KR20170052054A - A drying system for lead-acid battery - Google Patents

Abstract

The present invention relates to an automatic electrode plate arrangement type aging and drying system for a lead storage battery. The automatic electrode plate arrangement type aging and drying system includes multiple chambers capable of executing individual aging and drying operations at different temperatures and for different periods as well as an unmanned conveying crane for inputting electrode plates to the chambers and discharging the input electrode plates, thereby aging and drying various types of electrode plates in various conditions as well as maintaining the continuity of the entire operation process. The technical configuration of the automatic electrode plate arrangement type aging and drying system, which includes the chambers capable of executing aging and drying operations individually at individual temperatures and for individual periods, also includes: entrance/exit doors formed on front parts of the chambers to input and discharge the electrode plates; a rack frame unit capable of stacking multiple electrode plates in the chambers; the unmanned conveying crane capable of inputting the electrode plates to the chambers and discharging the electrode plates from the chambers; and a control unit which can control the individual chambers and the unmanned conveying crane.

Description

[0001] A drying system for lead-acid battery [0002]

The present invention relates to an automatic plate-type aging / drying system for lead-acid batteries, and more particularly, to a method of aging and dry-drying an electrode plate in which the aging temperature, time and drying temperature and time are differentiated And to provide an electrode plate aging / drying system capable of uniformly maintaining the quality of the electrode plate and capable of realizing the performance and durability required by the customer.

Generally, lead acid storage battery is a charge that can be charged and discharged by using electrochemical reaction. It is composed of lead oxide (PbO2), cathode (cathode) material as positive electrode (Pb) is used as a sponge, and dilute sulfuric acid having a specific gravity of 1.260 to 1.295 is used as an electrolyte (electrolytic solution), and a separator is provided between the anode and the cathode. .

A lead-acid battery used as a battery for an automobile is provided with a separator for preventing a short between the positive electrode and the negative electrode in a sealed container having a predetermined capacity, and electrodes formed as plates are built in each separator plate A strip at the upper end of the container, terminals of positive and negative electrodes are formed, and the electrodes are connected to the terminals in a chargeable manner.

These batteries use dilute sulfuric acid (H2SO4) as the electrolyte, lead dioxide (PbO2) is used for the positive electrode (+) and lead (Pb) is used for the negative electrode (+) And negative (-) active materials are changed (discharged) to lead sulfate (PbSO4) while electric current flows through the circuit, and when electric current flows from the outside, the lead sulfate (PbSO4) ) And the spongy (-) lead (-).

On the other hand, a lead-acid battery which is a secondary battery usually produces a positive electrode plate and a negative electrode plate, cures and drys the produced positive electrode plate and negative electrode plate, and measures the size and shape of the positive electrode plate and the negative electrode plate, Laminated on both sides of the separator according to performance, and then inserted and sealed in a battery plastic case.

Here, various kinds of positive electrode plates and negative electrode plates are manufactured according to the capacity (size) of the battery and the ability to accommodate electricity. In more detail, as a method of manufacturing the electrode plate, an active material is coated on a lead- The active material is prepared by mixing lead oxide (PbO) in a fine powder state with dilute sulfuric acid, and the positive electrode plate is manufactured by adding additives to the active material according to the negative electrode plate.

As described above, the positive electrode plate and the negative electrode plate prepared by adding additives to the active material are required to be aged and dried according to conditions so as to exhibit sufficient performance and durability, and the quality of the lead- It is one of the main processes to be determined by

Next, the conventional method and prior art for the aging / drying of the lead-acid battery electrode plate will be described.

The aging and drying process of lead plate electrode plates is performed through each aging chamber and drying chamber, or the aging and drying process is performed in one chamber.

However, as mentioned in the prior art of Korean Patent Application No. 10-2012-0061718, such aging and drying chambers have a problem in that a carrier or a forklift is required to move and input each chamber, which complicates the process.

