CN110989394A

CN110989394A - Power control method and device for shared household appliances

Info

Publication number: CN110989394A
Application number: CN201911418764.1A
Authority: CN
Inventors: 卢保东; 陈坚波
Original assignee: Hisense Co Ltd; Hisense Shandong Air Conditioning Co Ltd
Current assignee: Hisense Group Co Ltd; Hisense Co Ltd; Hisense Shandong Air Conditioning Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-10
Anticipated expiration: 2039-12-31
Also published as: CN110989394B

Abstract

In order to solve the problem of large potential safety hazard of shared household appliances in the prior art, the disclosure provides a power control method and a power control device of the shared household appliances, so that the potential safety hazard is reduced. The power control method of the shared household appliance comprises the following steps: acquiring the power capacity of a total line; acquiring the operating power of each running shared household appliance in a building seat to be controlled; calculating the total operating power of all running shared household appliances in the building to be controlled according to the operating power; and when the total operating power exceeds the total line power capacity, determining the household appliances to be processed according to the operating power of each running shared household appliance in the building to be controlled, and sending a first control instruction for controlling the household appliances to be processed to reduce the power. The utility model also discloses a power control device of shared household electrical appliances, when total operating power surpasses total line power capacity, control shared household electrical appliances to reduce power to reduce the potential safety hazard of shared household electrical appliances and waiting to control the building seat.

Description

Power control method and device for shared household appliances

Technical Field

The present disclosure relates to the field of home appliances, and in particular, to a power control method and apparatus for sharing a home appliance.

Background

The shared household appliances are household appliances installed in living or working occasions where people gather, such as a dormitory or a public rental house; under the condition of shared household appliance aggregation, a power supply line is likely to work in an overload mode, and great potential safety hazards exist; if the air conditioner is shared, in hot weather in summer or cold winter, the utilization rate of the air conditioner is very high, and the set temperature of the air conditioner is also very low or very high, so that the flow of a power grid line is very large; particularly, in houses with large ages, the power supply line can work in an overload mode, and great potential safety hazards exist.

Disclosure of Invention

In order to solve the problem of large potential safety hazard of the shared household appliances in the above technical problems, the present disclosure provides a power control method and device for the shared household appliances, which reduces the potential safety hazard of the shared household appliances.

In a first aspect of the present disclosure, a method for controlling power of a shared appliance includes:

acquiring total line power capacity, wherein the total line power capacity is the total power capacity distributed to the shared household appliances by a power supply line of a building to be controlled;

acquiring the operating power of each running shared household appliance in a building seat to be controlled;

calculating the total operating power of all the running shared household appliances in the building to be controlled according to the operating power of each running shared household appliance in the building to be controlled;

and when the total operating power exceeds the total line power capacity, determining the household appliances to be processed according to the operating power of each running shared household appliance in the building to be controlled, and sending a first control instruction for controlling the household appliances to be processed to reduce the power.

Optionally, the method further includes:

obtaining the power capacity of a sub-line of each running shared household appliance in a building to be controlled;

judging whether a shared household appliance with the operating power larger than the power capacity of a sub-line exists in a building seat to be controlled;

and if the power of the shared household appliance is greater than the power capacity of the sub-line, sending a second control instruction to the shared household appliance with the operating power greater than the power capacity of the sub-line, wherein the second control instruction is used for controlling the shared household appliance to reduce the power to be lower than the corresponding power capacity of the sub-line.

Optionally, determining the household appliance to be processed according to the operating power of each running shared household appliance in the building to be controlled, and sending a first control instruction for controlling the household appliance to be processed to reduce the power to the household appliance to be processed, where the method includes:

calculating a first power weighted average value of the running shared household appliances in the building to be controlled based on the power capacity of each running shared household appliance in the building to be controlled;

determining the shared household appliance with the running power larger than the first power weighted average value as a household appliance to be processed;

generating a power limit value of the household appliance to be processed according to the first power weighted average value of the household appliance to be processed and the total running power of the running shared household appliance;

a first control instruction is generated based on the power limit.

