CN115599021B - Intelligent management and control platform for energy of wind turbine - Google Patents

Abstract

The invention is applicable to the field of computers, and provides an intelligent management and control platform for energy consumption of a fan, which comprises: the instruction acquisition module is used for: receiving an issued operation instruction, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued at intervals of set duration; an indication module for: indicating the fan coil unit in the target area to work according to the operation instruction, wherein the first working instruction and the second working instruction are respectively associated with the corresponding target area; the detection module is used for: when the temperature difference between the first area and the second area in the target area reaches a first threshold value and only the first area is detected to have no additional refrigeration or heating consumption, the method and the device for detecting the temperature difference in the target area have the advantages that whether the second area has the first working requirement or not is detected to have the second working requirement or not: the full utilization of the energy contained in the temperature-controlled air in the first area can be realized through the independent work of the fans in the second area and the work of the fan coil units in the second area, so that the energy-saving effect is achieved.

Description

Intelligent management and control platform for energy of wind turbine

Technical Field

The invention belongs to the field of computers, and particularly relates to an intelligent management and control platform for energy consumption of a fan.

Background

With the increasing rise of living standard, central air conditioning systems have gradually become standard configurations of building, and the central air conditioning systems are mainly divided into a host and fan coil ends, wherein 1 host can provide cold (heat) sources for hundreds of fan coil ends; the main machine is arranged in a building basement, the tail end of the fan coil is arranged in the room, the fan coil temperature controller is matched with the tail end 1:1 of the fan coil and used for controlling the start and stop of a valve at the tail end of the fan coil, the shutdown of the fan, the manual temperature regulation and the like, in the prior art, if a certain area is acted by a central air conditioning system, the temperature control is realized, but if the space subjected to temperature control in the area cannot be effectively utilized, the energy waste exists in practice.

Disclosure of Invention

The embodiment of the invention aims to provide an intelligent management and control platform for energy consumption of a fan, and aims to solve the problems in the background technology.

The embodiment of the invention is realized in such a way that, on one hand, the intelligent management and control platform for the energy consumption of the fan comprises:

the instruction acquisition module is used for: receiving an issued operation instruction, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued at intervals of set duration;

an indication module for: indicating the fan coil unit in the target area to work according to the operation instruction, wherein the first working instruction and the second working instruction are respectively associated with the corresponding target area;

the detection module is used for: when the temperature difference between the first area and the second area in the target area reaches a first threshold value and only the first area is detected to have no additional refrigeration or heating consumption, detecting whether the second area has a first working demand or not, wherein the first working demand corresponds to the temperature difference being greater than 0 when heating respectively, and the temperature difference being less than 0 when refrigerating;

the start-stop control module is used for: if the first working requirement exists in the second area, controlling a fan of the fan-coil unit in the first area to be closed at an air outlet of the first area and to be opened at an air outlet of the second area, and simultaneously controlling the fan-coil unit in the second area to work to form internal circulation.

As a further aspect of the present invention, the instruction acquisition module specifically includes:

the regulation and control information acquisition unit is used for: acquiring regulation information, wherein the regulation information comprises key information or remote reservation information;

a generating unit for: generating an operation instruction according to the regulation information, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued by interval setting time length, and the interval setting time length is more than or equal to 0.

As a still further aspect of the present invention, the first work order and the second work order are respectively associated with the same area or different areas.

As a still further aspect of the present invention, the platform further includes a prompt and determination module, where the prompt and determination module specifically includes:

a prompt issuing unit for: when the user is detected to leave the first area or the user does not enter the first area within a set time, sending out prompt information whether additional refrigeration or heating requirements exist;

a determining unit configured to: and when the negative information of the user about the prompt information is obtained, determining that no additional refrigeration or heating consumption exists in the first area.

As a further aspect of the present invention, the prompt issuing unit is further configured to:

acquiring a control instruction of a user, and issuing the control instruction to a moving part, wherein the moving part acts on a first area, and the control instruction carries image blind area resolution information of the first area;

according to the control instruction, the moving part is instructed to move according to a first moving route, when the moving part identifies at least one feature in the image blind area resolution information, the moving part is separated from the first moving route, identifies the subarea containing the first feature, and returns to the first moving route after identification is completed;

and acquiring the reported identification result and sending the identification result to the user terminal.

As a further aspect of the present invention, the obtaining the reported identification result specifically includes:

processing the images of the subareas to obtain segmented images, and comparing the segmented images with a preset image, wherein the processing comprises segmented processing;

when the comparison condition is satisfied, an identification result is generated, the identification result including a living organism and a temperature sensitive object.

