KR20090062184A - Battery sensor integrated with a clapm - Google Patents

Abstract

A clamp integrated battery sensor is provided, which is not easily divided by vibration since it is closely fixed in the motor vehicle battery even if the separate bracket for installation is not used. A battery sensor(100) measures the current strength of battery by using the hall effect. The clamp integrated battery sensor comprises the flat sensor unit, the battery terminal clamp(120) of the metal material, and the cable clamp(130) of the metal material. The hall effect current measuring device is equipped inside the sensor unit. On one side of the sensor unit, the penetration hole(112) in which the battery terminal passes through the top and bottom of circular is formed. In the penetration hole surrounding of the bottom plane of the sensor unit, a plurality of fixture piece insertion holes are formed.

Description

Battery Sensor Integrated With a Clapm

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a clamp-integrated battery sensor, and more particularly, to a through hole through which a battery terminal can penetrate into a relatively flat sensor part, and a hollow cylindrical terminal contact piece having a diameter slightly smaller than that of the through hole. It relates to a clamp-integrated battery sensor for inserting the through-holes so that the battery terminals can be fixed.

Recently, the application of a system that requires vehicle battery status information is increasing due to securing reliability and fuel efficiency of a vehicle power system such as a power generation control system, an idle stop & go system, and an energy management system.

In order to determine the vehicle battery status, the sensor measures current, temperature, and voltage information of the battery.

In particular, the battery current value is the main information for extracting the charge / discharge state of the battery, and a shunt or hall effect method is used to detect the magnitude of the current.

Battery sensors for measuring battery current should be mounted as close to the battery as possible to optimize L / OUT and detection data quality.

The battery sensor disclosed in the related art has a method of attaching to a battery outer surface by installing a separate bracket, and a method of attaching to a battery terminal connecting cable by a tape method.

In this case, a separate fixing device should be used, and it is disadvantageous because it is fixed in a separated state from the battery, and it is difficult to install according to the internal structure of the vehicle.

In addition, when the battery sensor is taped and fixed to the cable, it is vulnerable to vibration of the vehicle, and there is a fear of time delay and product defect due to poor workability in the assembly process.

The present invention has been proposed to solve this problem, and an object of the present invention is to provide a clamp-integrated battery sensor having a structure that can be in close contact with the surface of the battery while the battery terminal is inserted.

In addition, an object of the present invention is to provide a clamp-integrated battery sensor that is not easily separated from the vibration caused by the driving of the vehicle by fixing the clamp for fixing the battery terminal to the sensor using a fixing piece.

Clamp integrated battery sensor according to the present invention for achieving the above object, as a battery sensor for measuring the current strength of the battery using the Hall effect, there is provided a Hall effect current measuring device therein, the battery terminal on one side up and down A circular through hole formed therein, the sensor unit having a flat shape having a plurality of fixing piece insertion grooves formed around the through hole of the bottom surface; A hollow cylindrical terminal contact piece surrounding the outer circumferential surface of the battery terminal is formed to protrude by a certain height, and a plurality of fixings in a shape corresponding to the fixing piece insertion groove on a circumference of a concentric circle having a diameter larger than the diameter of the cross section of the terminal contact piece. A battery terminal clamp on which one side protrudes; And a cable clamp in which a hollow cylindrical band having a diameter greater than a diameter of the terminal contact piece cross section is formed to protrude by a predetermined height. The battery terminal clamp is inserted into the through hole from a bottom surface of the sensor unit. The band of is installed while wrapping around the outer surface of the terminal contact piece passed through the through hole.

A plurality of cutouts are formed in the terminal contact piece in the height direction.

The cable clamp includes a clamp mounting arm extending outwardly from the outer surface of the band by a predetermined length.

According to the clamp-integrated battery sensor having the structure as described above, because it is closely fixed to the car battery without using a separate bracket for installation, workability is good, there is an effect that is not easily separated by vibration.

Hereinafter, a clamp integrated battery sensor (hereinafter, referred to as a 'battery sensor') according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an exploded perspective view showing the structure of a battery sensor according to an embodiment of the present invention, Figure 2 is a view showing the configuration of a fixing piece insertion groove formed on the bottom of the sensor unit.

A basic configuration of the battery sensor 100 will be described with reference to FIGS. 1 and 2.

The battery sensor 100 of the current measurement method using the Hall effect should have a structure in which a passage through which the current of the battery 200 passes and a magnetic flux cross vertically.

The battery sensor 100 of the present invention includes a sensor unit 110 provided with a hall effect current measuring device (not shown). The sensor unit 110 is manufactured in a flat shape having a lower height than the width thereof, and has a structure that is easy to be mounted on the surface of the battery 200.

One side of the sensor unit 110 body is formed with a circular through hole 112 through which the battery terminal 202 penetrates up and down. The center axis of the battery terminal 202 and the plane of the sensor unit 110 are preferably installed at right angles to each other.

The diameter of the through hole 112 is slightly larger than the diameter of the battery terminal 202 so that the gap between the outer surface of the battery terminal 202 and the inner surface of the through hole 112 is slightly spaced apart.

A stepped 114 is formed around the upper through hole 112 of the sensor unit 110 to have a diameter slightly larger than the diameter of the through hole 112. A plurality of fixing piece insertion grooves 116 are formed around the bottom through hole 112. The fixing piece insertion groove 116 is preferably formed on an imaginary circumference having a center at the same position as the center of the through hole 112, but may be other forms.

