CN108520306B - Energy management method - Google Patents

Abstract

The invention discloses an energy management method, which comprises the steps of determining the type of an object selected by a user; when the type of a maintainer is selected, receiving a certificate uploaded by a resident maintenance point and the identity of the maintainer, authenticating the certificate, and storing information of successful authentication into an authentication table; when the enterprise type is selected, receiving and analyzing data of each monitoring device uploaded by a user to obtain a conclusion; when feedback that a user agrees to perform energy improvement is received, generating an enterprise order and acquiring an enterprise position; sending an enterprise order to a resident maintenance point which is less than a first preset distance away from the enterprise position; when the family type is selected, receiving the energy problem fed back by the user, and generating a family order; and dispatching the family order to the maintainer according to the information of the maintainer in the family order matching authentication table. The method provided by the invention associates the maintenance point, the maintainer and the user, and enables the user to enjoy the experience of low time cost, low consumption cost and high service quality.

Description

Energy management method

Technical Field

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

Background

With the economic development, basic equipment taking enterprises and families as units is gradually increased, correspondingly, the energy consumption of water and electricity and the like is increased, and the hidden dangers in the process of using water and electricity and the like are increased. Enterprises, families and other units cannot reasonably reduce energy consumption and reduce hidden dangers because no special personnel are available in the aspect of energy management, but the specialized personnel are found to be responsible for energy management, so that time and labor are consumed.

Disclosure of Invention

The invention mainly aims to provide an energy management method, and aims to solve the problems that energy consumption cannot be reasonably reduced and hidden dangers cannot be reduced due to the fact that no special personnel are available in energy management in units such as enterprises, families and the like, but time and labor are consumed due to the fact that a specially-assigned person is responsible for energy management.

In order to achieve the above object, the present invention provides an energy management method, including the steps of:

determining an object type selected by a user, wherein the object type comprises a business type, a family type, a maintainer type and a training type;

when the object type selected by the user is a maintainer type, receiving a certification document uploaded by a resident maintenance point and the identity of the maintainer, authenticating the resident maintenance point and the maintainer according to the certification document, and storing the information of the resident maintenance point and the maintainer which are successfully authenticated into an authentication table of a server;

when the type of the object selected by the user is a training type, providing an online course training entrance and an offline practical training address for the user, authenticating the user according to the received online course training score and the video of the offline practical training, and storing the information of the user successfully authenticated into the authentication table by the identity of a maintainer;

when the type of the object selected by the user is an enterprise type, receiving data of each monitoring device uploaded by the user, and analyzing the data within preset time to obtain a conclusion, wherein the data monitored by the monitoring devices comprise water consumption measured by the ultrasonic water meter in an abnormal working period and/or electricity consumption measured by the electric meter in an abnormal working period;

when the conclusion is that energy improvement is recommended, prompting the user whether to approve energy improvement;

when feedback that a user agrees to perform energy improvement is received, generating an enterprise order and acquiring an enterprise position;

according to the information of the resident maintenance points in the authentication table and the positions of the enterprises, the enterprise orders are sent to the resident maintenance points with the distance smaller than a first preset distance;

when the object type selected by the user is a family type, receiving an energy problem and/or an uploaded picture fed back by the user, generating a family order according to the energy problem and/or the picture, and acquiring a family position;

matching information of maintenance personnel in the authentication table according to the family order, searching the real-time positions of the matched maintenance personnel in a radial manner from near to far by taking the family position as a circle center, and dispatching the family order to the searched maintenance personnel;

wherein the mode of acquiring the enterprise position and the home position is one of the following modes: and acquiring address information filled in during registration according to the login account, or selecting/inputting the address information by a user or acquiring the address information in real time by the positioning system.

Preferably, the information in the authentication table includes an ID, a fixed address, and a contact address.

Preferably, the step of searching the real-time positions of the matched maintenance personnel radially from near to far by taking the home position as a center of a circle and dispatching the home order to the searched maintenance personnel further comprises:

acquiring the matched fixed addresses of the maintenance personnel, and judging whether the number of the fixed maintenance personnel in a preset range away from the home position is larger than or equal to a first preset number;

if yes, dispatching the family order to a fixed maintainer within a first preset range away from the family position;

and if not, performing a step of searching the real-time positions of matched maintenance personnel radially from near to far by taking the home position as a circle center, and dispatching the home order to the searched maintenance personnel.