As a further aspect of the present invention, the platform further includes a recovery module, where the recovery module includes:

a departure detection unit for: acquiring corresponding permission, and judging that a user leaves the first area when the user terminal detects that the navigation to a certain place is displayed on the electronic map in real time and the user terminal moves to a place close to the certain place along the navigation route;

a recovery unit for: if the user terminal is continuously detected to move to a place far away from the certain place along the navigation route and move to a preset distance, controlling a fan of the fan-coil unit in the first area to open an air outlet of the first area and displaying a new regulation information execution option, and controlling the fan-coil unit in the first area to work or keep the same based on the selection of the new regulation information execution option by a user.

As a further aspect of the present invention, the adjustment information execution option includes an estimated time of a user's return trip and temperature information of a current first area, where the temperature information includes: and according to the predicted temperature of the first area after the estimated time under the current temperature change.

As a further scheme of the invention, the fan coil units in the first area and the fan coil units in the second area are the same fan coil unit, and the fan air outlets of the fan coil units in the first area and the fan coil units in the second area are respectively communicated with the first area and the second area.

According to the intelligent management and control platform for the fan energy consumption, provided by the embodiment of the invention, by detecting that the temperature difference between the first area and the second area in the target area reaches the first threshold value and detecting that the first area has no additional refrigeration or heating consumption, whether the second area has the first working requirement or not is detected, namely the temperature difference needs to be met to reach the first threshold value, and the second area has the heating or refrigeration requirement, at the moment, the fan controlling the fan-coil unit in the first area is closed at the air outlet of the first area and is opened at the air outlet of the second area, and meanwhile, the fan-coil unit in the second area is controlled to work to form internal circulation, so that the air with the temperature controlled in the first area can participate in the second area, and meanwhile, the internal circulation of the second area is realized, the full utilization of the energy contained in the air with the temperature controlled in the first area can be realized through the independent work of the fan-coil unit in the second area, and the energy-saving effect is achieved.

Drawings

Fig. 1 is a main structural diagram of an intelligent management and control platform for fan energy consumption.

FIG. 2 is a block diagram of an instruction acquisition module in a fan energy consumption intelligent management and control platform.

FIG. 3 is a primary structural diagram of a fan energy consumption intelligent management and control platform including a prompt and determination module.

FIG. 4 is a block diagram of a prompt and determination module in a fan energy consumption intelligent management and control platform.

FIG. 5 is a flow chart illustrating the execution of a hint issue unit in a wind turbine energy management and control platform.

Fig. 6 is a flowchart of obtaining a reported identification result in a fan energy consumption intelligent management and control platform.

Fig. 7 is a main structural diagram of a fan energy consumption intelligent control platform including a recovery module.

FIG. 8 is a block diagram of a recovery module in a fan energy consumption intelligent management and control platform.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

The invention provides an intelligent management and control platform for fan energy consumption, which solves the technical problems in the background technology.

As shown in fig. 1, a main structure diagram of a fan energy consumption intelligent control platform according to an embodiment of the present invention includes:

instruction fetch module 200 for: receiving an issued operation instruction, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued at intervals of set duration;

an indication module 400 for: indicating the fan coil unit in the target area to work according to the operation instruction, wherein the first working instruction and the second working instruction are respectively associated with the corresponding target area; the fan coil unit mainly comprises a small fan, a motor, a fan coil and the like, wherein the fan coil unit works, namely, a host of a central air conditioner and the fan coil unit work cooperatively to realize temperature control;

a detection module 600 for: when the temperature difference between the first area and the second area in the target area reaches a first threshold value and only the first area is detected to have no additional refrigeration or heating consumption, detecting whether the second area has a first working demand or not, wherein the first working demand corresponds to the temperature difference being greater than 0 when heating respectively, and the temperature difference being less than 0 when refrigerating; the temperature difference between the first area and the second area reaches a first threshold value, namely at least one of the first area and the second area reaches the temperature difference after temperature control;

the on-off control module 800 is used for: if the first working requirement exists in the second area, controlling a fan of the fan-coil unit in the first area to be closed at an air outlet of the first area and to be opened at an air outlet of the second area, and simultaneously controlling the fan-coil unit in the second area to work to form internal circulation.