In addition, since a large space is required for the entire operation such as a plurality of aging furnaces, a carrier for moving the drying furnace and the plate, and a moving space such as a forklift are required, and since the aging time and temperature are different for each process, It is impossible to perform the aging and drying process immediately, and the quality of the electrode plate is deteriorated.

In order to overcome these problems, the prior art of Korean Patent Application No. 10-2012-0061718 has provided the continuity and convenience of the process by sequentially positioning the aging chamber and the drying chamber, and is conveyed by the conveyor belt, The present invention provides a system capable of automating processes by facilitating transfer and input, and improving utilization of a work space.

However, to better meet the performance and durability of lead-acid batteries required by customers in the lead-acid battery market, vehicles with current start-stop capability (IDLE STOP GO (ISG) functional vehicles) Temperature, drying time and temperature should be used, and the performance and durability required by the customer can be satisfied only by using the positive electrode plate and the negative electrode plate or other conditions. However, although the prior art (10-2012-0061718) has advantages in terms of process continuity,

There is a problem in that a single aging / drying system can simultaneously perform aging and drying under various kinds of conditions, so that the level of product quality required by the customer can not be satisfied.

Further, when the aging heat source supply device for the conveyor or the chamber for moving the electrode plate in the continuous aging furnace system is broken, all of the electrode plates that are undergoing aging are found to be defective and disadvantageously must be disposed.

Korean Patent Application No. 10-2012-0061718 'Aging / drying system of electrode plate for battery' Published date 2013.12.18

Disclosure of the Invention The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for preparing a plurality of chambers, which have a plurality of chambers capable of performing aging and drying in temperature and time in respective individual chambers, It is an object of the present invention to provide an electrode plate aging / drying system capable of performing various aging and drying conditions simultaneously with various types of electrode plates and having continuity of the entire working process, do.

In order to overcome the problem of occupying a wide space by providing a plurality of independent chambers, the present invention is characterized in that a rack is installed so that a plurality of electrode plates can be inserted into one chamber, and a plurality of electrode plates are inserted and discharged It is an object of the present invention to provide an automatic plate batch type aging / drying system for a lead-acid battery which can improve utilization of a work space and reduce labor costs and manufacturing cost by providing a crane.

Further, in the present invention, when the additional electrode plate is not inserted for a predetermined time after the electrode plate is inserted into one chamber, the door is closed and the aging and drying process is performed, so that the electrode plate can be uniformly aged and dried, The present invention provides a self-assembled aging / drying system for a lead-acid battery, which can uniformly maintain and manufacture the overall electrode plate quality by preventing a large-scale failure due to the disposal of only the electrode plate in the chamber The purpose.

In order to accomplish the above object, the present invention provides a method of manufacturing a plasma display panel having a plurality of chambers capable of performing aging and drying in respective individual chambers at respective temperatures and times, An entrance door formed; A rack frame part capable of stacking a plurality of electrode plates in a chamber; An unmanned conveying crane capable of loading and discharging an electrode plate in the chamber; The present invention is characterized by comprising the constitution including

Here, the doorway door of the chamber is interlocked with the motor, and the doorway door is connected to a chain or a wire so as to be vertically moved up and down, and is composed of an iron frame and a steel plate.

Wherein the unmanned conveyor crane includes a pole plate charging base for waiting the pole plate so that the pole plate can be inserted into the chamber; And an electrode plate discharging waiting unit for waiting the electrode plate for discharging the electrode plate from the chamber and allowing the electrode plate to be sent to a post-process. The pole plate discharging waiting unit and the electrode plate discharging waiting unit are provided with a transfer- A conveyor transfer chain, and a vertical guide of a charging base vertical guide and a discharge waiting unit for vertically moving the polar plate so that the unmanned carrying crane can insert and discharge the plate.

