KR101135106B1 - Battery discharge device - Google Patents

Abstract

PURPOSE: Apparatus for discharging battery is provided to have simple control for easily discharging the battery charged degree to predetermined level in order to maximize the charging efficiency of a battery. CONSTITUTION: Apparatus for discharging battery comprises a housing(10) having: a space part inside, and a fixed hole formed on floor; a discharge part(2) in which a terminal part is formed to one body in both ends of wound heating member(21); a fixing filler(30) consisting of inorganic material for fixing the discharge part, preventing the radiating of heat of high temperature by being filled inside the housing; and a first heat transfer prevention unit preventing the failure of the discharge part due to heat of high temperature between the discharge parts; a second heat transfer prevention unit(50) for preventing heat transfer to outside by being installed between the fixing filler and the housing; and a connector connected to the terminal part of the discharge part.

Description

Battery Discharge Device

The present invention relates to a battery discharge device, and more particularly, to a battery discharger for discharging the charge amount of the battery to a certain level to maximize the charging efficiency of the battery.

The conventional discharging device used a water resistor (a resistor in contact with water to adjust the resistance value) to discharge the battery to be discharged. In other words, the electrode of the water resistor is immersed in the water of a large tank (Tank) to adjust the current by the contact area with water (current = voltage / resistance) to discharge the battery.

However, since such a conventional battery discharge device uses a water resistor, an electric current is hunted due to an accident due to work preparation time, short circuit, etc., and water boiling (phenomena of boiling of water due to heat). Phenomena that do not stop) and leaving environmental pollution such as the generation of corrosive sites and waste water.

In addition, in order to improve the above problems, a regenerative discharger and an SCR controlled discharger have been developed, but there is a problem in that practical use is difficult because the structure is complicated and expensive.

The present invention has been made in view of the above problems, and is to provide a battery discharger that is easy to use, simple to operate, and obtains uniform operation and effects regardless of time and place.

According to the present invention, there is provided a battery discharge device comprising: a housing having a predetermined shape and having a space portion formed therein and a fixing hole at a bottom thereof; A discharge part comprising a connecting part configured to be integrally formed at both ends of the heating member and spaced apart at regular intervals from the inner space of the housing and formed at both ends of the heating member wound several times, and connecting the heating member to the other side; Fixed filling means made of an inorganic material that is filled in the housing to block the discharge of high temperature heat to the outside while fixing the discharge portion; First heat transfer preventing means between the discharge parts to prevent breakage of the discharge parts by high temperature heat generated when the battery is connected; A second heat transfer preventing means installed between the fixed filling means and the housing to prevent high temperature heat from being transferred to the outside; It is achieved by a battery discharge device characterized in that it comprises a connector connected to the terminal portion of the discharge portion.

The fixed filling means is achieved by a battery discharge device, characterized in that any one selected from gypsum, ceramic, cement.

The first heat transfer preventing means is made of a horizontal plate and a vertical plate, but the horizontal plate and the vertical plate is provided by a battery discharge device, characterized in that the coupling groove is provided by being fitted to each other is provided with a coupling groove.

The first heat transfer preventing means is achieved by a battery discharge device, characterized in that the sheet form.

The present invention as described above is easy to use, easy to use, easy to use, and can achieve uniform operation and effect regardless of time and place so as to maximize the charging efficiency of the battery. It has an effect.

1 is a cutaway perspective view showing the structure of a battery discharge device to which the technique of the present invention is applied.
Figure 2 is a longitudinal sectional view showing the structure of a battery discharge device to which the technique of the present invention is applied.
Figure 3 is a cross-sectional view showing the structure of a battery discharge device to which the technique of the present invention is applied.
Figure 4 is a perspective view showing the installation structure of the discharge portion and the first heat transfer preventing means which is the subject of the technique of the present invention.
5 is a cross-sectional view showing another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cutaway perspective view showing the structure of a battery discharge device to which the technique of the present invention is applied, FIG. 2 is a longitudinal sectional view showing the structure of a battery discharge device to which the technique of the present invention is applied, and FIG. 3 is a technique of the present invention. The cross-sectional view showing the structure of the battery discharge device is applied according to this according to the battery discharge device of the present invention has a predetermined shape, the inner space portion is formed in the inner space and the housing space having a fixed hole on the bottom surface at regular intervals At both ends of the heating member 21, which is spaced apart and installed in plurality, terminal parts 22 are integrally formed, and on the other side, a discharge part 20 including a connecting part 23 connecting the heating member is installed.

Filled in the housing 10 is filled with a fixed filling means 30 made of an inorganic material for fixing the discharge portion 20 while blocking the heat of the high temperature is discharged to the outside, while the discharge portion 20 Between the first heat transfer preventing means 40 is installed to prevent damage to the discharge unit 20 by the high temperature heat generated when the battery is connected.

As shown in FIG. 4, the first heat transfer preventing unit 40 includes a horizontal plate 41 and a vertical plate 42, but a coupling groove 41a is formed in the horizontal plate 41 and the vertical plate 42. 42a is provided and the coupling grooves 41a and 42a are fitted to each other.

