CN106647415B - A kind of energy control management system and method - Google Patents

Abstract

The present invention discloses a kind of energy control management system and method, is related to energy control technical field, for proposing the energy source dispensing control program of fitting actual conditions.The energy control management system includes memory module and execution module.The energy control management method includes: storage M kind environmental information, obtains M kind storage environment information；According to M kind storage environment information, the energy is managed and is controlled.Allotment of the energy control management system provided by the invention for the energy controls.

Description

Energy control management system and method

Technical Field

The invention relates to the technical field of energy control, in particular to an energy control management system and method.

Background

With the improvement of living standard, people have more and more demand for energy, and how to realize the reasonable utilization of energy through the reasonable allocation of energy becomes increasingly important.

The intelligent energy control and management technology is an energy allocation solution integrating modern communication technology, computer network technology and intelligent control technology, and mainly obtains an optimal energy allocation control scheme by acquiring environmental information data of a target area and then utilizing an energy control algorithm.

At present, when environmental information data of a target area is collected, a traditional energy control management system can only collect single environmental information of temperature or humidity, but in an actual situation, the environmental information often comprises different elements such as temperature, humidity and illumination, that is, in an actual situation, the environmental information of a certain area is composite environmental information consisting of multiple elements, and at this time, a reasonable energy allocation control scheme cannot be obtained by adopting the traditional energy control management system.

Disclosure of Invention

The invention aims to provide an energy control management system and method, which are used for obtaining an energy allocation control scheme according with actual conditions.

In order to achieve the above purpose, the invention provides the following technical scheme:

the energy control management system is characterized by comprising a storage module and an execution module, wherein the output end of the storage module is connected with the execution module; wherein,

the storage module is used for storing the M types of storage environment information to obtain M types of storage environment information;

and the execution module is used for managing and controlling the energy according to the M storage environment information.

Compared with the prior art, in the energy control management system provided by the invention, when energy of a certain region is reasonably allocated, the M environmental information of the target region is stored through the storage module, so that the M environmental information of the target region is integrated together, and therefore, when the energy is subsequently managed and controlled, the energy control management system provided by the invention can comprehensively consider various environmental information of the target region by utilizing the execution module according to the M types of stored environmental information, so that an energy allocation control scheme more fitting with the actual situation is obtained, and the reasonable allocation of the energy is realized.

The invention also provides an energy control management method, which comprises the following steps:

s1: storing the M kinds of storage environment information to obtain M kinds of storage environment information;

s2: and managing and controlling the energy according to the M storage environment information.

Compared with the prior art, in the energy control management method provided by the invention, when the energy of a certain area is reasonably allocated, the M environmental information of the target area is integrated together by storing the M environmental information, so that the energy control management method provided by the invention can comprehensively consider various environmental information of the target area according to the M kinds of stored environmental information to obtain an energy allocation control scheme more fitting with the actual situation, thereby realizing reasonable allocation of the energy.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a first schematic diagram of an energy control management system according to a first embodiment of the present invention;

FIG. 2 is a second schematic diagram of an energy control management system according to a first embodiment of the present invention;

FIG. 3 is a third schematic diagram of an energy control management system according to an embodiment of the present invention;

FIG. 4 is a first schematic diagram of an energy control management system according to a second embodiment of the present invention;

FIG. 5 is a second schematic diagram of an energy control management system according to a second embodiment of the present invention;

FIG. 6 is a third schematic diagram of an energy control management system in the second embodiment of the present invention;

FIG. 7 is a first flowchart of a power control management method in a third embodiment of the present invention;

FIG. 8 is a flowchart of a energy control management method in a third embodiment of the present invention;

fig. 9 is a third flowchart of a energy control management method in the third embodiment of the present invention;

FIG. 10 is a fourth flowchart of a energy control management method in the third embodiment of the present invention;

FIG. 11 is a first flowchart of a power control management method in the fourth embodiment of the present invention;

FIG. 12 is a second flowchart of a power control management method in the fourth embodiment of the present invention;

fig. 13 is a flowchart of a energy control management method in the fourth embodiment of the present invention.

