阅读说明：本技术 家居系统的控制方法 (Control method of home system ) 是由 邓金柱 许升 吕佩师 舒海 于 2019-02-20 设计创作，主要内容包括：本发明属于家居系统领域,具体涉及一种家居系统的控制方法。本发明旨在解决现有的家居系统较难满足同一时间段内运行多个家电的问题。为此目的,本发明的控制方法包括：获取待运行家电的功率曲线；获取所有当前运行家电的功率曲线；如果待运行家电的功率曲线和至少一个当前运行家电的功率曲线满足错峰运行的条件,则使待运行家电与当前运行家电错峰运行。通过上述控制方法,能够在不影响所有当前运行家电的运行状态的前提下将待运行家电接入电路。既满足了用户使待运行家电和当前运行家电同时工作的需求,又不会超出电路的负荷,在保证用电安全的基础上提高了家居系统的整体工作效率,用户体验得到极大提升。(The invention belongs to the field of home systems, and particularly relates to a control method of a home system. The invention aims to solve the problem that the existing household system is difficult to meet the requirement of operating a plurality of household appliances in the same time period. To this end, the control method of the present invention includes: acquiring a power curve of a household appliance to be operated; acquiring power curves of all currently-operating household appliances; and if the power curve of the household appliance to be operated and the power curve of at least one currently operated household appliance meet the condition of peak shifting operation, enabling the household appliance to be operated and the currently operated household appliance to be operated to perform peak shifting operation. By the control method, the household appliance to be operated can be connected into the circuit on the premise of not influencing the operation states of all the currently operated household appliances. The household electrical appliance power consumption monitoring system has the advantages that the requirement that a user enables the household electrical appliance to be operated and the currently operated household electrical appliance to work simultaneously is met, the load of a circuit cannot exceed, the overall working efficiency of the household system is improved on the basis of ensuring power consumption safety, and the user experience is greatly improved.)

1. A control method of a home system is characterized by comprising the following steps:

acquiring a power curve of a household appliance to be operated;

acquiring power curves of all currently-operating household appliances;

and if the power curve of the household appliance to be operated and the power curve of at least one currently operated household appliance meet the condition of peak shifting operation, enabling the household appliance to be operated and the currently operated household appliance to be operated to perform peak shifting operation.

2. The control method according to claim 1, characterized by further comprising:

if the power curve of the household appliance to be operated and the power curve of any one current household appliance do not meet the condition of peak-shifting operation, acquiring the priority order of all the current household appliances and the priority of the household appliances to be operated;

and selectively adjusting the running state of the currently running household appliances according to the priority order of all the currently running household appliances and the priority of the household appliances to be run.

3. The control method of claim 2, wherein the step of selectively adjusting the operation state of the currently operating appliance according to the priority order of all currently operating appliances and the priority of the appliance to be operated comprises:

determining the position of the priority of the household appliance to be operated in the priority sequence;

and selectively adjusting the running state of the currently running household appliance according to the position of the priority of the household appliance to be run in the priority sequence.

4. The control method of claim 3, wherein the step of selectively adjusting the operation state of the currently operating appliance according to the positions of the priorities of the to-be-operated appliances in the priority order of all currently operating appliances comprises:

and when the priority of the household appliances to be operated is at the highest level, adjusting the operation state of the currently operated household appliances according to the priority sequence.

5. The control method according to claim 4, wherein, simultaneously with or after the step of "adjusting the operation states of the currently operating home appliances in the order of priority", the control method further comprises:

acquiring a current power margin;

acquiring the maximum power of the household appliance to be operated;

comparing the current power headroom to the maximum power;

and if the current power margin is larger than the maximum power, operating the household appliance to be operated.

6. The control method of claim 3, wherein the step of selectively adjusting the operation state of the currently operating appliance according to the positions of the priorities of the to-be-operated appliances in the priority order of all currently operating appliances comprises:

and when the priority of the household appliances to be operated is in the middle level, adjusting the operation state of the currently operated household appliances which are lower than the priority of the household appliances to be operated according to the priority sequence.