Optionally, calculating a first weighted average of power of the shared household appliances operating in the building to be controlled based on the power capacity of each shared household appliance operating in the building to be controlled, including:

calculating the total power capacity of the running shared household appliances in the building to be controlled according to the power capacity of the running shared household appliances in the building to be controlled;

determining a first power average value of unit capacity according to the total power capacity of the running shared household appliances in the building to be controlled and the total line power capacity of the building to be controlled;

and calculating to obtain a first power weighted average value of the running shared household appliances in the building to be controlled according to the power capacity of the running shared household appliances in the building to be controlled and the first power average value of the unit capacity.

Optionally, generating a power limit value of the to-be-processed household appliance according to the first power weighted average value of the to-be-processed household appliance includes:

calculating to obtain excess power according to the total operating power and the total line power capacity of the building seat to be controlled;

calculating the total power capacity of the household appliances to be processed according to the power capacity of the running shared household appliances;

calculating a second power average value of unit capacity according to the excess power and the total power capacity of the household appliance to be processed;

calculating a second power weighted average value of the household appliances to be processed according to the power capacity of the shared household appliances of which the running power exceeds the first power weighted average value in the building to be controlled and the second power average value;

and calculating to obtain a power limit value according to the running power of the household appliance to be processed and the second power weighted average value of the running power.

calculating a third power weighted average value of the shared household appliances in the building to be controlled based on the power capacity of each shared household appliance in the building to be controlled;

determining the shared household appliance with the running power larger than the third power weighted average value as the household appliance to be processed;

generating a power limit value of the household appliance to be processed according to the third power weighted average value of the household appliance to be processed;

a first control instruction is generated based on the power limit.

Optionally, the method further includes:

the method comprises the steps of receiving environment information of the shared household appliances, calculating power recommended values of operation setting parameters of the shared household appliances according to the environment information, and sending the operation setting parameters to a mobile user side to push the power recommended values of the shared household appliances if the current operation power of the shared household appliances is larger than the power recommended values of the shared household appliances. If the current running power of the shared household appliance is smaller than the recommended power value, the shared household appliance is not pushed

In a second aspect of the present disclosure, a power control method for a shared appliance includes:

acquiring power/current information of the shared household appliance;

sending power/current information and identity identification information of the shared household appliances to a server so that the server can obtain the running power of the shared household appliances according to the power/current information and the identity identification information;

receiving a first control instruction fed back by a server;

and controlling the shared household appliance to reduce power according to the first control instruction.

In a third aspect of the present disclosure, a power control device for a shared appliance includes:

the first acquisition module is used for acquiring the total line power capacity, wherein the total line power capacity is the total power capacity distributed to the shared household appliances by the power supply line of the building to be controlled;

the second acquisition module is used for acquiring the operating power of each running shared household appliance in the building to be controlled;

the calculation module is used for calculating the total operating power of all the running shared household appliances in the building to be controlled according to the operating power of each running shared household appliance in the building to be controlled;

and the control module is used for determining the household appliances to be processed according to the running power of each running shared household appliance in the building to be controlled when the total running power exceeds the total line power capacity, and sending a first control instruction for controlling the reduction power of the household appliances to be processed to the household appliances to be processed.

In a fourth aspect of the present disclosure, a power control apparatus for a shared appliance includes:

the power/current acquisition module is used for acquiring power/current information of the shared household appliance;

the communication module is used for communicating with the server;

the power control module is used for controlling the running power of the shared household appliances;

the main control module is used for controlling the communication module to send the power/current information acquired by the power/current acquisition module to the server so that the server can acquire the running power of the shared household appliance according to the power/current information and feed back a first control instruction according to the running power of the shared household appliance; and the power control module is used for controlling the shared household appliance to reduce the running power according to the first control instruction.