On the other hand, the control unit controls the aging temperature and time, the drying temperature and the time of the electrode plate by the logistics control unit and the chamber for controlling and recording the information on the type and quantity of the electrode plate, the chamber insertion position / time and the discharging position / And an aging control unit for simultaneously recording and displaying the image in real time. The distribution control unit and the aging control unit are configured to exchange necessary information with each other by a wired communication module or a wireless communication module.

As described above, according to the present invention, it is possible to continuously perform the aging process and the drying process under various conditions, thereby providing the continuity and convenience of the work process, and thereby, the mass production of the plate And it is possible to uniformly aging and drying the electrode plate, thereby improving the quality of the electrode plate, and uniformly maintaining and manufacturing the quality of the electrode plate. If a chamber fails, it does not affect other chambers, It is possible to automate the entire process and it is possible to improve the utilization of the work space because a separate carrier and a forklift are not required for the movement of the electrode plate and a separate workforce is unnecessary, Can be reduced.

1 is a plan view schematically showing an automatic batch type aging / drying system for lead acid batteries according to the present invention.
2 is a side view schematically showing an automatic batch type aging / drying system for lead acid batteries according to the present invention.
3 is a right side view schematically showing an automatic batch type aging / drying system for lead acid batteries according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. In addition, the present invention is not limited to the scope of the present invention, but is merely provided as an example, and various modifications are possible without departing from the technical gist of the present invention.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used predefined terms should be interpreted to be consistent with the meanings in the context of the related art and can not be interpreted as having ideal or overly formal meaning unless explicitly defined in the present invention.

Now, an automatic batch-type aging / drying system and method for lead acid batteries according to embodiments of the present invention will be described in detail with reference to the drawings.

2 is a side view schematically showing an automatic batch type aging / drying system for a lead acid battery according to the present invention, and FIG. 3 is a schematic side view of the automatic batch type aging / Is a right side view schematically showing an automatic batch type aging / drying system for lead acid batteries according to the present invention.

As shown in the drawing, the automatic batch-type aging / drying system A for lead acid batteries according to the present invention includes a plurality of chambers 200, an unmanned conveying crane 300, a pole-loading standby unit 400, A plurality of chambers 200 are provided with an individual chamber 210, an entrance door 220 and a motor 230 capable of individually controlling temperature and time of aging and drying, A rack frame 240 manufactured to stack the electrode plate 100 and the dedicated pallet 110 in the individual chambers 210, and an aging control unit (not shown).

The individual chambers 210 are formed in a box shape and have a hermetic structure for aging and drying the electrode plate 100 accommodated therein. The outer walls are made of flame retardant urethane or glass fiber, Each connection is welded to prevent moisture, vapor spills, condensation, and condensation.

The electrode plate 100 may be formed of a separate electrode plate 100 or may be stacked on a dedicated pallet 110 on which the electrode plate 100 can be stacked and introduced into the individual chamber 210.

In the individual chamber 210, an entrance door 220 is formed to secure an entrance for loading and unloading the electrode plate 100.

The entrance door 220 is opened when the electrode plate 100 is inserted into and discharged from the individual chamber 210, and is closed when the insertion is completed.

Here, the entrance door 220 is connected to the motor 230 by a chain or wire (not shown) and is configured to be vertically moved up and down.

At this time, the individual chamber 210 is supplied with a steam supply device (not shown) made of at least one of a general steam heater and a steam sprayer, and the electrode plate 100 is heated by the steam supplied through the steam supply device, And aged at a low temperature.

Here, the aging condition of the individual chamber 210 through the steam supply device is such that the maximum usable temperature is in the range of 40 占 폚 to 95 占 폚, and the humidity range is 30% to 100%.

The individual chamber 210 is provided with a steam radiator (not shown) therein, and the electrode plate 100 is dried by the heat radiated from the steam radiator.

In order to improve the drying performance in the individual chamber 210, it is preferable that an automatic damper (not shown in the figure) is provided for forcibly discharging the air having a high humidity and the automatic opening and closing are automatically performed by the aging control unit.

Here, the drying conditions of the individual chambers 210 through the steam radiator are such that the maximum usable temperature ranges from 30 ° C to 80 ° C.

