CN113900396A - Remote control circuit system, controller and remote control equipment - Google Patents

Abstract

The application discloses remote control circuitry, controller and remote control device, this system includes: the controller comprises a first communication circuit, a second communication circuit and a first control circuit, the first control circuit is connected with the first communication circuit and the second communication circuit, and the controller is communicated with the wireless router through the first communication circuit; the remote control equipment comprises a third communication circuit, a second control circuit and an execution circuit, wherein the second control circuit is connected with the third communication circuit and the execution circuit, the second communication circuit is in communication connection with the third communication circuit, and the remote control equipment controls the execution circuit to control the electrical equipment connected with the remote control equipment through the second control circuit. Through the system, remote control of the remote control equipment can be realized.

Description

Remote control circuit system, controller and remote control equipment

Technical Field

The present application relates to the field of control technologies, and in particular, to a remote control circuit system, a controller, and a remote control device.

Background

The electrical equipment such as household appliances and indoor lighting is generally controlled by a socket or a switch to be connected to a power supply system, and the power supply of the electrical equipment is controlled by controlling the power on or off of the socket and the switch.

When a user leaves home, forgetting to power off the electric equipment causes resource waste and may bring danger. The existing remote control operation technology can directly send signals to a switch or a socket through a remote controller in a short distance to control the switch and the socket, the remote control communication mode is generally infrared, Bluetooth and power frequency wireless communication, different keys are arranged on the remote controller, and a user can realize remote control on the socket and the switch by pressing a specific key, which brings convenience to the user to a certain extent.

Disclosure of Invention

The technical problem that this application mainly solved provides a remote control circuit system, controller and remote control equipment, can realize carrying out remote control to the break-make of remote control equipment.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided remote control circuitry, the system comprising: wireless router, controller, at least one remote control device. The controller comprises a first communication circuit, a second communication circuit and a first control circuit, wherein the first control circuit is connected with the first communication circuit and the second communication circuit, and the controller is communicated with the wireless router through the first communication circuit; the remote control equipment comprises a third communication circuit, a second control circuit and an execution circuit, wherein the second control circuit is connected with the third communication circuit and the execution circuit, the second communication circuit is in communication connection with the third communication circuit, and the remote control equipment controls the execution circuit to control the electrical equipment connected to the remote control equipment through the second control circuit.

Optionally, the second communication circuit and the third communication circuit communicate via a power carrier.

Optionally, the wireless router is connected with the controller in a wireless communication manner or in a power carrier manner.

Optionally, the remote control circuit system further includes a power supply device, the controller further includes a first power module, the power supply device is connected to the first power module, and the first power module is further connected to the first communication circuit, the second communication circuit, and the first control circuit, respectively.

Optionally, the remote control device further includes a second power module and a detection circuit, the second power module is connected to the power supply device, and the second power module is further connected to the third communication circuit, the second control circuit, the execution circuit and the detection circuit, respectively; the detection circuit is connected with the second control circuit and used for detecting the working state of the execution circuit and sending the working state to the second control circuit.

Optionally, the execution circuit includes a coil and a switch, the switch is connected to the electrical equipment, and the coil receives a control signal of the second control circuit through power carrier communication to control the switch to be turned on or turned off.

Optionally, the execution circuit includes a driving circuit and a relay, and the driving circuit receives a control signal of the second control circuit through power carrier communication and controls the relay to close or open.

The controller includes: the power supply comprises a first communication circuit, a second communication circuit, a first control circuit and a first power supply module; the first control circuit is connected with the first communication circuit and the second communication circuit, and the controller is communicated with the wireless router through the first communication circuit; the first power module is respectively connected with the first communication circuit, the second communication circuit and the first control circuit, and the first power module is also connected with the power supply equipment.