Reference numerals:

1-a storage module, 11-an acquisition unit;

12-a saving unit, 13-a processing unit;

131-checking unit, 132-confirming unit;

14-control unit, 15-amplification unit;

16-conversion unit, 2-execution module.

Detailed Description

In order to further explain the energy control management system and method provided by the embodiment of the invention, the following detailed description is made with reference to the accompanying drawings.

Example one

Referring to fig. 1, the present embodiment provides an energy control management system, which includes a storage module 1 and an execution module 2, wherein an output end of the storage module 1 is connected to the execution module 2; wherein,

the storage module 1 is used for storing M kinds of environment information to obtain M kinds of storage environment information;

the execution module 2 is used for managing and controlling the energy according to the M kinds of storage environment information.

In specific implementation, the storage module 1 is used for storing the M types of environment information to obtain M types of collected environment information, and then the execution module 2 is used for managing and controlling the energy according to the M types of stored environment information.

It can be known from the above specific implementation process that, in the energy control management system provided in this embodiment, when energy in a certain area is to be reasonably allocated, the storage module 1 is used to store M environmental information (for example, the environmental information may include temperature, humidity, illumination, and the like) of the target area, so that the M environmental information of the target area is integrated together, and thus, when the energy is to be subsequently managed and controlled, the execution module 2 may be used in this embodiment to comprehensively consider various environmental information of the target area according to the M types of stored environmental information, so as to obtain an energy allocation control scheme more suitable for actual conditions, thereby achieving reasonable allocation of the energy.

Preferably, with continuing reference to fig. 1, the storage module 1 includes a collection unit 11 and a storage unit 12, an output end of the collection unit 11 is connected to an input end of the storage unit 12, and an output end of the storage unit 12 is connected to the execution module 2; wherein,

the acquisition unit 11 is used for acquiring the M environmental information to obtain the M environmental information;

the storage unit 12 is configured to sequentially store M types of environment information after acquiring the M types of environment information, so as to obtain M types of storage environment information.

It can be understood that the above-mentioned collection unit 11 can be two or more than two of a temperature sensor, a humidity sensor, an illumination sensor, an ultrasonic sensor and an infrared wave sensor, wherein the temperature sensor is used for detecting the temperature of the target area, the humidity sensor is used for detecting the humidity of the target area, the ultrasonic sensor is used for positioning the living being in the target area, and the infrared wave sensor is used for detecting whether the living being exists in the target area, so when managing and controlling the energy of the target area, the present embodiment can comprehensively consider the above-mentioned factors such as temperature, humidity and illumination, thereby obtaining an energy allocation control scheme more fitting the actual situation, and realizing reasonable allocation of the energy. In addition, in the present embodiment, the storage unit 12 is used to sequentially store M pieces of environment information, so that interference between different pieces of environment information is avoided, and each piece of stored environment information is more suitable for actual situations.

It should be noted that, as shown in fig. 1, the storage module 1 in this embodiment further includes a processing unit 13 and a control unit 14; the output end of the acquisition unit 11 is connected with the input end of the processing unit 13, the output end of the processing unit 13 is connected with the input end of the storage unit 12, the output end of the storage unit 12 is also connected with the input end of the control unit 14, and the output end of the control unit 14 is connected with the input end of the processing unit 13; wherein,

the processing unit 13 is configured to process the current type of environment information to obtain current type of verification environment information;

the storage unit 12 is configured to store the checking environment information of the current type, obtain the storage environment information of the current type, and send storage order information representing the storage environment information of the current type;

the control unit 14 is configured to receive the storage order information, determine whether an order of the storage environment information of the current type represented by the storage order information is smaller than M, and if so, trigger the processing unit 13 to receive next environment information.

