KR101222744B1 - Battery sensor assembly connected with terminal post of battery for automobile and method for manufacturing the same - Google Patents

Abstract

PURPOSE: A battery sensor assembly installed at a negative terminal of a vehicle battery and manufacturing method thereof are provided to prevent the inflow of foreign matters and water as a curved surface is formed on the peripheral surface of a shunt resistor. CONSTITUTION: A battery sensor assembly comprises a terminal clamping unit(110), a sensing module, and a ground cable(190). The terminal clamping unit is directly connected to the negative terminal of a vehicle battery. The sensing module comprises a shunt resistor(170), a printed circuit board assembly, an attach terminal(180), and a protective case(130). One end of the shunt resistor is welded on the terminal clamping unit, and the shunt resistor comprises copper terminals. The printed circuit board assembly detects the state of the battery. The attach terminal connects the shunt resistor to the ground cable. The protective case protects a joined portion between the printed circuit board assembly and the shunt resistor. The wings of the attach terminal are inserted into the slits of the shunt resistor, and the shunt resistor is forcibly joined with the attach terminal.

Description

BATTERY SENSOR ASSEMBLY CONNECTED WITH TERMINAL POST OF BATTERY FOR AUTOMOBILE AND METHOD FOR MANUFACTURING THE SAME}

The present invention relates to a battery sensor assembly detachably mounted to a negative terminal of a vehicle battery and a method of manufacturing the same.

In general, the vehicle is equipped with a battery to supply the electricity required by the engine or the electrical devices inside the vehicle. Such a vehicle battery is charged using electric energy generated through an engine.

Such a vehicle battery typically has a cylindrical or truncated conical terminal, and the battery terminal is equipped with a battery sensor assembly that connects with the vehicle's electrical system. The battery sensor assembly includes a post terminal including a terminal clamping unit mounted directly to a negative terminal of the battery, and a sensing module and a ground cable for detecting a state of the battery.

The sensing module of the battery sensor assembly includes a shunt resistor having one end joined to a terminal clamping part, a PCB assay for detecting a battery state, and an attach terminal for connecting the shunt resistor and a ground cable. ), And a protective case for protecting the junction of the PCB and the shunt resistor.

When manufacturing a sensing module of such a battery sensor assembly, a shunt resistor and an attach terminal are usually joined by brazing after installing a protective case. At this time, heat higher than the melting point of the protective case is transmitted to the protective case through the shunt register. The heat transferred to the protective case causes heat deformation not only outside but also inside of the protective case, and this heat deformation causes a phenomenon in which airtightness between the shunt register and the protective case is degraded. This may cause a malfunction of the PCAseisse due to contamination resistance.

In order to solve the above problems, a silicon potting process is performed in the protective case, but this also involves a process of curing the silicone gel at a high temperature, causing deformation of the protective case. This may also cause a decrease in airtightness when the cover is bonded to the protective case.

Korean Patent Publication No. 10-2011-0038202 (published March 14, 2011, titled the invention "battery sensor unit and its manufacturing method) Korea Patent Registration No. 10-082159 (April 4, 2008 registration, the name of the invention "car battery terminal fittings tightened by using the clamp) Registered Korean Patent No. 10-0821591 (April 4, 2008, the name of the invention "car battery terminal coupler")

The present invention has been made to solve the problems of the prior art, an object of the present invention is to increase the bonding force between the protective case and the shunt resistor to suppress the ingress of foreign matter into the protective case and to block the water inflow It is to provide a sensor assembly.

Another object of the present invention is to provide a method of preventing the thermal deformation of the protective case to improve the airtightness in the protective case.

In order to achieve the above and other objects,

In the battery sensor assembly detachably mounted to the negative terminal of the vehicle battery,

It includes a terminal clamping unit that is directly coupled to the negative terminal of the vehicle battery, a sensing module for detecting the state of the battery and a ground cable,

One end of the sensing module is connected to the terminal clamping part and includes a shunt register including a first copper terminal and a second copper terminal, a PCB assay for detecting a state of a battery, and the shunt register and the ground cable. Attached terminal, and a protective case for protecting the junction of the PC and the shunt resistor to provide a battery terminal assembly for mounting the negative terminal of the vehicle battery, characterized in that it is provided.

