KR200397368Y1 - Welding machine of terminal for battery - Google Patents

Abstract

The present invention relates to a spot welder for attaching a terminal to an electrode of a lithium battery, the fixing device for fixing a plurality of batteries and the battery case of the terminal is seated on top of the electrode of each battery; A forward and backward device for advancing and reversing the fixing device at a predetermined interval: a welding device for welding a terminal and a battery seated on a battery case while being positioned above the fixing device; And a raising and lowering device for raising and lowering the welding device by a predetermined distance. In addition, the series of welding process of the terminal on the top of the +/- electrode of the slip type lithium battery is automatically performed, and more accurate and safe welding is performed to improve the work efficiency of the product and the reliability of the product. It is intended to provide a terminal welder for the battery as far as possible.

Description

Battery welding machine for terminals {Welding machine of terminal for battery}

The present invention relates to a welding machine for attaching a terminal to an electrode of a lithium battery used in a mobile phone, and more specifically, for a battery for precise spot welding of a plurality of batteries and a battery case on which each terminal is mounted. It relates to a terminal welder.

In general, a lithium battery is used in a mobile phone so that it can be continuously used while charging power. Such a lithium battery has a +/- electrode formed at one end and a terminal is welded to the +/- electrode. It is true.

In addition, the demand for mobile phones is rapidly increasing every year, and thus the demand for lithium batteries is also greatly increased. In order to meet the supply of lithium batteries, automation is essential in producing and manufacturing lithium batteries.

However, in the related art, the process of welding the terminal to the +/- electrode of the battery is not automated, and as a result, a lot of defects are generated, as well as a reduction in work efficiency.

The present invention has been made to solve the problems and drawbacks of the prior art, the main purpose of which is a series of processes for welding the terminal on the top of the + /-electrode of the slip-type lithium battery is automatically performed, and more accurate and safe welding It is intended to provide a terminal welder for the battery to make this happen.

Another object of the present invention is to provide a terminal welding machine for a battery that can check the abnormality of the battery by measuring the voltage of the battery at the same time as the spot welding of the battery and the terminal.

The present invention for achieving the above object in the spot welder for attaching the terminal to the electrode of the lithium battery,

Fixing device for fixing a plurality of batteries and the battery case of the terminal is seated on the upper electrode of each battery; A forward and backward device for advancing and reversing the fixing device at a predetermined interval: a welding device for welding a terminal and a battery seated on a battery case while being positioned above the fixing device; And a raising and lowering device for raising and lowering the welding device by a predetermined distance. Is made of.

At this time, the fixing device is a plate of a predetermined width formed in a plate shape to seat the battery case; And an adhesive member for tightly fixing the battery case seated while the fixing plate is moved forward and backward by the operation of the cylinder in the state installed at both sides of the plate. Is made of.

In addition, the forward and reverse device is a slide block for supporting the plate of the fixing device; A guide block for guiding the slide block to be moved forward and backward by a predetermined distance; A screw screwed to the slide block to move the slide block forward and backward in the rotational direction; And a driving motor for rotating the screw forward and reverse. Is made of.

In addition, a pair of welding ends are formed at the lower end of the welding device to be spot welded at the same time, respectively located on the + /-electrode of the battery.

In addition, the lifting device is a slide block for supporting the welding device; A guide block for guiding the slide block to be moved up and down by a predetermined distance; A screw screwed to the slide block to move the slide block up and down in a rotational direction; And a driving motor for rotating the screw forward and reverse. Is made of.

At this time, the welding device welds both sides of the +/- electrode at the same time, and the voltage measuring device to check whether the battery is abnormal by measuring the voltage of the battery through the energization of the terminal welded to the +/- electrode It is further provided.

Hereinafter, a preferred embodiment of the present invention looks at in more detail based on the accompanying drawings.

1 is a front view showing a terminal welder for batteries to which the present invention is applied, FIG. 2 is a plan view showing a terminal welder for batteries to which the present invention is applied, and FIG. 3 is a side view showing a terminal welder for batteries to which the present invention is applied. 4 is a perspective view illustrating a battery case and a battery to which the present invention is applied.

Terminal welding machine for batteries of the present invention as shown in Figures 1 to 3 largely the fixing device 100 for seating the battery case 20, the forward and reverse devices 200 for operating the forward and reverse the fixing device ), A welding device 300 for welding the battery 10 and the terminal 12 mounted on the battery case, and a lifting device 400 for lifting and lowering the welding device.

First, the battery case 20 to which the present invention is applied has a case body 22 having a plurality of slots formed thereon to seat a plurality of batteries 10 and + formed on the battery 10 as shown in FIG. 4. The upper part of the terminal 12 is in close contact with and fixed to the electrode, and a plurality of welders are welded to the fixed cover 12 through a predetermined interval so that welding is performed on each of the fixed terminals 12. It is composed.

