CN109061333A - Energy management system equipment actual life test method and system - Google Patents

Abstract

The invention discloses a kind of energy management system equipment actual life test methods, and this method comprises the following steps: obtaining the affecting parameters information of monitoring device；Obtain the theoretical lifetime data of the monitoring device；The actual life of the monitoring device is calculated according to the affecting parameters information and the theoretical lifetime data.In this way, by the actual life for calculating each equipment in energy management system, user can replace in advance before the equipment reaches the service life, achieve the effect that early warning, cause system entirely to be paralysed when would not reach service life because of equipment, when needing to check maintenance, can also take a significant amount of time cost and human cost, the economic loss for reducing entire energy management system is that whole system is more intelligent and humanized.The invention also discloses a kind of energy management system equipment actual life test macros.

Description

Energy management system equipment actual life test method and system

Technical field

The present invention relates to energy management equipment control technology fields, practical more particularly to a kind of energy management system equipment Life testing method and system.

Background technique

Today, the energy have become the indispensable fundamental of human society.On this celestial body, as the energy is increasingly tight And environmental degradation, obtain economy and the energy of environmental protection facilitated to become urgently asking for a relationship human survival and sustainable development Topic finds the solution for improving efficiency of energy utilization as small to social family, big being total to the whole society such as enterprise and government Same responsibility.All kinds of water, electricity, gas equipment and classification energy consumption be industrial plants, social infrastructure and all kinds of building construction investments and One of main composition part of daily operating cost, the configuration of rational deployment energy facilities and control function can significantly improve facility With efficiency of energy utilization and reduce cost.

Energy management system uses layered distribution type system architecture, to each classification energy such as electric power, the combustion gas and waters of building Consumption data are acquired, handle, and analyze building energy consumption situation, realize building energy conservation application etc..Pass through energy programme, energy prison Control, energy statistics, energy-consuming analysis, emphasis energy consumption equipment management, the multiple means such as energy measurement equipment management manage enterprise For reason person to the energy cost specific gravity of enterprise, development trend has accurate grasp, and the energy-consuming plan target of enterprise is decomposed To each production division workshop, keeps energy saving responsibility clear, promote the healthy and stable development of enterprise.

It will use considerable electrical equipment in energy management system, the service life of these equipment will affect system Smooth operating.Although each equipment all has the theoretical service life of oneself, user is not aware that when in use The equipment is that degree used on earth, it is not known that its degree of fatigue etc..In this way, even if knowing its theoretical service life, Successfully continuously operating for system is not ensured that.

Therefore, a kind of test method and system for being able to know that equipment actual life is needed.

Summary of the invention

It is an object of the present invention to energy management system in use, providing a kind of reality being able to know that using equipment The energy management system equipment actual life test method and system of service life or access times or fatigue period.

According to an aspect of the invention, there is provided a kind of energy management system equipment actual life test method, as follows Step:

Obtain the affecting parameters information of monitoring device；

Obtain the theoretical lifetime data of the monitoring device；

The actual life of the monitoring device is calculated according to the affecting parameters information and the theoretical lifetime data.

The affecting parameters information includes the operating temperature of the monitoring device in one of the embodiments, input electricity Stream exports electric current, using one or more in time and oil temperature.

The step of affecting parameters information for obtaining monitoring device in one of the embodiments, for according to user's Input affecting parameters information described in acquisition of information.

The step of affecting parameters information for obtaining monitoring device in one of the embodiments, for according to collector Obtain the affecting parameters information.

The runing time of the monitoring device according to the collector real-time monitoring in one of the embodiments, and tire out The meter calculating adduction acquisition monitoring device uses the time.

It is described according to the affecting parameters information and described in the theoretical lifetime data calculates in one of the embodiments, The step of actual life of monitoring device, comprising:

The deviation data of the monitoring device is calculated according to the affecting parameters information；

The actual life of the monitoring device is calculated according to the deviation data and the theoretical lifetime data.