In the present invention, a curved surface is provided in the shunt register belonging to the inside of the protective case. As one example of such a curved surface, the curved surface formed in the shunt register is characterized in that the shape of one or more grooves formed in a vertical direction or an oblique direction with respect to the longitudinal direction of the shunt register. As another example of such a curved surface, the curved surface formed in the shunt register is characterized in that the form of a plurality of protruding dots.

In the present invention, the shunt resistor is characterized in that bonded to the protective case after the attach terminal is bonded.

In the present invention, the attach terminal has a wing portion extending in the direction of the shunt resistor, a groove is formed in the shunt register corresponding to the wing portion, the attach terminal through the groove formed in the shunt resistor The wing portion extending in the insertion and compression is forced to join the shunt resistor and the attach terminal. Alternatively, the shunt resistor and the attach terminal may be joined by mutual coupling of bolts and nuts. Alternatively, the shunt resistor and the attach terminal may be joined by mutual fastening by rivets.

(a) bonding the shunt register and the post terminal;

(b) joining the assembly and attach terminal of step (a);

(c) bonding the assembly of the step (b) and the PC terminal;

(d) installing the assembly of step (c) in a protective case;

(e) bonding the ground cable to which the assembly of step (d) and the ground terminal are bonded;

(f) joining the assembly of the step (e) and the PCB; And

(g) bonding the cover to the protective case; provides a method for manufacturing a negative electrode mounting battery sensor assembly of a vehicle battery comprising a.

In the step (b), the shunt resistor and the attach terminal is characterized in that the bonding by a soldering process. Alternatively, the wing terminal is formed to extend the wing portion in the direction of the shunt resistor, the shunt register corresponding to the wing portion is formed in the groove, the wing formed in the attach terminal through the groove formed in the shunt resistor The shunt resistor and the attach terminal can be forcedly joined by additional insertion and compression. Alternatively, the shunt resistor and the attach terminal may be joined by mutual coupling of a bolt and a nut. In this case, the process order is not restricted. Alternatively, the shunt resistor and the attach terminal may be joined by mutual fastening by rivets. In this case, the process sequence is not restricted.

In the present invention, a curved surface is formed on the surface of the shunt resistor belonging to the inside of the protective case.

According to the present invention, the following effects are provided.

First, since a curved surface is formed on a predetermined circumferential surface of the shunt resistor in contact with the protective case, the contact area is increased during insert injection to increase the bonding force, thereby inhibiting the ingress of foreign substances and blocking water inflow.

Second, by installing the protective case after brazing the shunt resistor and the attach terminal, there is an effect of preventing heat deformation in the protective case by the brazing process and improving airtightness in the protective case.

Third, although the conventional silicon potting treatment is performed in the protective case to maintain airtightness, the conventional potting treatment step can be omitted in the present invention, so that cost reduction and increased production can be expected. In addition, the deformation of the protective case occurs during the high-temperature curing of the liquid silicone gel after the silicon potting process, which omits the conventional process, which may be a factor that impairs the airtightness after bonding to the cover.

1 is a perspective view of a battery sensor assembly according to one preferred embodiment of the present invention.
FIG. 2 is a perspective view of the battery sensor assembly shown in FIG. 1 viewed from another angle for convenience of description.
3 is an exploded perspective view of the battery sensor assembly shown in FIG. 2.
4 is a view illustrating a coupling structure of a protective case and a shunt register.
5 is a manufacturing process chart of a battery sensor assembly according to the present invention.
6 is a process diagram showing another embodiment of the method according to the invention.
FIG. 7 is a process diagram showing in more detail another embodiment of the method according to the invention shown in FIG. 6.
8 is a process diagram showing another embodiment of the method according to the invention.
9 is a process diagram showing yet another embodiment of the method according to the invention.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in more detail with reference to the following illustrative drawings. In describing the present invention, a description of known functions or configurations will be omitted for the sake of clarity of the present invention. Also, like reference numerals denote like elements throughout the specification.

