DE102004007851B4 - Connection device for a battery - Google Patents

Abstract

connection device (10, 10a, 10b, 13) for a battery, in particular a vehicle battery, for electrical Connection of a battery pole with at least one electrical Ladder (11) is used, with a current measuring module (12), the at least a measuring resistor (13) and a measuring circuit (16), wherein the measuring circuit (16) at least the voltage applied to the Measuring resistor (13) detected and over the known size of the measuring resistor (13) the flowing through Current determined, and the acquired measurement data in analog or digital Forwarding form to an evaluation or control unit, thereby in that the connecting device (10, 10a, 10b) and the measuring resistor (13) are formed of the same material.

Description

The Invention is directed to a connection device for a battery, in particular a vehicle battery, for electrical connection from a battery post with at least one electrical conductor, according to the generic term of claim 1. Such connection devices (also pole terminals called) are widely known in various embodiments. The connecting device according to the invention has a current measuring module, with which the flowing through Power from the battery can be detected. About other metrics, such as e.g. the voltage of the battery and the temperature of the battery, can then draw conclusions the capacity close the battery. Thus, it is basically an intelligent connection device, since it's not just about getting the power out of the battery into a cable to guide, but also to capture the corresponding measurement data. Based on the acquired measurement data of the connection device can be ensured that capacity the battery is still sufficient to the vehicle, even after a longer retirement, to start again. Also The invention is directed to a method for measuring electric current, in vehicles, according to the claim 20th

From the patent DE 195 10 662 C2 An active optical current measuring system is known which is intended to detect the current flowing through in a high-voltage power supply network. In this current measuring system, particularly high demands are placed on the insulation resistance of the current and voltage transformers used. For this reason, since the aforementioned problems in the automotive field do not occur in this way, partial electrical isolation of the measuring circuit from the rest of the voltage network through an optical transmission path is not necessary. Consequently, the active optical current measuring system turns off DE 195 10 662 C2 only a general state of the art.

Another method for current measurement is from the DE 199 06 276 A1 known. Also discloses the DE 195 07 959 C1 a device for measuring current on a main power line of a vehicle electrical system. As already mentioned, the necessity of measuring the actually flowing battery current in the vehicle and its monitoring and evaluation during vehicle operation is becoming increasingly important. This is mainly due to the strong increase in electrical consumers in vehicles. For this reason, in the aforementioned prior art, an additional current measuring circuit is mounted in the region of the pole terminal. This current measuring circuit must be connected in series with the flowing battery power.

Out For this reason, the necessary measuring circuit or the measuring resistor either connected between two parts of the battery terminal or between the battery terminal and the outgoing lines. In any Case, the current measurement module as an additional part in the circuit arranged near the battery poles. The current namely directly to the battery terminal to measure, offers the advantage that likewise the temperature of the Battery can be detected, which significantly affects the temporary capacity of the battery effect. A disadvantage of the aforementioned prior art, that the current measuring module as additional Part must be arranged in the battery circuit. Thus increase the manufacturing cost of a vehicle, as the additional Current measuring module in a further manufacturing step on the battery terminal must be connected.

Out DE 199 61 311 A1 Furthermore, a battery sensor device with a directly connectable to a pole of a motor vehicle battery fastening device is known. In this device, the battery sensor and the fastening device are combined to form an integrated unit, wherein the fastening device is connected only to a single pole and wherein the fastening device comprises a terminal common for battery connecting cable in the motor vehicle.

Out DE 203 18 266 U1 a device for current measurement is known, which consists of a substantially plate-shaped resistor and a measuring electronics unit, wherein the measuring electronics unit is electrically conductively connected at least two points by resilient contact elements with the resistor via a solder connection.

