CN116819986A - Remote control method and system for voltage-stabilizing extension socket - Google Patents

Abstract

The invention relates to the technical field of remote control, in particular to a remote control method and a remote control system for a voltage stabilizing extension socket, comprising the following steps: setting a control instruction; acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an on time node and an off time node in the timing instruction when the control instruction is the timing instruction, so as to acquire the service cycle of the electrical appliance corresponding to the timing instruction; when a plurality of timing instructions all specify the same electric appliance, the electric appliance corresponds to a plurality of use periods at the same time, and integrates a plurality of use periods. In the invention, aiming at different service periods, effective integration is carried out, a plurality of control instructions can be simplified, the error probability of the system is reduced, and the working efficiency is improved.

Description

Remote control method and system for voltage-stabilizing extension socket

Technical Field

The invention relates to the technical field of remote control, in particular to a remote control method and a remote control system for a voltage stabilizing extension socket.

Background

The voltage stabilizing power strip is a power supply device for protecting connected electronic devices from voltage fluctuations when a power supply voltage is unstable or an instantaneous voltage fluctuation occurs. It generally includes a plurality of sockets, can connect a plurality of electronic devices, and has a function of stabilizing an output voltage. And through wireless network, for example WiFi, bluetooth module etc. can realize the remote control of user to the consumer on the warm-pressing row inserts. In contrast, the conventional extension socket can only provide a power interface, and cannot meet the requirements of users on convenience and intelligence.

The voltage stabilizing power strip is applied to a wireless network environment, and a user can remotely control the electric appliances on the voltage stabilizing power strip through a mobile phone application program or other network interfaces and can remotely monitor the power state of the socket. However, in an actual use scenario, there are often multiple users who possess some or all of the control rights; therefore, in the process of remote control, cross operation may occur, that is, a plurality of users repeatedly operate a certain electric appliance on the voltage-stabilizing power strip in the same service period; in this case, an ineffective operation is easily generated, resulting in a low working efficiency.

Disclosure of Invention

The invention aims to provide a remote control method and a remote control system for a voltage-stabilizing extension socket, which solve the technical problems.

The aim of the invention can be achieved by the following technical scheme:

a remote control method of a voltage-stabilizing extension socket comprises the following steps:

setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T in the timing instruction when the control instruction is the timing instruction _{_start} And a shut-down time node T _{_over} Obtaining the service cycle T= (T\u) of the electric appliance corresponding to the timing instruction _start ，T _{_over} ）；

When a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of service periods, and the time is equal to T=T/u _start At' -T, integrating a plurality of said usage periods, wherein T represents a current time node and T represents a preset inverseResponse time, T/u _start ' represents the closest on-time node to the current time node among the plurality of usage periods.

As a further scheme of the invention: when the control instruction acquired in real time is an opening instruction, acquiring the connection state of an application appliance which is used by the control instruction, and when the connection state of the application appliance is power-off, adjusting the connection state of the application appliance to be power-on; and when the connection state of the electric appliance is electrified, the control instruction is ignored.

As a further scheme of the invention: when the control instruction acquired in real time is a closing instruction, acquiring the connection state of an application appliance which is used by the control instruction, and when the connection state of the application appliance is electrified, adjusting the connection state of the application appliance to be powered off; and when the connection state of the electric appliance is power failure, the control instruction is ignored.

As a further scheme of the invention: the specific steps for integrating a plurality of the use periods are as follows:

step S1: the starting time nodes of each use period of the electric appliance are called, and the use periods are ordered according to a time axis sequence;

step S2: calculate any two usage periods T _a And T _b Intersection T between _ab When T _ab When not equal to 0, calculate the service period T _a And T _b The union T of (2) _ab ' wherein T _a Represents the a-th use period, T _b Represents the b-th use period;

step S3: delete T _a And T _b And take T as _ab ' substitution T _a Or T _b Repeating step S2 until there is no intersection between any two usage periods;

step S4: calculating a gap value deltat=tb between two adjacent use periods _{_over} -Ta_ _start Wherein Tb is _{_over} A closing time node representing the previous use period, ta/u _start Represents the start time node of the latter use period, and when the gap value delta T is less than or equal to K, two are usedThe use periods are combined into a use period, wherein K represents a preset interval threshold value;

step S5: and controlling the electric appliance to be started and closed according to the starting time node and the closing time node in the service period.