7. The control method according to claim 6, wherein, simultaneously with or after the step of adjusting the operation state of the currently operating appliance, which is lower than the priority of the appliance to be operated, in the order of priority, the control method further comprises:

acquiring a current power margin;

acquiring the maximum power of the household appliance to be operated;

comparing the current power headroom to the maximum power;

and if the current power margin is larger than the maximum power, operating the household appliance to be operated.

8. The control method according to claim 3, wherein the step of selectively adjusting the operation state of the currently operating appliance according to the position of the priority of the appliance to be operated in the priority order comprises:

and when the priority of the household appliances to be operated is at the lowest level, the operation states of all the currently operated household appliances are not adjusted.

9. The control method according to claim 8, wherein, simultaneously with or after the step of "the operation states of all currently operating home appliances are not adjusted", the control method of the present invention further comprises:

judging whether the household appliance to be operated needs to be operated in a low-power mode;

if the household appliance to be operated needs to be operated in the low-power mode, enabling the household appliance to be operated in the low-power mode;

if the to-be-operated appliance does not need to be operated in the low power mode, the to-be-operated appliance is prohibited from operating.

10. The control method according to claim 8, wherein the step of operating the home appliance to be operated in the low power mode comprises:

acquiring a current power margin;

acquiring the minimum power of the household appliance to be operated;

comparing the current power headroom to the minimum power;

and if the current power margin is larger than the minimum power, enabling the household appliance to be operated to operate in a low-power mode.

Technical Field

The invention belongs to the field of home systems, and particularly relates to a control method of a home system.

Background

Along with the improvement of living standard, household appliances in a user family are more and more abundant, and a plurality of different household appliances such as clothes treatment household appliances (such as washing machines, shoe washing machines, intelligent wardrobes, ironing machines and the like), environment regulation household appliances (such as air conditioners, humidifiers, air purifiers and the like), entertainment household appliances (such as televisions, projectors, sound equipment and the like) and the like exist in a plurality of user families. In daily life, because the household appliances of a user are flexible and changeable in use demand, the number, the running state and the types of the household appliances which need to run simultaneously in each period of the household of the user can be changed at random, so that the user needs to estimate whether the running of a plurality of currently running household appliances is reasonable at the same time and whether the running state of each household appliance needs to be changed every time the household appliance is started, and the use experience of the user is reduced.

At present, the above problems can be solved by adding all household appliances in the user's home to the smart home system. However, when the number of the home appliances operated in the same time period is large, if the user needs to additionally start a certain home appliance, the total load of the home circuit may be exceeded. In this case, the existing home system may access the home appliance that the user wants to operate by automatically disconnecting the power of at least one operating home appliance. The disadvantages of the above method are: although the newly started home appliances are accessed under the condition that the circuit environment allows, at least one running home appliance is separated from the working state, and the requirement that a plurality of home appliances are operated in the same time period by a user is difficult to meet.

Accordingly, there is a need in the art for a new control method for a home system to solve the above problems.

Disclosure of Invention

In order to solve the above problems in the prior art, that is, to solve the problem that the existing home system is difficult to satisfy the requirement of operating a plurality of home appliances in the same time period, the present invention provides a control method of a home system, wherein the control method comprises: acquiring a power curve of a household appliance to be operated; acquiring power curves of all currently-operating household appliances; and if the power curve of the household appliance to be operated and the power curve of at least one currently operated household appliance meet the condition of peak shifting operation, enabling the household appliance to be operated and the currently operated household appliance to be operated to perform peak shifting operation.

In a preferred embodiment of the above control method, the control method further includes: if the power curve of the household appliance to be operated and the power curve of any one current household appliance do not meet the condition of peak-shifting operation, acquiring the priority order of all the current household appliances and the priority of the household appliances to be operated; and selectively adjusting the running state of the currently running household appliances according to the priority order of all the currently running household appliances and the priority of the household appliances to be run.

In a preferred embodiment of the above control method, the step of "selectively adjusting the operating status of the currently operating household appliance according to the priority order of all currently operating household appliances and the priority of the household appliance to be operated" includes: determining the position of the priority of the household appliance to be operated in the priority sequence; and selectively adjusting the running state of the currently running household appliance according to the position of the priority of the household appliance to be run in the priority sequence.

In a preferred embodiment of the above control method, the step of "selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order" includes: and when the priority of the household appliances to be operated is at the highest level, adjusting the operation state of the currently operated household appliances according to the priority sequence.