When the method is applied, the temperature difference between the first area and the second area in the target area reaches the first threshold, and only when the fact that no additional refrigeration or heating consumption exists in the first area is detected, whether the first working demand exists in the second area is detected, namely the temperature difference needs to be met to reach the first threshold, and the second area needs to be heated or refrigerated is detected, at the moment, a fan controlling the fan coil unit in the first area is closed at an air outlet of the first area and is opened at an air outlet of the second area, meanwhile, the fan coil unit in the second area is controlled to work to form internal circulation, temperature-controlled air in the first area can participate in the second area, meanwhile, the internal circulation in the second area is realized, the full utilization of energy contained in the temperature-controlled air in the first area can be realized through the independent work of the fan coil unit in the second area, and the energy-saving effect is achieved.

As shown in fig. 2, as a preferred embodiment of the present invention, the instruction fetch module 200 specifically includes:

a regulation information acquisition unit 2001 for: acquiring regulation information, wherein the regulation information comprises key information or remote reservation information;

a generating unit 2002 for: generating an operation instruction according to the regulation information, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued by interval setting time length, and the interval setting time length is more than or equal to 0.

When the embodiment is applied, a user can conduct remote reservation or field operation so as to achieve the purpose of temperature control, and in addition, the first working instruction can be issued sequentially or simultaneously.

As a preferred embodiment of the present invention, the first work order and the second work order are respectively associated with the same area or different areas. That is, the first and second operating commands may control the fan coil unit function and the corresponding zone, either individually or in combination.

As shown in fig. 3 and 4, as a preferred embodiment of the present invention, the platform further includes a prompt and determination module 500, where the prompt and determination module 500 specifically includes:

a prompt issuing unit 5001 for: when the user is detected to leave the first area or the user does not enter the first area within a set time, sending out prompt information whether additional refrigeration or heating requirements exist;

a determining unit 5002 for: and when the negative information of the user about the prompt information is obtained, determining that no additional refrigeration or heating consumption exists in the first area.

In the application of the embodiment, considering that the regulation information includes key information or remote reservation information, the user may leave the first area or not enter the first area after regulating, but there may be an additional cooling or heating requirement in the first area, for example, the user may ignore the additional cooling or heating requirement after leaving the first area, so that the user needs to send a prompt message of the additional cooling or heating requirement, and further, the operational reasonability of the on-off control module 800 is ensured.

As shown in fig. 5, as a preferred embodiment of the present invention, the prompt issuing unit 5001 is further configured to perform the following steps:

s001: acquiring a control instruction of a user, and issuing the control instruction to a moving part, wherein the moving part acts on a first area, and the control instruction carries image blind area resolution information of the first area;

s002: according to the control instruction, the moving part is instructed to move according to a first moving route, when the moving part identifies at least one feature in the image blind area resolution information, the moving part is separated from the first moving route, identifies the subarea containing the first feature, and returns to the first moving route after identification is completed;

s003: and acquiring the reported identification result and sending the identification result to the user terminal.

Considering that in some hidden corners caused by shielding, such as corners of a sofa close to the ground, hidden positions of bed corners, cabinets and corners, and the like, the corner positions are lower and hidden and are not easy to be directly captured by image equipment, and image dead zones exist, identification of a subarea containing first features is realized through matching of moving parts, the moving parts have self-walking functions, such as toy cars and sweeping robots, and the like, and the features are objects which can be identified by the images but cannot capture the surrounding full views, such as the beds, the cabinets and the like, are large in volume, are easy to form dead zones with the ground or the corners, and some living organisms, temperature sensitive objects and the like are easy to be hidden in the dead zones.

As shown in fig. 6, as a preferred embodiment of the present invention, the obtaining the reported identification result specifically includes:

s0031: processing the images of the subareas to obtain segmented images, and comparing the segmented images with a preset image, wherein the processing comprises segmented processing;

s0032: when the comparison condition is satisfied, an identification result is generated, the identification result including a living organism and a temperature sensitive object.

The embodiment is convenient for a user to make a selection, and avoids the influence of living organisms and temperature sensitive objects which need to be controlled in a first area, for example, living organisms including pets, children and the like, and temperature sensitive objects which are sensitive to temperature decrease or increase, so that inconvenience is brought to the user, for example, clothes or other objects to be dried which need to be maintained at a certain temperature, and the like, which are easy to forget or difficult to be found by the user, wherein the satisfaction of the comparison condition indicates that the similarity of the segmented image and the preset image reaches a certain degree.

As shown in fig. 7 and 8, as a preferred embodiment of the present invention, the platform further includes a recovery module 1000, and the recovery module 1000 includes:

a departure detection unit 10001 for: acquiring corresponding permission, and judging that a user leaves the first area when the user terminal detects that the navigation to a certain place is displayed on the electronic map in real time and the user terminal moves to a place close to the certain place along the navigation route;

a recovery unit 10002 for: if the user terminal is continuously detected to move to a place far away from the certain place along the navigation route and move to a preset distance, controlling a fan of the fan-coil unit in the first area to open an air outlet of the first area and displaying a new regulation information execution option, and controlling the fan-coil unit in the first area to work or keep the same based on the selection of the new regulation information execution option by a user.