According to the method and the device, when the total operating power exceeds the total line power capacity, the household appliance to be processed is determined according to the operating power, the first control instruction is sent to the household appliance to be processed to control the household appliance to be processed to reduce the power, so that after the power is reduced, the total operating power of all running shared household appliances in a building to be controlled is lower than the total line power capacity, the total operating power of the shared household appliances cannot continuously exceed the power limit of a power supply line of the building, and the potential safety hazard of the building to be controlled is reduced.

According to the method and the device, when the running power of the shared household appliance is larger than the power capacity of the sub-line, the power of the corresponding shared household appliance is reduced to be lower than the power capacity of the corresponding sub-line through the second control instruction, and therefore the running power of the shared household appliance is guaranteed not to exceed the power capacity of the corresponding sub-line.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the disclosure and together with the description serve to explain the principles of the disclosure.

Fig. 1 is a flowchart of a power control method of a shared appliance according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the architecture of a building wiring and air conditioning of one embodiment of the present disclosure;

fig. 3 is another flowchart of a power control method of a shared appliance according to an embodiment of the present disclosure;

fig. 4 is another flowchart of a power control method of a shared appliance according to an embodiment of the present disclosure;

fig. 5 is a block diagram of a power control apparatus for a shared appliance according to an embodiment of the present disclosure;

fig. 6 is another block diagram of a power control apparatus for a shared appliance according to an embodiment of the present disclosure.

Detailed Description

The present disclosure will be described in further detail with reference to the drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the present disclosure. It should be further noted that, for the convenience of description, only the portions relevant to the present disclosure are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1 as an aspect of the present disclosure, fig. 1 is a flowchart of a power control method for a shared appliance in this embodiment, including:

step S1: acquiring total line power capacity, wherein the total line power capacity is the total power capacity distributed to the shared household appliances by a power supply line of a building to be controlled;

step S2: acquiring the operating power of each running shared household appliance in a building seat to be controlled;

step S3: calculating the total operating power of all the running shared household appliances in the building to be controlled according to the operating power of each running shared household appliance in the building to be controlled;

step S4: and when the total operating power exceeds the total line power capacity, determining the household appliances to be processed according to the operating power of each running shared household appliance in the building to be controlled, and sending a first control instruction for controlling the household appliances to be processed to reduce the power.

The method of the embodiment of the disclosure can be executed by a server, and the server can be a cloud, a control center and the like; as one hardware configuration of a server implementing the method of the embodiments of the present disclosure, a computer including a processing unit, a system memory, a fixed non-volatile memory interface, a mobile non-volatile memory interface, a user input interface, a network interface, a video interface, and an output peripheral interface connected via a system bus may be included, it should be noted that the hardware configuration of the server is merely illustrative and in no way implies any limitation of the present invention, its application, or use.

According to the method, when the total operating power exceeds the total line power capacity, the household appliances to be processed are determined according to the operating power, a first control instruction is sent to the household appliances to be processed to control the household appliances to be processed to reduce the power, so that after the power is reduced, the total operating power of all the running shared household appliances in the building to be controlled is lower than the total line power capacity, the total operating power of the shared household appliances cannot continuously exceed the power limit of a power supply line of the building, and the potential safety hazard of the power supply line of the building is reduced.

In step S1, a total line power capacity is obtained, where the total line power capacity is the total power capacity allocated to the shared electrical appliances by the power supply line of the building to be controlled.

In the above steps, the total line power capacity is the total power capacity allocated to the shared household appliances by the power supply line of the building to be controlled, and can be confirmed and obtained by the installer during installation; taking the shared household appliances as air conditioners, the total line power capacity, that is, the capacity allocated to the air conditioner by the power supply line of the building where the air conditioner is located, is shown in fig. 2, fig. 2 is a schematic diagram of the building line and the air conditioner architecture, and the power capacity allocated to the air conditioner by the main power supply line of the building air conditioner in fig. 2 is the total line power capacity of the architecture schematic diagram. In FIG. 2, a main power supply line of a building air conditioner is connected with a power supply base i through an air-ground line i, and an air conditioner i is connected with the power supply base i through a power line; the air conditioner i transmits information with a server (a control center or a cloud); and the server transmits the information with the mobile phone app of the user.

