JPS6178050A - Small-sized button type cell assembly - Google Patents

Abstract

PURPOSE:To allow a stable and continuous supply by storing cells in recesses provided on a tape-like, band-like lengthy material at a uniform distance in multiple lines when supplying small-sized button type cells to fit them to the electronic equipment. CONSTITUTION:When small-sized button type cells are continuously supplied to be fitted to the electronic equipment such as a desk calculator, a clock, etc., a cell assembly is used which is formed by storing the cells 3 in the first flexible tape 1 made of a band-like single layer structure and formed with recesses 1' storing the cells 3 at a uniform distance in multiple lines then fixing the second tape 2 by thermocompression bonding or the like. Accordingly, when the cell assembly is continuously fed by utilizing feed holes 4 provided on the tapes 1, 2 to fit the cells 3 to the electronic equipment, the tape 2 is peeled from the tape 1 to take out the cells 3, thus a stable supply is allowed, the cell storage area is decreased, and its preservation and conveyance can be facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an assembly suitable for supplying small button batteries and supplying them to a mounting device.

Conventional structure and its problems Conventionally, in devices for attaching small button batteries to electronic devices such as calculators and watches, the method of supplying them to the attachment tool is as follows:
As shown in Fig. 1 (a), a magazine method is used in which small button batteries B are arranged horizontally or vertically and taken out one by one, or as shown in Fig. 2, recesses C are provided at equal intervals and the recesses are There was a one-tray system in which small button-shaped batteries B were loaded and fed onto C, and there was also a rotary-disk system in which the batteries B were lined up on a one-turn table T and then fed in a line on a chute, as shown in FIG.

However, with the magazine feeding method shown in Figure 1, batteries can be fed relatively reliably by using a push rod, etc., but it has the disadvantage that it takes time to recover from a blockage and it is not possible to increase the number of batteries in stock. be. In addition, in the tray supply method shown in Fig. 2, the tray 2 moves in the x and y directions and supplies batteries one by one, or the mounting tool moves in the X and Y directions at the same time to supply batteries, etc. It has the disadvantage that the process must be complicated and the number of stocks is small. Furthermore, the rotary disk system shown in FIG. 3 has a problem in that it is necessary to manually take out the battery from the battery storage case and supply it to the rotary disk.

Purpose of the Invention The present invention stores multiple rows of small button batteries at equal intervals in recesses provided in a long strip material such as tape, thereby making it possible to provide a continuous and stable supply. The present invention aims to provide an assembly that makes it possible to supply small button batteries.

Structure of the Invention The present invention provides a first band-shaped flexible elongated material in which a plurality of storage recesses are provided in a direction perpendicular to the longitudinal direction and are equally spaced in the longitudinal direction, and the openings of the storage recesses are covered. a second strip-shaped elongated material that can be used, and the small button-shaped battery is stored in the storage recess without using an adhesive and with a gap between the storage recess and the side wall of the storage recess. It is the body.

According to this configuration, by winding up the band-shaped battery assembly, a large battery storage area is not required, and it is possible to reliably feed all the small button-shaped batteries by using the feeders provided at equal intervals. be.

Moreover, when installing small button batteries externally, it is necessary to remove the strip material covering the recess and reliably take out multiple small button batteries from the recess at the same time and in an arbitrarily set mounting direction. It is easy to install, and the work efficiency is improved.

Description of examples The present invention will be explained in detail below.

FIGS. 4 and 5 show an assembly of small button batteries according to an embodiment of the present invention. In the figures, 1 indicates a first flexible elongated material (hereinafter referred to as tape) consisting of a band-shaped single layer structure. ), this tape 1 has a storage recess 1' in which a small button battery 3 can be guided and stored with a gap between it and the side wall.
are arranged in a plurality of rows at equal intervals, and a second tape 2 is fixed to the tape 1 by thermocompression bonding or mechanical bonding on the upper side so as to cover the storage recess 1' of the tape 1. The small button batteries 3 are stacked in multiple rows at equal intervals along the tapes 1 and 2, with each battery being guided and stored one by one in the storage recess 1', and the loading direction of the small button batteries is set in each row. Can be set arbitrarily.