1-4 show a battery sensor assembly according to one preferred embodiment of the present invention (“first embodiment”). The battery sensor assembly is connected to the negative terminal of the vehicle battery.

First, referring to FIG. 1, a battery sensor assembly according to an exemplary embodiment of the present invention is a sensing module (sensing) for detecting a state of a battery and a terminal clamping unit 110 directly coupled to a negative terminal of a vehicle battery. module) and ground cable 190.

Referring to FIG. 3, which is an exploded perspective view of FIG. 2 and FIG. 2 together with FIG. 1, the terminal clamping unit 110 includes a battery negative terminal insertion hole 111 having an end portion cut off as shown. The battery negative terminal insertion port 111 may have a cylindrical shape to be easily inserted into a negative terminal (not shown) of the vehicle battery, or may have a shape in which a lower diameter is generally larger than an upper diameter.

The battery negative terminal insertion port 111 is reduced in diameter by a tightening operation of the panels 112 extending in parallel from the cutout portion of the battery negative terminal insertion port 111, thereby making it firm to the negative terminal of the vehicle battery. Combined. To this end, in the present embodiment, the upper portion of the panels 112 are inclined outward, respectively, and the bolt 130 and the nut 140 are fastened therebetween. At this time, the lower portion of the nut 140 has an inclined structure corresponding to the inclined surfaces of the panels 112, and the panel by the inclined structure of the lower nut 140 during the tightening operation of the nut 140 As the intervals of the 112 are narrowed to each other, the terminal clamping unit 110 is firmly coupled to the negative terminal (not shown) of the vehicle battery.

A sensing module and a ground cable 190 for detecting a state of a battery are provided at the rear of the terminal clamping unit 110, that is, on the opposite side of the portion where the panels 112 are formed.

The sensing module detects the state of the battery, such as the temperature of the battery, the voltage, and the current consumption of the vehicle, and transmits the state of the battery to the central processing unit (ECU) of the vehicle. In particular, as illustrated in FIG. 3, the sensing module includes a shunt register 170 having one end joined to the terminal clamping unit 110, a PCB assay 154 and a shunt register 170 for detecting a state of a battery. ) And an attach terminal 180 connecting the ground cable 190. In addition, the sensing module is provided with a protective case 150 for protecting the junction of the PC seisei 154 and the shunt register 170. A PC terminal 152 is provided between the shunt register 170 and the PC beer assay 154.

The shunt register 170 is a component for measuring the amount of current in the battery, and is made of a material having a small resistance change according to temperature. In particular, the shunt register 170 includes a first copper terminal 171, a manganin 172, and a second copper terminal 173 as shown in FIGS. 3 and 4. It is provided in a plate shape of a predetermined thickness formed by bonding. At this time, the first copper terminal 171 and the second copper terminal 173 of the shunt resistor 170 are formed with an oxidation preventing portion coated with lead.

Particularly, in the present invention, a curved surface 175 is formed in the second copper terminal 173 of the shunt resistor 170 to enlarge the contact area of the protective case 150, as shown in FIG. 4. The curved surface 175 may be provided in the form of a plurality of grooves in a direction perpendicular to the longitudinal direction of the shunt register 170 as shown in FIGS. 3 and 4. In addition, the curved surface 175 of the shunt resistor 170 may be formed in a dot shape protruding from each other, may be provided in the form of a groove in the diagonal direction with respect to the longitudinal direction of the shunt resistor 170, the shunt resistor If it is a structure that widens the contact area of the second copper terminal 173 and the protective case 150 of 170 is not limited. In this way, the contact area with the protective case 150 is widened to the second copper terminal 173 of the shunt resistor 170, thereby ensuring its airtightness in any case. One form thereof is mentioned later.

The first copper terminal 171 of the shunt resistor 5 is joined to the fixing part 115 of the terminal clamping part 110 by a soldering process.

On the other hand, the PCB seisei 154 is connected to the PCB terminal 152 which is respectively connected to the first copper terminal 171 and the second copper terminal 173 of the shunt resistor 170, the shunt resistor 170 The flowing currents measure and / or calculate the temperature, current, and voltage of the battery.