In step S2, the operating power of each running shared appliance in the building to be controlled is obtained;

in the above steps, the operation power of each running shared household appliance in the building to be controlled is obtained, which may be the operation power sent by all the shared household appliances, and whether the running shared household appliances are running shared household appliances in the building to be controlled is judged according to the IDs of the shared household appliances sending the operation power and the association relationship between the pre-stored IDs and the building to be controlled; the server only receives the running power sent by the shared household appliances of the building to be controlled; since the power can be calculated from the current, the received operating power can also be replaced by the current.

in the above steps, the operating powers of the shared household appliances of the building to be controlled can be added, so as to obtain the total operating power of all the shared household appliances operating in the building to be controlled.

In the above steps, the household appliances to be processed are the shared household appliances needing power reduction; when the running power of each running shared household appliance in the building to be controlled determines the household appliance to be processed, the shared household appliance with large running power reduction margin can be selected as the household appliance to be processed according to the running power; some optional solutions for determining the household appliance to be processed according to the operating power of each running shared household appliance in the building to be controlled can be seen in the following embodiments.

In step S1, the identity information of the shared home appliances may be obtained at the same time, and the shared home appliance information and the building line form a corresponding relationship, including: the capacity of the sub-line corresponding to each household appliance is large when the household appliances are equipped in a certain building.

Referring to fig. 3, in an alternative embodiment, the method further comprises:

step S11, obtaining the sub-line power capacity of each running shared household appliance in the building to be controlled;

step S12, judging whether there is a shared household electrical appliance with the operation power larger than the power capacity of the sub-line in the building seat to be controlled; if yes, go to step S13;

and step S13, sending a second control instruction to the shared household appliance with the operating power larger than the power capacity of the sub-line, wherein the second control instruction is used for controlling the shared household appliance to reduce the power below the corresponding power capacity of the sub-line.

According to the method, when the running power of the shared household appliances is larger than the power capacity of the sub-line, the power of the corresponding shared household appliances is reduced to be lower than the corresponding power capacity of the sub-line through the second control instruction, and therefore the running power of the shared household appliances is guaranteed not to exceed the corresponding power capacity of the sub-line.

In the above steps, the sub-line power capacity is dedicated for each shared household appliance; referring to fig. 2, a power supply socket i of an air conditioner sub-line i is used for supplying an air conditioner i; the sub-line power capacity of air conditioner sub-line i is the sub-line power capacity of air conditioner i. If the operating power of the air conditioner i exceeds the sub-line power capacity of the air conditioner sub-line i, the fact that the operating power of the shared household appliance (the air conditioner i) is larger than the sub-line power capacity of the shared household appliance can be judged.

The power capacity of the sub-line in the above steps can be confirmed by an installer when the shared household appliance is installed; and storing the sub-line power capacity of the shared household appliance in the server, it can be known that the sub-line power capacity of the shared household appliance stored in the system can be the shared household appliance ID and the sub-line power capacity paired with the shared household appliance ID.

As can be appreciated, the second control command can include a sub-line power capability corresponding to the shared appliance.

The above steps may be performed before step S3, and the advantage of performing before step S3 is that the above steps are relatively fast to calculate, and when the sub-line power capacity is exceeded, belonging to line overload operation, the power must be reduced in time. In the above steps, after the second control command is sent, the process may return to step S2 again to obtain a new operating power, so that steps S3 and S4 are calculated according to the latest operating power.

In an alternative embodiment, the method for controlling the power of the household appliance to be processed comprises the following steps:

generating a power limit value of the household appliance to be processed according to the first power weighted average value of the household appliance to be processed;

a first control instruction is generated based on the power limit.

In the embodiment, the first power weighted average value of the shared household appliances is calculated by taking the power capacity of the shared household appliances as the weight, the larger the power capacity is, the larger the first power weighted average value is, and the running capacity limit value of the shared household appliances can be reasonably distributed based on the power capacity of the shared household appliances through the first power weighted average value; on the premise of reducing the potential safety hazard, the shared household appliances can be ensured to work by proper running power.

