KR100615156B1 - secondary battery - Google Patents

Abstract

Disclosed is a secondary battery.

A secondary battery having a case having a space portion filled with an electrolyte therein, a plurality of pole plates arranged in a horizontal direction in the space portion, and the positive and negative terminals electrically connected to the pole plate and exposed on the upper side of the case. And a dispersion tube having a plurality of discharge holes connected to the injection hole and having a plurality of discharge holes formed along the arrangement direction of the electrode plates.

Description

Secondary battery

1 is an external perspective view of a typical secondary battery,

2 is a cross-sectional view showing the internal structure of a conventional secondary battery;

3 is a cross-sectional view showing the internal structure of a secondary battery according to an embodiment of the present invention;

Figure 4 is a perspective view of the dispersion tube of the secondary battery shown in FIG.

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

10 ... case 11 ... space

12 Top cover 20 Plate

40 Anode terminal 41 Anode tab

50 negative electrode terminal 51 negative electrode tab

60 vent 70 dispersion tube

71.Inlet 72 ... Horizontal

73 ... outlet 75 ... lid

The present invention relates to a secondary battery, and more particularly, to an electric secondary battery having an improved structure so that the electrolyte is evenly charged between the stacked electrode plates when the electrolyte is supplied to the battery.

2. Description of the Related Art In general, a secondary battery is a device that stores electric energy inside and repeatedly performs charging and discharging by chemical reactions. For example, a secondary battery is configured to supply electricity to electric devices of automobiles and aircrafts.

1 and 2, in the conventional secondary battery, a plurality of pole plates 2 are installed in a case 1 of a hexahedron, and the pole plates 2 are electrolyzed in the remaining space except for the pole plates 2. The electrolyte solution is filled. In addition, an anode terminal 3 and a cathode terminal 4 are provided on the upper side of the case 1, and the anode plates 5 and the cathode tabs 6 are respectively energized with the electrode plates 2. In addition, a vent 9 for discharging the gas generated in the case 1 to the outside and an electrolyte injection hole 7 for supplying the electrolyte into the case 1 are formed above the case 1. The lid 8 which opens and closes the injection hole 7 is screwed with the injection hole 7.

In the secondary battery configured as described above, the electrolyte is filled in a state in which dozens of pole plates 2 are arranged in the horizontal direction in the case 1, but the electrolyte is not sufficiently supplied between the pole plates 2. The charging and discharging efficiency is lowered and the capacity does not come out properly.

However, in the related art, the electrolyte was injected through one injection hole formed in the upper surface of the case. As such, by supplying the electrolyte through one inlet, it takes a long time for the electrolyte to be dispersed and charged on each pole plate, and the electrolyte concentrates only on the pole plate immediately below the inlet, and is not properly filled between the other pole plates. There is a disadvantage that the quality of the product is degraded.

The present invention was devised to solve the above problems, and an object thereof is to provide a secondary battery having an improved structure such that electrolyte is uniformly dispersed and filled between pole plates arranged in a horizontal direction when the electrolyte is supplied. .

In order to achieve the above object, the present invention provides a case having a space portion filled with an electrolyte therein, a plurality of pole plates arranged in a horizontal direction in the space portion, and electrically connected to the pole plate and exposed to an upper side of the case. A secondary battery having a positive and negative electrode terminal, comprising: an injection hole supplied by an electrolyte solution injected from the outside of the case; and a dispersion tube having a plurality of discharge ports connected to the injection hole and formed along an arrangement direction of the electrode plates. It features.

Hereinafter, a secondary battery according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing the internal structure of a secondary battery according to an embodiment of the present invention.

