket device.So just can be so that socket device be known the information of the current electric equipment of its actual physics access.

And described in the socket device of the embodiment of the present invention, controlling module reception to the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, the first contact assembly the first electric equipment being contacted by described switch control module is opened or shutoff operation.So just further make socket device carry out oneself unlatching or shutoff operation after can the information according to the current electric equipment of its actual physics access known to it, realize socket device and can recognize intelligently which the electric equipment of current access is, and can carry out corresponding unlatching or shutoff operation.

So in embodiments of the present invention just can be when different electric equipments accesses power supply by socket device of the present invention, it is which electric equipment is access in that socket device of the present invention can recognize intelligently, and enter corresponding unlatching or shutoff operation, thereby realize the socket of real intelligence.Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of specification, and for above and other objects of the present invention, feature and advantage can be become apparent, below especially exemplified by the specific embodiment of the present invention.

Accompanying drawing explanation

Set forth below by reference to the accompanying drawings the details of one or more embodiment.Detailed description based on hereinafter, further feature and various advantage will be clearer, and appended accompanying drawing comprises:

Fig. 1 shows according to the structural representation of a kind of socket device embodiment of first embodiment of the invention;

Fig. 2 is the schematic diagram of the example of a mark corresponding relation in first embodiment of the invention;

Fig. 3 shows according to the structural representation of a kind of socket device embodiment of second embodiment of the invention;

Fig. 4 shows according to the structural representation of a kind of socket device embodiment of third embodiment of the invention;

Fig. 5 shows according to the main schematic flow sheet in a kind of socket device embodiment of fourth embodiment of the invention;

Fig. 6 shows according to the structural representation of the control appliance of a kind of socket device of fifth embodiment of the invention;

Fig. 7 shows according to the structural representation of the control appliance of a kind of socket device of sixth embodiment of the invention;

Fig. 8 shows according to the structural representation of the control system of a kind of socket device of seventh embodiment of the invention.

Embodiment

Exemplary embodiment of the present disclosure is described below with reference to accompanying drawings in more detail.Although shown exemplary embodiment of the present disclosure in accompanying drawing, yet should be appreciated that and can realize the disclosure and the embodiment that should do not set forth limits here with various forms.On the contrary, it is in order more thoroughly to understand the disclosure that these embodiment are provided, and can by the scope of the present disclosure complete convey to those skilled in the art.

the first embodiment

With reference to Fig. 1, show according to the structural representation of a kind of socket device embodiment of first embodiment of the invention.A kind of socket device 100 as shown in Figure 1, socket device 100 comprises: with the jack housing 111 of jack 106, the socket base 110 being connected with jack housing 111, be arranged at the power supply terminal 112 on socket base 110, supply with module 107 with the power supply that power supply terminal 112 is electrically connected, supply with power supply the control module 101 that module 107 is electrically connected, with control wireless transmission/reception module 108 that module 101 is electrically connected (external antenna 109 that is provided with in the present embodiment, be used to wireless transmission/reception module 108 to carry out the transmission of wireless signal), the memory 104 being connected with control module 108, its one end with control that be electrically connected and its other end of module 101 and detect by a public current detection sensor 105 the current detecting module 103 that accesses the current conditions of electric equipment in the first contact assembly 113, its one end and the switch of controlling that module 101 is electrically connected and its switch is connected described power supply terminal 112 and the first contact assembly 113 control module 102 (wherein the public current detection sensor 105 shown in the dotted line of Fig. 1 be one independently assembly show, thereby public current detection sensor 105 still can be integrated in current detecting module 103 and power by controlling module 101 in other preferred embodiments, but it still can realize the detection for the current waveform of the electric equipment of access on the first contact assembly 113, so used dotted line to identify public current detection sensor 105 in the present embodiment), the first contact assembly 113 that one end that the other end of its one end and current detecting module 103 and switch are controlled module is electrically connected and its other end and power supply terminal 112 are electrically connected, the first contact assembly 113 is set to corresponding with the jack 106 in jack housing 111, so that plug equipment inserts and the first contact assembly 113 phase physical contacts by jack 106, the plug that current detecting module 103 is configured to the first electric equipment of contacting at the first contact assembly 113 in the present embodiment inserts and has started just to obtain the current waveform data on the first contact assembly 113, and these current waveform data are sent to control module 101, control module 101 according to the current waveform data on the first contact assembly 113 receiving, mark accordingly the first electric equipment, and this mark corresponding relation is stored in memory 104 and/or by wireless transmission/reception module 108 and is sent, and control module 101 and receive the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, by switch, control the first contact assembly 113 that 102 pairs of the first electric equipments of module contact and open or shutoff operation.Control module 101 described here controls by switch according to mark corresponding relation that the first contact assembly 113 that 102 pairs of the first electric equipments of module contact is opened or shutoff operation comprises: control the described mark corresponding relation of module 101 inquiry, the first electric equipment that the unlatching receiving described in determining current the contacted electric equipment of the first contact assembly 113 and being or shutoff operation instruction will operate; Control module 101 sending controling instructions and control module 102 to described switch, use switch wherein the electrical connection between the first contact assembly 113 and power supply terminal 112 is set up or disconnect.

In this above-mentioned embodiment, described control module 101 can adopt the control chip of PIC24FJ128GA310 serial model No., and the Resources on Chip FLASH capacity of this module is that 128Kb and its RAM capacity are 8Kb.Memory 104 can adopt the storage chip of S-24CS08AFJ model, and its memory space is 8Kb.Power supply is supplied with the assembly that module 107 can adopt LSD2PW269-01D0 model, and its operating current of direct current that the alternating current of its input voltage 176～264V and its output voltage are 5V is 0.6A, and it comprises overcurrent protection, short-circuit protection circuit.Wireless transmission/reception module 108 can be a Wifi communication module, and it adopts the low-power-consumption embedded WIFI module of HF-LPB100 type.Current detecting module 103 can adopt the assembly of LSD1EM-FE253MYW model, and its operating voltage is that 220V and its rated current are that 2A and its maximum current are 16A.It can be a relay control module that switch is controlled module 102, and its operating voltage is that 220V operating current is the relay of 16A, and its switch is controlled by the central processing unit that control command is controlled of controlling module 101 and completed.The first contact assembly 113 is to be for example three jack interfaces or binomial jack interface, preferably its with reset button and WIFI to code button.The hardware device of above-mentioned employing is only a preferably example, and the technical staff in the technology of the present invention field can adopt similar assembly to be also fine, within the employing of these similar assemblies is also encompassed in inventive concept scope of the present invention.

In the above-described embodiment, preferably current detecting module 103 detection for the current conditions of the first electric equipment that accesses in the first contact assembly 113 by current detection sensor 105 or its built-in current detection component, current conditions described here at least includes current waveform data, these current waveform data comprise: transient current waveform when the first electric equipment starts from power on, and/or the steady-state current waveform of the first electric equipment while entering operating state, and/or the degree of wave form varies and velocity information.The degree information of the described wave form varies is here the maximum of variation of value current amplitude and the scope between minimum value; And the degree information of described wave form varies refers to for example, the changing value in the unit interval (every millisecond of unit or unit per second) to current amplitude.