In a preferred embodiment of the above control method, at the same time as or after the step of "adjusting the operation states of the currently operating home appliances according to the priority order", the control method further includes: acquiring a current power margin; acquiring the maximum power of the household appliance to be operated; comparing the current power headroom to the maximum power; and if the current power margin is greater than the maximum power of the household appliance to be operated, operating the household appliance to be operated.

In a preferred embodiment of the above control method, the step of "selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order" includes: and when the priority of the household appliances to be operated is in the middle level, adjusting the operation state of the currently operated household appliances which are lower than the priority of the household appliances to be operated according to the priority sequence.

In a preferred technical solution of the above control method, at the same time as or after the step of "adjusting the operation state of the currently operating household appliance lower than the priority of the household appliance to be operated according to the priority order", the control method further includes: acquiring a current power margin; acquiring the maximum power of the household appliance to be operated; comparing the current power headroom to the maximum power; and if the current power margin is greater than the maximum power of the household appliance to be operated, operating the household appliance to be operated.

In a preferred embodiment of the above control method, the step of "selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order" includes: and when the priority of the household appliances to be operated is at the lowest level, the operation states of all the currently operated household appliances are not adjusted.

In a preferred technical solution of the above control method, at the same time as or after the step of "the operation states of all currently operating home appliances are not adjusted", the control method further includes: judging whether the household appliance to be operated needs to be operated in a low-power mode; if the household appliance to be operated needs to be operated in the low-power mode, enabling the household appliance to be operated in the low-power mode; if the to-be-operated appliance does not need to be operated in the low power mode, the to-be-operated appliance is prohibited from operating.

In a preferred embodiment of the above control method, the step of "operating the home appliance to be operated in the low power mode" includes: acquiring a current power margin; acquiring the minimum power of the household appliance to be operated; comparing the current power headroom to the minimum power; and if the current power margin is larger than the minimum power, enabling the household appliance to be operated to operate in a low-power mode.

As can be understood by those skilled in the art, in the control method of the present invention, when a user needs to make a home appliance to be operated work, it may be determined whether a power curve of the home appliance to be operated and a power curve of at least one currently operated home appliance satisfy a condition for peak-shifting operation. Under the condition that the power curves of the household appliances to be operated and the currently operated household appliances meet the condition of peak shifting operation, the household appliances to be operated and the currently operated household appliances are operated in a peak shifting mode, so that the household appliances to be operated are connected into the circuit on the premise that the operation states of all the currently operated household appliances are not influenced. The household electrical appliance power consumption monitoring system has the advantages that the requirement that a user enables the household electrical appliance to be operated and the currently operated household electrical appliance to work simultaneously is met, the load of a circuit cannot exceed, the overall working efficiency of the household system is improved on the basis of ensuring power consumption safety, and the user experience is greatly improved.

Further, under the condition that the power curves of the household appliances to be operated and the currently operated household appliances do not meet peak-to-peak operation, the priority order of all the currently operated household appliances and the priority of the household appliances to be operated are obtained, so that the operation state of the currently operated household appliances is selectively adjusted according to the operation order expected by a user, and the household appliances to be operated can be connected to the circuit. Through the implementation mode, the household appliances which need to be operated by the user are in the normal working state, the working state of the household appliances which are required to be operated by the user and are currently operated is prevented from being influenced because the household appliances to be operated are added into the operation queue, and the quantity of the household appliances which can be operated is ensured to the maximum extent under the condition of the requirement will of the user.

Furthermore, after the priorities of the to-be-operated household appliances are obtained, the operation states of part or all of the to-be-operated household appliances can be selectively adjusted according to the positions of the to-be-operated household appliances in the priority sequence of all the to-be-operated household appliances, so that the to-be-operated household appliances and the priorities of all the currently-operated household appliances are compared, the operation necessity of the to-be-operated household appliances is determined, the household appliances of which the operation states can be adjusted in the currently-operated household appliances are determined, and the household appliances which can be in the operation queue at last are the household appliances which are expected to be operated by the user.