Here, the individual chamber 210 is equipped with a dry bulb temperature sensor and a wet bulb temperature sensor, and is connected to a later-described aging control unit.

It is preferable that an air circulation fan (not shown) is installed in at least one direction of the individual chamber 210 so that water vapor or air is uniformly supplied and circulated to the electrode plate 100 to be supplied to the individual chamber 210.

The individual chambers 201 are provided with a plurality of rack frame portions 240 capable of stacking the pallets 110 on which the electrode plates 100 are mounted.

In an embodiment of the present invention, it is preferable that the rack frame part 240 is configured such that a dedicated pallet 110 is stacked in two stages in an individual chamber 210.

Here, the individual chambers 210 are installed in the direction of the unmanned conveying crane traveling rail 310 so as to be individually operated.

The aging control unit (not shown in the figure) simultaneously controls and monitors the individual chambers 210 and the plurality of chambers 200. The aging control unit controls the opening and closing of the entrance door 220 of the individual chamber 210 by controlling the driving of the motor 230 and controls the aging and drying process of the individual chamber 210, And monitoring the entire process to the operator.

The aging control unit controls aging and drying temperature and time of the electrode plate 100 in the individual chamber 210 and records aging and drying progress time and temperature when the electrode plate 100 is put into the individual chamber 210. [ And controls the opening and closing of the entrance door 220 of the individual chamber 201 so as to meet a predetermined time. Also, when manual switching or power off (Off), the setting conditions are stored in the memory .

The individual chamber 210 monitors the aging and drying progress temperature, time, and remaining time of the electrode plate 100 in real time, monitors the partial process and the entire process and displays it to the operator in real time, 200 can operate continuously and interlockingly so that the efficiency of use of the individual chambers 210 can be increased.

The aging control unit is connected to a condition sensor including a dry bulb temperature sensor and a wet bulb temperature sensor installed in the individual chamber 210 to control the temperature and humidity of the individual chamber 210, And the steam supplied to the individual chamber 210 is controlled to be connected to the steam supply device of the steam generator 210.

In addition, the aging control unit provides the aging and drying process of the electrode plate 100 in each of the individual chambers 210 of the automatic batch-type aging / drying system A for lead acid batteries according to the present invention as a display (not shown) It is preferable that the worker is informed of the work situation and when the system abnormality or a trouble occurs, the operator is provided with an abnormal part of the system in real time, and it is preferable to provide an abnormal situation with a warning sound or a warning light.

On the other hand, the display unit of the aging control unit preferably manages and stores time, temperature, and humidity-related data in a computer, a notebook computer, or the like.

When the individual chambers 210 are provided as a plurality of chambers 200 in the direction of the unmanned conveying crane traveling rail 310, the plate loading standby unit 400 is provided on the side of the plurality of chambers 200, An unmanned conveying crane 300 having a function of injecting and discharging the electrode plate 100 and the dedicated pallet 110 into the individual chambers 210 is provided and the electrode plate discharge base portion 500 is provided at the discharge side.

The pole plate input standby unit 400 is a place for loading the pole plate 100 into the unmanned conveying crane 300 in order to load the pole plate 100 into the individual chamber 210, The transfer plate 100 is transferred to the unloading cranes 300 through the transfer base unit conveyor transfer chain 410 and then transferred to the vertical guide 420 of the loading base unit. And a vertical guide 420 for a to-toe base rising at a constant height.

The pole plate discharge standby portion 500 is for discharging the pole plate 100 from the individual chamber 210 to the outside and the pole plate 100 in the individual chamber 210 is transferred to the manless delivery crane 300 The vertical guide 520 and the lower electrode plate 100 are moved upward and downward to a predetermined height so that the unmanned conveying crane 300 can lower the electrode plate 100, And a discharge-to-base conveyor transfer chain (510) for transferring the discharged-to-substrate conveyor (510).

