CN205725068U - A kind of management system for monitoring of vanadium cell - Google Patents

Abstract

The purpose of this utility model is to provide the management system for monitoring of a kind of vanadium cell, including reserve battery/vanadium cell, button, power module and inverter, the outfan of reserve battery/vanadium cell is connected with power module and inverter respectively, connect on battery/vanadium cell and have the monitoring management device detecting battery charging condition in real time, monitoring management device includes intelligent controller, the input of intelligent controller is connected with battery detection module and button, and outfan is connected with control display module, the outfan of battery/vanadium cell respectively with intelligent controller, battery detection module and control display module connect, cross and monitor control system is set on battery, monitor in real time with the physical parameter to battery, battery status is assessed, inline diagnosis and early warning, battery is comprehensively monitored.

Description

A kind of management system for monitoring of vanadium cell

Technical field

This utility model relates to the field in terms of battery, including vanadium cell and relevant auxiliary monitoring instrument carry out research and development with Improve, refer more particularly to the management system for monitoring of a kind of vanadium cell.

Background technology

Along with growth in the living standard, people increase in daily requirement the most day by day, and the demand of battery increases the most greatly Add, in the environment of currently to battery performance high request, the most of a relatively high to the research and development of battery and the requirement of production, and charge Battery is from being belonging to a kind of consumable goods, especially vanadium cell in broad sense, although the capacity of vanadium cell disappears with the time of use Consumption is little, also there will be performance in long-time use and change occurs, so that impact uses, but little energy in the case of instantly Enough duty and charging and discharging states to battery are monitored and control, it is impossible to the enough information to battery definitely is entered The effective monitoring of row and process, so that occurring that battery goes wrong just it can be seen that so that affect normal operation.

Therefore it provides the management system for monitoring of a kind of vanadium cell, to passing through to arrange Monitoring and Controlling system on battery System, monitor in real time with the physical parameter to battery, battery status assessment, inline diagnosis and early warning, battery is comprehensively supervised Survey, automated intelligent discharge and recharge, improve the perfect protection of many batteries, extend the service life of battery, just become people in the art The problem that member needs solution badly.

Utility model content

The purpose of this utility model is to provide the management system for monitoring of a kind of vanadium cell, to passing through to set on battery Put monitor control system, monitor in real time with the physical parameter to battery, battery status assessment, inline diagnosis and early warning, to battery Comprehensively monitor, automated intelligent discharge and recharge, improve the perfect protection of many batteries, extend the service life of battery.

For solving technical problem described in background technology, this utility model by the following technical solutions:

The management system for monitoring of a kind of vanadium cell, including reserve battery/vanadium cell, button, power module and inverter, institute The outfan of the reserve battery/vanadium cell stated is connected with power module and inverter respectively, described reserve battery/vanadium cell Upper connection has the monitoring management device detecting battery charging condition in real time, and described monitoring management device includes Based Intelligent Control Device, the input of described intelligent controller is connected with battery detection module and button, and outfan is with control display module even Connecing, the outfan of described battery/vanadium cell is connected with intelligent controller, battery detection module and control display module respectively.

Preferably, described battery detection module include Hall voltage sensor, open-circuit voltage, Hall current sensor and Temperature sensor, and outfan is connected respectively to the input of intelligent controller, described Hall current sensor is divided into detection With with protection with two kinds, the data acquisition work process of vanadium cell monitored in real time by battery detection module and accordingly Feedback processing.

Preferably, described control display module includes LED instruction, alarm, display screen and relay module, and input The outfan of end respectively intelligent controller connects, and during by controlling display module to the work of vanadium cell adopts battery detecting module The data of collection carry out processing and send corresponding response, to detect battery and to control to adjust, reach intelligent recharge and discharge Effect.

Preferably, described temperature sensor is to align the sensor that the temperature of liquid, negative liquid and environment is monitored, By temperature sensor, the temperature under different condition is adjusted, vanadium cell can be carried out omnibearing temperature survey, Feedback accuracy is controlled to improve.

Preferably, the interface of described display screen and the interface of intelligent control module are by the two-way company of Rs485 protocol bus Connecing, the interface of described display screen is bi-directionally connected with the interface of optical fiber communication modules, described light communication module and EMS communication Interface is bi-directionally connected, and data show to touch screen through communication transfer, it is provided that optical communication interface, convenient and EMS communication, real Existing energy management, with optical communication interface, protocol open.

Preferably, the outfan of described relay module is respectively and handover module and circulation between reserve battery vanadium cell The input of pump connects, and the outfan of inverter is connected with circulating pump, relay intelligent control module process, to realize patrolling Collect and control, the most manually and automatically control.

Preferably, the output voltage of described reserve battery/vanadium cell module is 48V, described power module defeated Going out voltage and be 24V, the output voltage of described inverter is 220V, is put forward monitoring system by stable output voltage Power supply signal, with can be more stable the information to vanadium cell feed back, by inverter, voltage carried out your change process, Output is stablized 220V and is acted on circulating pump, to realize the Automatic Cycle discharge and recharge of vanadium cell.

The beneficial effects of the utility model are:

1), by arranging monitor control system on battery, monitor in real time with the physical parameter to battery, battery status is commented Estimate, inline diagnosis and early warning, battery is comprehensively monitored.

2), automated intelligent discharge and recharge, improve the perfect protection of many batteries, extend the service life of battery.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present application or technical scheme of the prior art, below will be to institute in embodiment The accompanying drawing used is needed to be briefly described, it should be apparent that, the accompanying drawing in describing below is only described in this utility model Some embodiments, for those of ordinary skill in the art, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of the management system for monitoring detailed description of the invention of a kind of vanadium cell of this utility model.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that the technical solution of the utility model, below in conjunction with accompanying drawing pair This utility model is further detailed.