In the present application, when the shared household appliance and the household appliance to be processed are shared air conditioners, the power capacities of the shared household appliance and the household appliance to be processed refer to the cooling/heating power capacities of the shared air conditioners.

In the above step, the first control instruction may control the household appliance to be processed to reduce the operating power to its power limit.

In the above steps, the power limit value of the household appliance to be processed may directly adopt the first power weighted average value of the household appliance to be processed; other alternatives may refer to the following embodiments.

Further, calculating a first weighted average of the power of the running shared appliances in the building to be controlled based on the power capacity of each running shared appliance in the building to be controlled, comprising:

In the steps, firstly, the total power capacity of the shared household appliances running in the building to be controlled is calculated; secondly, determining a first power average value of unit capacity according to the total power capacity of the running shared household appliances in the building to be controlled and the total line power capacity of the building to be controlled, namely dividing the total line power capacity of the building to be controlled by the total power capacity of the running shared household appliances in the building to be controlled; a first average power per unit capacity is obtained. And finally, multiplying the power capacity of the running shared household appliances in the building to be controlled by the first power average value of the unit capacity to obtain the first power weighted average value of the running shared household appliances in the building to be controlled.

Determining a first power average value of unit capacity according to the total power capacity of the running shared household appliances in the building to be controlled and the total line power capacity of the building to be controlled; determining a first power weighted average of the shared household appliances based on the first power average of the unit capacity; when the first power weighted average value obtained by the calculation in the above steps is used for calculating the operation capacity limit value of the shared household appliance, the operation capacity limit value of the shared household appliance can be further reasonably distributed, and the shared household appliance can be ensured to work by proper operation power on the premise of reducing the potential safety hazard.

Further, the method for controlling the power of the household appliance to be processed comprises the steps of determining the household appliance to be processed according to the operation power of each running shared household appliance in the building to be controlled, and sending a first control instruction for controlling the power to be reduced to the household appliance to be processed, wherein the method comprises the following steps:

calculating the total power capacity of the household appliances to be processed according to the power capacity of the household appliances to be processed;

calculating a second power weighted average value of the household appliances to be processed according to the power capacity and the second power average value of the running shared household appliances in the building to be controlled;

And generating a first control instruction according to the power limiting value.

In this embodiment, according to the total operating power and the total line power capacity of the building to be controlled, the excess power is calculated and obtained: calculating the difference value between the total operating power and the total line power capacity of the building seat to be controlled to obtain excess power;

calculating the total power capacity of the household appliances to be processed according to the power capacity of the household appliances to be processed, namely: summing the power capacities of the household appliances to be processed to obtain the total power capacity of the household appliances to be processed;

and calculating a second power average value of the unit capacity according to the excess power and the total power capacity of the household appliance to be processed, namely: dividing the excess power by the total power capacity of the household appliance to be processed to obtain a second power average value of unit capacity;

and calculating a second power weighted average value of the household appliances to be processed according to the power capacity and the second power average value of the running shared household appliances in the building to be controlled, namely: and multiplying the power capacity of the running shared household appliances in the building to be controlled by the second power average value to obtain a second power weighted average value of the household appliances to be processed. .

The power limit value is calculated according to the running power of the household appliance to be processed and the second power weighted average value thereof, and the second power weighted average value can be understood as the 'power value to be reduced' of a certain household appliance.

In the embodiment, a second power weighted average value of the household appliance to be processed is obtained based on the excess power and the total power capacity of the household appliance to be processed; the power limit value is obtained based on the second power weighted average value, and the advantage is that the power limit value can be used for promoting the shared household appliances to adopt larger running power as far as possible under the condition of removing potential safety hazards.

a first control instruction is generated based on the power limit.