In an embodiment, preferably described control module 101 can also be configured to further when described mark corresponding relation is sent by wireless transmission/reception module 108, the unique hardware identifier (for example MAC Address) of described wireless transmission/reception module 108 and/or the unique hardware identifier of the first contact assembly 113 (the physical markings MAC-001 of the first contact assembly 113 have for example wherein also together been sent, wherein MAC Address is the MAC Address of wireless transmission/reception module of the first contact assembly 113 place sockets uses, it is a unique identifier, the 001st, identify first contact assembly, for second contact assembly, can use by that analogy 002 to identify, the rest may be inferred), wireless transmission/reception module can receive the configuration information of the first electric equipment corresponding to described current waveform data (this configuration information is be directed to the configuration that this first electric equipment recognizing carries out and send to this socket device 100 from outside control appliance, such as the identifier information such as implementor name of rising to the first electric equipment) and the corresponding unique hardware identifier of wireless transmission/reception module 108 and/or the unique hardware identifier of the first contact assembly 113, set up the configuration information of described current waveform data and described the first electric equipment and the mark corresponding relation of the unique hardware identifier of wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly.The example of this kind of mark corresponding relation as shown in Figure 2, wherein just provided the schematic diagram of the example of a described mark corresponding relation in the present embodiment, current waveform data 1 in this example in the first row the first hurdle can be the characteristics of current waveform in the present embodiment, the characteristic value data of steady-state current waveform when for example, transient current waveform while powering on beginning or the first electric equipment enter operating state; The first electric equipment in the first row the second hurdle can be at least one in title, model, rated power, rated current and the electric equipment group information of the first electric equipment; The unique hardware identifier 1 of the wireless transmission/reception module in the first row third column can be the MAC Address of wireless transmission/reception module.Mapping relations of three data formations in this first hurdle, when having determined current waveform data 1, just can determine it according to these mapping relations is the current waveform data 1 that the first electric equipment is corresponding, but also the MAC Address that can determine the wireless transmission/reception module on the socket device that current the first electric equipment insert to use is unique hardware identifier 1.The rest may be inferred, also preserves a this mark corresponding relation in the second row, is just different from the first row, and record is the unique hardware identifier 2 of the first contact assembly here, for example, be MAC-001.What illustrate is, the first hurdle in Fig. 2 and the mark corresponding relation of the current waveform data in the second hurdle and electric equipment are metastable, for example determining that current waveform data 1 correspondence the first electric equipment, this just can be recorded in memory 104 relatively stablely, and data in its corresponding third column can be also can fixing of changing, here the unique hardware identifier 1 of the first contact assembly, 2 change, the plug that is electric equipment may be inserted in different contact assemblies, data in the third column that can change for these no longer preserve the hwid data of the contact assembly in this third column after described socket device power down, until socket device after powering on just the data in supplementary this third column in this mark mapping table.Control in the present embodiment module 101 according to the current waveform data on the first contact assembly 113 receiving, mark accordingly the first electric equipment, and this mark corresponding relation is stored in memory 104 and/or by wireless transmission/reception module 108 and is sent, after receiving the current waveform data on contact assembly referring to the known control module 101 of Fig. 2, use the mark corresponding relation shown in Fig. 2 just can mate current waveform data wherein, thereby know and match which electric equipment, also determined this mark corresponding relation.During for the plug of the electric equipment of primary insertion (while mating less than electric equipment), just in Fig. 2, increase a data item, to further mate below.Preferably, the increase of this mark corresponding relation or coupling also can be carried out with server side a control, then send to wireless transmission/reception module 108 of socket device 100 and be kept in memory 104 or control in module 108, to control that module 108 can mate and use during definite mark corresponding relation.

In the present embodiment, control module 101 and be configured to WLAN focus together with described wireless transmission/reception module 108, with with other socket devices (second socket device that first socket device 100 is the same for example, also wherein to there is wireless transmission/reception module) wireless transmission/reception module communicate, mutually send state information and/or the operation instruction information to other socket devices of the electric equipment of its access.The state information of electric equipment described here comprises the physics connection situation (connecting or closed condition) of electric equipment and the configuration information of electric equipment, and configuration information described here refers at least one in the title of electric equipment, model, rated power, rated current and electric equipment group information.

That in the present embodiment, preferably controls that module 101 receives comes from and controls the timer in module 101 or come from the trigger condition of storing in memory 104 or come from the operational order to the first electric equipment that wireless transmission/reception module 108 receives the unlatching of the first electric equipment or shutoff operation instruction.Logic by a program editing forms the unlatching of electric equipment or shutoff operation instruction as trigger condition or the such trigger condition of timer like this.

In this first embodiment, current detecting module 103 can be configured to further: for the waveform in detected current waveform data, extremely carry out record, and the current waveform that this is detected extremely stores in memory 104 and/or by wireless transmission/reception module 108 and sends into according to described mark corresponding relation.Waveform described here refers to the abnormal current amplitude fluctuations of the current value occurring in work steady-state current extremely, for example surpass 20% of normal steady-state current numerical value, further can record and occur the described abnormal duration, when the described duration for example surpasses the time threshold of 10～60 seconds, carry out described waveform exception record.This waveform exception record is mark corresponding relation based on above-mentioned, it can be further to increase an i.e. corresponding waveform exception record for these current waveform data, it is the amplitude fluctuations value of abnormal current, abnormal duration, can be referring to Fig. 2 for this point, can in Fig. 2, increase by row, it has recorded current waveform data 1, current waveform data 2, current waveform data 3, corresponding waveform abnormal data.So just can know whether the first electric equipment, the first electric equipment, the 3rd electric equipment are occurred current waveform abnormal; need to carry out circuit close protect electric equipment or be shown to administrative staff; extremely, needing to be serviced has appearred in the electric current of the electric equipment that alert management personnel are corresponding.

Preferably, described control module 101 can also be further configured in the present embodiment: abnormal according to the waveform in the current waveform data that detect, to the first electric equipment corresponding to described these current waveform data, send shutoff operation instruction, by switch, control the first contact assembly 113 that 102 pairs of the first electric equipments of module contact and carry out the first electric equipment shutoff operation.Control module 101 according to one that increases in mark corresponding relation, the i.e. corresponding waveform exception record of these current waveform data, be the amplitude fluctuations value of abnormal current, abnormal duration, determining whether the first electric equipment of access to disconnect is shutoff operation.This embodiment controls by switch the first contact assembly 113 that 102 pairs of the first electric equipments of module contact to carry out the first electric equipment shutoff operation.

In the present embodiment, preferably for controlling module 101, it is according to the current waveform data on the first contact assembly receiving, mark accordingly the processing capacity of the first electric equipment, except foregoing, can in controlling module 101, carry out this mark processing, this mark is processed or can be carried out in the following way: control module 101 the current waveform data on the first contact assembly 113 receiving are sent by 108 groups of wireless transmission/reception moulds, and receive by wireless transmission/reception module 108 the mark corresponding relation that current waveform data correspondence on the first contact assembly 113 the first electric equipment that the first contact assembly 113 accesses.108 groups of wireless transmission/reception moulds here send in current waveform data to controlled server, in this server Collection and preservation current waveform data during the normal work of a large amount of electric equipment, formed the current waveform data large database concept of various electric equipments, the current waveform data of preserving according to this current waveform data large database concept at this server side like this compare with the current waveform data that transmit from socket device 100, just can this current waveform data correspondence which kind of electric equipment, thereby generate the mark corresponding relation of current waveform data and the first electric equipment.And then this server sends it back socket device 100 places by the mark corresponding relation of the current waveform data of this generation and the first electric equipment.Visible, owing to having used the current waveform data large database concept of server side to mate, thereby can further judge that the first accessed electric equipment is the electric equipment of a certified products, by gathering for a long time and mate the steady operation current waveform data of this first electric equipment, whether thereby determine the current waveform data of the first electric equipment of the certified products during working life, certainly thisly determine it is also just to determine after long-term Data Collection, thereby the information of the whether certified products electric equipment of determining is sent to socket device 100, and be shown to user.

the second embodiment

Referring to Fig. 3, it shows according to the structural representation of a kind of socket device embodiment of second embodiment of the invention, in the second embodiment of socket device, structure in the first embodiment of structure wherein and above-mentioned socket device is identical, for the object of carrying out succinct statement, only just difference wherein describes.In this preferred embodiment with respect to the socket device in the first embodiment, its difference is that controlling module 101 ' is further configured to respect to the control module 101 in Fig. 1: in the time of in the plug of the first electric equipment is inserted into the first contact assembly 113 for the first time, the current waveform data that detect by current detecting module 103 on the first contact assembly 113 that (or detecting by public current detection sensor 105) receive are sent by wireless transmission/reception module 108, and by the configuration information of the first electric equipment corresponding to the described current waveform data of wireless transmission/reception module 108 reception, set up the mark corresponding relation of the configuration information of described current waveform data and described the first electric equipment.Configuration information described here refers at least one in title, model, rated power, rated current and the electric equipment group information of the first electric equipment.Mark corresponding relation described here is: the mapping relations of setting up according to the above-mentioned current waveform data that get and the title of for example the first electric equipment or a unique identifier of the first electric equipment, this mapping relations can be to be a mapping (enum) data table, by specific current waveform data, can match a corresponding unique electric equipment, for example first electric equipment here.The current waveform data here can be the transient current waveform of the first electric equipment while starting from power on, and/or the steady-state current waveform of the first electric equipment while entering operating state, and/or the degree of wave form varies and velocity information.The degree information of the described wave form varies is here the maximum of variation of value current amplitude and the scope between minimum value; And the degree information of described wave form varies refers to for example, the changing value in the unit interval (every millisecond of unit or unit per second) to current amplitude.