Preferably, in the case that the operation states of the home appliances are selectively adjusted according to the priority order, the home appliances to be operated are also selectively allowed to operate according to the comparison result of the current power margin and the maximum power of the home appliances to be operated, so that it is ensured that the total load limited by the circuit is not exceeded even if the home appliances to be operated are added to the operation queue, and the power utilization safety is ensured.

Drawings

FIG. 1 is a flow chart of the main steps of the control method of the present invention;

FIG. 2 is a power graph for a first scenario of off-peak operation of an appliance to be operated and a currently operating appliance;

FIG. 3 is a power graph for a second scenario of off-peak operation of the appliance to be operated and the currently operating appliance;

fig. 4 is a detailed step flow diagram of a preferred embodiment of the control method of the present invention.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that in the description of the present invention, although the steps of the control method of the present invention are described in a specific order in the present application, the order is not limited, and those skilled in the art can perform the steps in a different order without departing from the basic principle of the present invention.

Based on the problem that the existing household system pointed out in the background technology is difficult to meet the requirement that a plurality of household appliances are operated in the same time period, the invention provides a control method of the household system, which aims to guarantee the number of the household appliances in the working state in the same time period to the maximum extent on the premise of safe power utilization so as to meet the requirement that a user uses a plurality of household appliances at the same time.

As shown in fig. 1, the control method of the home system of the present invention includes:

step S1: acquiring a power curve of a household appliance to be operated;

step S2: acquiring power curves of all currently-operating household appliances;

step S3: and if the power curve of the household appliance to be operated and the power curve of at least one currently operated household appliance meet the condition of peak shifting operation, enabling the household appliance to be operated and the currently operated household appliance to be operated to perform peak shifting operation.

In the above steps, the "power curve" of the to-be-operated household appliance or the currently-operated household appliance specifically means: in the whole running program to be run or currently run, the running program comprises working conditions of a plurality of stages, when the to-be-run household appliance/currently run household appliance is in the working conditions of different stages, the real-time power of the household appliance is different, and the curve formed by the real-time power of different working conditions of all stages is the power curve. For example, when the household appliance is a clothes treatment device, the whole operation program of the device comprises a washing condition, a dehydration condition, a rinsing condition, a dehydration condition and a drying condition, and the real-time power corresponding to each condition is P₁-P₂-P₃-P₄-P₅Wherein P is₁、P₂、P₃、P₄、P₅The power of at least a portion of (a) is different in magnitude. In this case, the real-time power during the entire operation can form a fluctuating power curve.

Under the condition of acquiring the power curves of the household appliances to be operated and all the currently operated household appliances, the specific way of judging whether the currently operated household appliances and the currently operated household appliances meet the condition of peak load shifting operation can be as follows: in the case that the power curve of the to-be-operated household appliance and the power curve of the currently-operated household appliance have dialing, that is, two power curves have peaks and valleys, it is determined whether the peaks (i.e., high power segments) and the valleys (i.e., low power segments) of the two power curves satisfy an interleaving condition of "one side is in high power operation (or low power operation), and the other side is in low power operation (or high power operation)", wherein all high power segments of the two power curves must be strictly interleaved, that is, the case that the to-be-operated household appliance and the currently-operated household appliance are simultaneously operated in a high power working condition at a certain time cannot occur, but the case that the to-be-operated household appliance and the currently-operated household appliance are simultaneously operated in a low power working condition. Certainly, in the peak-shifting operation process, the total power of all the currently operated household appliances and the household appliances to be operated always does not exceed the total rated power limited by the circuit, and the basic premise of the peak-shifting operation is that the circuit overload situation can not occur in the whole operation process after the household appliances to be operated are connected into the circuit.

The above-described conditions for peak-to-peak operation are illustrated below in conjunction with a home appliance to be operated and a currently-operating home appliance.

As shown in fig. 2, the whole operation process of the to-be-operated household appliance and the currently-operated household appliance includes two working conditions, and the power of the two working conditions is different. The working condition of the current running household appliance in the first stage is a low-power working condition and the time duration is T1, the working condition of the second stage is a high-power working condition and the time duration is T2, the working condition of the to-be-run household appliance in the first stage is a high-power working condition and the time duration is T1, and the working condition of the second stage is a low-power working condition and the time duration is T2. After the current running household appliance runs for delta t time, the household appliance to be run is connected into the circuit and runs simultaneously with the current running household appliance.