The remote control device includes: the device comprises a third communication circuit, a second control circuit, an execution circuit, a second power supply module and a detection circuit; the second control circuit is connected with the third communication circuit, the execution circuit and the detection circuit, the second communication circuit is in communication connection with the third communication circuit, and the remote control equipment controls the execution circuit to control the electrical equipment connected with the remote control equipment through the second control circuit; the detection circuit is used for detecting the working state of the execution circuit and sending the working state to the second control circuit; the second power module is respectively connected with the third communication circuit, the second control circuit, the execution circuit and the detection circuit, and is also connected with the power supply equipment.

Optionally, the execution circuit includes a coil and a switch, the switch is connected to the electrical equipment, and the coil receives a control signal of the second control circuit through power carrier communication to control the switch to be turned on or turned off.

Optionally, the execution circuit includes a driving circuit and a relay, and the driving circuit receives a control signal of the second control circuit through power carrier communication and controls the relay to close or open.

The beneficial effect of this application is: according to the remote control device, the controller and the wireless router are connected in a communication mode, the controller is connected with the remote control device in a communication mode, remote control of the local area network device and remote control of the internet device to the remote control device can be achieved, and the remote control device is convenient and reliable to control.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of remote control circuitry according to the present application;

FIG. 2 is a schematic structural diagram of an embodiment of a controller of the present application;

FIG. 3 is a schematic block diagram of an embodiment of a remote control device of the present application;

FIG. 4 is a schematic block diagram of another embodiment of a remote control device of the present application;

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first" and "second" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features shown. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

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

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a remote control circuit system according to the present application. As shown in fig. 1, the remote control circuit system of the present embodiment includes: a wireless router 11, a controller 12 and a remote control device 13.

The controller 12 includes a first communication circuit 21, a second communication circuit 22, and a first control circuit 23, the first control circuit 23 connects the first communication circuit 21 and the second communication circuit 22, and the controller 12 communicates with the wireless router 11 through the first communication circuit 21.

The remote control device 13 includes a third communication circuit 31, a second control circuit 32, and an execution circuit 33. The second control circuit 32 is electrically connected with the third communication circuit 31 and the execution circuit 33, the third communication circuit 31 is used for being connected with the second communication circuit in the controller 12 in a communication way, and the remote control device 13 controls the execution circuit 33 to control the electric appliance 15 connected with the remote control device 13 through the second control circuit 32.

The remote control circuit system of the present embodiment further includes a power supply device, and the controller 12 and the remote control device 13 are connected in parallel to a power supply line of the same power supply device, so that the third communication circuit 31 and the second communication circuit 22 communicate by a power carrier. The remote control device 13 is connected to the electrical equipment 15 to control whether the electrical equipment 15 connected to the remote control device 13 supplies power or not, and the electrical equipment 15 can be any equipment requiring power supply, such as lighting equipment, power storage equipment, high-power electrical equipment and the like. The remote control circuitry may be disposed in one building suite or may be disposed in multiple building suites. Through the power supply line of each room of series connection in the building, carry out the power line carrier coupling, realize controller 12 and remote control equipment 13's power line carrier coupling, realize that second communication circuit and third communication circuit communicate through the power line carrier, make controller 12 and remote control equipment 13 can not receive the restriction of communication distance and realize remote power line carrier communication, when controller 12 links into power supply equipment, through the direct power supply of power supply equipment, and need not the battery, the trouble of changing the battery in the use has been removed from, need not worry that the controller does not have the electricity and the inconvenience that causes.

In the above embodiment, only one remote control device is illustrated, actually, the number of the remote control devices may be two or more, when there are two or more remote control devices, all the remote control devices are connected in parallel to the power line of the same power supply device and connected in parallel to the controller, and each remote control device and the controller are also connected in communication as described in the above embodiment, so as to realize control of each remote control device by the controller.

Specifically, the user equipment may be a handheld mobile terminal such as a mobile phone and a tablet computer, the on-off state of the remote control device 13 is transmitted to the cloud server through a communication link including the controller 12 and the wireless router 11, the user equipment may send information through accessing a web page or an application program, the cloud server transfers or converts the information into a corresponding remote control instruction, the wireless router 11 receives the information or the remote control instruction and transmits the information or the remote control instruction to the controller 12, if the controller 12 receives the information, the information is converted into the remote control instruction, and the remote control instruction is transmitted to the remote control device to which the remote control instruction is directed through the second communication circuit 22 in a power carrier communication manner.