This embodiment is through utilizing processing unit 13 to handle current kind of environmental information to obtain current kind of check-up environmental information, then utilize saving unit 12 to store current kind of check-up environmental information, just so make the environmental information of storage be the environmental information that has checked, thereby guaranteed that the environmental information of storage more laminates actual conditions, and then utilize execution module 2 according to M kinds of storage environmental information, when managing and controlling the energy, just can obtain the energy control management solution of laminating actual more, in order to realize the rational distribution to the energy. Moreover, the saving unit 12 in this embodiment can also send storage sequence information representing the storage environment information of the current type, the control unit 14 determines the sequence of the storage environment information of the current type represented by the storage sequence information, if the current sequence is smaller than M, that is, the acquired M pieces of environment information are not completely stored, at this time, the control unit 14 triggers the processing unit 13, so that the processing unit 13 receives the next piece of environment information, and this embodiment, through the setting of the control unit 14, not only the storage of the M pieces of environment information is realized, but also information interference possibly caused when the M pieces of environment information are stored at the same time is avoided.

Specifically, as shown in fig. 2, the processing unit 13 includes a checking unit 131 and a confirming unit 132, an output end of the collecting unit 11 is connected to an input end of the checking unit 131, an output end of the checking unit 131 is connected to an input end of the confirming unit 132, output ends of the confirming unit 132 are respectively connected to an input end of the storing unit 12 and an input end of the control unit 14, and an output end of the control unit 14 is further connected to an input end of the checking unit 131; wherein,

the checking unit 131 is configured to check the current type of environment information;

when the verification result is correct, the confirming unit 132 is configured to confirm that the current type of environment information is correct, and use the current type of environment information as the current type of verification environment information; then, the storage unit 12 is used for storing the current type of checking environment information;

for example, the saving unit 12 in this embodiment may be a RAM memory and an EPPROM memory, specifically, the verified environment information is first sent to the RAM random access memory for temporary storage and buffering, and the RAM buffered environment information is then sent to the EPPROM memory for saving.

When the checking result is wrong, the confirming unit 132 is used for confirming that the current type of environment information is wrong and sending a trigger signal, and then the control unit 14 receives the trigger signal and triggers the checking unit 131 to receive the next piece of environment information of the current type of environment information according to the trigger signal.

For example, when the acquisition unit is a temperature sensor, because the temperature sensor acquires the temperature of the target area in real time, if the verification result of the verification unit 131 verifying the current temperature information shows an error, the control unit 14 may trigger the verification unit 131 to verify the next piece of the current temperature information acquired by the temperature sensor according to the trigger signal sent by the confirmation unit 132 until the verification is correct, so as to ensure that the environmental information stored in the storage unit 12 is the correct environmental information.

Illustratively, in this embodiment, the checking unit may be implemented by a check code in a cyclic redundancy memory (CRC memory), and after the storage of the M types of information is completed, the EPPROM memory sequentially sends the M types of environment information to the RAM random access memory and the CRC memory, performs final checking on the environment information to be output by using the check code of the CRC memory, introduces the environment information into the serial interface after correct checking, and transmits the output bit by bit to the execution module 2.

In addition, the present embodiment may further include a status register, where the sending status of the serial interface is received by the status register, and then the processing unit determines whether to start a new round of operation according to the status of the serial interface received by the status register; in addition, the storage order of the storage environment information representing the current type sent by the storage unit 12 and the trigger signal sent by the confirmation unit 132 when the check is wrong may also be stored in the status register, and correspondingly, the control unit 14 determines whether the order of the storage environment information representing the current type is smaller than M, and if so, the trigger processing unit 13 receives the next environment information; alternatively, the control unit 14 triggers the checking unit 131 to receive the next piece of environment information of the current type of environment information according to the trigger signal sent by the checking unit 132 when the check stored in the status register is incorrect.

Example two

Referring to fig. 4, the present embodiment provides an energy control management system, which includes a storage module 1 and an execution module 2, wherein an output end of the storage module 1 is connected to the execution module 2; wherein,

the storage module 1 is used for storing M kinds of environment information to obtain M kinds of storage environment information;

the execution module 2 is used for managing and controlling the energy according to the M kinds of storage environment information.

In specific implementation, the storage module 1 is used for storing the M types of environment information to obtain M types of collected environment information, and then the execution module 2 is used for managing and controlling the energy according to the M types of stored environment information.

