KR101775346B1 - A battery with indicator - Google Patents

Abstract

The present invention relates to a retroreflective type storage battery for easily adjusting the level of an electrolyte when replenishing an electrolyte of a retractable battery and determining the abnormality of the battery through the specific gravity of the electrolyte, And a mounting portion for allowing the indicating portion and the indicating portion to be fixed inside the main liquid port of the battery. The sphere of the indicator part functions to flow upward and downward in the cylindrical tube according to the level of the electrolyte solution, thereby facilitating the adjustment of the level of the electrolyte level of the user. Also, by determining whether the specific gravity of the electrolyte is abnormal, the maintenance and management of the battery can be facilitated by detecting the low specific gravity cell without any additional measuring equipment.

Description

[0001] The present invention relates to a battery with indicator,

The present invention facilitates the identification of the electrolyte level of a maintenance type battery and the detection of short-circuited batteries. It is inserted into the main liquid of a battery to make an electrolyte solution for facilitating the determination of electrolyte replenishment and battery short- And more particularly to a battery including the battery.

A battery is a rechargeable secondary battery that discharges and supplies charged electric energy. In general, the battery electrolyte uses a colorless and odorless diluted sulfuric acid and promotes the internal chemistry so that the current can be transferred well between the plates.

The battery can be repeatedly discharged and charged through the reversible reaction of the chemical reaction formula PbO ₂ (anode) + 2H ₂ SO ₄ + Pb (cathode) ↔ 2PbSO ₄ + 2H ₂ O. As the chemical reaction proceeds, hydrogen and oxygen gas are generated inside the battery and discharged to the outside. As the charge and discharge are repeated, the water level of the electrolytic solution is lowered due to the water decomposition.

Maintenance batteries should be repaired periodically by checking the water level of the electrolyte and replenishing with distilled water if necessary because the electrolyte decreases due to repeated charging and discharging.

The conventional battery is inserted into the outside of the battery cover according to need, so that the sphere flows according to the electrolyte specific gravity of the battery and performs the function of determining the state of the electrolyte inside the battery using the refraction of light according to the position of the sphere. When the electrolyte is replenished, the maintenance-type battery is opened and detached by the naked eye, and the electrolyte is regularly replenished to a certain level. When the electrolyte is replenished excessively, the electrolytic solution overflows to the upper part of the product, and if replenished insufficiently, the product life is degraded.

Therefore, it is necessary to develop a device for facilitating the identification of the electrolyte level of each cell.

Japanese Patent Registration No. 10-1238644 discloses an electrolyte solution lens for enhancing the cyanide property of the electrolyte solution by forming a fastening structure of the electrolyte solution on the surface of the lens to improve the airtightness of the rubber packing, have. 10-1238644 A head having a lens formed on an upper surface thereof and having a head body for supporting the lens; A rubber packing closely attached to a lower surface of the head to prevent leakage of the electrolyte solution; A cylinder extending from the lower portion of the head so as to reduce its diameter in the longitudinal direction; A thread connected to the upper side of the cylinder and fastened to the cover of the battery; And a lower holder coupled to the lower end of the cylinder for receiving a colored non-hollow core indicating a state of the electrolyte, wherein the head includes at least one fastening groove on an upper surface of the head body, , And the lens is formed in a convex shape. However, such a structure is complicated in structure and has a problem in manufacturing cost.

Registered Patent No. 10-1238644 'Electrolyte Solution for Storage Battery' Disclosure date December 18, 2012

The present invention relates to a method and apparatus for inspecting a state of a battery, which is inserted outside the cover of a battery and which functions to flow the sphere according to the specific gravity of an electrolyte of the battery and to read the state of the battery through a color change using light refraction, The purpose is to improve the battery to fit. When the periodic electrolyte replenishment of the maintenance type battery is replenished, the electrolyte is replenished up to the target level accurately, and the specific gravity of the electrolyte is discriminated without any additional measuring equipment, thereby checking the abnormality of the battery, The purpose is.

The present invention relates to a maintenance type battery indicator for visually discriminating the water level and specific gravity of a maintenance-type battery electrolyte, and includes a sphere having specific gravity, and a tube structure having a passage for moving up and down according to an electrolyte level And a mounting portion for allowing the indicating portion and the indicating portion to be fixed inside the battery main liquid. The directive consists of a spherical flow tube that can move up and down the sphere and sphere. The sphere is colored and has a specific gravity of 1.250. A specific flow tube is a cylindrical shape with an open inside and a sphere is inserted. Through the open concrete flow tube, the sphere contacts the electrolyte and flows up and down in the same line as the electrolyte level. The mounting portion serves as a support for fixing the indicator to the inside of the battery main liquid port and has a lattice structure to allow the electrolyte to flow into the cell when the electrolyte is replenished.

The present invention has the effect of facilitating the identification of the electrolyte level so as to replenish the electrolyte to the correct level when the electrolyte of the maintenance type battery is replenished. Further, the presence or absence of abnormality in the specific gravity of the electrolyte is discriminated to confirm whether or not the battery is abnormal, thereby providing the convenience of maintenance of the battery.