Therefore, the terminal 12 is seated on the +/- electrode on the top of the battery 10 in a state where the battery 10 is inserted into each slot inside the case body 22 and then fixed by covering the welding cover 24. As a result, the terminal 12 seated on the +/- electrode of the battery 10 is welded through the weld hole of the welding cover 24.

Thus, the fixing device 100 is formed to tightly fix the battery case 20 in order to prevent flow in the state in which the battery case 20 is seated.

That is, the fixing device 100 by the operation of the cylinder 142 in a state of being installed on both sides of the plate 120 and the plate 120 of a predetermined width formed in a plate shape so as to seat the battery case 20 The fixing plate 144 is made of an adhesion member 140 for tightly fixing the battery case 20 seated while moving forward and backward.

At this time, the other side of the plate 120 on which the contact member 140 is formed is formed to support the battery case 20 to be in close contact by being bent vertically, while the fixing plate 144 of the contact member 140 is a battery case It is formed to be in close contact with both edges of the (20) to prevent the front, rear, left, right flow.

The forward and backward devices 200 advance and reverse the fixing device 100 at predetermined intervals so that each battery 10 and the terminal 12 in the battery case 20 are sequentially formed by the welding device 300. To make the welding work.

That is, the forward and backward devices 200 guide the slide block 220 and the slide block 220 to support the plate 120 of the fixing device 100 to be moved forward and backward at a predetermined distance. The guide block 240 and the slide block 220 for screwing is coupled to the screw 260 and the screw 260 forward and backward to move the slide block 220 before and after the rotational direction in accordance with the rotation direction It consists of a driving motor 280.

At this time, the drive motor 280 is made by continuous rotation and stop by a predetermined interval by the control is made continuous welding. On the other hand, the drive motor 280 of the forward and backward devices 200 when the forward and backward devices 200 are fully advanced and welding of each battery 10 and the terminal 12 in the battery case 20 is completed. Is returned to the original position by reverse rotation.

The welding apparatus 300 is formed to weld the battery 10 and the terminal 12 seated on the battery case 20 while being positioned above the fixing apparatus 100.

That is, a pair of welding ends 320a and 320b positioned at the +/- electrodes of the battery 10 are formed at the lower end of the welding device 300, so that the terminals 12 of the battery 12 are connected to each other. +/- electrode side welding is done at the same time. On the other hand, such welding is carried out in a state in which the welding end 320a, 320b is in close contact with the terminal 12 of the upper end of the battery 10 while being raised and lowered by the elevating device 400, which will be described later.

Meanwhile, the welding device 300 simultaneously welds both sides of the +/- electrode, and measures the voltage of the battery 10 by energizing the terminal 12 welded to the +/- electrode. Voltage measurement device (not shown) is further provided to check whether there is an abnormality.

That is, spot welding is performed by generating a predetermined arc between the +/- electrode of the battery 10 and the terminal 12 through the welding ends 320a and 320b. In this case, the welding by the arc generation is completed. Afterwards, both welding ends 320a and 320b screen the defects by measuring the voltage of the battery 10 through the energization of the terminal 12 welded to the +/- electrodes of the battery.

The lifting and lowering device 400 advances and lowers the welding device 300 by a predetermined distance, and thus the battery 10 and the terminal are advanced at the same time as the battery case 20 is advanced by the forward and backward devices 200. Allow continuous welding of (12).

That is, the lifting and lowering device 400 is a guide block 440 for guiding the slide block 420 for supporting the welding device 300 and the slide block 420 to be moved up and down by a predetermined distance. And a screw 460 coupled to the slide block 420 to move the slide block 420 up and down in a rotational direction and a driving motor 480 for forward and reverse rotation of the screw 460. )

Therefore, the drive motor 480 is moved forwards and backwards by a predetermined interval by control, and the slide block 420 coupled with the screw 460 is advanced as the process of raising, lowering and stopping the predetermined interval is repeated. Continuous welding is made to the battery case 20. On the other hand, in the state in which the welding of each of the battery 10 and the terminal 12 in the advanced battery case 20 is completed, the lifting and lowering device 400 is fully raised so that the battery case on the fixing device 100 ( 20) can be easily replaced.

This series of operations and actions are discussed in detail.

First, the battery case 20 in which the plurality of batteries 10 and the terminals 12 are seated is brought into close contact with the plate 120 of the fixing device 100 and the cylinder of the contact member 140 142 is operated to fix the fixing plate 144 by pressing both edges of the battery case 20. At this time, the welding apparatus 300 is in the state raised by the raising / lowering apparatus 400.