The embodiment provides a situation that a user return trip can be detected, when the original situation is not suitable for a first area, the user may cancel to go to a certain place or stay in the first area for a short time, so that a fan of a fan-coil unit in the first area is controlled to be opened at an air outlet of the first area, and the fan-coil unit in the first area is controlled to be opened or closed at an air outlet of a second area, and according to the selection of the user, the fan-coil unit in the first area is controlled to work so as to control the temperature of the first area again, and natural cooling or heating (the air outlet of the fan-coil unit in the second area is closed) is maintained as it is.

As a preferred embodiment of the present invention, the adjustment information execution option includes an estimated time of a user's return trip and temperature information of a current first area, where the temperature information includes: and according to the predicted temperature of the first area after the estimated time under the current temperature change.

It can be understood that, according to the predicted temperature of the first area after the estimated time passes under the current temperature change, that is, according to the temperature of the fan in the first area when the air outlet of the fan coil unit is closed in the first area and the air outlet of the second area is opened, considering that the general area is not absolutely closed, air outside the area can enter the first area, the temperature change of the first area gradually approaches to the outside of the area, but the temperature is raised or lowered faster than the temperature in the general situation, and the general situation refers to the situation that the fan coil unit is normally closed after the fan coil unit and the host machine act; for example, in the current situation, the temperature change δ= -3 ℃/h, that is, 3 ℃ per hour, the predicted time is 0.5h, the current temperature is 25 ℃, and then the predicted temperature of the first area is 25.5 ℃, which may be lower than the expected temperature of the user, for example, at least 27 ℃, so that the fan coil unit needs to work in combination to perform heating, for example, the heating capacity of the fan coil unit to the first area is 5 minutes to reach δt=5 ℃, so that the temperature can be controlled at least 5 minutes in advance according to the selection of the user, so that the user can enjoy a comfortable environment after returning to the first area, and the experience of the user is improved.

The fan coil units in the first area and the fan coil units in the second area are the same fan coil unit, and the fan air outlets of the fan coil units in the first area and the fan coil units in the second area can be respectively communicated with the first area and the second area. The communicable arrangement means that the communication between the air outlet of the fan and the first area can be achieved by opening an electric control valve, and if necessary, the electric control valve can be closed, so that each fan-coil unit can only work independently on the original area, namely, each fan-coil unit works independently.

In general, each area is configured with a fan coil unit, and several fan coil units may be connected to a central air conditioner host, which is in the form of "one-driving-N" commonly known, where N is the number of fan coil units, and the host mainly provides cold (heat) sources for the fan coil units (units), in this embodiment, when the fan coil units in the first area and the second area are different fan coil units, the air outlets of the two fan coil units may be mutually connected, that is, in some situations, to realize that one fan coil unit provides cold air or hot air for another area, and it is necessary to provide an air flue between the first area and the second area that may be controlled to open, which is, of course, established under the condition that the fan coil units and the host power satisfy use.

According to the intelligent fan energy consumption management and control platform provided by the embodiment of the invention, when the temperature difference between the first area and the second area in the target area reaches the first threshold value and only the first area is detected to have no additional refrigeration or heating consumption, whether the second area has the first working requirement or not is detected, namely the temperature difference needs to be met to reach the first threshold value, and the second area has the heating or refrigeration requirement, at the moment, the fan controlling the fan coil unit in the first area is closed at the air outlet of the first area and is opened at the air outlet of the second area, and meanwhile, the fan coil unit in the second area is controlled to work to form internal circulation, so that the air in the first area can participate in the second area, and meanwhile, the internal circulation in the second area is realized, the fan coil unit in the second area can work independently, so that the full utilization of the energy contained in the air in the first area can be realized, and the energy saving effect is achieved.

In order to be able to load the method and system described above to function properly, the system may include more or less components than those described above, or may combine some components, or different components, in addition to the various modules described above, for example, may include input and output devices, network access devices, buses, processors, memories, and the like.

The processor may be a central processing unit (CentralProcessingUnit, CPU), other general purpose processors, digital signal processors (DigitalSignalProcessor, DSP), application specific integrated circuits (ApplicationSpecificIntegratedCircuit, ASIC), off-the-shelf programmable gate arrays (Field-ProgrammableGateArray, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the above system, and various interfaces and lines are used to connect the various parts.

