KR102530104B1 - Air Blowing Unit for Electrode plate - Google Patents

Abstract

The present invention relates to an air blowing unit for an electrode base material that removes foreign substances from a belt-shaped electrode base material, and the blowing unit for an electrode base material includes a main body; a spray member for spraying air into the washing chamber formed in the main body; a suction member formed on the main body to suck in the air injected from the injection member; and an attachment member for supporting the main body, so that foreign substances or contaminants are removed while the pole plate base material having a strip shape passes through the washing chamber.
With this configuration, since the upper part of the inlet and outlet, formed by mounting one half body and another half body symmetrical to each other at a certain distance, is open, only the middle part of the strip-shaped electrode base material is washed. Even if you want to, the effect of being able to be easily washed occurs. In addition, since it is easily attached to the metal surface by the desorption hole made of a magnet, an effect of removing foreign substances from the electrode base material by easily attaching it to the place where the strip-shaped electrode base material is wound occurs.

Description

Air Blowing Unit for Electrode plate}

The present invention relates to an air blowing unit that removes foreign substances from an electrode base material for manufacturing an electrode plate, and more particularly, to an air blowing unit that can easily remove foreign substances from the electrode base material by a high-speed vortex It relates to an air blowing unit for electrode plates.

BACKGROUND ART [0002] Recently, as electronic devices have become smaller, lighter, and have higher performance, and the spread of portable electronic devices has increased, batteries with high capacity and high energy density are required, and demand for secondary batteries capable of charging and discharging is rapidly increasing.

Among these secondary batteries, industrial secondary batteries are broadly classified into lead storage batteries and alkali storage batteries, and alkali storage batteries include nickel-iron secondary batteries, nickel-cadmium secondary batteries, and nickel-hydrogen secondary batteries using high-capacity nickel electrodes as anodes. there is.

Among alkaline secondary batteries, nickel-hydrogen secondary batteries generally use a nickel electrode as an anode, a hydrogen electrode charged with a hydrogen storage alloy as an anode, and an alkaline aqueous solution as an electrolyte. Among them, hydrogen used as a cathode is a clean energy source. Unlike fossil fuels, which emit pollutants such as carbon dioxide, they produce water when burned.

This reaction is carried out electrochemically. That is, hydrogen that has released (discharged) electrical energy is oxidized to become water, and can be returned to hydrogen by applying (charging) electrical energy.

The hydrogen storage alloy used as the negative electrode absorbs hydrogen generated by decomposition of water in the electrolyte during charging, and generates electricity by electrochemically consuming hydrogen on the surface of the alloy while releasing the absorbed hydrogen into the electrolyte during discharging.

Among these secondary batteries, a nickel-hydrogen battery typically accommodates a positive plate made of nickel, a negative plate made of a hydrogen storage alloy, and a separator separating the positive plate and the negative plate in a prismatic case, and the case is filled with an alkaline electrolyte. .

Document 1: Utility Model Publication No. 1994-0004449 (Announcement on July 4, 1994) "Air blowing device for removing wet oil from galvanized steel sheet" Document 2: Japanese Patent Publication No. 5412605 (Registered on November 15, 2013) "Aerosol Injection Device for Shoes and Antibacterial Treatment Method for Shoes" Document 3: Patent Registration No. 10-1501774 (Announced on March 11, 2015) "Spindle Air Blow Device" Document 4: Patent Registration No. 10-1292414 (2013.08.01 notice) "Apparatus and method for spraying air flow to laundry" Document 5: Patent Registration No. 10-1218747 (Announced on January 21, 2013) "Nanoparticle Aerosol Spraying Device with Air Spraying Unit" Document 6: Japanese Unexamined Patent Publication No. 2004-58268 (published on February 26, 2004) "air blowing device"

The electrode base material for manufacturing such an electrode plate is wound in a strip shape, and foreign substances or contaminants that may be attached thereto must be removed in order to introduce the electrode base material into the electrode plate manufacturing process.

The present invention has focused on the above points, and an object of the present invention is to provide an air blowing unit for electrode base materials that can easily remove foreign substances or contaminants adhered to electrode base materials.