In the case of FIG. 4, as shown in FIG. 5, each row is stacked with the e side at the top and the θ side at the top. In addition, one or more rows of feed holes 4 are provided in either or both of the tapes 1 and 2 to accommodate the loading of small button batteries 3.

In addition, if you purchase all the tapes 1 and 2, you will not need a large battery storage area, and you can use the equally spaced spout holes 4 to store a large number of small button batteries 3 in a row. In addition, when attaching the small button batteries 3 to the outside, the tape 2 is peeled off from the tape 1, and the small button batteries 3 are placed in the number of rows from the storage recess 1' of the tape 1. It has great effects, such as being able to reliably take it out at the same time and in an arbitrarily set insertion direction.

Another advantage is that since the batteries 3 can be completely sealed one by one, short circuits of the batteries can be prevented, which is also very effective in long-term storage and transportation.

Next, other embodiments of the present invention will be described with reference to FIGS. 6, 7, and 8. In this example, the first
Holes 6.5'i are provided at positions corresponding to the portions of the tape 1 and the second tape 2 on which the small button batteries 3 are loaded. According to this structure, when attaching the small button battery 3 to the outside, the tape 2 is pushed through the entire hole 5.6' without peeling the tape 2 from the tape 1. It has the effect of being able to be taken out in pieces upwards.

Another advantage is that the electrical characteristics of a large number of small button batteries can be checked in succession while they are stored.

Father, when tape 1 and tape 2 are fixed with an adhesive, there is also the effect that the battery will not come out no matter what the situation is.

Effects of the Invention As is clear from the above examples, according to the present invention,
Since the small button batteries are stored in the storage recess with a gap between them and the side wall of the recess, it is possible to take out the small button batteries with less force, and it is also possible to take out multiple batteries at the same time and transfer them to the device. The insertion direction can also be set arbitrarily, making continuous and stable supply possible. In addition, it does not short-circuit under any conditions and is highly effective in storage and transportation.

[Brief explanation of drawings]

Figure 1 A1 is a sectional view showing the conventional magazine feeding system, Figure 2 is a perspective view showing the tray feeding system, Figure 3 is a perspective view showing the rotary disk system, and Figure 4 is the invention according to the present invention. A top view showing an example of a small button battery assembly in
5 is a sectional view taken along the person-entry line in FIG. 4, FIG. 6 is a top view showing an assembly in another embodiment of the present invention, FIG. Figure 8 is B of Figure 6.
It is a sectional view along the -B' line. 1...First strip-like long material, 1'...Storage recess, 2...Second strip-like long material, 3...
...Small button battery, 4...Feeding guide means (feeding hole), 6.5'...Extraction hole. Name of agent: Patent attorney Toshio Nakao and one other person Figure 3 Figure 4

Claims (5)

[Claims] (1) Provide multiple storage recesses in a direction perpendicular to the longitudinal direction,
and a first band-shaped flexible elongated material having equal intervals in the longitudinal direction and a second band-shaped elongated material capable of covering the opening of the storage recess, and an adhesive is used in the storage recess. A small button-type battery assembly in which the small-sized button-type battery is housed with a gap between the storage recess and the side wall of the storage recess. (2) The small button battery assembly according to claim 1, wherein one or more rows of mechanically-feedable feed guide means are provided on either or both of the first and second long strip materials. . (3) The first belt-like long material and the second belt-like long material,
A small button-shaped battery assembly according to claim 1 or 2, which is fixed by adhesive or thermocompression bonding. (4) The small button according to claim 1, 2, or 3, wherein a hole is provided at a location corresponding to the storage recess of one or both of the first and second elongated materials. Shape battery assembly. (5) A claim in which the storage direction of the small button battery stored in the storage recess of the first strip-shaped elongated material is arbitrarily set in a direction perpendicular to the longitudinal direction, and the storage direction is the same in the longitudinal direction. The small button battery assembly according to item 1, item 2, or item 3.