KR100217395B1 - Two row arraying apparatus of lithium battery - Google Patents

Abstract

The present invention relates to a two-row array device that can be intermittently and continuously supplied by alternately distributing lithium batteries supplied in a row in a row, and is transported along the inlet guide 23 by the operation of the belt conveyor 22. When the lithium battery 1 is continuously placed in the settled groove 32-1 of the rotating disc 32, the rotating disc 32 rotates forward and backward by the motor 30 by the motor 30. It is to be discharged by distributing to the (26) side, the rotary disk 32 is rotated forward and backward to distribute and supply one by one to each discharge guide alternately and is distributed by the rotation of the rotating disk, so the lithium battery is part of the device frame There is no worry of date in between, and thus the lithium battery can be quickly distributed, so that the back and forth process can be more organically linked.

Description

Lithium Batteries

The present invention relates to a two-row array device that can be supplied intermittently and continuously by alternately distributing lithium batteries supplied in a row.

In more detail, the lithium battery (Li / MnO ₂ Battery), which is supplied in a row by the supply guide on the belt conveyor, is divided into two rows by a rotating disk which is repeatedly rotated forward and backward to distribute and supply the same number. It is to be possible.

In the second heat array apparatus according to the present invention, since a discharge time (about 3 minutes) is required as in the next step of preliminary discharge, the lithium battery can be supplied in a plurality of rows by simultaneously distributing a plurality of texts. It is used where it can improve the efficiency by shortening the teat time.

In the past, an automated production line for automatically producing lithium batteries was not provided. Therefore, a device for distributing and supplying lithium batteries has not been proposed. However, the lithium batteries that are transported by a belt conveyor are not artificial. Means, ie, hand-held, were loaded on the pallet and moved.

This artificial loading method has a big problem in automating the production line of the lithium battery, it takes too much time to load and the work efficiency is reduced, and there is also a problem that can not organically link the front and rear processes.

In order to solve such a problem, a two-row array apparatus, which has been filed by the applicant in Japanese Patent Application No. 95-42429, has been proposed, and its structure has a structure as shown in FIG. 1 and FIG.

The conventional two-row arrangement 10 is operated as follows.

By operation of the belt conveyor 11, the lithium battery 1 is supplied in one row by the introduction guide 13, and a plurality of preceding (three in this embodiment) lithium batteries 1 are distributed in the guide 18 When the state of the inlet is confirmed by the sensor, the cylinder 20 is operated to move the distribution guide 18 connected to the rod 21 to one side of the discharge guide 14, 15 side. The lithium batteries 1 in the main surface distribution guide 18 are moved along the discharge guides 14 and 15 on one side.

At this time, any one of the stop plates 18-1 and 18-2 positioned on the opposite side closes the outlet side of the inlet guide 3 to prevent any discharge from the inlet guide 3 of the lithium battery 1. Done.

As described above, the distribution guide 18 alternately moves to the discharge guides 14 and 15 by the forward and reverse operation of the cylinder 20 while the distribution guide 18 coincides with the inlet guide 13. 1) is to be distributed.

However, the conventional two-row arrangement 10 is operated as described above is pointed out as a disadvantage.

When the distribution guide 18 is continuously moved from side to side by the cylinder 20, the lithium battery 1 located in the inlet guide 13 is a stop plate 18-1, 18-2 and an inlet guide 13 ) Is often interposed between the discharge guides (14) (15) and the distribution guide (18), the operator has to constantly monitor the heat array device (10), which is unnecessary In addition to waste of manpower, when the lithium battery 1 is jammed, it takes time to discharge it, which causes a problem in that work efficiency is lowered.

The present invention is to provide a two-row array device that can solve the above problems.

An object of the present invention is to provide a heat dissipation device having a structure that is not complicated and prevents a phenomenon in which a lithium battery is caught in a component so that work can be continued without a watcher.

Another object of the present invention is to distribute and supply the lithium batteries supplied in a row by a rotating disk that is rotated forward and backward, so that the front and rear processes can be more organically linked, and can be installed and operated in an automation line. It is to provide such a two-row arrangement.

In the above and other objects of the present invention, the lithium battery 1 is supplied to the inlet guide 23 by the belt conveyor 22, and the circular distribution guide is provided on the discharge side of the inlet guide 23. (24) and a pair of discharge guides (25, 26) on the discharge side of the distribution guide 24 in communication with the inner groove 24 of the distribution guide 24 in the 120 degree angle It is achieved by a two-row arrangement characterized in that the rotating disk 32 is formed to be rotated forward and backward by the motor (30).

Since the present invention is configured as described above, the lithium battery 1, which has been transferred along the inlet guide 23 by the operation of the belt conveyor 22, is continuously placed in the settling groove 32-1 of the rotating disc 32. When the rotation disk 32 is rotated forward and backward by the motor 30 by the motor 30 will be discharged by distributing to the discharge guide 25, 26 side.

1 is a plan view showing a conventional two-row array device.

2 is a front sectional view of a conventional two-row array device.

3 is a plan view of a two-row arrangement according to the present invention.

Figure 4 is a front sectional view of a two row arrangement according to the present invention.

5 is an explanatory view of the operation relationship of the heat dissipation device according to the present invention.