Therefore, a user can control the remote control equipment through the mobile equipment which is accessed to the remote internet or the local area network consisting of the wireless router without a special remote controller, and the remote control equipment is not limited by distance and blocked by obstacles, so that the remote control of the remote control equipment is realized.

A message or remote control command sent by a user device may be directed to a remote control device alone, for example, the remote control device 13 alone in this application, or may be directed to two or more remote control devices simultaneously.

Optionally, different identification codes may be set for each remote control device by setting an identification code for the remote control device, and one piece of information or a remote control instruction may only control one remote control device, or two or more remote control devices may be set with one identical identification code, so that two or more remote control devices may be controlled by one piece of information or a remote control instruction.

Alternatively, the wireless router 11 is a general home router satisfying IEEE802.11 lan standards, and the controller 12 is connected to the wireless router 11 through wireless communication. Or, in other embodiments, the controller 12 may be connected to the wireless router 11 by a power line in a power carrier manner, and the wireless router 11 and the controller 12 may also be integrated into one device, so as to simplify the system structure, where the integrated device has the same functions as the wireless router 11 and the controller 12 in the foregoing embodiments, and will not be described herein again.

Referring to fig. 2 and 3, fig. 2 is a schematic structural diagram of an embodiment of the controller 12 of the present application, and fig. 3 is a schematic structural diagram of an embodiment of the remote control device of the present application. The controller 12 shown in fig. 2 includes: a first communication circuit 21, a second communication circuit 22, a first control circuit 23, and a first power supply module 24. The remote control device 13 shown in fig. 3 comprises a third communication circuit 31, a second control circuit 32, an execution circuit 33, a second power supply module 34 and a detection circuit 33.

The first power module 24 is connected to the first communication circuit 21, the second communication circuit 22 and the first control circuit 23, respectively, and the first power module 24 is further configured to be connected to a power supply line, obtain electric energy on the power supply line, and supply power to the first communication circuit 21, the second communication circuit 22 and the first control circuit 23. The first communication circuit 21 is in communication connection with the wireless router 11 and receives a remote control command from the wireless router 11, and the first control circuit 23 is configured to control the second communication circuit 22 to control a remote control device to which the remote control command is directed through a power supply line in a power carrier manner, so as to control whether power is supplied to the electrical equipment.

The second power module 34 is used for connecting the power supply line, obtaining the electric energy on the power supply line and supplying power to the third communication circuit 31, the second control circuit 32, the execution circuit 33 and the detection circuit 35. The second control circuit 32 is connected to a third communication circuit 31 and a detection circuit 35, the third communication circuit 31 is used for being in communication connection with a second communication circuit 22 (shown in fig. 2) in a power carrier mode through a power supply line and receiving a remote control command from the controller 12, the second control circuit 32 is used for controlling whether the execution circuit 33 supplies power to the remote control device 13 through the power supply line, and the detection circuit 35 is used for detecting the working state of the execution circuit 33 and sending the working state to the second control circuit 32.

Alternatively, when the user equipment sends the information of "checking the remote control device 13" through the interactive interface, the cloud server converts the information into a corresponding remote control command, the wireless router 11 receives the information of "checking the remote control device 13" or the remote control command, and simultaneously sends the information or the remote control command to the first communication circuit 21 of the controller 12 (shown in fig. 2), the first control circuit 23 converts the information into the remote control command, and controls the second communication circuit 22 to send the command to the third communication circuit 31 in the remote control device 13 through the power supply line in a power carrier manner, the detection of the remote control device 13 is performed through the detection circuit 35, the detection object can be voltage, current, resistance, or other values capable of judging the circuit, and the remote control device 13 is judged to be in an off or on state according to the detected on-off or on value, so as to realize the remote detection operation of the remote control device, the working state of the remote control equipment can be conveniently checked by a user in a long distance.