In this case, if the household appliance to be operated and the currently operated household appliance are operated in a peak-to-peak manner, the high-power segment (i.e., segment T1) of the household appliance to be operated and the high-power segment (i.e., segment T2) of the currently operated household appliance are strictly staggered, that is, if the household appliance to be operated is connected to the circuit after the currently operated household appliance is operated to the time Δ T, the time length of the segment T1 of the household appliance to be operated cannot exceed the remaining time length of the segment T1 (i.e., T1- Δ T) of the currently operated household appliance. Of course, since the circuit overload situation is not caused by the case where the currently operating household appliance and the currently operating household appliance are simultaneously operated in the low power operation condition or the currently operating household appliance ends the operation program and only the household appliance to be operated is operated in the low power operation condition, actually, the duration of the low power section (i.e., the section T2) of the household appliance to be operated may be longer than the duration of the section T2 of the currently operating household appliance. Under the condition that the household appliances to be operated and the currently operated household appliances are strictly operated in a peak-off mode, the time length of the T1 segment is equal to the time length of the T1-delta T, and the time length of the T2 segment is equal to the time length of the T2 segment.

As shown in fig. 3, when the power curves of the currently operating household appliance and the household appliance to be operated are opposite to the power curve shown in fig. 2, that is, the operating condition in the first stage of the currently operating household appliance is the high-power operating condition and the duration is T1, the operating condition in the second stage is the low-power operating condition and the duration is T2, the operating condition in the first stage of the household appliance to be operated is the low-power operating condition and the duration is T1, and the operating condition in the second stage is the high-power operating condition and the duration is T2, if the household appliance to be operated is connected to the circuit and the currently operating household appliance is operated at the same time after the currently operating household appliance is operated for Δ T time, the high-power segment of the household appliance to be operated (i.e., the T2 segment) and the high-power segment of.

In this case, if the to-be-operated household appliance is connected to the circuit after the currently-operated household appliance operates for the time Δ T, the time duration of the T1 period of the to-be-operated household appliance must be not less than the remaining operation time duration of the currently-operated household appliance (i.e., T1- Δ T). In the second stage, the household appliance to be operated can be operated under the high-power working condition, and the currently operated household appliance can be operated under the low-power working condition to meet the load condition of the circuit, so that the circuit overload condition can not be caused even if the end time of the household appliance to be operated is after the currently operated household appliance.

It will be understood by those skilled in the art that, although the above two cases are described in connection with the case where the power curves of only one currently operating appliance, the currently operating appliance and the appliance to be operated are connected to the circuit, respectively, including two stages, this is merely for illustrating the peak-off operating condition of the present invention and should not constitute any limitation to the protection of the present invention. The operating environment of the circuit, the power curve of each appliance may not be limited to the above without departing from the basic principles of the invention. For example, under the condition that the power curves of a plurality of (e.g., two) currently-operating household appliances fluctuate similarly and the power curves of the plurality of power curves and the household appliance to be operated meet peak-to-peak operation, the household appliance to be operated may also perform peak-to-peak operation with the plurality of currently-operating household appliances, that is, the household appliance to be operated operates in a high-power mode, and the plurality of currently-operating household appliances operate in a low-power mode. When the power curves of the household appliance to be operated and the currently operated household appliance comprise a plurality of wave peak wave troughs, the time length of each wave peak wave trough section needs to be compared so as to judge whether each high-power section of the household appliance to be operated and each high-power section of the currently operated household appliance are strictly staggered or not, and further judge whether the power curve of the household appliance to be operated and the power curve of the currently operated household appliance meet the condition of peak-staggered operation or not.

To sum up, under the situation that the total circuit is connected to the currently running household appliance, if the maximum power of the program that the household appliance to be operated needs to run is substituted into the current circuit environment of the total circuit, the total circuit is overloaded, when the household appliance to be operated and the currently running household appliance can run off peak, the stage of the maximum power of the household appliance to be operated is overlapped with the low-power stage of the currently running household appliance, so that when the household appliance to be operated runs at high power, the currently running household appliance running at low power can be in a circuit environment with a large power margin (i.e., the residual chargeable amount in the total circuit), and the household appliance to be operated can be connected to the circuit to run without causing the circuit overload.