The attach terminal 180 serves as an intermediate medium between the shunt resistor 170 and the ground cable 190, and is bonded to the second copper terminal 173 of the shunt resistor 170 by a brazing process and the ground cable 190. It determines the direction of.

On the other hand, the protective case 150 is to ensure that the PC seisei 154 is protected from the external environment (humidity, impact, foreign matter contact, etc.), the operation of the electronic device such as the IC mounted in the PC seisei 154. The battery voltage input for the connector is provided with a connector for communicating with the master ECU and is installed to surround the PCAseisei 154, PCB terminal 152, the shunt register 170.

The protective case cover 156 is bonded by an ultrasonic bonding process for the purpose of sealing the inside of the protective case 150.

The ground cable 190 is electrically connected to the vehicle body and the sensing module. One end thereof is coupled to the attach terminal 180 of the sensing module, and the other end thereof is coupled to the vehicle body through the ground terminal 195. Therefore, the current of the entire vehicle passes through the ground cable 190, the sensing module and the terminal clamping unit 110 in sequence to flow to the negative terminal (not shown) of the battery.

In the following, a method (process) according to the present invention is described.

First, referring to FIG. 5 in conjunction with FIGS. 1 to 4, the process of the present invention includes the following steps. Processes that are commonly applied below will be omitted as much as possible to avoid complexity of the description.

Step 1  : Post terminal splicing step

First, a solvent is inserted between the opposite surface of the first copper terminal 171 of the shunt resistor 170 on which the PCB terminal 152 is to be mounted and the post terminal fixing part 115, and then the shunt resistor 170 by the brazing process. ) And the terminal clamping unit 110 are bonded.

Step 2  Attach terminal bonding step

After the solvent is inserted between the opposite side of the second copper terminal 173 of the shunt resistor 170 to which the PC terminal 152 is to be mounted and the fixing terminal 181 of the attach terminal 180, the step is performed by the brazing process. The attachment parts of the attachment and the attachment terminal 180 of 1 are bonded.

Step 3  : PCB Terminal Splicing Steps

As shown in FIG. 3, two PCC terminals 152 are mounted on the first copper terminal 171 and the second copper terminal 173 of the shunt resistor 170, and then the soldering process is performed in step 2. Join the assay component and PC terminal 152.

Step 4  : Protective Case Installation Step

The injection process is performed such that the junction between the terminal clamping unit 110 and the shunt register 170, the junction between the attach terminal 180 and the shunt register 170, and the junction between the shunt register 170 and the PC terminal 152 are wrapped. Install the protective case 150 through. At this time, in order to improve the airtightness of the protective case 150, the curved surface 175 of the shunt resistor 170 is injected so as to fully wrap in the protective case (8). Although not shown in FIG. 5, the connector terminal is inserted together with the assay component of step 3 prior to insert injection so that the PCB and the ECU can communicate.

Step 5  : Cable Assay Bonding Steps

The ground portion of the ground cable 190 bonded to the ground terminal 195 is seated on the inner surface of the crimping portion 182 of the attach terminal 180 having a circular cross section in the assay component of step 4. It is bonded by the pressing process to be in close contact with the peripheral surface of the conductor portion 192.

Step 6  : PCB Adhesion Bonding Step

The PCB is connected to the PCB terminal 152 which is soldered to the shunt resistor 170 by connecting the first copper terminal 171 and the second copper terminal 173 of the PCB seisei 154 and the shunt resistor 170. The sey 154 are aligned and bonded in a soldering process.

Step 7  : Protective Case Bonding Step

The protective case cover installation step is a process for protecting the PC seisei 154, the protective case 150 and the protective case cover 156 is installed in an ultrasonic bonding process in close contact.

6 and 7 show a modified form of the attach terminal joining step of step 2.