In the present embodiment, with respect to the first embodiment in Fig. 1, also further comprise: a pattern recognition module 114, its one end and control the module 101 phase electric property coupling other ends and current detecting module 103 phase electric property couplings, pattern recognition module 114 is configured to by analog-digital conversion function circuit the first electric equipment collecting to carry out pattern characteristics coupling after being converted to digital signal for the current waveform data of analog signal; Then matching result sent to described control module 101 ' and then process wireless transmission/reception module 108 and send; Another kind of scheme is directly matching result sent to wireless transmission/receptions module 108 and being sent by pattern recognition module 114 shown in the dotted line in Fig. 2, is also in pattern recognition module 114, can get to come from current waveform figure that the current waveform figure pattern characteristics current waveform figure pattern characteristics of the electric equipment having detected in pattern recognition module 114 (or be directly stored in) of the electric equipment having detected (for example the first electric equipment) that control module 101 ' reads from memory 104 detects with current detecting module 103 and carry out pattern characteristics and mate.

The pattern characteristics coupling of the digital signal described in the present embodiment refers to: according to OpenCV image recognition program or its assembly, identify the digital signal corresponding to current waveform data of the first electric equipment that pattern recognition module 114 collects by analog-digital conversion function circuit, and form the time m-current amplitude oscillogram of current amplitude waveform, this time the transient current amplitude waveform of m-current amplitude oscillogram when including the first electric equipment and starting from power on, and/or the steady-state current amplitude waveform of the first electric equipment while entering operating state, and/or the degree of described current amplitude wave form varies and velocity information, these waveforms are all the waveforms in time domain.So just can these digitized current amplitude waveforms and the current waveform data (for example current amplitude) of the corresponding electric equipment of having preserved in advance be carried out to the comparison of image recognition according to OpenCV image recognition program or its assembly, for the current waveform data of the waveform image that is consistent, think to match, thereby draw matching result, which electric equipment the current circuit waveform recognizing is.For above-mentioned coupling, can there is certain identification matching threshold, for example conforming to the similarity of the current waveform of a known electric equipment of current storage is 80%, and when its degree that conforms to obviously surpasses the current waveform data of other electric equipment of having deposited, can judge and mate, this degree that conforms to can be also a value in 70%-100%, specifically can be configured, the present embodiment is 80%.

the 3rd embodiment

With reference to Fig. 4, show according to the structural representation of a kind of socket device embodiment of third embodiment of the invention.A kind of socket device 400 as shown in Figure 4, socket device 400 comprises: with jack 405, (jack 406 as shown in the figure for the jack housing 411 of jack 406, jack 405 is respectively at the first contact assembly 413, jack on the second contact assembly 414, thereby realize and being electrically connected to so that the plug of electric equipment can insert through jack with contact assembly phase physical contact, then through oversampling circuit, be connected to power supply terminal 412, thereby realize the access of power supply), the socket base 410 being connected with jack housing 411, be arranged at the power supply terminal 412 on socket base 410, supply with module 407 with the power supply that power supply terminal 412 is electrically connected, supply with power supply the control module 401 that module 407 is electrically connected, with control wireless transmission/reception module 408 that module 401 is electrically connected (external antenna 409 that is provided with in the present embodiment, be used to wireless transmission/reception module 408 to carry out the transmission of wireless signal), the memory 404 being connected with control module 408, its one end and control module 401 be electrically connected (in the present embodiment preferably can also control module 401 and current detection component 403 between being provided with a pattern recognition module 415 shown in dotted line) and its other end by a public current detection sensor 405, detect the first contact assembly 413, in the second contact assembly 414, access the current detecting module 403 of the current conditions of electric equipment, its one end is electrically connected with control module 401 and its switch is connected described power supply terminal 412 and the first contact assembly 413, the switch of the second contact assembly 414 is controlled module 402, and (wherein the public current detection sensor 405 shown in the dotted line of Fig. 4 is independently assembly demonstrations, thereby public current detection sensor 405 still can be integrated in current detecting module 403 and power by controlling module 401 in other preferred embodiments, but it still can be realized for the first contact assembly 413, the detection respectively of the current waveform of the electric equipment of access on the second contact assembly 414, so used dotted line to identify public current detection sensor 405 in the present embodiment), the first contact assembly 413 that one end that the other end of its one end and current detecting module 403 and switch are controlled module 402 is electrically connected and its other end and power supply terminal 412 are electrically connected, the second contact assembly 414 that one end that the other end of its one end and current detecting module 403 and switch are controlled module 402 is electrically connected and its other end and power supply terminal 412 are electrically connected, the first contact assembly 413, the second contact assembly 414 are set to corresponding with jack 405, jack 406 in jack housing 411 respectively, so that plug equipment inserts and the first contact assembly 413, the second contact assembly 414 phase physical contacts by jack 405, jack 406, the plug that current detecting module 403 is configured to the first electric equipment of contacting at the first contact assembly 413 in the present embodiment inserts and has started just to obtain the current waveform data on the first contact assembly 413, and these current waveform data are sent to and control module 401, and the plug that current detecting module 403 is configured to the second electric equipment of contacting at the second contact assembly 414 inserts and has started just to obtain the current waveform data on the second contact assembly 414, and these current waveform data are sent to control module 401, control module 401 according to the current waveform data on the first contact assembly 413 receiving, mark accordingly the first electric equipment, according to the current waveform data on the second contact assembly 414 receiving, mark accordingly the second electric equipment, and this mark corresponding relation is stored in memory 404 and/or by wireless transmission/reception module 408 and is sent, and controlling module 401 receives the unlatching of the first electric equipment, the second electric equipment or shutoff operation instruction, and according to described mark corresponding relation, by switch, control the first contact assembly 413 or the second contact assembly 414 that 402 pairs of the first electric equipments of module contact and open respectively or shutoff operation, the unlatching or the shutoff operation that specifically by the switch 1 shown in Fig. 4, switch 2, carry out respectively.

By the known socket device 400 of above-mentioned description, be to be inserted in the jack of known or existing socket by power supply terminal 412, thereby then the plug of electric equipment is inserted into realize in the jack 405, jack 406 of socket device 400, electric equipment accessed to power supply.Two the first contact assembly 413 and the second contact assemblies 414 side by side in this enforcement, have been realized, it is also controlled module 402 and is electrically connected with current detecting module 403 and power supply terminal 412, switch, wherein that the public current detection sensor 405 shown in is by a dotted line placed in the first contact assembly 413, the second contact assembly 414 and power supply terminal 412, switch is controlled between module 402, to realize for the wherein detection of current waveform data in the present embodiment.Described control module 401 is controlled described current detecting module 403, detect the first electric equipment that the first contact assembly 413 and the second contact assembly 414 access, the curent change on the second electric equipment simultaneously, and according to the current waveform data on first and second contact assembly receiving, mark accordingly first and second electric equipment, and this mark corresponding relation is stored in described memory 404 and/or by described wireless transmission/reception module 408 and is sent.In addition, pattern recognition module 415 in the present embodiment is as similar in the operation principle of the pattern recognition module 114 in the second embodiment, here the object in succinct announcement no longer repeats, distinguish with the pattern recognition module 114 in the second embodiment: pattern recognition module 415 is for the first contact assembly 413, current waveform data on the electric equipment accessing in the second contact assembly 414 are carried out respectively identifying processing, processing respectively is wherein by the first contact assembly 413, unique hardware identifier in the second contact assembly 414, MAC-001 for example, MAC-002, wherein MAC refers to the MAC Address of wireless transmission/reception module 408.At socket device 400, also can maintain one as the mark corresponding relation in the second embodiment like this, specifically can, referring to Fig. 2, no longer repeat here.