As a further scheme of the invention: in the step S2, when T _ab When=0, two use periods are reselected.

As a further scheme of the invention: in the step S4, when only one usage period remains after the processes of the step S2 and the step S3, the process proceeds directly to the step S5.

As a further scheme of the invention: when T > T/u _start At' -t, the integration of the usage periods is completed and no further timing instructions are received for the on-time node or the off-time node to be within the maximum time span of the current all usage periods before the end of the current all usage periods.

A remote control system for a voltage regulated extension socket, comprising:

the instruction setting module: setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

a service cycle setting module: acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T in the timing instruction when the control instruction is the timing instruction _{_start} And a shut-down time node T _{_over} Obtaining the service cycle T= (T\u) of the electric appliance corresponding to the timing instruction _start ，T _{_over} ）；

A use period integration module: when a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of service periods, and the time is equal to T=T/u _start At' -T, integrating a plurality of use periods, wherein T represents a current time node, T represents a preset reaction time, and T/u _start ' represents the closest on-time node to the current time node among the plurality of usage periods.

The invention has the beneficial effects that: in the actual application process, a user can play a role in controlling the operation of the electric appliance connected to the voltage stabilizing socket by remotely controlling the power supply connection of the voltage stabilizing socket; in a specific control process, an opening instruction for controlling the connection of an electric appliance with a power supply, such as the invention, is provided; also, there are power-off instructions for controlling the power-off of the electrical appliance, such as in the present invention; the timing instruction in the invention refers to a composite instruction comprising on and off at the same time, and is used for controlling the running state of the electric appliance in a certain time interval in the future, and the use period in the timing instruction refers to a time interval when the electric appliance needs to enter the working state, so that in the timing instruction, the on time node firstly turns on the electric appliance before the off time node, and then finishes a use period.

When a plurality of users send timing instructions to the same electric appliance, namely the timing instructions indicate that the plurality of users need to use the electric appliance, the timing instructions correspond to a plurality of use periods, namely the plurality of users (or one user) need to use the electric appliance in a plurality of time intervals, and in the case, different use periods need to be orderly adjusted, so that the frequent start and stop of the electric appliance are avoided, and the demands of part of users cannot be met under the condition of multiple operations are avoided; therefore, in the invention, aiming at different service periods, effective integration is carried out, a plurality of control instructions can be simplified, the error probability of the system is reduced, the working efficiency is improved, and the damage caused by frequent start and stop of the electric appliance can be avoided.

Drawings

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

Fig. 1 is a flow chart of a remote control method of a voltage stabilizing power strip of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention relates to a remote control method for a voltage stabilizing extension socket, which comprises the following steps:

setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T in the timing instruction when the control instruction is the timing instruction _{_start} And a shut-down time node T _{_over} Obtaining the service cycle T= (T\u) of the electric appliance corresponding to the timing instruction _start ，T _{_over} ）；

When a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of service periods, and the time is equal to T=T/u _start At' -T, integrating a plurality of use periods, wherein T represents a current time node, T represents a preset reaction time, and T/u _start ' represents the closest on-time node to the current time node among the plurality of usage periods.

The application scene of the invention is based on the remote control of the voltage stabilizing power strip, and the voltage stabilizing power strip is used for protecting the connected electronic equipment from the influence of voltage fluctuation when the power supply voltage is unstable or instant voltage fluctuation occurs. It usually contains a plurality of sockets, can connect a plurality of electrical machines, and possesses the function of stable output voltage.

In the actual application process, a user can play a role in controlling the operation of the electric appliance connected to the voltage stabilizing socket by remotely controlling the power supply connection of the voltage stabilizing socket; in a specific control process, an opening instruction for controlling the connection of an electric appliance with a power supply, such as the invention, is provided; also, there are power-off instructions for controlling the power-off of the electrical appliance, such as in the present invention; the timing instruction in the invention refers to a composite instruction comprising on and off at the same time, and is used for controlling the running state of the electric appliance in a certain time interval in the future, and the use period in the timing instruction refers to a time interval when the electric appliance needs to enter the working state, so that in the timing instruction, the on time node firstly turns on the electric appliance before the off time node, and then finishes a use period.