The current measuring device installed inside the sensor unit 110 measures the magnitude of the electromotive force generated by the current flowing through the battery terminal 202 and the magnetic flux in a state in which the battery terminal 202 is disposed at a right angle to the current of the battery 200. Measure

Meanwhile, the battery terminal clamp 120 is used to couple the sensor unit 110 with the battery terminal 202. The battery terminal clamp 120 is preferably made of a metal conductor.

The battery terminal clamp 120 is interposed between the inner surface of the through hole 112 and the outer surface of the battery terminal 202 to serve to securely fix the battery terminal 202.

To this end, the battery terminal clamp 120 is formed with a terminal contact piece 122 surrounding the outer surface of the battery terminal 202, the terminal contact piece 122 is made of a hollow cylindrical shape having a constant height.

In the terminal contact piece 122, a plurality of cutouts 122a are formed in the height direction. Since the incision 122a is formed, a slight elasticity occurs when the battery terminal 202 is inserted, and the terminal contact piece 122 and the battery terminal 202 are completely in contact with each other.

A bottom surface of the terminal contact piece 122 extends outwardly, and a plurality of fixing pieces 124 protrude from the end in a height direction.

The fixing piece 124 is manufactured to correspond to the shape or number of the fixing piece insertion groove 116, the fixing piece 124 is formed on a virtual circumference having a diameter larger than the diameter of the cross section of the terminal contact piece 122 It is preferable.

The terminal contact piece 122 of the battery terminal clamp 120 is inserted upward in the battery terminal 202, and the sensor unit 110 is inserted thereon. When the battery terminal clamp 120 is inserted into the sensor unit 110, the fixing piece 124 and the fixing piece insertion groove 116 are corresponded to each other to be fixed.

Then, the terminal contact piece 122 is positioned between the outer surface of the battery terminal 202 and the inner surface of the through hole 112, and the battery sensor 100 and the battery 200 are firmly coupled while elasticity is generated. .

In the state where the battery terminal 202 is fitted to the sensor unit 110, the ends of the battery terminal 202 and the terminal contact piece 122 are exposed by a predetermined height from the upper surface of the sensor unit 110. The power cable 300 should be connected to the exposed part as described above. For this, a metal cable clamp 130 is used.

In the cable clamp 130, a cylindrical band 132 having a diameter larger than the diameter of the end surface of the terminal contact piece 122 protrudes by a predetermined height. The outer surface of the cylindrical band 132 is attached to the clamp mounting arm 134 of a metal material extending outward by a certain length.

Cylindrical band 132 is a portion that wraps around the outer surface of the terminal contact piece 122 in which the battery terminal 202 is inserted and fixed, the clamp mounting arm 134 is a power cable by a separate fastening means 136 The part connected to 300.

The bottom surface of the cylindrical band 132 has a flat surface extending slightly outward, when combined with the sensor unit 110 so that the extended surface is inserted into the stepped portion 114 around the through hole 112.

Like the terminal contact piece 122, by forming an incision in the side of the cylindrical band 132 will be able to be in close contact by elasticity.

3 is a cross-sectional view showing a structure of a state in which the battery is mounted, and fixed to the battery 200 and the power cable 300 in a state in which the sensor unit 110, the battery terminal clamp 120, and the cable clamp 130 are coupled to each other. It shows the state.

As described above, since the battery terminal clamp 120 and the cable clamp 130 are integrally coupled to the battery sensor 100 of the present invention, the battery sensor 100 may be installed to be as close as possible to the surface of the battery 200, thereby enabling accurate measurement of current. At the same time it can be easily used to collect other information (such as battery temperature).

1 is an exploded perspective view showing the structure of a battery sensor according to an embodiment of the present invention;

Figure 2 is a view showing the configuration of the fixing piece insertion groove formed on the bottom surface of the sensor unit,

3 is a cross-sectional view showing a structure of a state mounted on the battery.

<Description of the symbols for the main parts of the drawings>

100: battery sensor 110: sensor unit

112: through hole 114: step

116: fixing piece insertion groove 120: battery terminal clamp

122: terminal contact piece 124: fixed piece

130: cable clamp 132: circular band

134: clamp mounting arm 136: fastening means

Claims (3)

A battery sensor that measures the current strength of the battery using the Hall effect, A hall effect current measuring device is provided therein, and at one side, a circular through hole having a battery terminal penetrating up and down is formed, and a flat sensor unit having a plurality of fixing piece insertion grooves formed around the through hole at the bottom thereof; A hollow cylindrical terminal contact piece surrounding the outer surface of the battery terminal is formed to protrude by a predetermined height, a plurality of shapes in a shape corresponding to the fixing piece insertion groove on the circumference of the concentric circle having a diameter larger than the diameter of the cross section of the terminal contact piece A battery terminal clamp of a metal material in which a fixing piece protrudes; And a cable clamp formed of a metal material in which a cylindrical band having a diameter larger than the diameter of the end surface of the terminal contact piece protrudes by a predetermined height. The battery terminal clamp is inserted into the through hole from the bottom of the sensor portion, the clamp-type battery sensor, characterized in that the circular band of the cable clamp is installed while wrapping around the outer surface of the terminal contact piece passed through the through hole. The method of claim 1, The terminal contact piece is a clamp integrated battery sensor, characterized in that a plurality of cutouts are formed in the height direction. The method of claim 2, The cable clamp is And a clamp mounting arm made of metal extending outward from the outer surface of the circular band by a predetermined length.

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