In this enforcement for the first contact assembly 413, the second contact assembly 414 is further by the first electric equipment, the connection state information of the second electric equipment and its physical connection sends to described control module 401, so just make to control module 401 and can know the access that whether has physics in current contact assembly, thereby can be available so that control module 401 is determined which mapping relations of the mark corresponding relation of its preservation, the mark corresponding relation of for example preserving in the first row in Fig. 2, it is the unique hardware identifier 1 that current waveform data 1 correspondence the first electric equipment and wireless transmission/reception module, the connection state information that has physical connection in control module 401 is determined the first contact assembly 413, thereby just can carry out corresponding mapping by usage flag corresponding relation, start to detect current waveform data, what determine this contact assembly access that has physical connection is the first electric equipment.Like this, control in the present embodiment unlatching and/or out code that module 401 receives for the first electric equipment by wireless transmission/reception module 408, and by described mark corresponding relation, to determine be that the first electric equipment is access in, and described the first electric equipment and described socket are the connection status of physical connection, control module 401 and control module 402 unlatchings and/or close the first electric equipment by switch.For the second electric equipment and the second corresponding contact assembly 414, it is also to use above-mentioned principle, does not just repeat here.

Further in the present embodiment, control unlatching and/or the time of closing and/or the operating power of module 401 record the first electric equipments, calculate the power consumption of the first electric equipment; Also can record the unlatching of the second electric equipment and/or the time of closing and/or operating power, calculate the power consumption of the second electric equipment.

Further in the present embodiment, controlling module 401 is the marshalling configuration information of the first electric equipment, the second electric equipment for the different electric equipments that access by 408 receptions of wireless transmission/reception module further, and for example the first electric equipment, the second electric equipment being compiled is the first electric marshalling; Controlling module 401 further receives for the unlatching of specific marshalling and/or the command information of shutoff operation, controlling module 401 further receives for for example unlatching of described the first electric marshalling and/or the command information of shutoff operation, control module 401 and use described switch 1, switch 2 to carry out the control of a group the first electric equipment, the second electric equipment that are directed in the first electric marshalling, for example, open or close.

In the present embodiment, preferably control module 401 the different priority levels of connection can be set for the first contact assembly 413 and the second contact assembly 414.After having had this priority level, just can be with this precedence information in the control command that control module sends, thereby when controlling by switch 1 or switch 2, the contact assembly that priority is high is first processed, for example, preferentially carried out open operation.In the present embodiment preferably, control the precondition that module 401 can be using the connection of the first contact assembly 413 as the connection of the second contact assembly 414, control module 401 and the electric equipment that electric equipment that the second contact assembly 414 accesses just can make the first contact assembly 413 access after being switched on can be set be switched on, to control better the connection that the power supply of each different electric equipment connects or close.

In this 3rd embodiment, preferably current detecting module 403 can be configured to further: for the waveform in detected current waveform data, extremely carry out record, here the detection of carrying out for the current waveform data in electric equipment by public current detection sensor 405 exactly, and the waveform of recording in current waveform data is abnormal, and the current waveform that this is detected extremely stores in memory 404 and/or by wireless transmission/reception module 408 and sends according to described mark corresponding relation.Waveform described here refers to the abnormal current amplitude fluctuations of the current value occurring in work steady-state current extremely, for example surpass 20% of normal steady-state current numerical value, further can record and occur the described abnormal duration, when the described duration for example surpasses the time threshold of 10～60 seconds, carry out described waveform exception record.This waveform exception record is mark corresponding relation based on above-mentioned, it can be further to increase an i.e. corresponding waveform exception record for these current waveform data, it is the amplitude fluctuations value of abnormal current, abnormal duration, can be referring to Fig. 2 for this point, can in Fig. 2, increase by row, it has recorded current waveform data 1, current waveform data 2, current waveform data 3, corresponding waveform abnormal data.So just can know whether the first electric equipment, the first electric equipment, the 3rd electric equipment are occurred current waveform abnormal; need to carry out circuit close protect electric equipment or be shown to administrative staff; extremely, needing to be serviced has appearred in the electric current of the electric equipment that alert management personnel are corresponding.

In the present embodiment, preferably, controlling module 401 can also be further configured to: according to the waveform in the current waveform data that detect, (the Wave data here can be preserved extremely in memory 404 extremely, also can be in current detection sensor 405 Site Detection arrive), to the first electric equipment corresponding to described these current waveform data, send shutoff operation instruction, by switch, control the shutoff operation that the first contact assembly 413 that 1 pair of the first electric equipment of switch of module 402 contacts carries out the first electric equipment, by switch, control the shutoff operation that the second contact assembly 414 that 2 pairs of the second electric equipments of switch of module 402 contact carries out the second electric equipment.Control module 401 according to one that increases in mark corresponding relation, the i.e. corresponding waveform exception record of these current waveform data, be the amplitude fluctuations value of abnormal current, abnormal duration, determining whether the first electric equipment, second electric equipment of access to disconnect is shutoff operation.This embodiment controls by switch the first contact assembly 413 that 402 pairs of the first electric equipments of module contact to carry out the first electric equipment shutoff operation, and the second contact assembly 414 that the second electric equipment is contacted carries out the second electric equipment shutoff operation.

In the present embodiment, in the present embodiment, preferably for controlling module 401, it is according to the current waveform data on the first contact assembly 413 receiving, mark accordingly the processing capacity of the first electric equipment, except foregoing, can in controlling module 401, carry out this mark processing, this mark is processed or can be carried out in the following way: control module 401 the current waveform data on the first contact assembly 413 receiving are sent by 408 groups of wireless transmission/reception moulds, and receive by wireless transmission/reception module 408 the mark corresponding relation that current waveform data correspondence on the first contact assembly 413 the first electric equipment that the first contact assembly 413 accesses.408 groups of wireless transmission/reception moulds here send in current waveform data to controlled server, in this server Collection and preservation current waveform data during the normal work of a large amount of electric equipment, formed the current waveform data large database concept of various electric equipments, the current waveform data of preserving according to this current waveform data large database concept at this server side like this compare with the current waveform data that transmit from socket device 400, just can this current waveform data correspondence which kind of electric equipment, thereby generate the mark corresponding relation of current waveform data and the first electric equipment.And then this server sends it back socket device 400 places by the mark corresponding relation of the current waveform data of this generation and the first electric equipment.Visible, owing to having used the current waveform data large database concept of server side to mate, thereby can further judge that the first accessed electric equipment is the electric equipment of a certified products, by gathering for a long time and mate the steady operation current waveform data of this first electric equipment, whether thereby determine the current waveform data of the first electric equipment of the certified products during working life, certainly thisly determine it is also just to determine after long-term Data Collection, thereby the information of the whether certified products electric equipment of determining is sent to socket device 400, and be shown to user.Certain this situation is also the second electric equipment that is suitable on the second contact assembly 414 contact, carries out thisly by server side, obtaining mark corresponding relation.

the 4th embodiment

Referring to Fig. 5, show according to the main schematic flow sheet in a kind of socket device embodiment of fourth embodiment of the invention.In the socket device of the present embodiment, it has intraware framework as shown in Figure 1, the workflow of wherein each assembly mainly:

Step S510: having received the insertion of the plug of the first electric equipment in the first contact assembly 504, for example, is to have the detection signal of a physical contact to produce, and is perceived by the first contact assembly 504.