Preferably, the searching the real-time positions of the matched maintenance personnel radially from near to far by taking the home position as a circle center, and dispatching the home order to the searched maintenance personnel comprises:

searching the real-time positions of matched maintenance personnel in a radial manner from near to far by taking the home position as a circle center at preset time intervals until the home order is picked up;

when the number of the maintainers searched in a second preset range is smaller than a second preset number, expanding the search range until the number of the maintainers is equal to a preset value;

judging whether the family order is sent to the searched maintainer or not;

if yes, the service personnel are not dispatched to the searched maintenance personnel;

and if not, sending the service personnel to the searched maintenance personnel.

Preferably, the authentication table stores information of service personnel of the gas company; the energy management method further comprises:

when the object type selected by the user is a family type and the received energy problem fed back by the user is gas leakage, generating a family order and acquiring a family position;

acquiring the real-time position of the service staff according to the service staff information of the gas company in the authentication table;

and determining the service personnel of which the distance between the real-time position of the service personnel and the home position is smaller than a second preset distance, and dispatching the home order to the service personnel.

Preferably, the energy management method further comprises:

after the order is finished, evaluating the order by the account generating the order and storing the order;

the step of matching information of a serviceman in the authentication table according to the family order further comprises the following steps:

acquiring a login account and a registration address of a user;

when the login account has the associated account, acquiring a registration address of the associated account;

when the distance between the associated account and the registration address of the login account is smaller than a third preset distance, searching for an order which is consistent with the energy problem in the family order generated by the login account and is under the associated account;

when the order given by the associated account is favorable and is consistent with the energy problem in the family order generated by the login account, the family order generated by the login account is sent to the order taker corresponding to the order;

and when the order receiving person does not receive the order within the preset time, executing the step of matching information of the maintainers in the authentication list according to the family order.

In the technical scheme provided by the invention, different interfaces and service types are set for different user types; the information of the resident maintenance point, the professional maintainers and the social maintainers is stored in a server in an authentication mode; the enterprise uploads the data of the field sensor through the Internet, the background gives a conclusion whether energy improvement is needed or not according to analysis, after determining that the energy improvement is carried out, enterprise users send orders to a resident maintenance point nearby in real time, and the clients only need to provide a network in the process, so that convenient energy management can be obtained, and the operation and maintenance cost of expenditure is low; for the family user, when finding the energy problems in the aspects of water, electricity, gas and the like in the house, the system can send the order to nearby maintenance personnel only by issuing the order, and the energy problems of the family user can be solved in time. The invention ecologically combines the maintenance point, the maintainer and the user, and enables the user to enjoy the new experience of low time cost, low consumption cost and high service quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic flow chart illustrating a first embodiment of the energy management method of the present invention;

FIG. 2 is a schematic diagram illustrating a detailed process flow when the type of the object selected by the user is a family type in the second embodiment of the energy management method according to the present invention;

fig. 3 is a detailed flowchart illustrating steps of searching a real-time location of a matched maintainer radially from near to far with the home location as a center of a circle and dispatching the home order to the searched maintainer according to a third embodiment of the energy management method of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, a first embodiment of the energy management method of the present invention includes:

and step S100, determining the object type selected by the user, wherein the object type comprises an enterprise type, a family type, a maintainer type and a training type.

Specifically, the invention is based on a multi-object oriented energy management system, which comprises one or more servers and a plurality of user terminals, wherein the user terminals are communicated with the servers through a wireless network. When the system is used, the user terminal needs to register first, and when the system detects a registration request, a registration interface is matched with the user terminal so that a user can input registration information based on the registration interface, wherein the registration information comprises login account information, address information and the like.

When a user enters the system by logging in an account, the type of the object needs to be selected based on a selection instruction sent by the selection interface so as to obtain a corresponding service interface.

Step S210, when the object type selected by the user is a maintainer type, receiving a certification file uploaded by the resident maintenance point and the maintainer, authenticating the resident maintenance point and the maintainer according to the certification file, and storing the information of the resident maintenance point and the maintainer which are successfully authenticated into an authentication table of the server.

Specifically, when the object type selected by the user is a serviceman type, the user identity using the user terminal at the time is indicated as a professional serviceman and a resident service point, and the professional serviceman and the resident service point enter information into the authentication table of the server through the system so as to be used as an object for taking an order. The information in the authentication table comprises ID, fixed address and contact information, wherein the ID is an identity code, such as an identity card number of a professional maintainer and a national code of a resident maintenance point; the distribution of maintenance personnel in a certain area can be known through the fixed address; the serviceman can be contacted through the contact means.