The memory may be used to store a computer and a system program and/or module, and the processor may perform the various functions described above by running or executing the computer program and/or module stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function (such as an information acquisition template presentation function, a product information distribution function, etc.), and the like. The storage data area may store data created according to the use of the berth status display system (e.g., product information acquisition templates corresponding to different product types, product information required to be released by different product providers, etc.), and so on. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart memory card (SmartMediaCard, SMC), secure digital (SecureDigital, SD) card, flash card (FlashCard), at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device.

It should be understood that, although the steps in the structural diagrams of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in various embodiments may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily performed in sequence, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or other steps.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (4)

1. An intelligent management and control platform for fan energy consumption, which is characterized by comprising:

the instruction acquisition module is used for: receiving an issued operation instruction, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued at intervals of set duration;

an indication module for: indicating the fan coil unit in the target area to work according to the operation instruction, wherein the first working instruction and the second working instruction are respectively associated with the corresponding target area;

the detection module is used for: when the temperature difference between the first area and the second area in the target area reaches a first threshold value and only the first area is detected to have no additional refrigeration or heating consumption, detecting whether the second area has a first working demand or not, wherein the first working demand corresponds to the temperature difference being greater than 0 when heating respectively, and the temperature difference being less than 0 when refrigerating;

the start-stop control module is used for: if the first working requirement exists in the second area, controlling a fan of the fan-coil unit in the first area to be closed at an air outlet of the first area and to be opened at an air outlet of the second area, and simultaneously controlling the fan-coil unit in the second area to work to form internal circulation;

the platform also comprises a prompt and determination module, wherein the prompt and determination module specifically comprises:

a prompt issuing unit for: when the user is detected to leave the first area or the user does not enter the first area within a set time, sending out prompt information whether additional refrigeration or heating requirements exist; a determining unit configured to: when obtaining the negative information of the user about the prompt information, determining that no additional refrigeration or heating requirement exists in the first area;

the prompt issuing unit is also used for: acquiring a control instruction of a user, and issuing the control instruction to a moving part, wherein the moving part acts on a first area, and the control instruction carries image blind area resolution information of the first area; according to the control instruction, the moving part is instructed to move according to a first moving route, when the moving part identifies at least one feature in the image blind area resolution information, the moving part is separated from the first moving route, identifies the subarea containing the first feature, and returns to the first moving route after identification is completed; acquiring a reported identification result and sending the identification result to a user terminal; the obtaining the reported identification result specifically comprises the following steps: processing the images of the subareas to obtain segmented images, and comparing the segmented images with a preset image, wherein the processing comprises segmented processing; when the comparison condition is met, generating a recognition result, wherein the recognition result comprises a living organism and a temperature sensitive object; the method comprises the steps that the comparison condition is met, wherein the step of meeting the comparison condition comprises that the similarity between the segmented image and a preset image reaches a preset value;

the platform further includes a recovery module, the recovery module including: a departure detection unit for: acquiring corresponding permission, and judging that a user leaves the first area when the user terminal detects that the navigation to a certain place is displayed on the electronic map in real time and the user terminal moves to a place close to the certain place along the navigation route; a recovery unit for: if the user terminal is continuously detected to move to a place far away from a certain place along the navigation route and move to a preset distance, controlling a fan of the fan-coil unit in the first area to be opened at an air outlet of the first area and displaying a new regulation information execution option, and controlling the fan-coil unit in the first area to work or keep the same based on the selection of the new regulation information execution option by a user; the regulation information execution options comprise estimated time of user return and temperature information of the current first area, and the temperature information comprises: and according to the predicted temperature of the first area after the estimated time under the current temperature change.

2. The intelligent management and control platform for wind turbine energy of claim 1, wherein the instruction acquisition module specifically comprises:

the regulation and control information acquisition unit is used for: acquiring regulation information, wherein the regulation information comprises key information or remote reservation information;

a generating unit for: generating an operation instruction according to the regulation information, wherein the operation instruction at least comprises a first working instruction and a second working instruction issued by interval setting time length, and the interval setting time length is greater than or equal to 0.

3. The intelligent management and control platform for wind turbine energy of claim 1, wherein the first and second work orders are associated with the same area or different areas, respectively.

4. The intelligent management and control platform for wind turbine energy of claim 1, wherein the wind turbine coil units in the first region and the wind turbine coil units in the second region are the same wind turbine coil unit, and the wind turbine outlets of the wind turbine coil units in the first region and the wind turbine coil units in the second region are respectively communicably arranged with the first region and the second region.