Preferably, the control method of the present invention further comprises the steps of:

if the power curve of the household appliance to be operated and the power curve of any one current household appliance do not meet the condition of peak-shifting operation, acquiring the priority order of all the current household appliances and the priority of the household appliances to be operated;

and selectively adjusting the running state of the currently running household appliances according to the priority order of all the currently running household appliances and the priority of the household appliances to be run.

In the above steps, the setting manner of the priority order of the currently operating household appliances and the operation priority of the household appliances to be operated is not unique, for example, the operation priorities of all the household appliances may be set by a user in advance, for example, the operation priority of each household appliance (or the priority order of a plurality of household appliances) is directly set and then uploaded to a cloud server or a control center of a home system, or the operation priority is given to the household appliances before each operation.

Preferably, the household system of the invention further comprises an intelligent socket which enables a plurality of household appliances to be connected with the circuit, the intelligent socket is provided with a plurality of sockets with different priorities, and each socket can be connected with one household appliance and can supply power to the household appliance. In the case where a socket supplies power to an appliance, the priority of the socket is the operation priority of the appliance inserted into the socket. Because the priority of the socket accessed by each household appliance is different, the plurality of household appliances can be sorted according to the priority of the socket accessed by the household appliances corresponding to the priority of the socket specifically corresponding to each household appliance, namely, the priority of the socket determines the priority of the currently running household appliance connected to each socket, so that all the currently running household appliances have running priority orders. The operation priority of the household appliance to be operated is the priority of the socket to be powered (in this case, the situation that the same priority socket exists is not considered).

Further, the one-to-one correspondence between the order of priority and each currently operating home appliance is variable. The user can adjust the priority order by adjusting the correspondence between the sockets and their priorities. For example, the user may adjust the priority order by changing the socket position to which the home appliance is connected; alternatively, the user may also change the priority order by directly changing the priority level of each socket. For example, the priority order may be adjusted by setting the socket with the higher priority as the socket with the higher priority, setting the socket with the lower priority as the super-lock with the medium priority, and setting the socket with the medium priority as the socket with the lower priority.

More preferably, the step of selectively adjusting the operation state of the currently operating household appliance according to the priority order of all currently operating household appliances and the priority of the household appliance to be operated specifically includes:

determining the positions of the priorities of the household appliances to be operated in the priority sequence of all the currently operated household appliances;

and selectively adjusting the running state of the currently running household appliance according to the positions of the priority of the household appliance to be run in the priority sequence of all the currently running household appliances.

The priority of the household appliance to be operated is compared with the priorities in the priority sequence of all the currently operated household appliances, so that the high-low relation between the priority of the household appliance to be operated and the priorities of the rest currently operated household appliances can be obtained, and the operation states of the currently operated household appliances are determined to be suitable for being adjusted according to the priority ranking of the household appliance to be operated and all the currently operated household appliances, so that the circuit environment of the total circuit is changed in a mode of selectively adjusting the operation states of the currently operated household appliances, and the household appliances to be operated are accessed as far as possible.

In a possible embodiment, the step of selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order includes:

and when the priority of the household appliances to be operated is at the highest level, adjusting the operation state of the currently operated household appliances according to the priority sequence.

In the above step, since the priorities of all the currently operating home appliances are lower than those of the home appliances to be operated, all the currently operating home appliances belong to adjustable objects. The "adjusting the operating state of the currently-operating household appliance according to the priority order" specifically means that, when the operating state of the currently-operating household appliance is adjusted, the currently-operating household appliance with a lower priority is preferentially adjusted, and if the circuit environment of the currently-operating household appliance with the lower priority does not meet the access requirement of the household appliance to be operated after the currently-operating household appliance with the lower priority is adjusted, the currently-operating household appliance with the lower priority is continuously adjusted until the currently-operating household appliance with the highest priority is adjusted. As an example, the manner of adjusting the currently operating home appliance includes at least one of "operating the currently operating home appliance in a low mode in which the occupied power is small", "suspending the currently operating home appliance from the operating program", "causing the currently operating home appliance to end the operating program and be in a standby state", and "causing the currently operating home appliance to be in an off/standby state". When the adjustment modes are multiple, the execution sequence of the multiple adjustment modes can be set according to the use habit, the use requirement and the like of the user. For example, the execution sequence is to transition low power mode > suspend operation > standby > off/to wake up. Of course, the specifically adopted adjustment method is not limited to the above four methods, as long as the power occupation of the total circuit can be reduced on the premise of meeting the use requirements of users.