Step S511: the first contact assembly 504 is according to the detection signal of the physical contact producing, send an announcement information to current detecting module 503, notice current detecting module 503 has electric equipment to access, but does not also know that the plug of what electric equipment is linked into the first contact assembly 504.Alternatively, above-mentioned announcement information still can be issued and be controlled module 502 by the first contact assembly 504, then by controlling module 502, the announcement information that has electric equipment equipment to insert is issued to current detecting module 503, so that starting current detects module 503, carry out corresponding current detecting.

Step S512: current detecting module 503 is according to the announcement information of receiving, the current waveform that starts its built-in current detection sensor or the electric equipment by 105 pairs of current access the first contact assemblies 504 of public current detection sensor in Fig. 1 for example detects, public current detection sensor is also for different contact assemblies, to detect respectively alternatively, for example the detection of the first contact assembly in the 3rd embodiment, electric equipment that the second contact assembly accesses.

Step S513: current detecting module 503 sends to the current waveform data of the electric equipment detecting to control module 502.Alternatively, current detecting module 503 is also can not send the current waveform data of the electric equipment detecting to controlling module 502, but by controlling module, the mark corresponding relation of having preserved is sent to current detecting module 503, after current detecting module 503 mates, directly matching result is sent to and control module 502.

Step S514: control after the current waveform data that module 502 receives the electric equipment that current detecting module 503 sends, use the mark corresponding relation having configured that the mark corresponding relation himself preserved is sent out or preserved in memory to mate, if matched, just maintain this current mark corresponding relation.If unmatched, explanation is the electric equipment accessing for the first time, at this moment the corresponding relation of these current waveform data and unknown electric equipment can be issued to wireless transmission/reception module 501, and the configuration information receiving for this unknown electric equipment by wireless transmission/reception module 501, and be kept at this socket device side, in order to coupling next time.For coupling or the current waveform data that configure and the mark corresponding relation of electric equipment, be just kept at this socket device side, be for example stored in control in module or in memory or current detecting module medium.

Step S515: control module 502 the mark corresponding relation of described storage is sent to wireless transmission/reception module 501, so that the control device communicating with wireless transmission/reception module 501 can learn the information of the electric equipment accessing in current socket device, thereby carries out more intelligently corresponding configuration or control.

Step S516: wireless transmission/reception module 501 sends the described mark corresponding relation receiving by its built-in antenna, for example, send to a control device.

Step S517: wireless transmission/reception module 501 receives the unlatching of electric equipment or the operational order of closing.Here what receive is to come from a control device to the unlatching of electric equipment or the operational order of closing.

Step S518: wireless transmission/reception module 501 is forwarded to and controls module 502 unlatching of electric equipment or the operational order of closing described.

Step S519: control module 502 and the unlatching of electric equipment or the operation signal of closing are forwarded to switch control module 505 described.Control module 502 after receiving the operational order of opening or closing, by the judgement of timer or certain logic function, generate corresponding unlatching or shutoff operation signal, for example send at the appointed time time for switch, control module 505 open operation signal to disconnect the electrical connection in the first contact assembly.The judgement of described certain logic function refers to the affair logic that user can oneself define, and being not limited to is timer triggering in time.

Step S520: switch is controlled the switching device of module 505 by wherein and carried out switch or shutoff operation, to connect or disconnect being electrically connected to of the electric equipment that accessed with the first contact assembly.

In the present embodiment, preferably: if the plug of electric equipment is while being inserted into for the first time in the first contact assembly 504 in step S510, the current waveform data of the electric equipment that current detecting module 503 can be detected send to controls module 502, be different from above-mentioned step S514 and mark therein electric equipment by controlling module 502, at this place, preferably control the current waveform data that module 502 detects this and send to wireless transmission/reception module 501 places, by wireless transmission/reception module 501, the current waveform data that detect are sent to the server apparatus of a control use, current waveform data during the normal work of a large amount of electric equipment that this has controlled Collection and preservation in the server apparatus of use, formed the current waveform data large database concept of various electric equipments, like this server apparatus side of this control use according to this current waveform data large database concept in the current waveform data of preserving and the current waveform data that transmit from socket device compare, just can this current waveform data correspondence which kind of electric equipment, thereby generate the mark corresponding relation of current waveform data and electric equipment.And then this server sends it back socket device place by the mark corresponding relation of the current waveform data of this generation and electric equipment.What discuss here is a preferred case in step S514, so that the mark corresponding relation of generation current Wave data and electric equipment.Situation in this point and the first embodiment is similar.The generation of this mark relation can not be that the plug of electric equipment carries out while being inserted into for the first time in the first contact assembly 504, while also can right and wrong having for the first time plug to be inserted into the first contact assembly 504, carries out, and principle is identical just no longer to be repeated here.

the 5th embodiment

Referring to Fig. 6, show according to the structural representation of the control appliance of a kind of socket device of fifth embodiment of the invention.In Fig. 6, the control appliance 600 of socket device comprises: sending/receiving module 601, what its its first contact assembly that is configured to send from the socket device 611 as described in the first embodiment of the socket device of Fig. 1 by wireless and/or wired communication mode reception inserted is the mark corresponding relation of the first electric equipment, and this mark corresponding relation is sent in display module 603 and shown.

The control appliance 600 of socket device also comprises: operational order sends module 602, and it is configured to be sent the unlatching of the first electric equipment or shutoff operation instruction are arrived to the socket device 611 as described in the first embodiment of the socket device of Fig. 1 by described sending/receiving module 601.After the first electric equipment that user wherein shows in viewing display module 603, by described operational order, send the unlatching that is directed to the first electric equipment or the shutoff operation instruction that module 602 sends.

In this enforcement, preferably, when socket device 611 can be inserted into the plug that wherein has electric equipment in the contact assembly of socket device 611 for the first time (another preferred case is that the plug of electric equipment is not while being inserted into for the first time in the contact assembly of socket device 611), the current waveform data of the electric equipment that the current detecting module of socket device 611 can be detected send to the control module of socket device 611, the current waveform data that described control module detects this send to wireless transmission/reception module, described wireless transmission/reception module sends to control appliance 600 by the current waveform data that detect, in this control appliance 600 Collection and preservation current waveform data during the normal work of a large amount of electric equipment, formed the current waveform data large database concept (not shown in Figure 6) of various electric equipments, the current waveform data of preserving according to this current waveform data large database concept in control appliance 600 sides like this compare with the current waveform data that transmit from socket device 611, just can this current waveform data correspondence which kind of electric equipment, thereby generate the mark corresponding relation of current waveform data and electric equipment.And then this control appliance 600 sends it back socket device 611 places by the mark corresponding relation of the current waveform data of this generation and electric equipment.The plug that is electric equipment for another preferred case is not while being inserted into for the first time in the contact assembly of socket device 611, the scheme of generation of carrying out the mark corresponding relation of current waveform data and electric equipment in control appliance 600 is same as above-mentioned scheme, then this repeats no more.In this above-mentioned embodiment preferably in situation, the current waveform data that generate and the mark corresponding relation of electric equipment are with the scheme in the 5th embodiment, it can send to described mark corresponding relation in display module 603 and show, scheme details is identical just repeats no more for other.

the 6th embodiment

Referring to Fig. 7, show according to the structural representation of the control appliance of a kind of socket device of sixth embodiment of the invention.In Fig. 7, the control appliance 700 of socket device is similar to the control appliance 600 of the socket device in Fig. 6, how difference has been an initial configuration module 704, it is connected with sending/receiving module 701, and be configured to by described sending/receiving module 701, receiving for the first time while coming from the current waveform data that socket device 711 sends, configure the configuration information of corresponding the first electric equipment of these current waveform data, and the corresponding relation of these current waveform data of this mark first electric equipment corresponding with it is sent it back to described socket device by described sending/receiving module 701.In the present embodiment, initial configuration module 704 is after configuring the configuration information of the first electric equipment, the corresponding relation of the current waveform data of mark first electric equipment corresponding with it (with the electric equipment configuration information of initial configuration module 704 configurations) can be shown in demonstration module 703, and have user to send module 702 by operational order to trigger and operate for the first electric equipment, for example close the first electric equipment, and send to socket device 711 through sending/receiving module.