It can be known from the above specific implementation process that, in the energy control management system provided in this embodiment, when energy in a certain area is to be reasonably allocated, the storage module 1 is used to store M environmental information (for example, the environmental information may include temperature, humidity, illumination, and the like) of the target area, so that the M environmental information of the target area is integrated together, and thus, when the energy is to be subsequently managed and controlled, the execution module 2 may be used in this embodiment to comprehensively consider various environmental information of the target area according to the M types of stored environmental information, so as to obtain an energy allocation control scheme more suitable for actual conditions, thereby achieving reasonable allocation of the energy.

Specifically, as shown in fig. 4, the storage module 1 includes a collecting unit 11, a storing unit 12 and a control unit 14, an output end of the collecting unit 11 is connected to an input end of the storing unit 12, and an output end of the storing unit 12 is connected to an input end of the control unit 14 and the execution module 2, respectively; the output of the control unit 14 is connected to the input of the acquisition unit 11, wherein,

the acquisition unit 11 is used for acquiring the environmental information of the current type;

the storage unit 12 is configured to store the current type of environment information, obtain the current type of storage environment information, and send storage order information representing the current type of storage environment information;

the control unit 14 is configured to receive the storage sequence information, determine whether the sequence of the current type of storage environment information represented by the storage sequence information is smaller than M, and if so, trigger the acquisition unit 11 to acquire next environment information, so that this embodiment ensures that each environment information is acquired and the next environment information is acquired after the environment information is stored, and thus the process is repeated until the storage of M environment information is completed, thereby avoiding interference between different environment information.

Preferably, as shown in fig. 4, the storage module 1 further includes a processing unit 13; the output end of the acquisition unit 11 is connected with the input end of the processing unit 13, and the output end of the processing unit 13 is connected with the input end of the storage unit 12; wherein,

the processing unit 13 is configured to process the current type of environment information to obtain current type of verification environment information;

the saving unit 12 is configured to store the checking environment information of the current type, obtain the storage environment information of the current type, and send storage order information representing the storage environment information of the current type.

Preferably, as shown in fig. 5, the processing unit 13 includes a checking unit 131 and a confirming unit 132, an output end of the collecting unit 11 is connected to an input end of the checking unit 131, an output end of the checking unit 131 is connected to an input end of the confirming unit 132, and output ends of the confirming unit 132 are respectively connected to an input end of the storing unit 12 and an input end of the control unit 14; wherein,

the checking unit 131 is configured to check the current type of environment information;

when the verification result is correct, the confirming unit 132 is configured to confirm that the current type of environment information is correct, and use the current type of environment information as the current type of verification environment information;

when the checking result is wrong, the confirming unit 132 is configured to confirm that the current type of environment information is wrong, and send a trigger signal;

the control unit 14 is further configured to receive a trigger signal, and trigger the acquisition unit 11 to acquire a next piece of environment information of the current type of environment information according to the trigger signal.

It is understood that, as shown in fig. 3 and fig. 6, the memory module 1 in each of the first and second embodiments further includes an amplifying unit 15 and a converting unit 16; the output end of the acquisition unit 11 is connected with the input end of the amplification unit 15, and the output end of the amplification unit 15 is connected with the input end of the conversion unit 16; the output end of the conversion unit 16 is connected with the input end of the verification unit 131; wherein,

the amplifying unit 15 is used for amplifying the environment information of the current kind;

the conversion unit 16 is used for converting the amplified environment information of the current type into an environment information digital signal of the current type; for example, when the collecting unit is a sensor, the collected environment information is an analog signal, the present embodiment may amplify the current type of environment information collected by the sensor through the amplifying unit 15, and then perform signal conversion on the amplified current type of environment information by using the converting unit 16, for example, may convert an electrical signal of the sensor into a digital signal. For example, the amplifying unit 15 may be an amplifier; the conversion unit 16 may be an a/D converter, which converts an analog signal into a digital signal.

EXAMPLE III

Referring to fig. 7, the present embodiment provides an energy control management method, including:

s1: storing the M kinds of storage environment information to obtain M kinds of storage environment information;

s2: and managing and controlling the energy according to the M storage environment information.