According to another aspect of the present invention, a kind of energy management system equipment actual life test macro is also provided, is wrapped It includes:

First acquisition module, for obtaining the affecting parameters information of monitoring device；

Memory, for storing the theoretical lifetime data of the monitoring device；

Second acquisition module, for obtaining the theoretical lifetime data of the monitoring device；And

Computing module, for calculating the monitoring device according to the affecting parameters information and the theoretical lifetime data Actual life.

The system in one of the embodiments, further include:

Cue module, for sending prompt information to user according to the actual life, the prompt information includes Fatigue strength, remaining life or the remaining access times information of the monitoring device.

The first acquisition module is user input data acquisition module in one of the embodiments, according to the input of user Affecting parameters information described in acquisition of information；Or

First acquisition module is data collector, obtains the affecting parameters information according to the data collector.

The computing module includes: in one of the embodiments,

Deviation computing unit, for calculating the deviation data of the monitoring device according to the affecting parameters information；

Actual life computing unit is set for calculating the monitoring according to the deviation data and the theoretical lifetime data Standby actual life.

In this way, being monitored according to the energy management system equipment actual life test method and system of the disclosure by obtaining The affecting parameters information of equipment and the theoretical lifetime data of monitoring device, according to affecting parameters information and theoretical lifetime data meter Calculate the actual life of monitoring device.In this way, being used by the actual life for calculating each equipment in energy management system Family can be replaced in advance before the equipment reaches the service life, achieve the effect that early warning, would not reach service life because of equipment When cause system entirely to be paralysed, when needing to check maintenance, can also take a significant amount of time cost and human cost, reduce the entire energy The economic loss of management system is that whole system is more intelligent and humanized.

Detailed description of the invention

Fig. 1 shows the process of energy management system equipment actual life test method according to an embodiment of the invention Figure；

Fig. 2 shows the modules of energy management system equipment actual life test macro according to an embodiment of the invention to show It is intended to.

Specific embodiment

The preferred embodiment of the disclosure is more fully described below with reference to accompanying drawings.Although showing the disclosure in attached drawing Preferred embodiment, however, it is to be appreciated that may be realized in various forms the disclosure without the embodiment party that should be illustrated here Formula is limited.On the contrary, these embodiments are provided so that this disclosure will be more thorough and complete, and can be by the disclosure Range is completely communicated to those skilled in the art.

As previously mentioned, will use considerable electrical equipment in energy management system, the service life of these equipment It will affect the smooth operating of system.Although each equipment all has the theoretical service life of oneself, user is using When to be not aware that the equipment on earth be that degree used, it is not known that its degree of fatigue etc..In this way, even if knowing that its theory makes With the service life, successfully continuously operating for system is not ensured that yet.And it is practical according to the energy management system equipment of the disclosure Life testing method and system, by obtaining the affecting parameters information of monitoring device and the theoretical lifetime data of monitoring device, The actual life of monitoring device is calculated according to affecting parameters information and theoretical lifetime data.In this way, can source capsule by calculating The actual life of each equipment in reason system, user can replace in advance before the equipment reaches the service life, reach early warning Effect, cause system entirely to be paralysed when would not reach service life because of equipment, when needing to check maintenance, can also spend big Time cost and human cost are measured, the economic loss of entire energy management system is reduced, is that whole system is more intelligent and people Property.

1-2 specifically describes the embodiment of the present invention below with reference to accompanying drawings.

Fig. 1 shows the process of energy management system equipment actual life test method according to an embodiment of the invention Figure.A kind of energy management system equipment actual life test method 100, this method 100 includes the following steps:

Step S120: the affecting parameters information of monitoring device is obtained.

It will use considerable electrical equipment in energy management system, the service life of these equipment will affect system Smooth operating.Because the actual life for detecting the equipment in multiple equipment within the system is very necessary.Wherein, on The operating temperature that affecting parameters information includes the monitoring device is stated, input current exports electric current, using in time and oil temperature It is one or more.

Step S140: the theoretical lifetime data of the monitoring device is obtained.

Each equipment all has the theoretical service life of oneself, wherein the theory lifetime data, which can store, to be stored In device, when use, is directly acquired.