In this step, compared to the specific scheme of "determining a to-be-processed household appliance according to the operating power of each running shared household appliance in the to-be-controlled building, and sending a first control instruction for controlling the power reduction to the to-be-processed household appliance" in the foregoing embodiment, the difference is that in this embodiment, a third power weighted average value of the to-be-processed household appliances in the to-be-controlled building is calculated based on the power capacity of each shared household appliance in the to-be-controlled building, and the power limit values of the to-be-processed household appliance and the to-be-processed household appliance are determined based on the third power weighted average value; the foregoing embodiment calculates a first weighted average of the power of the running shared appliances in the building to be controlled based on the power capacity of each running shared appliance in the building to be controlled.

In an optional embodiment, generating a power limit value of the appliance to be processed according to the first power weighted average of the appliance to be processed includes:

In an optional embodiment, the method further comprises:

The server calculates reasonable operation setting parameters of the shared household appliances at a certain frequency according to the operation conditions of the shared household appliances; and sending the operation setting parameters to the mobile user terminal; after receiving the recommendation parameters, the user can select to receive the recommendation parameters, so that energy conservation and emission reduction are realized, or the current set operation parameters are maintained. The mobile user side can be a mobile phone, and the mobile phone can set the push frequency and the push time period of the shared household appliance operation recommended value in the app.

As another aspect of the present disclosure, as shown in fig. 4, a power control method of a shared appliance includes:

step S01: acquiring power/current information of the shared household appliance;

step S02: sending power/current information and identity identification information of the shared household appliances to a server so that the server can obtain the running power of the shared household appliances according to the power/current information;

step S03: receiving a first control instruction fed back by a server;

step S04: and controlling the shared household appliance to reduce power according to the first control instruction.

This step may be for execution at the shared appliance end; the power/current information is sent to the server, a first control instruction fed back by the server is received, and the shared household appliance is controlled to reduce the power according to the first control instruction; the shared household appliance end sends power/current information to the server, so that when the total operating power exceeds the total line power capacity, a first control instruction fed back by the server end can be received, and the operating power of the shared household appliance is reduced according to the first control instruction. Therefore, the total running power of the shared household appliances cannot continuously exceed the power limit of the power supply line of the floor where the household appliances are located, and the potential safety hazard of the power supply line of the floor is reduced.

In one embodiment, the method further comprises obtaining sub-line power capability;

judging whether the running power is larger than the power capacity of the sub-circuit; and if the power capacity of the shared household appliance is larger than the power capacity of the sub-line, controlling the shared household appliance to reduce the power to be lower than the corresponding power capacity of the sub-line.

In one embodiment, the method further includes obtaining a second control command, and controlling the shared appliance to reduce power according to the second control command.

As another aspect of the present disclosure, as shown in fig. 5, a power control apparatus for a shared home appliance includes:

the first acquisition module 01 is used for acquiring the total line power capacity, wherein the total line power capacity is the total power capacity distributed to the shared household appliances by the power supply line of the building to be controlled;

the second obtaining module 02 is used for obtaining the operating power of each running shared household appliance in the building to be controlled;

the calculation module 03 is configured to calculate the total operating power of all the running shared household appliances in the building to be controlled according to the operating power of each running shared household appliance in the building to be controlled;

and the control module 04 is used for determining the household appliances to be processed according to the operating power of each running shared household appliance in the building to be controlled when the total operating power exceeds the total line power capacity, and sending a first control instruction for controlling the household appliances to be processed to reduce power to the household appliances to be processed.

The power control device of the shared household appliance is a cloud device.

The first obtaining module can obtain the identity information of the shared household appliances at the same time, and the shared household appliance information and the building line form a corresponding relation, which comprises: the capacity of the sub-line corresponding to each household appliance is large when the household appliances are equipped in a certain building.

In an alternative embodiment, the apparatus further comprises:

the third acquisition module is used for acquiring the power capacity of the sub-line of each running shared household appliance in the building to be controlled;

the control module 04 is also used for judging whether a shared household appliance with the operating power larger than the power capacity of the sub-line exists in the building seat to be controlled; and if the power of the shared household appliance is greater than the power capacity of the sub-line, sending a second control command to the shared household appliance with the operating power greater than the power capacity of the sub-line, wherein the second control command is used for controlling the shared household appliance to reduce the power to be lower than the corresponding power capacity of the sub-line.

a first control instruction is generated based on the power limit.