Preferably, in the control appliance 700 of socket device in the present embodiment, initial configuration module 704 is further configured to: by sending/receiving module 701, receiving for the first time the unique hardware identifier of the wireless transmission/reception module that also receives described socket device 711 while coming from the current waveform data that socket device 711 sends and/or the unique hardware identifier of the first contact assembly wherein; Configure the unique hardware identifier of the configuration information of corresponding the first electric equipment of these current waveform data and wireless transmission/reception module of corresponding described socket device 711 and/or the unique hardware identifier of the first contact assembly wherein, and by the unique hardware identifier of wireless transmission/reception module of these current waveform data of this mark first electric equipment corresponding with it and corresponding described socket device and/or wherein the corresponding relation of the unique hardware identifier of the first contact assembly by described sending/receiving module, send it back described socket device 711.

In the present embodiment the unique hardware identifier of described wireless transmission/reception module and/or wherein the unique hardware identifier of the first contact assembly referring to the unique hardware identifier in the embodiment described in Fig. 2 and/or the unique hardware identifier of the first contact assembly wherein, no longer repeat here.

Preferably, also further comprise in the present embodiment: group information configuration module 705, it is configured in initial configuration module 704 as shown in the dotted line in Fig. 7, it is also can arrange separately not to be arranged in initial configuration module 704, group information configuration module 705 is configured to the contact assembly in the described socket device 711 receiving to organize into groups, and described operational order transmission module 702 is further configured to: the contact assembly after the marshalling in the first electric equipment is arrived to socket device 711 according to its marshalling information transmission unlatching or shutoff operation instruction.The introduction of the marshalling information in the present embodiment specifically can be shown in Figure 4 the 3rd embodiment in marshalling information, it is consistent with the principle in the present embodiment, just no longer repeats here.

In the present embodiment, preferably, the sending/receiving module 701 of the control appliance 700 of socket device is further configured to: receive that described socket device 711 sides send according to the waveform exception record in the current waveform data of described mark corresponding relation, and waveform exception record and its corresponding electric equipment are presented in described control appliance, in display module 703, show.

In the present embodiment, preferably, operational order sends module 702 and is further configured to: according to the waveform exception record showing and its corresponding electric equipment, send the shutoff operation instruction of the electric equipment that waveform exception record is corresponding to socket device 711 by sending/receiving module 701.

Details in waveform exception record is wherein identical with the content disclosing in the present invention first and third embodiment, just no longer repeats here.The control appliance of the present embodiment is mainly the unexpected message that receives and show corresponding electric equipment, and this abnormal electric equipment is sent out to corresponding closing control instruction.

the 7th embodiment

Referring to Fig. 8, show according to the structural representation of the control system of a kind of socket device of seventh embodiment of the invention.In Fig. 8, the control system 800 of socket device includes: the socket device 801 in first embodiment of the invention as shown in Figure 1, and it can be inserted in socket of the prior art with access power supply by its power supply terminal behind, and the server unit 805 as local area network (LAN) focus of the wireless signal that sends of receiver socket device 801, it has realized a local area network (LAN) focus by wireless transceiver 807, by wireless transceiver 807, carry out communicating by letter of wireless signal with the wireless transmission/reception module in socket device 801, for example example 802.11.n or 802.11.ac agreement are carried out the transmission of data and control information, and forwarded information to as Fig. 6 by wired and/or wireless network by the described server unit 805 as local area network (LAN) focus, in the control appliance of the socket device described in 7, in the present embodiment as Fig. 6, the control appliance of the socket device described in 7 can be a mobile control device 808 in Fig. 8 (smart mobile phone for example, panel computers etc. are with the equipment of Wifi module, it carries out reception and the transmission of wireless signal by Wifi module, to carry out the transmitting-receiving of data and/or control information) or a control computer terminal 804 that is connected to internet 806 and is finally connected to by cable, described socket device 801 sends to described server unit 805 by the mark corresponding relation of the current waveform data of its electric equipment that accesses 803 detecting therein and itself and electric equipment 803 in the present embodiment, and the sending and receiving is here all that the wireless transceiver 807 by server unit 805 carries out, the control appliance of wherein said socket device is the mobile control device 808 in Fig. 8 and/or control computer terminal 804 and by described server unit 805, the unlatching of electric equipment 803 or shutoff operation instruction are sent in socket device 801 for example, and the transmission of this unlatching or shutoff operation instruction is all to be undertaken by wireless transceiver 807.

Known referring to Fig. 8, the electric equipment 803 here can be the Electric Equipments of Plants such as household electrical appliance, office equipment or freezer, so long as there is the electrical equipment of plug 802, is all to contain within the scope of the present invention.In the embodiment shown in fig. 8, the plug 802 of electric equipment 803 is inserted in the jack of socket device 801, and wherein socket device 801 is inserted in the jack of existing socket device by its power supply terminal.Like this after plug inserts, socket device 801 of the present invention is exactly to recognize electric equipment 803 to insert, concrete identification details is referring to of the present invention first, two, three, four embodiment also send to server unit 805 through wireless transceiver, server unit 805 is again by the electric equipment recognizing, be that the current waveform data correspondence receiving in socket device 801 on its contact assembly electric equipment 803, and the mark corresponding relation that a contact assembly correspondence in this socket device 801 electric equipment 803 is sent to server unit 805, re-send to mobile control device 808 and/or control in computer terminal 804 and show, and mobile control device 808 and/or control computer terminal 804 and send the unlatching of electric equipment 803 or shutoff operation instruction to socket device 801, socket device 801 is according to described mark corresponding relation, by switch wherein, controlling module opens or shutoff operation the electrical connection access of electric equipment 803.

In this enforcement, preferably, when socket device 801 can be inserted into the plug 802 that wherein has electric equipment 803 in the contact assembly of socket device 801 for the first time (another preferred case is that the plug 802 of electric equipment 803 is not while being inserted into for the first time in the contact assembly of socket device 801), the current waveform data of the electric equipment 803 that socket device 801 can be detected send to mobile control device 808 and/or control computer terminal 804, this mobile control device 808 and/or control computer terminal 804 can Collection and preservation current waveform data during the normal work of a large amount of electric equipment, formed the current waveform data large database concept (this database not shown in Figure 8) of various electric equipments, like this mobile control device 808 and/or control computer terminal 804 sides according to this current waveform data large database concept in the current waveform data of preserving and the current waveform data that transmit from socket device 801 compare, just can this current waveform data correspondence which kind of electric equipment, thereby generate the mark corresponding relation of current waveform data and electric equipment.And then this mobile control device 808 and/or control computer terminal 804 the mark corresponding relation of the current waveform data of this generation and electric equipment is sent it back to socket device 801 places.The plug that is electric equipment for another preferred case is not while being inserted into for the first time in the contact assembly of socket device 801, mobile control device 808 and/or the scheme of controlling the generation of the mark corresponding relation that carries out current waveform data and electric equipment in computer terminal 804 are same as above-mentioned scheme, do not repeat them here.In this above-mentioned embodiment preferably in situation, the current waveform data that generate and the mark corresponding relation of electric equipment are with the scheme in the 5th embodiment, it can send to described mark corresponding relation mobile control device 808 and/or control in the display in computer terminal 804 and show, scheme details is identical just repeats no more for other.In this enforcement, due at mobile control device 808 and/or the current waveform data large database concept of controlling computer terminal 804 sides, have with socket device 801 places on the matching operation of the current waveform data that transmit, thereby can further judge that accessed electric equipment 803 is the electric equipment of a certified products, by gathering for a long time and mate the steady operation current waveform data of this electric equipment 803, whether thereby determine the current waveform data of the electric equipment 803 of the certified products during working life, certainly thisly determine it is also just to determine after long-term Data Collection, thereby by the information of the whether certified products electric equipment of determining at mobile control device 808 and/or control in computer terminal 804, and be shown to user.