Wherein it is possible to which the affecting parameters information according to the input acquisition of information of user, can also obtain according to collector The affecting parameters information.For example, the runing time of the monitoring device according to collector real-time monitoring, and cumulative calculation sums it up Obtain the monitoring device uses the time.

Step S160: the actual use longevity of the monitoring device is calculated according to affecting parameters information and theoretical lifetime data Life.

Wherein, the actual use of the monitoring device is calculated according to the affecting parameters information and the theoretical lifetime data The step of service life, may include steps of:

The deviation data of the monitoring device is calculated according to the affecting parameters information；

The actual life of the monitoring device is calculated according to the deviation data and the theoretical lifetime data.

In this way, just obtaining the actual life of the equipment, the actual life and actual use number, residue make Fatigue exponent with the number equipment is related, it can calculates remaining access times according to the actual life and has been somebody's turn to do The fatigue exponent of equipment is related.To which user is known that the time that the equipment can also use according to the information, so as to timely Replacement, prevents systemic breakdown from resulting in greater loss.

According to the energy management system equipment actual life test method 100 of the disclosure, by the shadow for obtaining monitoring device The theoretical lifetime data for ringing parameter information and monitoring device calculates monitoring according to affecting parameters information and theoretical lifetime data and sets Standby actual life.In this way, by the actual life for calculating each equipment in energy management system, user can be The equipment, which reaches, to be replaced in advance before the service life, achieved the effect that early warning, cause when would not reach service life because of equipment be The entire paralysis of system, when needing to check maintenance, can also take a significant amount of time cost and human cost, reduce entire energy management system Economic loss, be that whole system is more intelligent and humanized.

Fig. 2 shows the modules of energy management system equipment actual life test macro according to an embodiment of the invention to show It is intended to.

With reference to Fig. 2, a kind of energy management system equipment actual life test macro 200, the system 200 includes the first acquisition Module 210, memory 220, the second acquisition module 230 and computing module 240.First acquisition module 210 obtains monitoring device Affecting parameters information, memory 220 store the theoretical lifetime data of the monitoring device, and the second acquisition module 230 obtains described The theoretical lifetime data of monitoring device, computing module 240 calculate the monitoring according to affecting parameters information and theoretical lifetime data The actual life of equipment.

Wherein, above-mentioned affecting parameters information includes the operating temperature of the monitoring device, and input current exports electric current, makes With one or more in time and oil temperature.

With reference to Fig. 2, which further includes cue module 250.Prompt mould Block 250 sends prompt information to user according to the actual life, and the prompt information includes the tired of the monitoring device Labor intensity, remaining life or remaining access times information.To which, user is known that the equipment can be with according to the information The time used prevents systemic breakdown from resulting in greater loss to replace in time.

Wherein, above-mentioned first acquisition module 210 can be user input data acquisition module, according to the input information of user Obtain the affecting parameters information.Alternatively, the first acquisition module 210 can be data collector, according to the data collector Obtain the affecting parameters information.For example, the runing time of the monitoring device according to collector real-time monitoring, and cumulative calculation The adduction acquisition monitoring device uses the time.

Wherein, above-mentioned computing module 240 may include: deviation computing unit and actual life computing unit (not shown). Deviation computing unit calculates the deviation data of the monitoring device, actual life computing unit root according to the affecting parameters information The actual life of the monitoring device is calculated according to the deviation data and the theoretical lifetime data.In this way, just obtaining The actual life of the equipment, the actual life and actual use number, the remaining access times equipment it is tired Labor correlation of indices, it can the fatigue exponent for calculating the remaining access times equipment according to the actual life is related. To which user is known that the time that the equipment can also use according to the information, to replace in time, prevents systemic breakdown from making The loss of Cheng Geng great.