According to the energy control and management method, when energy of a certain area is to be reasonably allocated, the M environmental information is stored, specifically, the environmental information may include temperature, humidity, illumination and the like, so that the M environmental information of the target area is integrated together, and therefore, when the energy is subsequently managed and controlled, the invention can comprehensively consider various environmental information of the target area according to the M types of stored environmental information to obtain an energy allocation control scheme more suitable for actual conditions, thereby realizing reasonable allocation of the energy.

Specifically, as shown in fig. 8, the step S1 of storing M types of environment information to obtain M types of storage environment information includes:

s11: acquiring M environmental information to obtain M environmental information;

s12: and sequentially storing the M kinds of environment information to obtain M kinds of storage environment information.

After M environmental information has been gathered, the embodiment stores M environmental information in sequence by utilizing, thereby avoiding the interference between different environmental information and enabling each stored environmental information to be more fit to the actual situation.

Preferably, as shown in fig. 9, when M types of storage environment information are obtained in S12, each type of storage environment information is obtained by the following method:

s121: receiving environmental information of a current category;

s122: processing the current type of environment information to obtain the current type of verification environment information;

s123: storing the current type of checking environment information to obtain the current type of storage environment information, and sending storage sequence information representing the current type of storage environment information;

s124: receiving storage sequence information, judging whether the sequence of the storage environment information of the current type represented by the storage sequence information is smaller than M, and if so, receiving next environment information.

According to the energy management method and the energy management system, the current type of environment information is processed to obtain the current type of checking environment information, then the current type of checking environment information is stored, so that the stored environment information is the checked environment information, the stored environment information is guaranteed to be more fit to the actual situation, and then the energy management solution which is more fit to the actual situation can be obtained when the energy is managed and controlled according to the M types of storage environment information in the follow-up process, so that reasonable distribution of the energy is achieved. In addition, in this embodiment S123, not only the checking environment information of the current type is stored to obtain the storage environment information of the current type, but also the storage sequence information representing the storage environment information of the current type is sent; and then judging the order of the current type of storage environment information represented by the storage order information, and if the current order is less than M, namely the acquired M pieces of environment information are not completely stored, receiving the next piece of environment information, so that the storage of the M pieces of environment information is realized, and information interference possibly caused when the M pieces of environment information are stored at the same time is avoided.

Specifically, as shown in fig. 10, the step S122 of processing the current type of environment information to obtain the current type of verification environment information includes:

s1221: checking the current type of environment information; when the verification result is correct, go to S1222; when the check result is incorrect, the process proceeds to S1223;

s1222: confirming that the current type of environment information is correct, and taking the current type of environment information as the current type of verification environment information;

s1223: and confirming that the current type of environment information is wrong, sending a trigger signal, and checking the next piece of environment information of the current type of environment information according to the trigger signal. Therefore, the stored environment information is guaranteed to be the environment information with correct verification.

Example four

Referring to fig. 7, the present embodiment provides an energy control management method, including:

s1: storing the M kinds of storage environment information to obtain M kinds of storage environment information;

s2: and managing and controlling the energy according to the M storage environment information.

According to the energy control and management method, when energy of a certain area is to be reasonably allocated, the M environmental information is stored, specifically, the environmental information may include temperature, humidity, illumination and the like, so that the M environmental information of the target area is integrated together, and therefore, when the energy is subsequently managed and controlled, the invention can comprehensively consider various environmental information of the target area according to the M types of stored environmental information to obtain an energy allocation control scheme more suitable for actual conditions, thereby realizing reasonable allocation of the energy.

Specifically, as shown in fig. 11, the step S1 of storing M types of environment information to obtain M types of storage environment information includes:

s11: collecting environmental information of a current type;

s12: storing the environment information of the current type, obtaining the storage environment information of the current type, and sending storage sequence information representing the storage environment information of the current type;

s13: receiving storage sequence information, judging whether the sequence of the current type of storage environment information represented by the storage sequence information is smaller than M, and if so, acquiring next environment information; this embodiment has just so guaranteed that every environmental information gathers and finishes and with this environmental information save the back, carries out next environmental information's collection again to this circulation is until accomplishing M environmental information's storage, thereby has avoided the interference between the different environmental information.

