CN202502225U - Energy-saving apparatus for battery detection - Google Patents

Abstract

The utility model provides an energy-saving apparatus for battery detection, wherein the apparatus is formed by a battery assembly array TB, a controller C, a power supply bus ZX, constant-current sources from 1 to N and batteries from 1 to N. Under the control of the controller N, the battery assembly array TB supplies power for the power supply bus ZX and power of the constant-current sources from 1 to N is supplied by the power supply bus ZX and the constant-current sources from 1 to N charge the batteries from 1 to N. When the batteries are discharged, due to bidirection of the constant-current sources from 1 to N, the discharging energy of the batteries from 1 to N is transmitted to the power supply bus ZX and can be utilized by other batteries for charging; if the voltage of the power supply bus ZX is boosted, the controller C controls the power supply bus ZX to charge the battery assembly array TB and no other energy consumption is produced except the efficiency consumption during the device working process, thereby realizing energy conservation during the battery detection process.

Description

A kind of energy saver of battery detecting

Technical field

The utility model relates to a kind of energy saver of battery detecting, belongs to the battery detecting field.

Background technology

In the production run of battery, all to carry out the charge and discharge test to battery; During charging; An additional power source capable of using charges to battery, and discharge then utilizes the resistance or the electronic load that are connected in the cell circuit that battery is discharged, and the energy in the battery has been slatterned in vain.

Along with the development of electrokinetic cell in recent years, the energy of electrokinetic cell storage is increasing, and is very surprising at the electric energy and the electric energy that wastes of the consumption of electrokinetic cell testing process.

And because the needs of production technology, a large amount of batteries are after changing into completion, and the time that need shelve about one month wears out, if in the time that in fact this section shelved battery is discharged and recharged application, the performance of battery is benefited.

The consumption in vain of the utility model electrokinetic cell testing process deeply concerned just electric energy changes aging mode in the cell degradation time of shelving, and proposes a kind of energy saver of battery detecting, the purpose that save the energy to reach, improves power consumption efficiency.

Summary of the invention

The utility model is intended to invent a kind of energy saver of battery detecting, to the electric energy of battery charging process consumption and the electric energy Comprehensive Control of discharge process release, to realize the testing process purpose of energy saving.

For realizing above-mentioned purpose, the utility model provides a kind of energy saver of battery detecting, and this installs by battery combination array TB, intelligent controller C, and power supply bus ZX, constant current source 1～constant current source N, battery 1～battery N constitutes.

Above-mentioned battery combination array TB has a large amount of batteries to combine through series and parallel; Can electric energy be provided to power supply bus ZX; Also can be with recharging battery combination array TB for electric energy on the power supply bus ZX, the battery among the battery combination array TB adopts the hot plug connected mode, some batteries taking-ups that can be wherein; Also can add new battery, not influence the function of battery combination array.

During charging, intelligent controller C is connected with battery combination array TB, and controls it and to power supply bus ZX electric energy is provided, and constant current source 1～constant current source N is by power supply bus ZX power supply, and its output current is connected to battery 1～battery N; During discharge, the discharge current of battery 1～battery N is connected on the power supply bus ZX, and intelligent controller C control power supply bus ZX charges to battery combination array TB; Because the electric energy that battery discharge is discharged is through other battery charge utilizations or store battery combination array TB into, except the efficient consumption of the device course of work, does not produce other energy consumption, thereby realizes the energy-conservation of battery detecting process.

According to the situation of battery actual production, the battery among the battery combination array TB can be selected to change into the battery of shelving after the completion and make up.

Description of drawings:

Accompanying drawing 1 is the structural representation of the utility model.

Embodiment:

For the technical scheme that makes the utility model is clearer, below in conjunction with accompanying drawing, to the utility model further explain, instantiation described herein only in order to explain the utility model, is not limited to the utility model.

Embodiment:

Select the battery through changing into; Form the voltage that is fit to constant current source work through parallelly connected series model; Combined is used array architecture, and any battery takes off and installs does not influence whole power supply effect, as the battery combination array; Draw the power supply bus through the copper bar cable respectively from the public positive pole and the public negative pole of battery combination array, constant current source directly is connected through the copper conductor of 1mm2 with the power supply bus.

During intelligent controller C control battery 1～battery N charging, battery combination array TB is that constant current source 1～constant current source N provides rechargeable energy through power supply bus ZX, and the charging current of constant current source 1～constant current source N output is connected to battery 1～battery N, realizes battery charge; During intelligent controller C control battery 1～battery N discharge; The discharge energy that battery 1～battery N discharges is delivered to power supply bus ZX through constant current source; Real-time voltage situation according to each several part; Power supply bus ZX is connected the constant current source power supply on the power supply bus ZX to battery combination array TB charging or to other, accomplishes discharge process.

The above course of work is not because the electric energy that battery is discharged through other battery charge utilizations or store among the battery combination array TB, except the efficiency losses of the device course of work, produces other energy consumption, thereby realizes the energy-saving effect of battery detecting process.

Claims (2)

1. the energy saver of a battery detecting comprises battery combination array TB, intelligent controller C, power supply bus ZX, constant current source 1～constant current source N, battery 1～battery N; It is characterized in that: during charging, intelligent controller C is connected with battery combination array TB, and controls it and to power supply bus ZX electric energy is provided, and constant current source 1～constant current source N is by power supply bus ZX power supply, and its output current is connected to battery 1～battery N; During discharge, the discharge current of battery 1～battery N is connected on the power supply bus ZX, and intelligent controller C control power supply bus ZX charges to battery combination array TB.

2. the energy saver of a kind of battery detecting according to claim 1 is characterized in that: select for use the battery combination array as power supply, battery combination array TB has a large amount of batteries to combine through series and parallels.

Images