According to the energy management system equipment actual life test macro 200 of the disclosure, by the shadow for obtaining monitoring device The theoretical lifetime data for ringing parameter information and monitoring device calculates monitoring according to affecting parameters information and theoretical lifetime data and sets Standby actual life.In this way, by the actual life for calculating each equipment in energy management system, user can be The equipment, which reaches, to be replaced in advance before the service life, achieved the effect that early warning, cause when would not reach service life because of equipment be The entire paralysis of system, when needing to check maintenance, can also take a significant amount of time cost and human cost, reduce entire energy management system Economic loss, be that whole system is more intelligent and humanized.

The flow chart and block diagram in the drawings show the bodies in the cards of the system of multiple embodiments according to the present invention System structure, function and operation.In this regard, each box in flowchart or block diagram can represent a module, program segment or A part of code, a part of the module, section or code include one or more for realizing defined logic function The executable instruction of energy.It should also be noted that in some implementations as replacements, the function of being marked in box can also be with not It is same as the sequence marked in attached drawing generation.For example, two continuous boxes can actually be basically executed in parallel, they have When can also execute in the opposite order, this depends on the function involved.It is also noted that in block diagram and or flow chart Each box and the box in block diagram and or flow chart combination, can with execute as defined in functions or operations it is dedicated Hardware based system realize, or can realize using a combination of dedicated hardware and computer instructions.

Various embodiments of the present invention are described above, above description is exemplary, and non-exclusive, and It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill Many modifications and changes are obvious for the those of ordinary skill in art field.The selection of term used herein, purport In the principle, practical application or improvement to the technology in market for best explaining each embodiment, or make the art Other those of ordinary skill can understand each embodiment disclosed herein.

Claims (10)

1. a kind of energy management system equipment actual life test method, which comprises the steps of:

Obtain the affecting parameters information of monitoring device；

Obtain the theoretical lifetime data of the monitoring device；

The actual life of the monitoring device is calculated according to the affecting parameters information and the theoretical lifetime data.

2. energy management system equipment actual life test method according to claim 1, which is characterized in that the influence Parameter information includes the operating temperature of the monitoring device, input current, exports electric current, using a kind of in time and oil temperature or It is a variety of.

3. energy management system equipment actual life test method according to claim 2, which is characterized in that the acquisition The step of affecting parameters information of monitoring device is the affecting parameters information according to the input acquisition of information of user.

4. energy management system equipment actual life test method according to claim 2, which is characterized in that the acquisition The step of affecting parameters information of monitoring device, to obtain the affecting parameters information according to collector.

5. energy management system equipment actual life test method according to claim 4, which is characterized in that according to described The runing time of monitoring device described in collector real-time monitoring, and when the use of the cumulative calculation adduction acquisition monitoring device Between.

6. energy management system equipment actual life test method according to claim 1 or 2, which is characterized in that described The step of calculating the actual life of the monitoring device according to the affecting parameters information and the theoretical lifetime data, packet It includes:

The deviation data of the monitoring device is calculated according to the affecting parameters information；

The actual life of the monitoring device is calculated according to the deviation data and the theoretical lifetime data.

7. a kind of energy management system equipment actual life test macro characterized by comprising

First acquisition module, for obtaining the affecting parameters information of monitoring device；

Memory, for storing the theoretical lifetime data of the monitoring device；

Second acquisition module, for obtaining the theoretical lifetime data of the monitoring device；And

Computing module, for calculating the reality of the monitoring device according to the affecting parameters information and the theoretical lifetime data Service life.

8. energy management system equipment actual life test macro according to claim 7, which is characterized in that further include:

Cue module, for sending prompt information to user according to the actual life, the prompt information includes described Fatigue strength, remaining life or the remaining access times information of monitoring device.

9. energy management system equipment actual life test macro according to claim 7, which is characterized in that the first acquisition Module is user input data acquisition module, according to affecting parameters information described in the input acquisition of information of user；Or

First acquisition module is data collector, obtains the affecting parameters information according to the data collector.

10. energy management system equipment actual life test macro according to claim 7, which is characterized in that the meter Calculating module includes:

Deviation computing unit, for calculating the deviation data of the monitoring device according to the affecting parameters information；

Actual life computing unit, for calculating the monitoring device according to the deviation data and the theoretical lifetime data Actual life.