More further, simultaneously with or after the step of "adjusting the operation states of the currently operating home appliances in order of priority", the control method of the present invention further includes:

acquiring a current power margin;

acquiring the maximum power of the household appliance to be operated;

comparing the current power margin with the maximum power;

and if the current power margin is larger than the maximum power, operating the household appliance to be operated.

The "current power headroom" refers to a power headroom in the total circuit after the operation state of the currently operating household appliance is adjusted (corresponding to a remaining load that the total circuit can bear after the operation state of the currently operating household appliance is adjusted). Specifically, after the operating state of the household appliance with the lowest priority is adjusted, the power margin in the total circuit at that time can be acquired, and whether the household appliance to be operated can be accessed into the circuit is judged through the steps. If yes, the household electrical appliance to be operated is started to operate in the circuit, otherwise, the household electrical appliance with the low priority is adjusted, and the judging process is repeated. Of course, although the present embodiment is described in connection with adjusting only one currently operating appliance at a time, in practice, the number of currently operating appliances adjusted at a time is not limited. For example, the currently-operating household appliance with the lowest priority and the currently-operating household appliance with the lowest priority can be adjusted at the same time, and if the access condition is not met, the currently-operating household appliance with the medium priority and the higher priority can be adjusted.

In another possible embodiment, the step of selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order includes:

and when the priority of the household appliances to be operated is in the middle level, adjusting the operation state of the currently operated household appliances which are lower than the priority of the household appliances to be operated according to the priority sequence.

In the above-described step, since some of all currently operating home appliances have a higher priority than the home appliance to be operated and some other home appliances have a lower priority than the home appliance to be operated, in this case, the object whose operation state is adjustable is a currently operating home appliance that is lower than the home appliance to be operated.

Also, simultaneously with or after the step of "adjusting the operation state of the currently operating appliance lower than the priority of the appliance to be operated in order of priority", the control method of the present invention further comprises:

acquiring a current power margin;

acquiring the maximum power of the household appliance to be operated;

comparing the current power margin with the maximum power;

and if the current power margin is larger than the maximum power, operating the household appliance to be operated.

Since the above determination process has already been described in the foregoing, it is not described herein again.

In another possible embodiment, the step of selectively adjusting the operation state of the currently operating household appliance according to the position of the priority of the household appliance to be operated in the priority order includes:

and when the priority of the household appliances to be operated is at the lowest level, the operation states of all the currently operated household appliances are not adjusted.

In the above step, since all currently operating home appliances have a higher priority than the home appliance to be operated, in this case, there is no object whose operation state is adjustable among all currently operating home appliances.

Preferably, at the same time or after the step of 'the operation states of all currently operating home appliances are not adjusted', the control method of the present invention further comprises:

judging whether the household appliance to be operated needs to be operated in a low-power mode;

if the household appliance to be operated needs to be operated in the low-power mode, enabling the household appliance to be operated in the low-power mode;

if the to-be-operated appliance does not need to be operated in the low power mode, the to-be-operated appliance is prohibited from operating.

That is to say, under the condition that the operation states of all the currently operating household appliances are not adjustable, the to-be-operated state of the to-be-operated household appliance can be changed on the premise of meeting the use requirement of a user, so that the to-be-operated household appliance can be connected into the total circuit in an operation mode with small occupied power. Of course, if the to-be-operated household appliance has only one operation mode or does not have an operation mode with lower power than the to-be-operated mode, the above steps are not executed, and the to-be-operated household appliance is directly prohibited from operating under the condition that the operation states of all the current household appliances are not adjustable.

Further, the step of "operating the home appliance to be operated in the low power mode" includes:

acquiring a current power margin;

acquiring the minimum power of the household appliance to be operated;

comparing the current power headroom to a minimum power;

and if the current power margin is larger than the minimum power, operating the household appliance to be operated in a low power mode.