Further, the method also comprises the step of generating a power limit value of the household appliance to be processed according to the total power excess part or the second power weighted average value, wherein the step comprises the following steps:

a first control instruction is generated based on the power limit.

The principle and effect of the apparatus of the present embodiment may refer to the principle and effect of the power control method of the shared household appliance, and will not be described repeatedly herein.

As still another aspect of the present disclosure, as shown in fig. 6, a power control apparatus for a shared home appliance includes:

a power/current obtaining module 11, configured to obtain power/current information of the shared household appliance;

a communication module 12 for communicating with a server;

a power control module 13 for controlling the operation power of the shared household appliance;

the main control module 14 is configured to control the communication module to send the power/current information acquired by the power/current acquisition module to the server, so that the server acquires the operating power of the shared appliance according to the power/current information and feeds back a first control instruction according to the operating power of the shared appliance; and the power control module is used for controlling the shared household appliance to reduce the running power according to the first control instruction.

The device further comprises an identification module 15, and the power control device of the shared household appliance disclosed herein can be arranged on the shared household appliance, such as on a shared air conditioner.

The technical solution disclosed in this embodiment is further explained below by taking a certain building and a shared household appliance as an example of a shared air conditioner:

(1) the shared air conditioners have unique identification ID of the ID card, and when the air conditioners are installed, the ID _ i (i is 1,2,3 …) of each air conditioner is confirmed;

(2) confirming the total power capacity P _ limit (total line power capacity) distributed to the air conditioners by the power supply lines of the seats where the air conditioners are located and the special sub-line capacity P _ i _ limit (i is 1,2 and 3 …);

(3) matching the ID _ i of the air conditioner with the special sub-line capacity P _ i _ limit corresponding to the air conditioner to form matching information;

(4) uploading the ID of the air conditioner, the line capacity and pairing information of the air conditioner and the line to a control center or a cloud;

(5) and comparing the power P _ i of each air conditioner in operation with the power capacity P _ i _ limit of the sub-circuit thereof by the control center or the cloud.

If P _ i is less than or equal to P _ i _ limit, the current situation is kept;

if P _ i > P _ i _ limit, the control center or the cloud sends a command to the air conditioner with the ID _ i number, so that the power of the air conditioner is reduced to be lower than the P _ i _ limit.

(6) And the control center or the cloud calculates the total power P _ sum _ m of m running air conditioners running in the building, and compares the total power P _ sum _ m with the capacity value P _ limit of the power supply line of the building.

If P _ sum _ m is less than or equal to P _ limit, keeping the current state;

if P _ sum _ m > P _ limit, the following steps are performed:

①, taking 1P as basic unit, checking the capacity coefficient X _ i (i is 1,2,3 …) of all air conditioners in the building, for example, the coefficient of 0.5P air conditioner is 0.5, the coefficient of 1P air conditioner is 1, and the coefficient of 1.5P air conditioner is 1.5.

②, the capacity coefficients of m air conditioners in operation are added and summed to obtain X _ sum _ run _ m ∑ X _ i.

③, calculating the allowable power average value P _ avg _ allow _ P of each matching capacity of m running air conditioners, P _ limit/X _ sum _ run _ m.

④, calculating the power weighted average value P _ i _ avg _ r allowed by each air conditioner, P _ avg _ allow _ P X _ i.

⑤, calculating the excess part power P _ over ═ P _ sum _ m-P _ limit.

⑥, the capacity coefficients of n air conditioners that operate with the actual operating power P _ i exceeding the power weighted average value P _ i _ avg _ r allowed for each air conditioner are added and summed to obtain X _ sum _ over _ n ∑ X _ i.