6 and 7, the shunt resistor 270 is fixed to the attach terminal 280, and the crusher 20 is pressed downward to compress the wings 284 of the attach terminal 280. At this time, in order to further increase their binding, grooves 274 may be formed in the shunt resist 270 to accommodate the wing portions 284 of the attach terminal 280 as shown in FIG. 6. . When the attach terminal 280 is crimped and fixed by the groove 274, the front and rear clearances are prevented. The wing portion 284 of the attach terminal 280 is set to a height at which the shunt resistor 270 can be wrapped, and as shown in FIG. 7, the shunt resistor 270 is squeezed along the grooves in the presser 20. Design it to be possible.

8 shows another modified form of the attach terminal joining step of step 2. In the embodiment illustrated in FIG. 8, grooves 374 and 384 are formed in the shunt resistor 370 and the attach terminal 380, respectively, and the bolt 30a and the nut 30b are fastened.

9 shows a further modified version of the attach terminal joining step of step 2 above. In the embodiment illustrated in FIG. 8, grooves 474 and 484 are formed in the shunt register 470 and the attach terminal 480, respectively, and thus the rivet 40 is fixed.

As described above, heat transfer does not occur in the modified form illustrated in FIGS. 6 to 8, so that the airtightness of the shunt resistor and the protective case is improved, and in this case, the order of the manufacturing process is not restricted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that it is possible.

110: terminal clamping portion 111: battery negative terminal insertion port
112 panel 115 fixing part
130: bolt 140: nut
150: protective case 152: PC terminal
154: PCB Assay 156: protective case cover
170: shunt register 171: first copper terminal
172 Manganese 173 Second Copper Terminal
175: curved surface 180: attach terminal
182: crimp section 190: ground cable
192: Conductor part 195: Ground terminal

Claims (11)

A battery sensor assembly detachably mounted to a negative terminal of a vehicle battery, the battery sensor assembly comprising a terminal clamping unit directly coupled to the negative terminal of a vehicle battery, a sensing module for detecting a state of the battery, and a ground cable. The sensing module has one end coupled to the terminal clamping part and includes a shunt register including a first copper terminal and a second copper terminal, a PCB assay for detecting a state of a battery, the shunt resistor and the ground cable. An attach terminal for connecting, and a protective case for protecting a junction of the PCB and the shunt resistor; The attach terminal extends a wing portion in the direction of the shunt resistor, and the shunt register corresponding to the wing portion has a groove formed therein, and a wing portion extended to the attach terminal is inserted through a groove formed in the shunt resistor. And a crimp terminal to which the shunt resistor and the attach terminal are forcibly bonded to each other. The method according to claim 1,
And a curved surface is provided on the shunt register belonging to the inside of the protective case. The method according to claim 2,
The curved surface formed in the shunt register is a battery terminal assembly for mounting the negative terminal of the vehicle battery, characterized in that at least one groove shape formed in a vertical direction or an oblique direction with respect to the longitudinal direction of the shunt resistor. The method according to claim 2,
The curved surface formed on the shunt resistor is a negative electrode mounting battery sensor assembly of a vehicle battery, characterized in that the shape of a plurality of protruding dots. The method according to claim 2,
The shunt resistor is a negative electrode mounting battery sensor assembly of the vehicle battery, characterized in that bonded to the protective case after the attach terminal is bonded. delete delete delete A method of manufacturing a battery sensor assembly according to any one of claims 1 to 5,
(a) bonding the shunt register and the post terminal;
(b) joining the assembly and attach terminal of step (a);
(c) bonding the assembly of the step (b) and the PC terminal;
(d) installing the assembly of step (c) in a protective case;
(e) bonding the ground cable to which the assembly of step (d) and the ground terminal are bonded;
(f) joining the assembly of the step (e) and the PCB; And
(g) bonding a cover to the protective case; manufacturing method of a battery terminal assembly for mounting a negative terminal of a vehicle battery, comprising: a. The method according to claim 9,
In the step (b), the shunt resistor and the attach terminal is a manufacturing method of the battery terminal assembly for mounting the negative terminal of the vehicle battery, characterized in that the bonding by a soldering process. The method according to claim 9 or 10,
And a curved surface is formed on a surface of the shunt resistor belonging to the inside of the protective case.

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