And step S220, when the type of the object selected by the user is a training type, providing an online course training entrance and an offline practice training address for the user, authenticating the user according to the received online course training score and the video of the offline practice training, and storing the information of the user successfully authenticated into the authentication table by the identity of the maintainer.

Specifically, in order to solve the problems of shortage of mechanic resources and high energy management cost of families, the invention provides online integration of social mechanic resources of different subdivided types of works (such as water, electricity, gas and heat), so that professional energy management services can be provided for thousands of households, energy utilization planning of users is facilitated, energy utilization cost of users is reduced, and potential safety hazards are eliminated.

Step S230, when the type of the object selected by the user is an enterprise type, receiving data of each monitoring device uploaded by the user, and analyzing the data within preset time to obtain a conclusion, wherein the data monitored by the monitoring devices comprises water consumption measured by the ultrasonic water meter in an abnormal working period and/or electricity consumption measured by the electric meter in an abnormal working period;

step S231, when the conclusion is that energy improvement is recommended, prompting the user whether to approve energy improvement;

step S232, when feedback that the user agrees to perform energy improvement is received, an enterprise order is generated and an enterprise position is obtained;

step S233, according to the information of the resident service points in the certification table and the position of the enterprise, the enterprise order is sent to the resident service points whose distance between the two is less than the first preset distance.

Specifically, because the energy problem in the enterprise is complex, in order to facilitate the enterprise-type user to know when the energy problem occurs in the enterprise, the enterprise-type user only needs to upload the data monitored by the monitoring device to the server, and the server analyzes the data, for example, when the water consumption measured by the ultrasonic water meter in the abnormal working period for a long time exceeds a preset value, the water leakage is serious; after the data are integrated and analyzed, if the fact that the energy can be saved by more than 10% through means is found, a conclusion that energy improvement is recommended is obtained, a selection instruction whether the user agrees is sent to the user, if the user agrees, an enterprise order is generated by the system, and the enterprise order is sent to a resident maintenance point in a nearby range, so that home service can be provided more quickly. It should be noted that energy problems within an enterprise require more specialized energy management personnel to handle, and thus, the order taking object is only a resident service point.

The following describes energy saving means of different business properties.

Building energy conservation mainly consumes energy in three aspects of air conditioning, lighting and office, and mainly takes electric energy as a main factor. The building energy conservation is mainly based on energy monitoring, an energy-saving scheme combining management means and technical transformation is adopted, the energy efficiency utilization rate is improved, energy waste is avoided, and the building energy-saving effect can reach 10% -15%.

The industrial energy conservation mainly reduces energy consumption and saves cost. The cost of the user is reduced by reasonably selecting a capacity and electricity charge charging mode, determining the capacity of the distribution transformer according to the requirement of the user, timely applying for short-term shutdown of the distribution transformer, adjusting a power factor, reasonably adjusting production at a peak flat valley electricity price stage, implementing separation of large industrial electricity consumption and life service electricity consumption, comparing unit output values and the like on the basis of monitoring the energy consumption of the user by a system, saving energy and improving efficiency from two aspects of management and technology, and the energy-saving effect can reach 10-20%.

Step S240, when the object type selected by the user is the family type, receiving the energy problem and/or the uploaded picture fed back by the user, generating a family order according to the energy problem and/or the picture and acquiring the position of the family;

step S241, matching information of a maintainer in the authentication list according to the family order;

step S242, searching the real-time positions of the matched maintainers radially from near to far with the home position as a circle center, and dispatching the home order to the searched maintainers.

Specifically, when a family type user finds an energy problem, the problem is uploaded to the system in the form of characters and/or pictures, the system generates a family order and matches the family order with a maintainer in the authentication table, for example, if the characters are water leakage of a washing machine, the maintainer is the maintainer recorded under the name of a water work station through character matching, and then the family order is sent nearby according to the real-time position of the maintainer matched with the family order.

Wherein the mode of acquiring the enterprise position and the home position is one of the following modes: and acquiring address information filled in during registration according to the login account, or selecting/inputting the address information by a user or acquiring the address information in real time by the positioning system.