From WO 99/54744 is finally a DC electrical system with a typically rechargeable battery with two terminal poles of different polarity, two leading away from her to one or more consumers battery cables, two terminals with mounting cuffs made of metal, with which these in fixed mechanical, thermal and electrical contact with each one of the terminal poles of the battery, wherein the lead-leading battery cables with the respective mounting sleeve fixed and thermally and electrically conductively connected known. This DC voltage system is characterized in that at least the terminal connected to the terminal of the battery terminal is designed as a battery measuring terminal, this battery measuring terminal contains in its interior at least one sensor with an output to wel Chem this sensor emits an electrical signal, this battery terminal contains in its interior a signal processing unit, the signal processing unit for each of the existing sensors has an electrical input which is electrically connected to the output of the respective sensor, the signal processing means include an electrical output, a data line available which is electrically connected to the output of the signal processing means and leads out of the interior of the battery measuring terminal, the signal processing unit contains processing means with which the value of at least one physical quantity concerning the battery can be determined from the totality of the signals of all the sensors present to it , the signal processing unit contains means by which each of the physical quantities thus determined can be converted into an appropriate form and transferred to the data line for forwarding.

Of the Invention is thus based on the object, a connection device for one Battery, especially a vehicle battery, which is characterized by especially simple construction and storage and thus low costs to create. Likewise, the invention is the task based, a method of electric current measurement, in vehicles by the connecting device according to the invention to disposal to deliver. This current measurement method should, with as possible little effort to be easy and uncomplicated to handle. This first mentioned The object is achieved by the solved in claim 1 mentioned invention. The procedure for electrical Current measurement in vehicles is achieved by the connection device according to the invention described in claim 20. According to the invention, the connection device serves for one Battery, in particular one to an electrical connection between to produce a battery terminal and at least one electrical conductor. Also, this connection device but also from the battery detected stream, including the connection device, a current measuring module having at least one measuring resistor and a measuring circuit. This measuring circuit measures at least the applied voltage at the associated measuring resistor. Because the size of the measuring resistor is known, by the applied voltage and the previously known Size of the measuring resistor the flowing through Current determined by the equation I = U / R (I current; U = voltage, R = resistance). The of the measuring circuit recorded measurement data are in analog or digital form to a Evaluation or control unit forwarded. According to the invention Measuring resistor integrated in the connection device such that the aforementioned elements in one piece and made of the same material are. Consequently, the measuring resistor is insoluble in the connection device arranged. The connection device has two predefined Contact points on which the measuring resistor is located, through the measuring circuit is electrically connected. Just between these Both predefined contact points, the size of the measuring resistor is already known. Thus, it is possible the power supplied by the battery through the connection device flows, to determine exactly. It goes without saying that the Total current that is discharged from the battery through the measuring resistor must flow in the connection device. Because the measuring resistor is integrated in the connection device, eliminates a later mounting of the measuring resistor. hereby the production costs can be significantly reduced. advantageous variants The invention are in the claims 2 to 19 described. The method of current measurement is required 20 forth.

at the invention, the entire connection device consists of a low-resistance, dissimilar material, so they themselves forms the measuring resistor. The size (measured in the unit Ohms) of the measuring resistor is based on the two predefined contact points clearly known. Consequently, the connecting device designed in this way is not designed only in one piece, but also of the same material. at Of course, this configuration can also on a corresponding welded joint or solder between the measuring resistor and the other connecting device be waived. The size of the measuring resistor can be measured by the two predefined contact points. Unless a certain size of the measuring resistor is to be given, this is by a rejuvenation or Extension of the connection device in the area between the two predefined contact points possible. For example, is the size of the measuring resistor too low, so the connection device in the range between the two predefined contact points by milling or Drilled holes accordingly until the appropriate size of the resistance value is reached. Conversely, e.g. by hardfacing the Extended range between the two predefined contact points , which increases the size of the measuring resistor reduce. In any case, after each machining cycle (whether milling, drilling or build-up welding), the Resistance between the two predefined contact points too measure up.

A further variant of the connecting device provides that the measuring circuit of the current measuring module is connected at least at the two predefined contact points directly by a solder connection to the connecting device. So can For example, a circuit board of the current measuring module with corresponding mating contact points are soldered directly to the contact points of the connection device. Through this electrical connection of the current measuring module with the corresponding contact points possible disturbances can be largely eliminated. In addition, by this measure, the current measuring module can also be mechanically connected to the connection device. Of course, additional fastening means can also be provided.

at a further embodiment the connection device is the measuring circuit of the current measuring module at the two predefined contact points indirectly through contact lines connected to the connection device. This makes it possible to Current measuring module locally to be arranged separately from the connection device. Besides that is the connection between contact line and connection device, easier to manufacture, since no special soldering needs to be used. However, this variant is sensitive to existing disturbances.

