JP2689586B2 - Storage battery electrode plate manufacturing method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a method of manufacturing a storage battery electrode plate.

2. Description of the Related Art Conventional Problems and Their Problems A conventional storage battery electrode plate is formed by casting a grid panel having projections that project substantially laterally from above both side surfaces for the purpose of easy transportation during manufacturing. After kneading the active material onto the electrode or applying electrode activation treatment such as chemical formation, cut the electrode plates with a circular saw in the shape of each electrode plate with multiple electrode plate panels made in this way. Was manufactured by. In addition, in the cutting process using this circular saw, unnecessary portions of the protruding portions of the electrode plate panel are cut together.

However, cutting with this circular saw produces sawdust,
This process has the drawback of being difficult.

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and provides a method of manufacturing an electrode plate having high dimensional accuracy and no sawdust.

Structure of the Invention That is, the present invention, in the method of manufacturing a storage battery electrode plate,
An electrode plate panel prepared by kneading an active material on a grid panel having protrusions protruding substantially laterally from above both side surfaces is suspended on a conveyor consisting of two chains or belts. As shown in the figure, while arranging several plates, the electrode plate panel feeding process in which the electrode plate panel is moved forward by a predetermined amount by driving the conveyor, and the leading one of the electrode plate panels that are moving forward one by one Along with taking out, the electrode plate panel cutting process for making the electrode plate panel substantially horizontal, the electrode plate panel horizontal feeding process for sequentially sending the electrode plate panels in the horizontal state, and the electrode plate during the electrode plate panel horizontal feeding process A method of manufacturing a storage battery electrode plate, comprising the step of positioning the panel and cutting the unnecessary portion of the projection of the electrode plate panel by shearing or pushing. Out step, a pair of rod feed mechanism across the plate panel horizontal feed step and the cutting step, is characterized in that for conveying the plate panel.

Examples Hereinafter, the present invention will be described with reference to one example. That is, FIG. 1 is a schematic front view showing an embodiment of the electrode plate panel a used in the present invention. In this embodiment, one electrode plate is formed from one electrode plate a.

In FIG. 1, b is a grid panel cast from a lead alloy, which has an ear-side protruding portion c and a foot-side protruding portion d, which respectively protrude substantially laterally from above both side surfaces thereof. . The active material e is kneaded onto the grid panel b to form an electrode plate panel. The electrode plate panel a thus formed will be described in detail later, but the unnecessary portions in the ear-side protruding portion c and the foot-side protruding portion d are unnecessary. f is cut at the position shown by the dotted line by shearing or pushing to form a storage battery electrode plate.

Next, a method of manufacturing the storage battery electrode plate will be described with reference to FIG. 2 which is a schematic explanatory view of an embodiment thereof.

That is, in FIG. 2, A is an electrode plate panel supplying step, in which a double-strand chain 1 is hung on a sprocket 2, and a plurality of electrode plate panels a are mounted on the chain 1 with their ear-side protrusions c and legs. The side protrusions d are arranged so as to be suspended from each of the chains 1. By intermittently feeding the sprocket 2 from this, a plurality of electrode plate panels a
Will gradually move forward.

B is an electrode plate panel cutting process, and the leading electrode plate a is the electrode plate surface or the protruding portion due to the suction cup 3 that moves back and forth in synchronization with the intermittent movement of the chain 1. Are sucked and pulled out onto the rod feeding unit 4 which performs a box motion. Since the pulled-out electrode plate panel a is cut off there, it falls as if the ear-side protruding portion c and the foot-side protruding portion d are suspended by the rod feeding portion 4. The rod feeding part 4 is provided with a claw 5 for hooking the ear side protruding part c and the foot side protruding part d, and the dropped electrode plate advances along with the forward movement of the rod feeding part 4 and moves along the curve 6. The lower part is lifted and becomes substantially horizontal.

C is an electrode plate panel horizontal feed step, in which the electrode plate panel a is placed horizontally on a guide that is horizontally continuous from the curve 6, and the lower side of the electrode plate a is pushed by the claw 7 to move forward.
When the rod feeding section 4 descends, the claw 7 is pulled out, and then the backward movement,
By repeating the motion of being raised and being applied to the next claw 7, it is sequentially fed.

There is a cutting process D in the middle of the electrode plate panel horizontal feeding process C, and the electrode plate panel a sent to this process is positioned by the claw 7 and the cylinder motion stoppers provided on the other three sides to perform the shearing. The unnecessary portion f is sheared by the cutting machine 8 of the type, and thus the storage battery electrode plate g is completed. Further, the unnecessary portion f cut at this time falls downward and is collected in the waste receiving box, or falls on the conveyor running below and is carried to the collecting place.

The electrode plate completed as described above is further sent, but in the next process, in addition to the process of stacking the electrode plate on a pallet or a box, the stacking process of alternately stacking the positive electrode plate and the negative electrode plate through the separator. It may be directly connected to.

The embodiment of the present invention has been described above in detail,
Various embodiments of the present invention can be considered without departing from the spirit of the present invention. For example, in the above-described embodiment, an example is shown in which the electrode plate panel is cut out by suction in the electrode plate panel cutting step, but it is also possible to mechanically cut out the electrode plate panel with a claw more than this.

Further, in the cutting step D, in addition to the shearing method by driving the sharing cutter with a flywheel type or cylinder type pressing device, a push-cutting method with an air nipper or the like may be adopted, or a rotary blade may be used. good.

Further, even in a case where a plurality of electrode plates are cut out from one electrode plate panel, it is possible to shear, press down, or cut with a rotary blade the unnecessary portion of the connection between the electrode plates by an equivalent method. .

EFFECTS OF THE INVENTION As described above, according to the present invention, there is provided a method for manufacturing an electrode plate of a storage battery electrode plate having a high dimensional accuracy, which is free from sawdust, and its industrial value is extremely large.

[Brief description of the drawings]

FIG. 1 is a schematic front view showing an embodiment of an electrode plate panel a used in the present invention. FIG. 2 is a schematic explanatory view showing an embodiment of the present invention. a ... Pole plate panel, b ... Lattice panel c ... Ear side protruding part, d ... Foot side protruding part e ... Active material, f ... Unnecessary part, g ... Storage battery plate A ... Pole Plate panel supply process, B ... Pole plate panel cutting process C ... Pole plate panel horizontal feed process, D ... Cutting process 1 ... Chain 2 ... Sprocket 3 ... Sucker 4 ... Pole feed unit 5 ...... Claw, 6 ... Curve 7 ... Claw, 8 ... Cutting machine

Claims (1)

(57) [Claims] 1. An electrode plate panel in which an active material is kneaded on a lattice panel provided with projecting portions projecting substantially laterally from the upper side of both side surfaces, and the electrode panel is projected onto a conveyor comprising two chains or belts. A plurality of plates are arranged so that each of the parts is suspended, and a plate plate supply step of moving the plate plate forward by a predetermined amount by driving the conveyor, and the plate plate panel at the beginning of the plate plate moving forward One by one, the electrode plate cutting process that makes the electrode plate substantially horizontal, the electrode plate horizontal feed process that sequentially sends the electrode plates in the horizontal state, and the electrode plate horizontal feed process. In a method of manufacturing a storage battery electrode plate, which comprises a step of positioning the electrode plate panel on the way and cutting an unnecessary portion of the electrode plate panel by shearing or pressing. Plate panel cutting step, by a set of rod feed mechanism across the plate panel horizontal feed step and the cutting step, the manufacturing method of the battery electrode plate, characterized in that for conveying the plate panel.