When a plurality of users send timing instructions to the same electric appliance, namely the timing instructions indicate that the plurality of users need to use the electric appliance, the timing instructions correspond to a plurality of use periods, namely the plurality of users (or one user) need to use the electric appliance in a plurality of time intervals, and in the case, different use periods need to be orderly adjusted, so that the frequent start and stop of the electric appliance are avoided, and the demands of part of users cannot be met under the condition of multiple operations are avoided; therefore, in the invention, aiming at different service periods, effective integration is carried out, a plurality of control instructions can be simplified, the error probability of the system is reduced, the working efficiency is improved, and the damage caused by frequent start and stop of the electric appliance can be avoided.

In the present invention, as for the electric appliances in the service period, most of the electric appliances can realize functions only by controlling the start and stop of an air conditioner, a fan, a fountain, a water heater, etc., because the present invention is based on a control scheme of voltage-stabilizing power strip, the electric appliances cannot be controlled more finely.

In a preferred embodiment of the present invention, when a control command obtained in real time is an on command, a connection state of an electric appliance to which the control command is applied is obtained, and when the connection state of the electric appliance is powered off, the connection state of the electric appliance is adjusted to be powered on; and when the connection state of the electric appliance is electrified, the control instruction is ignored.

In another case of this embodiment, when the control instruction acquired in real time is a closing instruction, a connection state of an electric appliance to which the control instruction is applied is acquired, and when the connection state of the electric appliance is powered on, the connection state of the electric appliance is adjusted to be powered off; and when the connection state of the electric appliance is power failure, the control instruction is ignored.

In the present invention, the coping strategies for the other two control instructions (the on instruction and the off instruction) are adjusted according to the real-time connection state of the electric appliance as described above; it should be noted that the on command and the off command may also be delayed to be effective, that is, a time node is set, and when the time node is reached, the on command or the off command is effective, but it should be noted that the delay command is not equal to the timing command.

In a preferred embodiment of the invention, the specific steps of integrating a plurality of said use cycles are as follows:

step S1: the starting time nodes of each use period of the electric appliance are called, and the use periods are ordered according to a time axis sequence;

step S2: calculate any two usage periods T _a And T _b Intersection T between _ab When T _ab When not equal to 0, calculate the service period T _a And T _b The union T of (2) _ab ' wherein T _a Represents the a-th use period, T _b Represents the b-th use period;

step S3: delete T _a And T _b And take T as _ab ' substitution T _a Or T _b Repeating step S2 until there is no intersection between any two usage periods;

step S4: calculating a gap value deltat=tb between two adjacent use periods _{_over} -Ta_ _start Wherein Tb is _{_over} A closing time node representing the previous use period, ta/u _start A start time node representing a later use period, and merging two use periods into one use period when the gap value delta T is less than or equal to K, wherein K represents a preset interval threshold value;

step S5: and controlling the electric appliance to be started and closed according to the starting time node and the closing time node in the service period.

In the steps S1 to S3 of the present embodiment, a merging process of usage periods with intersections is implemented, and in step S4, it is determined whether or not the electrical appliance needs to be temporarily turned off according to the interval size between adjacent usage periods; it should be noted that when Δt is less than or equal to K, after merging two usage periods into one usage period, the start point of the new usage period is the on time node of the previous usage period, and the end point is the off time node of the next usage period, and the two usage periods are not merged.

In another preferred embodiment of the present invention, in said step S2, when T _ab When=0, two use periods are reselected.

In another preferred embodiment of the present invention, in the step S4, when only one usage period remains after the processes of the step S2 and the step S3, the process proceeds directly to the step S5.

In another preferred embodiment of the present invention, when T > T/u _start At' -t, the integration of the usage periods is completed and no further timing instructions are received for the on-time node or the off-time node to be within the maximum time span of the current all usage periods before the end of the current all usage periods.