Refer to Fig. 1, the management system for monitoring of a kind of vanadium cell, including reserve battery/vanadium cell, button, power module And inverter, the outfan of described reserve battery/vanadium cell is connected with power module and inverter respectively, described standby electricity Connecting on pond/vanadium cell and have the monitoring management device detecting battery charging condition in real time, described monitoring management device includes Intelligent controller, the input of described intelligent controller is connected with battery detection module and button, and outfan shows with control Showing that module connects, the outfan of described battery/vanadium cell shows mould with intelligent controller, battery detection module and control respectively Block connects.

In the present embodiment, described battery detection module includes that Hall voltage sensor, open-circuit voltage, Hall current sense Device and temperature sensor, and outfan is connected respectively to the input of intelligent controller, described Hall current sensor is divided into Detection with and protection with two kinds, the data acquisition work process of vanadium cell monitored in real time by battery detection module with Corresponding feedback processing.

In the present embodiment, described control display module includes LED instruction, alarm, display screen and relay module, and The outfan of input respectively intelligent controller connects, by control display module to during the work of vanadium cell to battery detecting mould The data of block collection carry out processing and send corresponding response, to detect battery and to control to adjust, reach intelligence and fill The effect of electric discharge.

In the present embodiment, described temperature sensor is to align the biography that the temperature of liquid, negative liquid and environment is monitored Sensor, is adjusted the temperature under different condition by temperature sensor, vanadium cell can be carried out omnibearing temperature Measure, control feedback accuracy to improve.

In the present embodiment, the interface of described display screen and the interface of intelligent control module are double by Rs485 protocol bus To connection, the interface of described display screen is bi-directionally connected with the interface of optical fiber communication modules, described light communication module and EMS Communication interface is bi-directionally connected, and data show to touch screen through communication transfer, it is provided that optical communication interface, convenient logical with EMS News, it is achieved energy management, with optical communication interface, protocol open.

In the present embodiment, the outfan of described relay module respectively and between reserve battery vanadium cell handover module and The input of circulating pump connects, and the outfan of inverter is connected with circulating pump, relay intelligent control module process, with reality Existing logic control, the most manually and automatically controls.

In the present embodiment, the output voltage of described reserve battery/vanadium cell module is 48V, described power module Output voltage be 24V, the output voltage of described inverter is 220V, is entered monitoring system by stable output voltage Row provides the signal of telecommunication, with can be more stable the information to vanadium cell feed back, by inverter, voltage carried out your and becomes Processing, output is stablized 220V and is acted on circulating pump, to realize the Automatic Cycle discharge and recharge of vanadium cell.

Realize monitoring battery physical parameter in real time by battery management system, battery status is assessed, inline diagnosis and pre- Alert, the parameter simulation amount of vanadium cell is gathered, by relay by battery management system by external sensor and hardware circuit Module intelligent control module processes, it is achieved logic control, and vanadium cell fills data through communication transfer to touch screen Display Realization The comprehensive monitoring of discharge condition, to realize the charge and discharge control of intelligence, is controlled by omnibearing battery detection, right to provide The perfect protection of vanadium cell.

By the way of explanation, only describe some one exemplary embodiment of the present utility model above, undoubtedly, for Those of ordinary skill in the art, in the case of without departing from spirit and scope of the present utility model, can be with various different Described embodiment is modified by mode.Therefore, above-mentioned accompanying drawing and description are the most illustrative, should not be construed as Restriction to this utility model claims.

Claims (7)

1. a management system for monitoring for vanadium cell, including reserve battery/vanadium cell, button, power module and inverter, described The outfan of reserve battery/vanadium cell be connected with power module and inverter respectively, it is characterised in that: described standby electricity Connecting on pond/vanadium cell and have the monitoring management device detecting battery charging condition in real time, described monitoring management device includes Intelligent controller, the input of described intelligent controller is connected with battery detection module and button, and outfan shows with control Showing that module connects, the outfan of described battery/vanadium cell shows mould with intelligent controller, battery detection module and control respectively Block connects.

The management system for monitoring of a kind of vanadium cell the most according to claim 1, it is characterised in that described battery detection mould Block includes Hall voltage sensor, open-circuit voltage, Hall current sensor and temperature sensor, and outfan is connected respectively to intelligence The input of energy controller, described Hall current sensor is divided into detection to use and protection is with two kinds.

The management system for monitoring of a kind of vanadium cell the most according to claim 1, it is characterised in that described control display mould Block includes LED instruction, alarm, display screen and relay module, and the outfan of input intelligent controller respectively connects.

The management system for monitoring of a kind of vanadium cell the most according to claim 2, it is characterised in that described temperature sensor It is to align the sensor that the temperature of liquid, negative liquid and environment is monitored.

The management system for monitoring of a kind of vanadium cell the most according to claim 3, it is characterised in that connecing of described display screen Mouth is bi-directionally connected by Rs485 protocol bus with the interface of intelligent control module, the interface of described display screen and optical-fibre communications The interface of module is bi-directionally connected, and described light communication module is bi-directionally connected with EMS communication interface.

The management system for monitoring of a kind of vanadium cell the most according to claim 3, it is characterised in that described relay module Outfan input with handover module between reserve battery vanadium cell and circulating pump respectively be connected, and the outfan of inverter It is connected with circulating pump.

The management system for monitoring of a kind of vanadium cell the most according to claim 1, it is characterised in that described reserve battery/ The output voltage of vanadium cell module is 48V, and the output voltage of described power module is 24V, described inverter defeated Going out voltage is 220V.