Preferably, as shown in fig. 12, the step S12 of storing the current type of environment information to obtain the current type of storage environment information includes:

s121: processing the current type of environment information to obtain the current type of verification environment information;

s122: and storing the checking environment information of the current type to obtain the storage environment information of the current type.

Specifically, as shown in fig. 13, the processing of the current type of environment information in S122 includes:

s1221: checking the current type of environment information; when the verification result is correct, go to S1222; when the check result is incorrect, the process proceeds to S1223;

s1222: confirming that the current type of environment information is correct, and taking the current type of environment information as the current type of verification environment information;

s1223: and confirming that the current type of environment information is wrong, sending a trigger signal, and acquiring the next piece of environment information of the current type of environment information according to the trigger signal.

It can be understood that, in the third and fourth embodiments of the present invention, before the step S1221 of verifying the current type of environment information, the method further includes: amplifying the current type of environment information, and converting the amplified current type of environment information into a current type of environment information digital signal; the current kind of environment information digital signal is checked.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (15)

1. The energy control management system is characterized by comprising a storage module and an execution module, wherein the output end of the storage module is connected with the execution module; wherein,

the storage module is used for storing the M types of storage environment information to obtain M types of storage environment information;

the execution module is used for managing and controlling the energy according to the M kinds of storage environment information;

the storage module comprises an acquisition unit, a storage unit and a control unit; the output end of the acquisition unit is connected with the input end of the storage unit, the output end of the storage unit is respectively connected with the input end of the control unit and the execution module, and the output end of the control unit is connected with the input end of the acquisition unit; wherein,

the acquisition unit is used for acquiring the environmental information of the current type;

the storage unit is used for storing the environment information of the current type, obtaining the storage environment information of the current type and sending storage sequence information representing the storage environment information of the current type;

the control unit is used for receiving the storage sequence information, judging whether the sequence of the current type of storage environment information represented by the storage sequence information is smaller than M, and triggering the acquisition unit to acquire the next environment information if the sequence of the current type of storage environment information represented by the storage sequence information is smaller than M.

2. The energy control management system according to claim 1,

the acquisition unit is also used for acquiring M environmental information to obtain M environmental information;

the storage unit is further used for sequentially storing the M kinds of environment information after the M kinds of environment information are collected, and obtaining M kinds of storage environment information.

3. The energy control management system of claim 2, wherein the storage module further comprises a processing unit; the output end of the acquisition unit is connected with the input end of the processing unit, the output end of the processing unit is connected with the input end of the storage unit, and the output end of the control unit is also connected with the input end of the processing unit; wherein,

the processing unit is used for processing the current type of environment information to obtain the current type of verification environment information;

the control unit is further configured to receive the storage order information, determine whether an order of the current type of storage environment information represented by the storage order information is smaller than M, and if so, trigger the processing unit to receive next environment information.

4. The energy control and management system according to claim 3, wherein the processing unit comprises a checking unit and a confirming unit, the output end of the collecting unit is connected with the input end of the checking unit, the output end of the checking unit is connected with the input end of the confirming unit, the output end of the confirming unit is respectively connected with the input end of the storing unit and the input end of the control unit, and the output end of the control unit is further connected with the input end of the checking unit; wherein,

the checking unit is used for checking the current type of environment information;

when the verification result is correct, the confirming unit is used for confirming that the current type of environment information is correct and taking the current type of environment information as the current type of verification environment information;

when the checking result is wrong, the confirming unit is used for confirming that the environment information of the current type is wrong and sending a triggering signal,

the control unit is also used for receiving the trigger signal and triggering the verification unit to receive the next piece of environmental information of the current type of environmental information according to the trigger signal.

5. The energy control and management system according to claim 1 or 2, wherein the collection unit is two or more of a temperature sensor, a humidity sensor, a light sensor, an ultrasonic sensor, and an infrared sensor.

6. The energy control management system according to claim 1 or 3, wherein the storage module further comprises an amplifying unit and a converting unit; the output end of the acquisition unit is connected with the input end of the amplification unit, and the output end of the amplification unit is connected with the input end of the conversion unit; the output end of the conversion unit is connected with the input end of the storage unit; wherein,

the amplifying unit is used for amplifying the environment information of the current type;

the conversion unit is used for converting the amplified environment information of the current type into the environment information digital signal of the current type.