⑦, calculating the power average value P _ over _ avg _ P of each capacity excess of n air conditioners running beyond the power weighted average value P _ i _ avg _ r allowed by each air conditioner (P _ over/X _ sum _ over _ n)

⑧, calculating the weighted average value P _ i _ over _ avg _ r of the excess power of each air conditioner of n air conditioners running beyond the power weighted average value P _ i _ avg _ r allowed by each air conditioner, wherein P _ over _ avg _ P X _ i

⑨, calculating the final calculated power limit value P _ i _ limit _ calc of the n air conditioners running beyond the power weighted value P _ i _ avg _ r allowed by each air conditioner, wherein P _ i-P _ i _ over _ avg _ r.

⑩, logic below the control center or cloud determines whether each air conditioner needs to be powered down and sends the calculated power limit P _ i _ limit _ calc to the air conditioner that needs to be powered down.

(7) And after receiving the information of the calculated power limit value, the air conditioner executes the calculation according to the limit value. The user-set operating parameters must comply with this limit.

In the step (6), the running air conditioners can be changed into all air conditioners to participate in calculation, and the actual power of the air conditioners which are not in operation is marked as 0.

The step (5) may be replaced by: and the control center or the cloud sends the sub-line power capacity P _ i _ limit to each corresponding air conditioner, and each air conditioner controls the power per se not to exceed the sub-line power capacity P _ i _ limit in the running process.

In the step (6) (after the step ④ is executed), the weighted average value P _ i _ avg _ r of the allowed power of each air conditioner may be used as the final power limit value, and the final power limit value is sent to the corresponding air conditioner by the control center or the cloud.

In order to improve energy conservation and emission reduction, the method further comprises the following steps:

the air conditioner uploads information such as self ID, indoor environment temperature, outdoor environment temperature, air humidity, wind speed and cooling/heating set temperature to a control center or a cloud.

And the control center or the cloud calculates a reasonable recommended value of air conditioner operation according to the air conditioner operation condition at a certain frequency, if the current operation power of the household appliance is greater than the calculated recommended value, the recommended value is pushed to the mobile phone app of the user, and if the current operation power of the household appliance is less than the recommended value calculated by the cloud, the recommended value is not pushed.

After receiving the push, the user can select to receive the recommended parameters or keep the current set operation parameters.

The user can set the push frequency and the push time period of the recommended value of the air conditioner operation at the app end.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

Furthermore, the terms "first", "second" and "first" 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 indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of illustration of the disclosure and are not intended to limit the scope of the disclosure. Other variations or modifications may occur to those skilled in the art, based on the foregoing disclosure, and are still within the scope of the present disclosure.

Claims

1. A method for controlling power of a shared appliance, comprising:

2. The method of claim 1, wherein the method further comprises:

3. The method of claim 1, wherein determining the household appliance to be processed based on the operating power of each shared household appliance operating in the building to be controlled, and sending a first control command to the household appliance to be processed for controlling its power reduction comprises:

a first control instruction is generated based on the power limit.

4. The method of claim 3, wherein calculating a first weighted average of power for the operating shared appliances in the floor to be controlled based on the power capacity of each of the operating shared appliances in the floor to be controlled comprises:

5. The method of claim 3, wherein generating the power limit for the appliance to be processed from the first weighted power average for the appliance to be processed comprises:

6. The method of claim 1, wherein determining the household appliance to be processed based on the operating power of each shared household appliance operating in the building to be controlled, and sending a first control command to the household appliance to be processed for controlling its power reduction comprises:

a first control instruction is generated based on the power limit.

7. The method of claim 1, wherein the method further comprises:

receiving environment information of the shared household appliances, calculating power recommended values of the shared household appliances according to the environment information, and pushing the power recommended values of the shared household appliances to the mobile user side if the current running power of the shared household appliances is larger than the power recommended values of the shared household appliances.

8. A method for controlling power of a shared appliance, comprising:

acquiring power/current information of the shared household appliance;

sending power/current information of the shared household appliances and identification information thereof to a server so that the server can obtain the running power of the shared household appliances according to the power/current information;

receiving a first control instruction fed back by a server;

9. A power control apparatus for a shared appliance, comprising:

10. A power control apparatus for a shared appliance, comprising:

the communication module is used for communicating with the server;