Based on the above embodiments, the plug of the first electric equipment that is configured to contact at the first contact assembly due to the current detecting module in socket device of the present invention inserts and has started just to obtain the current waveform data on contact assembly, and these current waveform data are sent to described control module; Control module in insert arrangement is according to the current waveform data on the first contact assembly receiving, mark accordingly the first electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent.Owing to the electric current in the electric equipment being inserted in socket device having been carried out detect, obtained its current waveform data, to have made facility information that control module in socket device can know which electric equipment and this electric equipment by known to socket device.So just can be so that socket device be known the information of the current electric equipment of its actual physics access.And described in the socket device of the embodiment of the present invention, controlling module reception to the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, the first contact assembly the first electric equipment being contacted by described switch control module is opened or shutoff operation.So just further make socket device carry out oneself unlatching or shutoff operation after can the information according to the current electric equipment of its actual physics access known to it, realize socket device and can recognize intelligently which the electric equipment of current access is, and can carry out corresponding unlatching or shutoff operation.So in embodiments of the present invention just can be when different electric equipments accesses power supply by socket device of the present invention, it is which electric equipment is access in that socket device of the present invention can recognize intelligently, and enter corresponding unlatching or shutoff operation, thereby realize the socket of real intelligence.

Those skilled in the art are appreciated that and can the module in the equipment in embodiment are adaptively changed and they are arranged in one or more equipment different from this embodiment.Module in embodiment or unit or assembly can be combined into a module or unit or assembly, and can put them into a plurality of submodules or subelement or sub-component in addition.At least some in such feature and/or process or unit are mutually repelling, and can adopt any combination to combine all processes or the unit of disclosed all features in this specification and disclosed any method like this or equipment.Unless clearly statement in addition, in this specification disclosed each feature can be by providing identical, be equal to or the alternative features of similar object replaces.

The embodiment of the invention also discloses A1. socket device, comprise: with the jack housing of jack, the socket base being connected with described jack housing, be arranged at the power supply terminal on described socket base, the power supply being electrically connected to described power supply terminal is supplied with module, supply with described power supply the control module that module is electrically connected, wireless transmission/reception the module being electrically connected with described control module, the memory being connected with described control module, the current detecting module that its one end and described control module are electrically connected, the switch that its one end is electrically connected with described control module and its switch is connected described power supply terminal and described contact assembly is controlled module, the first contact assembly that one end that the other end of its one end and described current detecting module and switch are controlled module is electrically connected and its other end and described power supply terminal are electrically connected, described the first contact assembly is set to corresponding with the jack in described jack housing, so that plug equipment inserts and described contact assembly phase physical contact by described jack, it is characterized in that: the plug of the first electric equipment that described current detecting module is configured to contact at the first contact assembly inserts and started just to obtain the current waveform data on contact assembly, and these current waveform data are sent to described control module, described control module, according to the current waveform data on the first contact assembly receiving, marks accordingly the first electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent, and described control module receives the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, the first contact assembly the first electric equipment being contacted by described switch control module is opened or shutoff operation.A2. the socket device as described in A1, it is characterized in that described current waveform data comprise: transient current waveform when the first electric equipment starts from power on, and/or the steady-state current waveform of the first electric equipment while entering operating state, and/or the degree of wave form varies and velocity information.A3. the socket device as described in A1, it is characterized in that described control module is according to the current waveform data on the first contact assembly receiving, marking accordingly the first electric equipment comprises: described control module sends the current waveform data on the first contact assembly receiving by described wireless transmission/reception module, and receives by described wireless transmission/reception module the mark corresponding relation that current waveform data correspondence on the first contact assembly the first electric equipment that the first contact assembly accesses.A4. as the socket device as described in arbitrary in A1～A2, it is characterized in that described control module is further configured to: when the plug of the first electric equipment inserts for the first time, current waveform data on the first contact assembly receiving are sent by described wireless transmission/reception module, and by described wireless transmission/reception module, receive the configuration information of the first electric equipment corresponding to described current waveform data, set up the mark corresponding relation of the configuration information of described current waveform data and described the first electric equipment.A5. the socket device as described in A4, it is characterized in that described control module is further configured to when this mark corresponding relation is sent by described wireless transmission/reception module, also together sent the unique hardware identifier of described wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly wherein; By described wireless transmission/reception module, receive configuration information and the corresponding unique hardware identifier of wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly of the first electric equipment corresponding to described current waveform data, set up the configuration information of described current waveform data and described the first electric equipment and the mark corresponding relation of the unique hardware identifier of wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly.A6. the socket device as described in A4, is characterized in that the configuration information of described the first electric equipment comprises: at least one in the title of the first electric equipment, model, rated power, rated current and electric equipment group information.A7. the socket device as described in A2, it is characterized in that further comprising: a pattern recognition module, it carries out pattern characteristics coupling after being configured to, by analog-to-digital conversion, the current waveform of the first electric equipment collecting is converted to digital signal, and matching result is sent to described control module and/or described wireless transmission/reception module.A8. the socket device as described in A1, it is characterized in that further comprising: the second contact assembly that the other end of its one end and described current detecting module is electrically connected and its other end and described power supply terminal are electrically connected, this second contact assembly is set to corresponding with the jack in described jack housing, so that the plug equipment of the second electric equipment inserts and described the second contact assembly phase physical contact by described jack.A9. the socket device as described in A8, it is characterized in that described control module controls the curent change that described current detecting module detects the electric equipment that the first contact assembly and the second contact assembly access simultaneously, and according to the current waveform data on first and second contact assembly receiving, mark accordingly first and second electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent.A10. the socket device as described in A1, is characterized in that the first contact assembly further sends to the connection state information of the first electric equipment and its physical connection described control module.A11. the socket device as described in A10, it is characterized in that described control module receives unlatching and/or the out code for the first electric equipment by described wireless transmission/reception module, and by described mark corresponding relation, to determine be that the first electric equipment is access in, and described the first electric equipment and described socket are the connection status of physical connection, described control module is controlled module by switch and is opened and/or close the first electric equipment.A12. the socket device as described in A10 or A11, is characterized in that described control module records the unlatching of the first electric equipment and/or the time of closing and/or operating power, calculates the power consumption of the first electric equipment.A13. the socket device as described in A10 or A11, is characterized in that described control module receives the marshalling configuration information for the different electric equipments of access by described wireless transmission/reception module further; Described control module further receives for the unlatching of specific marshalling and/or the command information of shutoff operation.A14. the socket device as described in A1, it is characterized in that described control module is configured to WLAN focus together with described wireless transmission/reception module, with the wireless transmission/reception module with other socket devices, communicate, mutually send state information and/or the operation instruction information to other socket devices of the electric equipment of its access.A15. the socket device as described in A8 or A9, is characterized in that described control module is the different priority levels that the first contact assembly and the second contact assembly arrange connection.A16. the socket device as described in A8 or A9, is characterized in that the precondition of described control module using the connection of the first contact assembly as the connection of the second contact assembly.A17. the socket device as described in A1, what it is characterized in that described control module receives comes from the timer in described control module or comes from the trigger condition of storing in memory or come from the operational order to the first electric equipment that wireless transmission/reception module receives the unlatching of the first electric equipment or shutoff operation instruction.A18. the socket device as described in A1, it is characterized in that described control module controls by described switch according to mark corresponding relation that the first contact assembly that module contacts the first electric equipment is opened or shutoff operation comprises: described control module is inquired about mark corresponding relation, the first electric equipment that the unlatching receiving described in determining electric equipment that the first contact assembly is current contacted and being or shutoff operation instruction will operate; Described control module sending controling instruction is controlled module to described switch, uses switch wherein the electrical connection between the first contact assembly and power supply terminal is set up or disconnect.A19. the socket device as described in A1, it is characterized in that described current detecting module is further configured to: for the waveform in detected current waveform data, extremely carry out record, and the current waveform that this is detected extremely stores in described memory and/or by described wireless transmission/reception module and sends into according to described mark corresponding relation.A20. the socket device as described in A19, it is characterized in that described control module is further configured to: abnormal according to the waveform in the current waveform data that detect, to the first electric equipment corresponding to described these current waveform data, send shutoff operation instruction, the first contact assembly the first electric equipment being contacted by described switch control module carries out the first electric equipment shutoff operation.B21. the control appliance of a socket device, it is characterized in that comprising: sending/receiving module, what its its first contact assembly that is configured to send from the socket device as described in A1 by wireless and/or wired communication mode reception inserted is the mark corresponding relation of the first electric equipment, and this mark corresponding relation is presented in the display module of control appliance; Operational order sends module, and it is configured to be sent the unlatching of the first electric equipment or shutoff operation instruction are arrived to the socket device as described in A1 by described sending/receiving module.B22. the control appliance as described in B21, it is characterized in that further comprising: initial configuration module, it is configured to by described sending/receiving module, receiving for the first time while coming from the current waveform data that socket device sends, configure the configuration information of corresponding the first electric equipment of these current waveform data, and the corresponding relation of these current waveform data of this mark first electric equipment corresponding with it is sent it back to described socket device by described sending/receiving module.B23. the control appliance as described in B22, is characterized in that described initial configuration module is further configured to: by described sending/receiving module, receiving for the first time the unique hardware identifier of the wireless transmission/reception module that also receives described socket device while coming from the current waveform data that socket device sends and/or the unique hardware identifier of the first contact assembly wherein; Configure the unique hardware identifier of the configuration information of corresponding the first electric equipment of these current waveform data and wireless transmission/reception module of corresponding described socket device and/or the unique hardware identifier of the first contact assembly wherein, and by the unique hardware identifier of wireless transmission/reception module of these current waveform data of this mark first electric equipment corresponding with it and corresponding described socket device and/or wherein the corresponding relation of the unique hardware identifier of the first contact assembly by described sending/receiving module, send it back described socket device.B24. the control appliance as described in B21, it is characterized in that further comprising: group information configuration module, it is configured to the contact assembly in the described socket device receiving to organize into groups, and described operational order transmission module is further configured to: the contact assembly after the marshalling in the first electric equipment is arrived to described socket device according to its marshalling information transmission unlatching or shutoff operation instruction.B25. the control appliance as described in B21, it is characterized in that described sending/receiving module is further configured to: receive that described socket device side sends according to the waveform exception record in the current waveform data of described mark corresponding relation, and waveform exception record and its corresponding electric equipment are presented in described control appliance.B26. the control appliance as described in B25, it is characterized in that described operational order sends module and is further configured to: according to the waveform exception record showing and its corresponding electric equipment, by described sending/receiving module, send the shutoff operation instruction of the electric equipment that waveform exception record is corresponding to described socket device.C27. a control system for socket device, comprising: the socket device as described in A1; And the server unit as local area network (LAN) focus that receives the wireless signal that described socket device sends; And by wired and/or wireless network, forward information to the control appliance of the socket device as described in B21 by the described server unit as local area network (LAN) focus; Wherein said socket device sends to described server unit by the mark corresponding relation of the current waveform data of its electric equipment that accesses detecting therein and itself and electric equipment; The control appliance of wherein said socket device sends to above-mentioned socket device by described server unit by the unlatching of electric equipment or shutoff operation instruction.