The third communication circuit 31 feeds back the state to the second communication circuit 22 of the controller 12 (shown in fig. 2), and then feeds back the state to the cloud server through the first communication circuit 21, the cloud server converts the data information of the state into a visual pattern or text information, the working state of the remote control device 13 can be visually displayed on the user equipment in the form of text or pattern, on the interactive interface, the next operation can be selected according to the result obtained by detection, for example, when the interactive interface displays that the remote control device 13 is in the on state, the remote control device 13 can be selected to be turned off or not to be operated.

When the user equipment remotely controls the remote control equipment 13 to be disconnected, the user equipment sends information of 'disconnecting the remote control equipment 13' through the interactive interface, the cloud server converts the information into a corresponding remote control instruction, the wireless router 11 receives the information or the remote control instruction and simultaneously sends the information or the remote control instruction to the first communication circuit 21, the first control circuit 23 controls the second communication circuit 22 to send the remote control instruction to the third communication circuit 31 in the remote control equipment 13 through a power supply line in a power carrier mode, the second control circuit 32 controls the action of the execution circuit 33 to disconnect the remote control equipment 13, and the electric equipment 15 connected with the remote control equipment is disconnected from power supply.

In addition to the above manner, the controller 12 and the remote control device 13 are connected to the power supply device, and the power supply line is used to supply power to the internal circuits of the controller 12 and the remote control device 13, the controller 12 may also supply power through its internal power supply to enable each circuit in the controller 12 to operate normally, and the remote control device 13 may also supply power through its internal power supply to enable each circuit in the remote control device to operate normally.

Optionally, the executing circuit 33 includes a coil and a switch (not shown), and the second control circuit 32 controls the action of the action coil to drive the action of the switch to turn on or off the remote control device, so as to control whether to supply power to the electrical device connected to the remote control device 13.

Alternatively, when the user device remotely controls the remote control device 13 to be disconnected, the user device sends information of disconnecting the remote control device 13 through the interactive interface, the cloud server converts the information into a corresponding remote control command, the wireless router 11 receives the information of disconnecting the remote control device 13 or the remote control command and sends the information or the remote control command to the first communication circuit 21 of the control circuit 12 (shown in fig. 2), the first control circuit 23 converts the information into the remote control command and controls the second communication circuit 22 to send the remote control command to the third communication circuit 31 in the remote control device 13 through the power supply line in a power carrier mode, and the second control circuit 32 of the remote control device 13 responds to the command to control the action coil to act to generate a magnetic field to interact with the switch electrode to complete the command of disconnecting the remote control device 13. The electrical device 15 to which the remote control device 13 is connected does not receive power supply after disconnection.

Alternatively, as shown in fig. 4, the execution circuit 33 (a dashed box part of fig. 4) includes a driving circuit 331 and a relay 332, the relay 332 is connected in series between the power supply line and the receptacle socket 30, the second power module 34 supplies power to the driving circuit 331 and the relay 332, and the driving circuit 331 is connected to the relay 332 and the second control circuit 32, respectively, and is configured to receive a control signal of the second control circuit 32 through power carrier communication to control the relay 332 to be turned on or off.

Alternatively, when the user device remotely controls the remote control device 13 to be disconnected, the user device sends a control signal of "disconnecting the remote control device 13" through the interactive interface, the cloud server converts the control signal into a corresponding remote control instruction, the wireless router 11 receives the control signal or the remote control instruction of "disconnecting the remote control device 13", and sends the control signal or the remote control instruction to the first communication circuit 21 of the control circuit 12 (shown in fig. 2), the first control circuit 23 controls the second communication circuit 22 to send the remote control instruction to the third communication circuit 31 in the remote control device 13 through the power supply line in a power carrier manner, the control signal is converted into the remote control instruction through the second control circuit 32, and the driving circuit 331 is controlled to drive the relay 332 to be disconnected, so that the instruction of "disconnecting the remote control device 13" is completed. After the socket, i.e., the remote control device 13, is disconnected, the electrical device 15 inserted into the remote control device is in a power-off state and does not receive power supply.