The above object is achieved by the present invention, and an air blowing unit for electrode base material according to one aspect of the present invention includes a main body; a spray member for spraying air into the washing chamber formed in the main body; a suction member formed on the main body to suck in the air sprayed from the spraying member; and an attachment member supporting the main body, so that foreign substances or contaminants are removed while the strip-shaped electrode base material passes through the washing chamber, and the main body includes one half body and another half body having a shape symmetrical thereto. The body is mounted to be spaced apart from each other by a certain distance, the washing chamber is formed with recessed chambers formed on the two half bodies mounted at a certain distance apart from each other, and the injection member is a charging chamber formed on the half body; a suction chamber communicating with the charging chamber, composed of a plurality of nozzles for injecting air filled in the charging chamber into the washing chamber, and wherein the suction member is recessed into the half body; a suction tube communicated with the suction chamber and formed in the half body; and an exhaust port formed in the suction tube, wherein the attachment member is an “L” shaped support connected to the half body; The support is composed of a detachable hole to which the support is fixed, a long hole is formed in the support, the support is fastened to the half body by a bolt passing through the long hole, the detachable hole includes a magnet, and two half bodies An inlet and an outlet are formed in communication with the washing chamber by the spaced apart from each other, and the electrode base material is discharged to the outlet via the inlet and the washing chamber, and one of the plurality of injection holes is adjacent to It is characterized in that the direction of the jetting hole and the jetted air are not horizontal.

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Further, the detachable orifice is formed at a lower portion of the half body, and a gap maintainer is additionally mounted between the pair of detachable orifices.

According to the above configuration of the present invention, the air injected from the plurality of injection ports forms a vortex at high speed at the portion of the electrode base material passing through the washing chamber, and the vortex formed in this way causes the electrode base material to It is possible to easily remove foreign substances and the like attached to the surface.

Since the upper part of the inlet and outlet, which are formed by mounting one half body and another half body of a shape symmetrical thereto at a certain distance apart, is open, it is easy to clean only the middle part of the strip-shaped electrode base material. This results in an effective cleaning effect.

In addition, since it is easily attached to the metal surface by the desorption hole made of a magnet, an effect of removing foreign substances from the electrode base material by easily attaching it to the place where the strip-shaped electrode base material is wound occurs.

In addition, even when the air blowing unit for electrode base material is mounted in another place, an effect of easily maintaining the respective widths of the input port and the outlet port constant by the gap retainer occurs.

1 is a perspective view of an air blowing unit for an electrode base material according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of the air blowing unit shown in Figure 1;
Fig. 3 is a longitudinal cross-sectional view taken along the line A-A' shown in Fig. 1;
Fig. 4 is a cross-sectional configuration view taken along the line B-B' shown in Fig. 1;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals will be used for the same parts throughout the drawings.

Features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be interpreted in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

1 and 2 are a perspective view and an exploded perspective view of a blowing unit for an air electrode base material according to an embodiment of the present invention.

As shown in the drawing, the air blowing unit for electrode base material according to the present invention, indicated by reference numeral 10, is composed of a main body, a spray member, a suction member, an attachment member, and the like.

The main body is composed of one half body 21 and another half body 21 having a shape symmetrical thereto, and the pair of half bodies 21 are mounted spaced apart from each other by a predetermined distance.

In addition, a recessed chamber 23 is formed on one side of the half body 21, and the recessed chambers 23 respectively formed on the two half bodies 21 mounted at a predetermined distance are positioned opposite to each other for washing. Yarn 25 is formed.

The injection member for injecting air into the washing chamber 25 formed in the main body communicates with the charging chamber 31 formed in the half body 21 and the charging chamber 31, and is connected to the charging chamber 31. It consists of a plurality of injection ports 33 for injecting the charged air into the washing chamber 25.

High-pressure air is introduced into the charging chamber 31 from the outside by the air fitting 70 .

In addition, one of the plurality of spray holes 33 has a structure in which the direction of the air sprayed with the adjacent spray hole 33 is not horizontal.

Therefore, the air injected from the plurality of injection holes 33 forms a vortex at high speed at the portion of the electrode base material 100 passing through the washing chamber 25, and the vortex formed in this way causes the electrode base material to It is possible to easily remove foreign substances and the like attached to (100).

The suction member communicates with the suction chamber 41 formed to be recessed in the half body 21 and the suction chamber 41 and the suction tube 43 formed in the half body 21 and the suction tube 43 It consists of an exhaust port 45 formed in.