6 is an exemplary view of an origin slit for accurately operating a rotating disc in a two-row arrangement according to the present invention.

* Explanation of symbols for main parts of the drawings

1: lithium battery 17: guide rod

19: guide block 10,20: two-row arrangement

11,22: Belt conveyor 12: Frame

21: power frame 23: retraction guide

24: distribution guide 25,26: discharge guide

27,28: pulley 29: belt

30: motor 31: shaft

32: rotating disc 33,34: rotary cylinder

35: slit

The above and other objects of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

3 to 6 are exemplary views showing a specific embodiment, for example, the column array device 20 according to the present invention.

An inlet guide 23 is provided on a line of a conventional belt conveyor 22, and a distribution guide 24 is formed in a circular shape at an end thereof, and a pair of discharge guides 25 and 26 are provided on the discharge side thereof. Although equipped with sensors (S ₂ ) (S ₃ ) on the discharge guides 25 and 26, respectively, the lithium batteries 1 discharged toward the discharge guides 25 and 26 can be sensed.

The power frame 21 is provided in the cross direction of the distribution induction guide 24.

The upper plate 21-1 and the lower plate 21-2 fixed to each other are provided with a mandrel vertically so that the shaft 31 can be rotated by ordinary bearing means, and the lower side of the shaft 31 is distributed. The rotary disk 32 introduced into the induction guide 24 is fixed, but the rotation disk 32 is fixed to the rotation disk 32, the recessed grooves 32-1 are maintained at intervals of 120 degrees, and the shaft On the upper end of the 31, the sensing groove 35-1 fixed the slit 35 concaved at intervals of 120 degrees so as to be sensed by the sensor S ₄ .

The pulley 28 is fixed to the middle portion of the shaft 31 to be connected to the pulley 27 and the belt 29 fixed to the shaft of the motor 30.

In addition, the rotary cylinders 33 and 34 with the discharge bars 33-1 and 34-1 condensed on the upper side of the rear settled groove 32-1 of the rotating disc 32 are inverted to the lower plate 21-2. It was fixed and provided with a sensor (S ₁ ) in the rear of the settling groove (32-1) located at the outlet side of the inlet guide 23 to check the inflow state of the lithium battery (1).

The operation relationship will be described below.

By operating the belt conveyor 22, the lithium batteries 1 are supplied in a row along the inlet guide 23, and when the lithium battery 1 at the uppermost stage is introduced into the inch groove 32-1, the sensor S ₁ ) detects this and operates the motor 30 in one direction.

As the shaft 31 connected to the pulleys 27 and 28 and the belt 29 are rotated by the operation of the motor 30, the rotation disc 32 is rotated in one direction as shown in FIG. In this state, while the rotary cylinder 33 is operated to rotate the discharge bar 33 to the outside, the lithium battery 1 is discharged to the outside of the settling groove 32-1 by the discharge bar 33, and the discharge guide. Drawn in (25).

At the same time as the rotary cylinder 33 is returned, a new lithium battery 1 is introduced into the settling groove 32-1 by the insertion guide 23.

In this state, when the motor 30 operates in reverse and rotates the rotating disc 32 in reverse, the lithium battery 1 introduced into the settling groove 32-1 moves toward the rotary cylinder 34 and the rotary cylinder 34. Is operated to discharge the lithium battery 1 to be supplied to the discharge guide 26 side.

In this way, the rotational disk 32 is rotated forward and backward by the motor 30 so that it is evenly distributed and supplied to the discharge guides 25 and 26, and the sensor S ₂ of each discharge guide 25 and 26 is provided. ₃ ) If the lithium battery (1) is discharged by sensing the counting or the discharge guide (25) and the lithium battery (1) is accumulated in the discharge (25) is not discharged to the other side of the motor 30 It can only be operated in a direction, and this function is controlled by the main controller.

In particular, when the rotation disk 32 is rotated forward and backward by 120 °, as the slit 35 is also rotated forward and backward by 120 °, the sensing groove 35-1 is sensed by the sensor S ₄ , so that the rotation disk 32 is precisely rotated. Forward and reverse rotation by 120 °.

As described above, according to the present invention, as the rotation disc 32 is rotated forward and backward, the discharge guides are alternately distributed and supplied to each discharge guide, and are distributed by the rotation of the rotation disc, so that lithium batteries may be caught between components of the apparatus frame. Therefore, the lithium battery can be quickly distributed, and the front and back processes can be more organically linked.

Claims (2)

In the case where the lithium battery 1 is supplied to the inlet guide 23 by the belt conveyor 22, a circular distribution induction guide 24 is provided on the discharge side of the inlet guide 23 and the distribution guide ( A pair of discharge guides (25) and (26) are provided on the discharge side of the control panel (24) to communicate with each other, but inside the distribution induction guide (24), the recess power supply plate (32-1) is formed at an angle of 120 degrees. ) Is a _two- row array device of a lithium battery (Li / MnO ₂ Battery), characterized in that it can be rotated forward and backward by the motor (30). The lower cylinder (21) of claim 1, wherein the discharge cylinders (33-1) (34-1) are condensed on the upper side of the rear settle (32-1) of the rotating disc (32). -2) _two- row array device of a lithium battery (Li / MnO ₂ Battery) characterized in that the inverted fixed.