Referring to the drawings, like the conventional secondary battery described with reference to FIG. 2, the secondary battery includes a hexahedral case 10, a plurality of pole plates 20, a positive electrode terminal 40, and a negative electrode terminal 50. Include. The case 10 has a space 11 formed therein, the upper surface of which is sealed by an upper cover 12. The pole plates 20 are disposed in the horizontal direction in the space portion 12 of the case 10, and the remaining space except for the pole plates 20 is filled with an electrolyte for electrolyzing the pole plates 20. The positive electrode terminal 40 and the negative electrode terminal 50 are exposed on the upper cover 12, and are energized with the respective electrode plates 20 through the positive electrode tab 41 and the negative electrode tab 51. The upper cover 12 is provided with a vent 60 for discharging gas generated therein to the outside.

On the other hand, unlike the conventional secondary battery, the secondary battery of the present embodiment includes a distribution tube 70 for uniformly dispersing the electrolyte between the electrode plates 20 to supply.

As shown in FIG. 4, the dispersion tube 70 includes an inlet 71, a horizontal tube 72, and a plurality of outlets 73. The injection port 71 is exposed above the upper cover 12 of the case 12 and is opened and closed by a lid 75. The horizontal tube 72 is formed to extend in the direction of the arrangement of the pole plates 20 so that the electrolyte solution injected into the injection hole 71 can move between the respective pole plates 20. In addition, the outlets 73 are formed in plural so as to be disposed along the longitudinal direction of the horizontal pipe 72 below the horizontal pipe 72. These outlets 83 are preferably formed of the same number as the number of the pole plates 20 so that the electrolyte solution between the respective pole plates 20.

In this case, the dispersion tube 70 is mounted inside the case 10 so that the dispersion tube 70 is always in contact with the electrolyte. Therefore, it is preferable to use a material which is easy to process without chemically reacting with the electrolyte, for example, one of polyethylene, polypropylene, and teflon.

In the secondary battery according to the present invention configured as described above, the electrode plates 20 are disposed in the horizontal direction in the space portion 11 of the case 10, and the electrolyte is charged while the upper cover 12 is coupled. Will be.

When filling the electrolyte, first, the lid 75 exposed on the upper surface of the case 10 is opened and the electrolyte is injected into the inlet 71. Then, the electrolyte injected into the injection port 71 passes through the horizontal tube 72 of the dispersion tube 70 through the discharge ports 73 formed below the horizontal tube 72 as shown in FIG. 3. It is dropped between the pole plates 20.

In this case, since the discharge ports 73 are formed between the pole plates 20 along the horizontal tube 72, electrolyte is uniformly dropped between the pole plates 20. Therefore, the electrolyte supplied to one inlet 71 is uniformly dropped into the space 11 of the case 10 through the outlet 73 of the dispersion tube 70, so that the electrolyte is horizontal in the pole plate 20. There is no empty space between them, and they are evenly filled.

Meanwhile, in the present embodiment, for example, the horizontal tube 72 of the dispersion tube 70 is installed horizontally with respect to the arrangement direction of the pole plates 20, but the horizontal tube 72 is the pole plate 20. Of course, even if disposed inclined with respect to the direction of the arrangement of the present invention is possible.

As described above, the secondary battery of the present invention has a built-in dispersion tube capable of uniformly supplying the electrolyte solution inside the case, and thus it is possible to quickly and uniformly supply the electrolyte solution to each of the electrode plates.

Therefore, the electrolyte filling time can be shortened, and the utilization of the electrode plate can be improved by suppressing the occurrence of empty space without filling the electrolyte solution between the electrode plates, thereby improving product quality.

Claims (3)

A case having a space part in which an electrolyte is filled; A plurality of electrode plates arranged in a horizontal direction in the space part; An anode and a cathode terminal electrically connected to the pole plates and exposed at an upper side of the case; And A horizontal tube installed in the case and extending in an arrangement direction of the pole plates, an injection hole formed to supply an electrolyte solution injected from the outside of the case to an upper side thereof, and connected to the injection hole at a lower side thereof, and arranged in the arrangement direction of the pole plates Secondary battery comprising a; dispersion tube having a plurality of outlets formed along. delete The method of claim 1, The material of the dispersion tube is a secondary battery, characterized in that any one selected from a material consisting of polyethylene (poly-ethylene), polypropylene (poly-propylene) and Teflon (teflon).

Images