In the technical scheme provided by the invention, different interfaces and service types are set for different user types; the information of the resident maintenance point, the professional maintainers and the social maintainers is stored in a server in an authentication mode; the enterprise uploads the data of the field sensor through the Internet, the background gives a conclusion whether energy improvement is needed or not according to analysis, after determining that the energy improvement is carried out, enterprise users send orders to a resident maintenance point nearby in real time, and the clients only need to provide a network in the process, so that convenient energy management can be obtained, and the operation and maintenance cost of expenditure is low; for the family user, when finding the energy problems in the aspects of water, electricity, gas and the like in the house, the system can send the order to nearby maintenance personnel only by issuing the order, and the energy problems of the family user can be solved in time. The invention ecologically combines the maintenance point, the maintainer and the user, and enables the user to enjoy the new experience of low time cost, low consumption cost and high service quality.

Further, referring to fig. 2, a second embodiment of the energy management method according to the present invention is based on the first embodiment, wherein the step of searching the real-time locations of the matched maintenance workers radially from near to far with the home location as a center of a circle, and dispatching the home order to the searched maintenance workers further includes:

step S243, acquiring the matched fixed addresses of the maintenance personnel, and judging whether the number of the fixed maintenance personnel in the preset range away from the home position is larger than or equal to a first preset number;

if yes, executing step S244, sending the home order to a fixed maintenance person within a first preset range from the home location;

if not, go to step S242.

In this embodiment, when sending the home order, the maintenance person who lives nearby is first identified by using the fixed address, and since the maintenance person lives nearby, if the home order has a subsequent problem, the subsequent problem is more conveniently handled, and the user is relieved. When there are more nearby maintenance workers, which indicates that the order taking probability is close to 100%, the mobile maintenance workers are no longer dispatched by matching the real-time positions of the maintenance workers, and the step S242 is executed unless the nearby maintenance workers do not take orders for a long time.

Further, referring to fig. 3, on the basis of the first or second embodiment, the searching for the real-time locations of the matched maintainers radially from near to far with the home location as a center, and dispatching the home order to the searched maintainers includes:

step S2421, searching the real-time positions of matched maintainers in a radial manner from near to far by taking the home position as a circle center at preset time intervals until the home order is received;

step S2422, when the number of the maintainers searched in a second preset range is smaller than a second preset number, expanding the search range until the number of the maintainers is equal to a preset value;

step S2423, judging whether the family order is sent to the searched maintainer;

if yes, executing step S2424, and not sending the searched maintainer;

if not, step S2425 is executed to dispatch the searched serviceman.

In this embodiment, when sending the family order to the mobile maintainer, the order receiving rate is ensured by ensuring the number of the maintainers to which the order can be sent, so as to bring better use experience to the user.

Furthermore, the authentication table stores the information of service personnel of the gas company; the energy management method further comprises:

step S250, when the type of the object selected by the user is a family type and the received energy problem fed back by the user is gas leakage, generating a family order and acquiring a family position;

step S251, acquiring the real-time position of the service personnel according to the service personnel information of the gas company in the authentication table;

and step S252, determining the service personnel of which the distance between the real-time position of the service personnel and the home position is smaller than a second preset distance, and dispatching the home order to the service personnel.

Specifically, because gas leakage is the problem that needs to be handled urgently, can bring very big hidden danger, need the special messenger to handle moreover, when the energy problem received was gas leakage, only match the service personnel of gas company in the authentication list to local delivery guarantees that the problem can in time be solved.

Further, the energy management method further comprises:

step S300, after the order is finished, evaluating the order by the account generating the order and storing the order;

the step of matching information of a serviceman in the authentication table according to the family order further comprises the following steps:

step S400, obtaining a login account and a registration address of a user;

step S401, when the login account has an associated account, acquiring a registration address of the associated account;

step S402, when the distance between the associated account and the registration address of the login account is smaller than a third preset distance, searching an order which is consistent with the energy problem in the family order generated by the login account and is under the associated account;

step S403, when the given order of the family order generated by the login account is good, the family order generated by the login account is sent to the order taker corresponding to the order;

and S404, when the order taker does not take the order within the preset time, executing the step of matching the information of the maintainer in the authentication list according to the family order.

Specifically, in order to provide better service to the user, the system preferentially orders highly rated maintainers and resident service points when ordering. Meanwhile, the login account is more relieved from recommended maintenance personnel obtained from the associated account by utilizing the public praise effect, so that the recommended maintenance personnel are preferentially sent to the order taker which is evaluated well under the associated account when the order is sent, but the premise is that the associated account is closer to the login account, and the order taker has higher probability of activity in the living area of the associated account and the login account and higher probability of order taking.

