KR19980020099A - Cathode Alloy Pretreatment Method for Ni-MH Batteries - Google Patents

Abstract

An alloy pretreatment method for a negative electrode of a nickel-hydrogen battery is disclosed. This method is characterized by being able to run in the same tank without separating the cleaning tank and the drying furnace in order to reduce the process time.

Description

Alloy pretreatment method for negative electrode of nickel-hydrogen battery

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery, and more particularly, an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery, which can shorten the time required by integrating a cleaning and drying process of an alloy powder for a negative electrode. It is about.

There is a process of pretreating alloy powder in the process of nickel-hydrogen battery. The pretreatment process is a process of removing bubbles or impurities present in the powder and restoring the physical properties of the components. The alloy powder thus pretreated is made of pure powder through washing and drying operations and used as an active material of a nickel-hydrogen battery.

The pretreatment operation and the washing operation are carried out in the same tank. First, the pretreated powder is washed and waited for a predetermined time until the washed powder is deposited. At this time, the supernatant, which is waste water, is drained and pure water is supplied again to the washing tank. The washing operation is repeated again, waits until deposition and the supernatant is drained again. After this operation is repeated about 20 times, the powder is transferred to a filtration apparatus and filtered, and then particles of a certain size or less are discarded. Subsequently, the appropriate size of powder is supplied to the tray by a predetermined amount and transported to a drying furnace, followed by drying.

However, the conventional alloy pretreatment method for the negative electrode of the nickel-hydrogen battery has to wait until the powder is stagnated for draining a considerable amount of liquid every time the pure powder is washed in pure water, and to return the powder to a drying furnace to dry the powder. There is a problem that takes a lot of processing time.

The present invention has been made to solve the above problems, and in particular, an object of the present invention is to provide an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery that can shorten the time required by integrating the cleaning and drying process of the negative electrode active material powder. have.

1 is a view schematically showing an apparatus for cleaning and drying an alloy powder for a negative electrode employing an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery according to the present invention.

2 is a process diagram schematically showing an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery according to the present invention.

Explanation of symbols for the main parts of the drawings

P ... Pump M ... Motor

10 ... Agitator 20 ... Filter

30.Drying Jacket

In order to achieve the above object, an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery according to the present invention includes a first step of uniformly cleaning by supplying pretreated powder to a cleaning tank; Passing the washed powder through a filter installed at the lower end of the washing tank to forcibly drain the powder and waste water having a standard particle size out of the washing tank; A third step of measuring the hydrogen ion concentration of the drainage liquid and returning to the second step if it is not neutral, and drying the washed powder by drying means in the cleaning tank if it is neutral; And a fourth step of transferring the dried powder out of the cleaning tank.

In another aspect, the cleaning operation is preferably performed by operating a stirrer mounted in the cleaning tank.

In still another aspect, the cleaning tank may further include a porous plate made of stainless steel on the lower surface of the filter.

The powder is dried by a drying jacket attached to the outer wall of the cleaning tank.

By employing the present invention, there is an advantage that the time required for cleaning and drying of the alloy powder for the negative electrode is reduced.

Hereinafter, an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery according to the present invention will be described in detail with reference to the accompanying drawings. 1 is a view schematically showing an apparatus for cleaning and drying a powder employing a method for cleaning and drying powder according to the present invention, and FIG. 2 schematically shows an alloy pretreatment method for a negative electrode of a nickel-hydrogen battery according to the present invention. The process chart shown.

The alloy pretreatment method for the negative electrode of the nickel-hydrogen battery according to the present invention starts from the step of supplying the alloy powder for the negative electrode to the cleaning tank 100 by a vacuum pump (S1). When the negative electrode alloy powder is contained in the cleaning tank 100, pure water is supplied, and the powder is uniformly washed using the stirrer 10 installed inside the cleaning tank 100 (S2). After the cleaning is completed, the powder is filtered by the filter 20 installed at the lower end of the cleaning tank 100 (S3). The filter 20 passes through the powder and wastewater below the standard particle size, and forcibly drains those passed (S4). In order to effectively install the filter 20 in the cleaning tank 100, it is preferable to install a porous plate 21 made of stainless steel under the filter 20. After the washing operation is repeated, the powder and wastewater below the standard particle size passed through the filter 20 are forcibly drained. At this time, the hydrogen ion concentration (PH) of the drainage liquid is measured to return to the step S2 if it is not neutral. The process is repeated, and when the neutral state is confirmed, the cleaning operation is completed (S5).

When the cleaning operation is completed to operate the drying jacket 30 installed on the outer wall of the cleaning tank 100 to dry the powder in the cleaning tank 100 (S6). Steam is supplied by the drying jacket 30 to dry the powder. When the drying operation is completed, the valve 22 of the porous plate 21 installed at the lower end of the cleaning tank 100 is opened to convey the dry powder to the next step.

According to the characteristic method of the present invention, in the present invention, since the washing operation and the drying operation can be performed simultaneously in the washing tank, it is not necessary to transfer the powder from the washing tank to the drying furnace, thereby reducing the processing time. In addition, during the cleaning operation, it is no longer necessary to use a stirrer to clean and to have a waiting time for natural deposition.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but this is merely exemplary, and those skilled in the art may various modifications and equivalent other embodiments from this. Will understand. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (4)

A first step of uniformly cleaning by supplying the anode alloy powder to the cleaning tank; Passing the washed powder through a filter installed at the lower end of the washing tank to forcibly drain the powder and waste water having a standard particle size out of the washing tank; A third step of measuring the hydrogen ion concentration of the drainage liquid and returning to the second step if it is not neutral, and drying the washed powder by drying means in the cleaning tank if it is neutral; And And a fourth step of transferring the dried powder out of the cleaning tank. The method of claim 1, And the cleaning operation is performed by operating an agitator mounted in the cleaning tank. The method of claim 1, The cleaning tank is a negative electrode alloy pre-treatment method of the nickel-hydrogen battery, characterized in that further comprising a porous plate made of stainless steel on the lower surface of the filter. The method of claim 1, The powder is dried by a drying jacket attached to the outer wall of the cleaning tank, the alloy pretreatment method for the nickel-hydrogen battery.