The unmanned conveying crane 300 is a conveying device for injecting and discharging the electrode plates 100 into a plurality of chambers 200. The unmanned conveying crane 300 includes an unmanned conveying crane traveling rail 310, And an unmanned conveying crane 300 capable of moving in the width direction and in the longitudinal direction and the height direction for conveying the electrode plate 100 to the pole input standby base 400 or the electrode plate discharge base 500 and the individual chambers 210, .

By the above-described structure, the pole plate 100 is inserted into the feed-to-base conveyor transfer chain 410 and horizontally moved to the input base-portion vertical guide 420, and when the feed is completed to the input-base vertical guide 420 The vertical movement of the pole plate 100 is performed by moving the pole plate 100 in the width direction and the height direction and moving the pole plate 100 to the unmanned conveying crane 300 And the electrode plate 100 discharged through the unmanned conveying crane 300 is conveyed to the discharge guide base vertical guide 520 and the conveyed electrode plate 100 is conveyed to the discharge chamber base vertical guide 520 are vertically lowered and horizontally moved to the discharge-to-base conveyor transfer chain 510 to discharge the electrode plate 100 from the individual chambers 210.

In this case, it is preferable that the pole plate input standby unit 400, the unmanned conveying crane 300, and the pole plate discharge standby unit 500 are controllably connected by the distribution control unit, and the distribution control unit includes the pole plate input standby unit 400, And the unmanned conveying crane 300 to control the transfer of the electrode plate 100 and monitor the partial process and the entire process including the display unit to the operator.

The distribution control unit controls the charging and discharging timing to the individual chambers 210 and controls the position of the electrode plate 100 or the electrode plate 100 placed in each of the individual chambers 210 in real time Recording is performed simultaneously with monitoring, and the position of the electrode plate 100 is stored in the memory even when manual switching and power off (Off).

The control unit monitors and controls the position of the electrode plate 100 in the individual chamber 210 in real time to enable continuous operation of the individual chambers 210 so that the efficiency of use of the individual chambers 210 .

In addition, the above-described production control unit provides the display unit with the position of the electrode plate 100 in each of the individual chambers 210 of the automatic batch-type aging / drying system A for lead acid batteries according to the present invention, , It is preferable that the system is provided so that an abnormal part of the system is provided to the operator in real time when an abnormality or a problem occurs in the system, and it is preferable to provide an abnormal situation with a warning sound or a warning light.

It is preferable that the control and operation of the distribution control unit is performed by a touch panel method, and that the input and discharge time of the electrode plate 100, and the management and storage of position-related data are managed by a computer, a notebook computer or the like.

The aging control unit and the logistics control unit are preferably configured to mutually exchange necessary information through a wired communication module (RS232 communication, RS485 communication, TCP / IP communication, etc.) or a wireless communication module (Wi-Fi communication, etc.) .

Hereinafter, an operation method of the automatic batch type aging / drying system (A) for lead acid batteries according to the present invention will be described.

First, a simple operation method will be described. The pole plate 100 is inserted through the pole-loading base 400, the pole plate 100 is transported to the individual chamber 210 through the manless transportation crane 300, The electrode plate 100 is aged and dried, aged and dried. The electrode plate 100 is conveyed to the electrode plate discharging base 500 by the unmanned conveying crane 300. The electrode plate 100 is conveyed into the individual chamber 210 Are loaded on the dedicated pallet 100 in a loaded form.

The pole plate 100 for aging and drying is loaded on the pole plate charging base 400 and is transferred to the charging base vertical guide 320 by the charging base conveyor transfer chain 310, The vertical guide 320 stands by in a vertically raised state so that the unmanned conveying crane 320 can transfer the electrode plate 100 to the individual chambers 210 and is put into the individual chamber 210 by the unmanned conveying crane 300 do.