7. The energy control management system of claim 1, wherein the storage module further comprises a processing unit; the output end of the acquisition unit is connected with the input end of the processing unit, and the output end of the processing unit is connected with the input end of the storage unit; wherein,

the processing unit is used for processing the current type of environment information to obtain the current type of verification environment information;

the storage unit is used for storing the checking environment information of the current type, obtaining the storage environment information of the current type and sending the storage sequence information representing the storage environment information of the current type.

8. The energy control and management system according to claim 7, wherein the processing unit comprises a checking unit and a confirming unit, the output end of the collecting unit is connected with the input end of the checking unit, the output end of the checking unit is connected with the input end of the confirming unit, and the output end of the confirming unit is respectively connected with the input end of the storing unit and the input end of the control unit; wherein,

the checking unit is used for checking the current type of environment information;

when the verification result is correct, the confirming unit is used for confirming that the current type of environment information is correct and taking the current type of environment information as the current type of verification environment information;

when the checking result is wrong, the confirming unit is used for confirming that the current type of environment information is wrong and sending a triggering signal;

the control unit is also used for receiving the trigger signal and triggering the acquisition unit to acquire the next piece of environmental information of the current type of environmental information according to the trigger signal.

9. An energy control management method, comprising:

s1: storing the M kinds of storage environment information to obtain M kinds of storage environment information;

s2: managing and controlling energy sources according to the M kinds of storage environment information;

the S1 stores M types of environment information, and obtains M types of storage environment information, including:

s11: collecting environmental information of a current type;

s12: storing the environment information of the current type, obtaining the storage environment information of the current type, and sending storage sequence information representing the storage environment information of the current type;

s13: receiving the storage sequence information, judging whether the sequence of the storage environment information of the current type represented by the storage sequence information is smaller than M, and if so, acquiring next environment information.

10. The energy management method according to claim 9, wherein the S1 stores M types of environment information, and obtaining M types of stored environment information includes:

s11: acquiring M environmental information to obtain M environmental information;

s12: and sequentially storing the M kinds of environment information to obtain M kinds of storage environment information.

11. The energy management method according to claim 10, wherein when M types of storage environment information are obtained in S12, each type of storage environment information is obtained by:

s121: receiving environmental information of a current category;

s122: processing the current type of environment information to obtain the current type of verification environment information;

s123: storing the current type of checking environment information to obtain the current type of storage environment information, and sending storage sequence information representing the current type of storage environment information;

s124: receiving storage sequence information, judging whether the sequence of the storage environment information of the current type represented by the storage sequence information is smaller than M, and if so, receiving next environment information.

12. The energy management method according to claim 11, wherein the step S122 of processing the current type of environment information to obtain the current type of verified environment information comprises:

s1221: checking the current type of environment information; when the verification result is correct, go to S1222; when the check result is incorrect, the process proceeds to S1223;

s1222: confirming that the current type of environment information is correct, and taking the current type of environment information as the current type of verification environment information;

s1223: and confirming that the current type of environment information is wrong, sending a trigger signal, and checking the next piece of environment information of the current type of environment information according to the trigger signal.

13. The energy management method according to claim 9, wherein the step S12 of storing the current type of environment information to obtain the current type of stored environment information includes:

s121: processing the current type of environment information to obtain the current type of verification environment information;

s122: and storing the checking environment information of the current type to obtain the storage environment information of the current type.

14. The energy management method according to claim 13, wherein the processing of the current type of environment information in S121 includes:

s1221: checking the current type of environment information; when the verification result is correct, go to S1222; when the check result is incorrect, the process proceeds to S1223;

s1222: confirming that the current type of environment information is correct, and taking the current type of environment information as the current type of verification environment information;

s1223: confirming that the current type of environment information is wrong, and sending a trigger signal; and acquiring the next piece of environmental information of the current type of environmental information according to the trigger signal.

15. The energy control management method according to claim 12 or 14, wherein before the S1221 verifying the current type of environment information, the method further comprises: and amplifying the current type of environment information, and converting the amplified current type of environment information into a current type of environment information digital signal.