As the driving motor 280 of the forward and backward devices 200 is rotated, the battery case 20, which is seated and fixed as the fixing device 100 moves forward, is positioned under the welding window 300. That is, the first battery 10 and the terminal 12 seated in the battery case 20 to be welded are positioned below the welding ends 320a and 320b of the welding apparatus 300.

As the welding device 300 is lowered by the operation of the elevating device 400, the pair of welding ends 320a and 320b closely contact the terminal 12 seated on the top of the battery 10. While the welding is completed, the voltage measuring device checks the abnormality of the battery 10 by sensing the energization of the +/- electrode through the pair of welding ends 320a and 320b.

After the welding of the battery 10 and the terminal 12 for the first time as described above, and after checking whether the battery 10 is abnormal, the lifting and lowering device 400 is raised at a predetermined interval, and the forward and backward devices ( As the 200 is advanced at a predetermined interval, welding to the next battery 20 and the terminal 12 in the battery case 20 is performed.

In the state where welding of each battery 10 and the terminal 12 in the battery case 20 is completed through such a continuous process, the lifting and lowering device 400 is lifted to the initial height and the forward and backward movements. The device 200 is also retracted to the initial position so that the battery case 20 is replaced.

Therefore, such a series of operations are performed automatically, so that accurate and stable welding can be performed, and the defective state of each battery to be welded can be directly confirmed in real time.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but this is only an example, and those skilled in the art may understand that various modifications and equivalent other embodiments are possible therefrom. will be. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

As described above, according to the terminal welding machine for batteries of the present invention, a series of processes of welding the terminals on the top of the +/- electrode of the slip type lithium battery are automatically performed, thereby achieving more accurate and safer welding. This is a very useful effect that not only improves and improves the work process but also greatly improves the reliability of the product.

In addition, the welding of the battery and the terminal, and at the same time check the presence or absence of the battery through a voltage measurement device, a very useful effect that can be more effectively screened for defective products can be made.

1 is a front view showing a terminal welder for a battery to which the present invention is applied.

Figure 2 is a plan view showing a terminal welder for a battery to which the present invention is applied.

Figure 3 is a side view showing a terminal welder for a battery to which the present invention is applied.

4 is a perspective view showing a battery case and a battery to which the present invention is applied.

<Brief description of symbols for the main parts of the drawings>

10: battery 12: terminal

20: battery case 22: case body

24: welding cover

100: fixing device 120: plate

140: close contact device 142: cylinder

144: fixed plate]

200: forward and reverse device 220: slide block

240: guide block 260: screw

280: drive motor

300: welding apparatus 320a, 320b: welding end

400: lifting and lowering device 420: slide block

440: guide block 460: screw

480: drive motor

Claims (6)

In a spot welder for attaching a terminal to an electrode of a lithium battery, Fixing device for fixing a plurality of batteries and the battery case of the terminal is seated on the upper electrode of each battery; A forward and backward device for advancing and reversing the fixing device at a predetermined interval: a welding device for welding a terminal and a battery seated on a battery case while being positioned above the fixing device; And a raising and lowering device for raising and lowering the welding device by a predetermined distance. Battery terminal welder, characterized in that consisting of. According to claim 1, The fixing device is a plate of a predetermined width formed in a plate shape to seat the battery case; And an adhesive member for tightly fixing the battery case seated while the fixing plate is moved forward and backward by the operation of the cylinder in the state installed at both sides of the plate. Battery terminal welder, characterized in that consisting of. According to claim 1 or 2, wherein the forward and reverse device is a slide block for supporting the plate of the fixing device; A guide block for guiding the slide block to be moved forward and backward by a predetermined distance; A screw screwed to the slide block to move the slide block forward and backward in the rotational direction; And a driving motor for rotating the screw forward and reverse. Battery terminal welder, characterized in that consisting of. 4. The terminal welder of claim 3, wherein a pair of welding ends are formed at the lower end of the welding device to be spot welded at the same time, respectively. The apparatus of claim 4, wherein the raising and lowering device comprises: a slide block for supporting the welding device; A guide block for guiding the slide block to be moved up and down by a predetermined distance; A screw screwed to the slide block to move the slide block up and down in a rotational direction; And a driving motor for rotating the screw forward and reverse. Battery terminal welder, characterized in that consisting of. The method of claim 5, wherein the welding device welds both sides of the +/- electrode at the same time and measures the voltage of the battery through energization of the terminal welded to the +/- electrode to check whether the battery is abnormal. Terminal for welding the battery, characterized in that the measuring device is further provided.