Claims (10)

1. a socket device, comprising:

With the jack housing of jack,

The socket base being connected with described jack housing,

Be arranged at power supply terminal on described socket base,

The power supply supply module being electrically connected to described power supply terminal,

With described power supply supply with control module that module is electrically connected,

Wireless transmission/reception the module being electrically connected with described control module,

The memory being connected with described control module,

The current detecting module that its one end and described control module are electrically connected,

The switch that its one end is electrically connected with described control module and its switch is connected described power supply terminal and described contact assembly control module,

The first contact assembly that one end that the other end of its one end and described current detecting module and switch are controlled module is electrically connected and its other end and described power supply terminal are electrically connected;

Described the first contact assembly is set to corresponding with the jack in described jack housing, so that plug equipment inserts and described contact assembly phase physical contact by described jack;

It is characterized in that: the plug of the first electric equipment that described current detecting module is configured to contact at the first contact assembly inserts and started just to obtain the current waveform data on contact assembly, and these current waveform data are sent to described control module;

Described control module, according to the current waveform data on the first contact assembly receiving, marks accordingly the first electric equipment, and this mark corresponding relation is stored in described memory and/or by described wireless transmission/reception module and is sent; And

Described control module receives the unlatching of the first electric equipment or shutoff operation instruction, and according to described mark corresponding relation, the first contact assembly the first electric equipment being contacted by described switch control module is opened or shutoff operation.

2. socket device as claimed in claim 1, it is characterized in that described current waveform data comprise: transient current waveform when the first electric equipment starts from power on, and/or the steady-state current waveform of the first electric equipment while entering operating state, and/or the degree of wave form varies and velocity information.

3. socket device as claimed in claim 1, is characterized in that the current waveform data on described control module foundation the first contact assembly receiving, and marks accordingly the first electric equipment and comprises:

Described control module sends the current waveform data on the first contact assembly receiving by described wireless transmission/reception module, and receives by described wireless transmission/reception module the mark corresponding relation that current waveform data correspondence on the first contact assembly the first electric equipment that the first contact assembly accesses.

4. as the socket device as described in arbitrary in claim 1～2, it is characterized in that described control module is further configured to: when the plug of the first electric equipment inserts for the first time, current waveform data on the first contact assembly receiving are sent by described wireless transmission/reception module, and by described wireless transmission/reception module, receive the configuration information of the first electric equipment corresponding to described current waveform data, set up the mark corresponding relation of the configuration information of described current waveform data and described the first electric equipment.

5. socket device as claimed in claim 4, it is characterized in that described control module is further configured to when this mark corresponding relation is sent by described wireless transmission/reception module, also together sent the unique hardware identifier of described wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly wherein;

By described wireless transmission/reception module, receive configuration information and the corresponding unique hardware identifier of wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly of the first electric equipment corresponding to described current waveform data, set up the configuration information of described current waveform data and described the first electric equipment and the mark corresponding relation of the unique hardware identifier of wireless transmission/reception module and/or the unique hardware identifier of the first contact assembly.

6. socket device as claimed in claim 4, is characterized in that the configuration information of described the first electric equipment comprises: at least one in the title of the first electric equipment, model, rated power, rated current and electric equipment group information.

7. socket device as claimed in claim 2, it is characterized in that further comprising: a pattern recognition module, it carries out pattern characteristics coupling after being configured to, by analog-to-digital conversion, the current waveform of the first electric equipment collecting is converted to digital signal, and matching result is sent to described control module and/or described wireless transmission/reception module.

8. the control appliance of a socket device, it is characterized in that comprising: sending/receiving module, what its its first contact assembly that is configured to send from socket device as claimed in claim 1 by wireless and/or wired communication mode reception inserted is the mark corresponding relation of the first electric equipment, and this mark corresponding relation is presented in the display module of control appliance;

Operational order sends module, and it is configured to be sent the unlatching of the first electric equipment or shutoff operation instruction are arrived to socket device as claimed in claim 1 by described sending/receiving module.

9. control appliance as claimed in claim 8, it is characterized in that further comprising: initial configuration module, it is configured to by described sending/receiving module, receiving for the first time while coming from the current waveform data that socket device sends, configure the configuration information of corresponding the first electric equipment of these current waveform data, and the corresponding relation of these current waveform data of this mark first electric equipment corresponding with it is sent it back to described socket device by described sending/receiving module.

10. a control system for socket device, comprising:

Socket device as claimed in claim 1;

And the server unit as local area network (LAN) focus that receives the wireless signal that described socket device sends;

And by wired and/or wireless network, forward information to the control appliance of socket device as claimed in claim 8 by the described server unit as local area network (LAN) focus;

Wherein said socket device sends to described server unit by the mark corresponding relation of the current waveform data of its electric equipment that accesses detecting therein and itself and electric equipment;

The control appliance of wherein said socket device sends to above-mentioned socket device by described server unit by the unlatching of electric equipment or shutoff operation instruction.