In the above process, the "current power headroom" refers to the power headroom in the total circuit when the operation states of all the currently operating household appliances are not adjusted. "minimum power" refers to the maximum power occupied by the appliance to be operated in the low power mode in the overall circuit. Under the condition that the current power margin is larger than the minimum power, the residual power in the total circuit can allow the household appliance to be operated to be accessed, so that the household appliance to be operated can be powered on and operated in a low-power mode.

Since the above three embodiments are described in connection with the case of one type of priority position, respectively, in practical application, the control method of the present invention may include the operation process of at least one of the above three embodiments. Preferably, the control method of the present invention includes the operation steps in the three situations, so as to accurately determine whether the household appliance to be operated can access the circuit according to multiple possible access positions of the household appliance to be operated.

As shown in fig. 4, the detailed steps of the preferred embodiment of the control method of the present invention include:

step S1001: acquiring a power curve of a household appliance to be operated;

step S1002: acquiring power curves of all currently-operating household appliances;

step S1003: judging whether the power curve of the household appliance to be operated and the power curve of at least one currently operated household appliance meet the condition of peak-shifting operation,

if the power curve of the household appliance to be operated and the power curve of at least one current operating household appliance meet the condition of peak shifting operation, executing a step S1004, otherwise executing a step S1005;

step S1004: the household appliances to be operated and the current household appliances to be operated are operated in a peak-off mode.

Step S1005: acquiring the priority order of all the currently-operated household appliances and the priority of the household appliances to be operated;

step S1006: determining the position of the priority of the household appliance to be operated in the priority sequence,

if the priority of the household appliance to be operated is at the highest level, executing step S1007; if the priority of the household appliance to be operated is at the middle level, executing step S1012; if the priority of the household appliance to be operated is at the lowest level, executing the step S1017;

in the case where the priority of the home appliance to be operated is at the highest level:

step S1007: adjusting the current operation state according to the priority order and executing step S1008;

step S1008: obtaining the current power margin delta p of the adjusted total circuit;

step S1009: obtaining the maximum power p of the household appliance to be operated_max；

Step S1010: judging whether the current power margin delta p is larger than the maximum power p_maxIf the current power margin Δ p is greater than the maximum power p_maxIf yes, go to step S1011, otherwise go back to step S1007;

step S1011: and operating the household appliance to be operated.

In the case where the priority of the home appliance to be operated is at the intermediate level:

step S1012: adjusting the operation state of the currently-operated household appliance lower than the priority of the household appliance to be operated according to the priority order and executing the step S1013;

step S1013: obtaining the current power margin delta p of the adjusted total circuit;

step S1014: obtaining the maximum power p of the household appliance to be operated_max；

Step S1015: judging whether the current power margin delta p is larger than the maximum power p_max，

If the current power margin Δ p is greater than the maximum power p_maxIf yes, go to step S1016, otherwise return to step S1012;

step S1016: and operating the household appliance to be operated.

In the case where the priority of the home appliance to be operated is at the lowest level:

step S1017: the operation states of all the currently operating home appliances are not adjusted and step S1018 is executed;

step S1018: it is determined whether the home appliance to be operated needs to be operated in a low power mode,

if the household appliance to be operated needs to be operated in the low power mode, executing the step S1019, otherwise executing the step 1023;

step S1019: acquiring the current power margin delta p of the total circuit which is not adjusted;

step S1020: obtaining the minimum power p of the household appliance to be operated_min；

Step S1021: judging whether the current power margin delta p is larger than the minimum power p_minIf the current power headroom Δ p is greater than the minimum power p_minIf not, go to step S1022, otherwise go to step S1023;

step S1022: operating the household appliance to be operated in a low-power mode;

step S1023: and forbidding the operation of the household appliances to be operated absolutely.

In summary, the control method of the present invention can access the household electrical appliance to be operated to the circuit without affecting the operation states of all the currently operated household electrical appliances. The household electrical appliance power consumption monitoring system has the advantages that the requirement that a user enables the household electrical appliance to be operated and the currently operated household electrical appliance to work simultaneously is met, the load of a circuit cannot exceed, the overall working efficiency of the household system is improved on the basis of ensuring power consumption safety, and the user experience is greatly improved.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.