The electrode plate 100 that has been put into the individual chamber 210 undergoes aging and drying processes under various temperature, humidity, and time conditions. The electrode plate 100, which has been aged and dried under the above conditions, To-vertical guide 520, and the vertical guide 520 is vertically lowered while being horizontally moved by the discharge-base-portion conveyor transfer chain 510 and taken out to the outside.

When the unmanned conveying crane 300 completes the insertion of the electrode plate 100 into the individual chamber 210, the distribution control unit transmits a signal indicating that the electrode plate 100 is completely charged to the aging control unit, The aging control unit ages and dries after closing the entrance door 220 driven by the motor 230. When the drying process is completed, the aging control unit opens the entrance door driven by the motor 230, The control unit 200 transmits a signal indicating that the door 220 has been opened to the distribution control unit and the distribution control unit which receives the signal extracts the electrode plate 100 in the individual chamber 210 by the unmanned conveying crane 300, And is conveyed by the conveying and conveying chain 510 to the outside of the conveying unit.

Here, when the entrance and exit of the door 210 is completed and the entrance door 220 is closed, the steam is supplied to the individual chamber 210, and the steam is supplied to the chamber 210 through the steam supply device and the steam radiator.

That is, when the electrode plate 100 is transferred and inserted into the individual chamber 210, the electrode plate 100 is aged at a high temperature and a low temperature for a certain period of time through the steam supply device and the steam radiator, And drives the exhaust fan to discharge the moisture in the individual chamber 210 to the outside for a predetermined period of time and allows the electrode plate 100 to stand by for a predetermined period of time through the steam radiator.

At this time, depending on the conditions of the electrode plate 100 through the steam supply device and the steam generator in the individual chamber 210, at a high temperature aging condition of a temperature range of 70 ° C. to 95 ° C. and a humidity range of 95% Temperature aging for 1 to 3 hours and at low temperature aging for a period of 1 to 3 hours under a low temperature aging condition of a temperature range of 40 to 85 캜 and a humidity range of 95 to 95% Drying is performed for about 1 to 3 hours under a drying condition consisting of a temperature range of 30 ° C to 60 ° C when the electrode plate 100 is dried through the steam generator in the heat exchanger 210.

Preferably, the mixture is aged at high temperature for 3 hours under aged condition of 75 DEG C and 95% humidity in the individual chamber 210, and matured for 3 hours at a temperature of 45 DEG C and a humidity of 95% or more. , The exhaust fan is operated for 30 minutes to remove moisture in the individual chamber 210, and then dried at 75 DEG C for 3 hours.

The temperature, humidity, and drying conditions of the individual chamber 210 are detected by the condition sensor including the dry bulb temperature sensor and the wet bulb temperature sensor provided in the individual chambers 210, The drying condition is controlled by the aging control unit.

At this time, the temperature value sensed through the condition monitoring sensor is preferably provided to the operator in real time through the display unit of the aging control unit.

In addition, when the automatic batch type aging / drying system (A) for lead acid battery according to the present invention is abnormally damaged or broken, it is provided to a worker through a display unit in real time, desirable.

On the other hand, since the electrode plate 100 having different aging and drying conditions can be charged in the automatic batch-type aging / drying system A for lead acid batteries according to the present invention, When the dedicated pallet 110 loaded with the electrode plate 100 is inserted, the product control unit recognizes the product type name written on the dedicated pallet 110 in the distribution control unit, so that the individual chamber 210, into which the electrode plate 100 having the same product name is inserted, The electrode plates 100 can be transported to the same aging and drying conditions. Thus, the aging and drying of the various electrode plates 100 through the automatic batch-type aging / drying system A for lead acid batteries according to the present invention, Drying conditions can be processed, and continuous processes and operations are possible.