The suction chamber 41 and the recessed chamber 23 mean the same space. And the washing chamber 25 means a space where the two half bodies 21 are spaced apart and a part where vortexes are formed in the recessed chamber 23, and the suction chamber 41 is a part where vortexes are formed It means a space in which the air sucked into the suction tube 43 is located.

An air fitting 90 is mounted on the exhaust port 45, and air and foreign substances sucked into the suction cylinder 43 are discharged to the outside by the air fitting 90.

The attachment member supporting the main body is composed of an “L” shaped support 51 connected to the half body 21 and a detachable hole 55 to which the support 51 is fixed, and the support 51 ), a long hole 53 is formed, the support 51 is fastened to the half body 21 by a bolt 80 penetrating the long hole 53, and the detachable hole 55 includes a magnet. It becomes.

Therefore, it is possible to adjust the distance at which the main body is separated from the detachable port 55 by the long hole 53 .

In addition, since it is easily attached to the metal surface by the detachable hole 55 made of a magnet, it is possible to easily mount it to the place where the strip-shaped electrode base material 100 is wound and remove foreign substances from the electrode base material. .

In addition, the attachment/detachment ports 55 are formed at the lower portion of the half body 21, and a gap maintaining member 54 is mounted between the pair of attachment/detachment ports 55.

In addition, as shown in FIGS. 3 and 4, an inlet 27 and an outlet 29 communicating with the washing chamber 25 are formed by the space in which the two half bodies 21 are spaced apart, The electrode base material 100 is discharged through the outlet 29 via the inlet 27 and the washing chamber 25 .

Therefore, since the upper portions of the input port 27 and the outlet port 29 are open, cleaning can be easily performed even when only the middle portion of the strip-shaped electrode base material 100 is to be cleaned.

The gap retainer 54 is made of MC nylon and serves to determine the distance between the pair of half bodies 21 .

That is, when the air blowing unit 10 for the electrode base material according to the present invention is mounted in a different place, the gap maintainer 54 maintains a constant width of each of the inlet 27 and the outlet 29 do.

What has been described above is only one embodiment for carrying out the air blowing unit for electrode base material according to the present invention, and the present invention is not limited to the above-described embodiment, but as claimed in the following claims, the subject matter of the present invention Anyone with ordinary knowledge in the field to which the present invention pertains without departing from the technical spirit of the present invention to the extent that various changes can be made.

10: Air blowing unit for electrode base material 21: Half body
23: depression room 25: washing room
27: inlet 29: outlet
31: charging chamber 33: nozzle
41: suction chamber 43: suction bottle
45: exhaust port 51: support
53: Janghol 55: Detachment
70, 90: air fitting

Claims (9)

main body; a spray member for spraying air into the washing chamber formed in the main body; a suction member formed on the main body to suck in the air injected from the injection member; and an attachment member for supporting the main body, so that foreign substances or contaminants are removed while the electrode base material having a strip shape passes through the washing chamber,
The main body is formed by attaching one half body and another half body having a shape symmetrical to each other at a predetermined distance apart from each other, and the washing chamber has recessed rooms formed on the two half bodies mounted at a predetermined distance apart from each other. Positioned to be, the injection member is a charging chamber formed in the half body; a suction chamber communicating with the charging chamber, composed of a plurality of nozzles for injecting air filled in the charging chamber into the washing chamber, and wherein the suction member is recessed into the half body; a suction tube communicated with the suction chamber and formed in the half body; and an exhaust port formed in the suction tube, wherein the attachment member is an “L” shaped support connected to the half body; The support is composed of a detachable hole to which the support is fixed, a long hole is formed in the support, the support is fastened to the half body by a bolt passing through the long hole, the detachable hole includes a magnet, and two half bodies An inlet and an outlet are formed in communication with the washing chamber by the spaced apart from each other, and the electrode base material is discharged to the outlet via the inlet and the washing chamber, and one of the plurality of injection holes is adjacent to Air blowing unit for electrode base material, characterized in that the direction of the spray hole and the sprayed air are not horizontal. delete delete delete delete delete delete delete [Claim 2] The air blowing unit for electrode base materials according to claim 1, wherein the release holes are respectively formed at the lower part of the half body, and a gap maintainer is additionally installed between the pair of release holes.

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