In the description herein, references to the description of the term "one embodiment," "another embodiment," or "first through xth embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, method steps, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. An energy management method, comprising the steps of:

determining an object type selected by a user, wherein the object type comprises a business type, a family type, a maintainer type and a training type;

when the object type selected by the user is a maintainer type, receiving a certification document uploaded by a resident maintenance point and the identity of the maintainer, authenticating the resident maintenance point and the maintainer according to the certification document, and storing the information of the resident maintenance point and the maintainer which are successfully authenticated into an authentication table of a server;

when the type of the object selected by the user is a training type, providing an online course training entrance and an offline practical training address for the user, authenticating the user according to the received online course training score and the video of the offline practical training, and storing the information of the user successfully authenticated into the authentication table by the identity of a maintainer;

when the type of the object selected by the user is an enterprise type, receiving data of each monitoring device uploaded by the user, and analyzing the data within preset time to obtain a conclusion, wherein the data monitored by the monitoring devices comprise water consumption measured by the ultrasonic water meter in an abnormal working period and/or electricity consumption measured by the electric meter in an abnormal working period;

when the conclusion is that energy improvement is recommended, prompting the user whether to approve energy improvement;

when feedback that a user agrees to perform energy improvement is received, generating an enterprise order and acquiring an enterprise position;

according to the information of the resident maintenance points in the authentication table and the positions of the enterprises, the enterprise orders are sent to the resident maintenance points with the distance smaller than a first preset distance;

when the object type selected by the user is a family type, receiving an energy problem and/or an uploaded picture fed back by the user, generating a family order according to the energy problem and/or the picture, and acquiring a family position;

matching information of maintenance personnel in the authentication table according to the family order, searching the real-time positions of the matched maintenance personnel in a radial manner from near to far by taking the family position as a circle center, and dispatching the family order to the searched maintenance personnel;

wherein the mode of acquiring the enterprise position and the home position is one of the following modes: and acquiring address information filled in during registration according to the login account, or selecting/inputting the address information by a user or acquiring the address information in real time by the positioning system.

2. The energy management method according to claim 1, wherein the information in the authentication table includes an ID, a fixed address, and a contact address.

3. The energy management method according to claim 2, wherein the step of searching for the real-time locations of the matched maintenance personnel radially from near to far around the home location and dispatching the home order to the searched maintenance personnel further comprises:

acquiring the matched fixed addresses of the maintenance personnel, and judging whether the number of the fixed maintenance personnel in a preset range away from the home position is larger than or equal to a first preset number;

if yes, dispatching the family order to a fixed maintainer within a first preset range away from the family position;

and if not, performing a step of searching the real-time positions of matched maintenance personnel radially from near to far by taking the home position as a circle center, and dispatching the home order to the searched maintenance personnel.

4. The energy management method according to any one of claims 1 to 3, wherein the searching for the real-time locations of the matched servicemen radially from near to far with the home location as a center, and the dispatching the home order to the searched servicemen comprises:

searching the real-time positions of matched maintenance personnel in a radial manner from near to far by taking the home position as a circle center at preset time intervals until the home order is picked up;

when the number of the maintainers searched in a second preset range is smaller than a second preset number, expanding the search range until the number of the maintainers is equal to the second preset number;

judging whether the family order is sent to the searched maintainer or not;

if yes, the service personnel are not dispatched to the searched maintenance personnel;

and if not, sending the service personnel to the searched maintenance personnel.

5. The energy management method according to claim 1, wherein the authentication table stores information on a service person of a gas company; the energy management method further comprises:

when the object type selected by the user is a family type and the received energy problem fed back by the user is gas leakage, generating a family order and acquiring a family position;

acquiring the real-time position of the service staff according to the service staff information of the gas company in the authentication table;

and determining the service personnel of which the distance between the real-time position of the service personnel and the home position is smaller than a second preset distance, and dispatching the home order to the service personnel.

6. The energy management method of claim 1, wherein the energy management method further comprises:

after the order is finished, evaluating the order by the account generating the order and storing the order;

the step of matching information of a serviceman in the authentication table according to the family order further comprises the following steps:

acquiring a login account and a registration address of a user;

when the login account has the associated account, acquiring a registration address of the associated account;

when the distance between the associated account and the registration address of the login account is smaller than a third preset distance, searching for an order which is consistent with the energy problem in the family order generated by the login account and is under the associated account;

when the order giving corresponding to the energy problem in the family order generated by the login account is good, the family order generated by the login account is sent to a maintainer receiving the order corresponding to the energy problem;

and when the order-receiving maintainer does not receive the order within the preset time, executing the step of matching the information of the maintainer in the authentication table according to the family order.

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