Here, it is preferable that the above-mentioned production control unit controls the progression of the unmanned conveying crane 300 for the position, insertion, and transportation of the individual chamber 100 to be charged according to the type of the other electrode plate 100, It is preferable to control the aging and drying process under the given conditions according to the type of the inserted electrode plate 100.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications will be apparent to those skilled in the art. It is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which fall within the scope of equivalence by alteration, substitution, substitution and the like within the scope of the present invention, Range. In addition, it should be clarified that some configurations of the drawings are intended to explain the configuration more clearly and are provided in an exaggerated or reduced size than the actual configuration. It is to be understood that the appended claims are intended to facilitate understanding only and do not limit the shape and construction of the present invention to the accompanying drawings.

Claims (8)

In an automatic batch aging / drying system for lead acid batteries,
A plurality of chambers capable of aging and drying the lead battery electrode plates in respective individual chambers at different temperatures and times;
An entrance door formed in front of the individual chambers so that the electrode plates of the individual chambers can be introduced and discharged;
A rack frame part capable of stacking a plurality of electrode plates in the individual chambers;
An unmanned conveying crane capable of loading and discharging the electrode plates in the individual chambers; And a control unit for controlling the individual chamber and the unmanned conveying crane;
Wherein the automatic batch matting / drying system for lead accumulators comprises:
The method according to claim 1,
A dry bulb temperature sensor and a wet bulb temperature sensor are both installed in the individual chamber,
Wherein the steam supply device is provided with at least one of a steam heater and a steam sprayer, and the electrode plate is aged by the steam supplied through the steam supply device.
The method according to claim 1,
An air circulation fan is installed in at least one direction of the individual chambers so that water vapor or air is uniformly supplied and circulated to the electrode plates to be supplied to the individual chambers and the high humidity air is forcedly discharged Wherein the automatic damping / drying system for lead accumulator includes an automatic damper for the automatic batch damping / drying system.
The method according to claim 1,
A plurality of chambers are provided in the chamber, and a plurality of chambers are provided in the chambers in the direction of the unmanned conveying crane traveling rail, Wherein the conveyor crane is provided on the side of the discharge port and the electrode plate discharge waiting section is provided on the discharge port side.
The method according to claim 1,
Wherein the aging control unit controls the aging and drying temperature and time of the electrode plate in the individual chamber and displays the aging and drying progress time and temperature at the same time when the electrode plate is put into the individual chamber. Automatic batch aging / drying system.
The method according to claim 1,
Wherein the distribution control unit controls the charging and discharging timing of the electrode plates to the individual chambers and records the positions of the electrode plates or the electrode plates located in the individual chambers in real time and records them. Eating / drying system.
The method according to claim 5 or 6,
Wherein the aging control unit and the logistics control unit are configured to mutually exchange necessary information by a wired communication module (RS232 communication, RS485 communication, TCP / IP communication, etc.) or a wireless communication module (Wi-Fi communication, etc.) Automatic batch drying / drying system.
7. An automatic batch-type aging / drying method of a lead-acid battery using the automatic batch-type aging / drying system of the lead-acid battery of any one of claims 1 to 6,
A step (s10) of putting the electrode plate (100) through the pole plate charging base (400);
(S20) of transferring the plate 100 to the individual chamber 210 through the unmanned conveying crane 300;
Aging and drying in the individual chamber 210 (s30);
Transporting the aged and dried electrode plate 100 to the electrode plate discharge base 500 by the unmanned conveying crane 300 (s40);
Step (s50) in which the electrode plate (100) carried into the individual chamber (210) is charged in the form of being loaded on the dedicated pallet (100);
/ RTI >
In the step s30 of aging and drying in the individual chamber 210, depending on the conditions of the electrode plate 100 through the steam supply device and the steam generator in the individual chamber 210, Temperature aging for 1 to 3 hours under a high temperature aging condition consisting of a temperature range of 40 to 85 ° C and a humidity range of 95% or more at a low temperature aging of the electrode plate 100, Temperature aging for 1 to 3 hours under a low temperature aging condition and drying for 1 to 3 hours in a drying condition comprising a temperature range of 30 ° C to 60 ° C during drying of the electrode plate 100 through a steam generator in the individual chamber 210 And drying the lead-acid battery.

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