A remote control system for a voltage regulated extension socket, comprising:

the instruction setting module: setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

a service cycle setting module: acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T in the timing instruction when the control instruction is the timing instruction _{_start} And a shut-down time node T _{_over} Obtaining the service cycle T= (T\u) of the electric appliance corresponding to the timing instruction _start ，T _{_over} ）；

Week of useAnd (3) a period integration module: when a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of service periods, and the time is equal to T=T/u _start At' -T, integrating a plurality of use periods, wherein T represents a current time node, T represents a preset reaction time, and T/u _start ' represents the closest on-time node to the current time node among the plurality of usage periods.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (8)

1. The remote control method of the voltage stabilizing extension socket is characterized by comprising the following steps of:

setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T_start and a closing time node T_over in the timing instruction when the control instruction is the timing instruction to obtain a service cycle T= (T_start, T_over) of an electrical appliance corresponding to the timing instruction;

when a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of using periods, and when T=T_start '-T, the using periods are integrated, wherein T represents a current time node, T represents preset reaction time, and T_start' represents an opening time node closest to the current time node in the using periods.

2. The remote control method of the voltage stabilizing socket according to claim 1, wherein when a control command obtained in real time is an opening command, a connection state of an application appliance which is used by the control command is obtained, and when the connection state of the application appliance is power-off, the connection state of the application appliance is adjusted to be power-on; and when the connection state of the electric appliance is electrified, the control instruction is ignored.

3. The remote control method of the voltage stabilizing socket according to claim 1, wherein when a control command obtained in real time is a closing command, a connection state of an application appliance which is used by the control command is obtained, and when the connection state of the application appliance is powered on, the connection state of the application appliance is adjusted to be powered off; and when the connection state of the electric appliance is power failure, the control instruction is ignored.

4. The method for remotely controlling a voltage stabilizing socket according to claim 1, wherein the specific steps of integrating a plurality of said use periods are as follows:

step S1: the starting time nodes of each use period of the electric appliance are called, and the use periods are ordered according to a time axis sequence;

step S2: calculating an intersection Tab between any two use periods Ta and Tb, and calculating a union Tab' of the use periods Ta and Tb when Tab is not equal to 0, wherein Ta represents an a-th use period and Tb represents a b-th use period;

step S3: deleting Ta and Tb, replacing the position of Ta or Tb with Tab', and repeating the step S2 until no intersection exists between any two using periods;

step S4: calculating a gap value delta T=Tb_over-Ta_start between two adjacent use periods, wherein Tb_over represents a closing time node of a previous use period, ta_start represents a starting time node of a subsequent use period, and combining the two use periods into one use period when the gap value delta T is less than or equal to K, wherein K represents a preset interval threshold;

step S5: and controlling the electric appliance to be started and closed according to the starting time node and the closing time node in the service period.

5. The method according to claim 4, wherein in the step S2, when tab=0, two usage periods are selected again.

6. The method according to claim 4, wherein in the step S4, when only one usage period remains after the processing of the step S2 and the step S3, the step S5 is directly entered.

7. The method of claim 4, wherein when T > t_start' -T, the integration of the usage periods is completed, and the timing command of the on-time node or the off-time node within the maximum time span of all the current usage periods is not received before all the current usage periods are completed.

8. The utility model provides a steady voltage row inserts remote control system which characterized in that includes:

the instruction setting module: setting a control instruction, wherein the control instruction comprises an opening instruction, a closing instruction and a timing instruction, and the timing instruction comprises an opening time node and a closing time node;

a service cycle setting module: acquiring the control instruction in real time, distinguishing the type of the control instruction, and acquiring an opening time node T_start and a closing time node T_over in the timing instruction when the control instruction is the timing instruction to obtain a service cycle T= (T_start, T_over) of an electrical appliance corresponding to the timing instruction;

a use period integration module: when a plurality of timing instructions all specify the same electric appliance, the electric appliance simultaneously corresponds to a plurality of using periods, and when T=T_start '-T, the using periods are integrated, wherein T represents a current time node, T represents preset reaction time, and T_start' represents an opening time node closest to the current time node in the using periods.