The installation mode and the use mode of the remote control equipment in the embodiment are the same as those of the existing remote control equipment, and the remote control equipment is easy to use. The remote control equipment can be remotely detected and controlled through remote internet equipment or local area network equipment, the limitation of distance and obstacles is ignored, the control of the remote control equipment is more convenient, and the power utilization is safer.

The above embodiments are merely examples, and not intended to limit the scope of the present application, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present application, or those directly or indirectly applied to other related arts, are included in the scope of the present application.

Claims (11)

1. Remote control circuitry, comprising: the system comprises a wireless router, a controller and at least one remote control device; wherein the content of the first and second substances,

the controller comprises a first communication circuit, a second communication circuit and a first control circuit, the first control circuit is connected with the first communication circuit and the second communication circuit, and the controller is communicated with the wireless router through the first communication circuit;

the remote control equipment comprises a third communication circuit, a second control circuit and an execution circuit, wherein the second control circuit is connected with the third communication circuit and the execution circuit, the second communication circuit is in communication connection with the third communication circuit, and the remote control equipment controls the execution circuit to control the electrical equipment connected with the remote control equipment through the second control circuit.

2. The remote control circuitry as recited in claim 1 wherein the second communication circuitry communicates with the third communication circuitry over a power carrier.

3. The remote control circuitry of claim 2, wherein the wireless router is connected to the controller in a wireless communication or via a power carrier.

4. A remote control circuitry as claimed in any one of claims 1 to 3, further comprising a power supply device, the controller further comprising a first power module, the power supply device being connected to the first power module, the first power module being further connected to the first communication circuit, the second communication circuit and the first control circuit respectively.

5. The remote control circuitry of claim 4, wherein the remote control device further comprises a second power module, a detection circuit, the second power module being connected to the power supply device, the second power module being further connected to a third communication circuit, a second control circuit, an execution circuit, and a detection circuit, respectively;

the detection circuit is connected with the second control circuit and used for detecting the working state of the execution circuit and sending the working state to the second control circuit.

6. The remote control circuitry as claimed in claim 5 wherein the execution circuitry comprises a coil and a switch, the switch being connected to the electrical device, the coil receiving a control signal from a second control circuit via power carrier communication to control the switch to close or open.

7. The remote control circuit system according to claim 5, wherein the execution circuit includes a drive circuit and a relay, and the drive circuit receives a control signal of the second control circuit through power carrier communication and controls the relay to be closed or opened.

8. A controller, comprising: the power supply comprises a first communication circuit, a second communication circuit, a first control circuit and a first power supply module;

the first control circuit is connected with the first communication circuit and the second communication circuit, and the controller is communicated with the wireless router through the first communication circuit;

the first power module is respectively connected with the first communication circuit, the second communication circuit and the first control circuit, and is also connected with power supply equipment.

9. A remote control device is characterized by comprising a third communication circuit, a second control circuit, an execution circuit, a second power module and a detection circuit;

the second control circuit is connected with the third communication circuit, the execution circuit and the detection circuit, the second communication circuit is in communication connection with the third communication circuit, and the remote control equipment controls the execution circuit to control the electrical equipment connected to the remote control equipment through the second control circuit;

the detection circuit is used for detecting the working state of the execution circuit and sending the working state to the second control circuit;

the second power module is respectively connected with the third communication circuit, the second control circuit, the execution circuit and the detection circuit, and is also connected with the power supply equipment.

10. The remote control device of claim 9, wherein the execution circuit comprises a coil and a switch, the switch is connected with the electrical device, and the coil receives a control signal of a second control circuit through power carrier communication to control the switch to be closed or opened.

11. The remote control apparatus according to claim 9, wherein the execution circuit includes a drive circuit and a relay, the drive circuit receives a control signal of the second control circuit through power carrier communication, and controls the relay to be closed or opened.

Images