1 is a perspective view showing a structure of a maintenance type battery
Fig. 2 is a perspective view showing a grounding mirror for a maintenance type battery of the present invention.
Fig. 3 is a vertical cross-sectional view of the inscription battery for the maintenance type battery inserted into the main liquid of the cover. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

As shown in Fig. 1, the maintenance-type battery is mounted on the top of the cover 20 with a detachable cap 30 for electrolyte replenishment. In general, when the battery is used, the cap 30 is used in a closed state. When the electrolyte solution needs to be supplemented according to the decrease of the electrolyte, the cap 30 is opened to replenish the electrolyte solution through the cover main liquid.

In order to facilitate the identification of the electrolyte level so as to supplement the electrolyte to the correct level when the electrolyte of the maintenance type battery is replenished, a detachable cap (30) is provided at the upper end of the cover (20) (21), characterized in that:

A circular mounting portion 200 formed at a lower portion of the main liquid port 21 and corresponding to the diameter of the main liquid port 21,

A specific flow tube 102 installed at the bottom of the mounting portion 200,

And a sphere (101) inserted in the specific flow tube (102) and moving up and down in the specific flow tube (102) according to the level of the electrolyte.

In the above configuration, the spherical body 101 of the indicated diameter inserted into the main liquid port 21 is positioned on the same line as the level of the electrolytic solution, and replenished until the spherical body 101 rises to the upper portion of the directive 100 Thereby providing convenience in adjusting the level of the colorless transparent electrolyte. The indicator shaft for the maintenance type battery is inserted into the main liquid port (21) and fixed to the main liquid port (21) through the mounting portion (200). The sphere 101 of the instruction unit 100 is positioned on the same line as the level of the electrolytic solution and the sphere rises according to the electrolyte level when the electrolyte is replenished and the maximum ascending height of the sphere 101 is the level at which the electrolyte replenishment is completed. The mounting portion 200 serves as a support for fixing the indicator 100 to the inside of the battery main liquid port 21 and has a lattice structure to allow the electrolyte to flow into the cell when the electrolyte is replenished.

The specific flowtube 102 has a structure in which the electrolyte is partially opened to be in contact with the spherical body 101. The sphere 101 may not be separated from the four pillars as shown in FIG. 2, and may be configured to have a hole through which the electrolyte can flow into the tubular body, if necessary.

As described above, the specific gravity of the spherical body 101 is preferably in the range of 1.250 占 .010 so that the spherical body 101 is raised or lowered corresponding to the level of the electrolytic solution. This is significant as the number of households considering the weight of electrolytic solution.

The maximum rising height of the sphere 101 is a point at which the electrolyte replenishment is completed. When the battery is not charged due to a short circuit, H2O is not reduced to H2SO4. The electrolyte has a lower specific gravity than the specific gravity of the electrolyte. The electrolyte is located on a line lower than the electrolyte level to determine whether the specific gravity of the electrolyte is abnormal. It also functions to confirm.

The spherical body 101 is preferably made of at least one material selected from natural rubber, butadiene rubber, polymethylmethacrylate (PMMA), polyethylene resin, and epoxy resin. In order to control the specific gravity of the material, a hollow portion may be formed in the sphere 101 as needed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it should be understood that various changes and modifications will be apparent to those skilled in the art. It is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas which fall within the scope of equivalence by alteration, substitution, substitution and the like within the scope of the present invention, Range. In addition, it should be clarified that some configurations of the drawings are intended to explain the configuration more clearly and are provided in an exaggerated or reduced size than the actual configuration. It is to be understood that the appended claims are intended to facilitate understanding only and do not limit the shape and construction of the present invention to the accompanying drawings.

10. Precursors
20. Cover
21. Primary pit
30. Cap
100. Indicator
101. Sphere
102. Specific flow tube
200. Mounting portion

Claims (3)

A detachable cap 30 is provided at the upper end of the cover 20 to facilitate identification of the electrolyte solution level so as to supplement the electrolyte solution to the correct level when the battery is replenished with electrolyte and includes a main liquid port 21 for replenishing the electrolyte solution In the battery,
A circular mounting portion 200 formed at a lower portion of the main liquid port 21 and corresponding to the diameter of the main liquid port 21,
A specific flow tube 102 installed at the bottom of the mounting portion 200,
(101) inserted into the specific flow tube (102) and moving up and down in the specific flow tube (102) according to the level of the electrolyte,
The circular mounting portion 200 serves as a support for fixing the indicator 100 to the inside of the battery main liquid port 21 and is formed in a lattice structure so that the electrolyte can flow into the cell when the electrolyte is replenished And,
The specific flow tube 102 includes four pillar portions and has a structure in which an electrolyte is partially opened to be in contact with the sphere 101,
The specific gravity of the spherical body 101 is in the range of 1.250 占 .010,
Wherein the spherical body (101) is made of at least one material selected from natural rubber, butadiene rubber, polymethylmethacrylate (PMMA), polyethylene resin, and epoxy resin.
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