A second heat transfer preventing means 50 is installed between the fixed filling means 30 and the housing 10 to prevent high temperature heat from being transferred to the outside, and the terminal portion 22 of the discharge portion 20 is provided. It is a structure including a connector 60 connected to.

The fixed filling means 30 is preferably any one selected from gypsum, ceramic, limestone, the first heat transfer preventing means 40 and the second heat transfer preventing means 50 is used in the form of a sheet It is preferable.

Operation of the battery discharge device of the present invention having the structure as described above is charged to the + or-electrode of the battery in order to discharge the energy remaining in the battery after charging it to a certain amount of energy remaining in the waste battery or waste battery. When the connector 60 connected to the terminal part 22 of the whole 20 is connected, the current charged in the battery is transferred to the discharge part, and heat is generated at the discharge part 20 while heating to a high temperature.

Therefore, a plurality of spaced apart at regular intervals in the inner space of the housing 10 is installed, and the heat generating member 21 of the discharge unit 20 wound several times generates heat. The discharge unit 20 is preferably made of a gold material, the discharge amount is adjustable according to the discharge time and the material, thickness, number of turns of the heat generating member 21. Control of the amount of discharge according to the discharge time and the material, thickness, number of windings of the heat generating member 21 is a commonly known technique, so the description thereof will be omitted.

As described above, when the charged energy of the battery is transferred to the heat generating member 21 of the discharge unit 20, high temperature heat is generated, and the high temperature heat is installed between the fixed filling means 30 and the housing 10 to provide high temperature. The heat is blocked by the second heat transfer preventing means 50 to prevent the transfer of heat.

Furthermore, between the second heat transfer preventing means 50 and the housing 10, as shown in FIG. 5, a space 11 may be further secured to block temperature transfer. The reason why the space 11 is further provided is to prevent the internal temperature from being transmitted to the outside.

On the other hand, since the discharge unit 20 is formed in two stages, when heat is generated in the heat generating members 21, heat generated by the heat generating member 21 adjacent to its own heat generated by each of the heat generating members 21 is generated. Since the weight is caused to damage the heat generating member 21, it is blocked and protected by the first heat transfer preventing means 40 provided between the heat generating members 21. The internal temperature generated by the heat generating member 21 is about 200 ° C.

The first heat transfer preventing means 40 is made of a horizontal plate 41 and the vertical plate 42 as shown in Figure 4 attached to the horizontal plate 41 and the vertical plate 42, the coupling groove (41a) 42a is provided and the coupling grooves 41a and 42a are fitted to each other.

The vertical plate 42 is fixedly installed at the connecting portion 23 to which the heat generating members 21 constituting the discharge unit 20 are connected to each other, and the coupling groove of the vertical plate 42 fixed to the discharge unit 20 is installed. The coupling groove 41a of the horizontal plate 41 is inserted into 42a to fix the horizontal plate 41.

The first heat transfer preventing means 40 is preferably used in the form of a sheet. This is because the weight can be configured lightly and the internal volume can be reduced. Use asbestos that can block heat.

On the other hand, the heat generated from each of the heat generating members 21 in the housing 10 is installed between the fixed filling means 30 and the housing 10, the second heat transfer preventing means for preventing the transfer of high temperature heat to the outside ( By 50).

It is preferable to use the fixed filling means 30 is made of any one selected from gypsum, ceramic, cement, because the heat transfer can be more easily blocked.

10 housing 20 discharge part
21: heat generating member 22: terminal portion
23: connecting portion 30: fixed filling means
40: first heat transfer preventing means 50: second heat transfer preventing means
60: space

Claims (5)

In the battery discharge device,
A housing having a predetermined shape and forming a space portion inwardly and having a fixing hole at a bottom thereof;
A discharge part having a terminal part integrally formed at both ends of the heat generating member, the plurality of which are spaced apart by a certain diameter and spaced at a predetermined inner portion of the housing;
Fixed filling means made of an inorganic material that is filled in the housing to block the discharge of high temperature heat to the outside while fixing the discharge portion;
First heat transfer preventing means between the discharge parts to prevent breakage of the discharge parts by high temperature heat generated when the battery is connected;
A second heat transfer preventing means installed between the fixed filling means and the housing to prevent high temperature heat from being transferred to the outside;
Battery discharge apparatus characterized in that it comprises a connector connected to the terminal portion of the discharge portion.
The method of claim 1,
The fixed filling means is a battery discharge device, characterized in that any one selected from gypsum, ceramic, limestone.
The method of claim 1,
Wherein the first heat transfer preventing means is made of a horizontal plate and a vertical plate, the horizontal plate and the vertical plate is provided with a coupling groove, the battery discharge device, characterized in that the coupling groove is inserted into each other.
The method of claim 1,
The first heat transfer preventing means is a battery discharge device, characterized in that consisting of a sheet.
The method of claim 1,
The battery discharge device, characterized in that a space further formed between the second heat transfer preventing means and the housing.

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