According to one additional variant the connection device, the measuring circuit of the current measuring module by a mechanical attachment to the measuring resistor or at the Attached connection device. In this case, the measuring circuit of the current measuring module e.g. glued or screwed. Of course, too other mechanical fasteners conceivable.

at an additional one Variant of the connection device, it is provided that the measuring circuit the acquired measurement data via at least one electrical or optical signal line to the evaluation or control unit forwards. About this additional Signal line or signal lines can exchange the measured data or other control data. Unless a complete electric Decoupling, between the measuring circuit and the downstream evaluation or control unit desired is, should be an optical data transmission for the recorded measurement data or signals are used. Likewise in a connection device according to the invention be provided that the measuring circuit at least one integrated Circuit contains. Thus, you can even complex control and regulation tasks by the previously described circuit can be realized. Also, usually can standardized components (IC) are used, which already have the desired Functions of the measuring circuit.

Furthermore, in a particular embodiment of the invention, the measuring circuit can detect the temperature as a further measured value. It is expedient that the measuring circuit of the current measuring module has a heat-conducting connection to the surface of the measuring resistor or the connection device, so as to accurately detect the temperature of the connection device. This gives an accurate indication of the existing battery temperature. Since the temporary capacity of the battery depends essentially on its temperature, the determination of the exact battery temperature plays an important role. As a heat-conducting connection may be provided as in the predefined contact points, a solder joint. Likewise, a temperature sensor of the measuring circuit can be connected to the connecting device by means of a temperature-conductive paste. Since the measuring circuit now also has the determined temperature as the measured value, a temperature correction of the detected, temperature-dependent measured values can be carried out on the basis of the determined temperature. Consequently, it is possible to determine the measured values as accurately as possible by calculating out the temperature as an influencing variable. Preferably, in a particular embodiment of the connecting device, the size of the measuring resistor can be stored as a calibration value in the measuring circuit. By this measure, it is possible to take into account the manufacturing tolerances of the measuring resistor, which are reflected in the different size of the measuring resistor. Only with an accurate determination of the size of the measuring resistor between the two predefined contact points, an exact calculation of the current flowing through can take place. Therefore, each measuring circuit must be set up to the existing measuring resistor. Consequently, a so-called offset adjustment with respect to the existing measuring resistor is possible. For this purpose, it is provided in a further form of the connecting device that the measuring circuit has a nonvolatile memory in which data, in particular calibration values, temperature compensation values, historical measured values and / or programs are stored. By using a non-volatile memory, it can be ensured that the stored data in the measurement circuit is retained even if the battery has to be replaced once or has not supplied power for a long period of time. In addition, in the case of the connection device according to the invention, provision can be made for the measuring circuit to receive and further process external data, programs or control or regulation commands from other devices. Thus, it is possible to fall back on externally available data. In a particular variant of the connecting device, the measuring resistor consists essentially of CuMn12Ni (a so-called copper-manganese-nickel alloy). This copper alloy is characterized by the fact that the temperature has no or only a small influence on the resistance value. An additional embodiment of the connection device provides that at least a part of the surface of the connection device is provided with tin. By tinning the surface, the connection device can be protected against environmental influences. However, it should be noted that the area between the two predefined contact points should under no circumstances be provided with tin. Preferably, in another form of the connecting device, at least the entire current measuring module, including the measuring resistor, can be enveloped by a plastic jacket, wherein the plastic jacket protects the current measuring module against mechanical and other external interference, in particular moisture. Likewise, in addition to the current measuring module and the measuring resistor, the outgoing conductors as well as the signal lines can be enveloped by the plastic jacket. By this measure, a mechanical strain relief of the conductors and the signal lines is possible at the same time. In addition, the current measuring module can additionally be mechanically fastened to the connecting device by the plastic jacket. The connecting device according to the invention according to claims 1 to 19 also serves to carry out the method for measuring electrical current in vehicles.

below The invention will be explained in more detail with reference to the accompanying drawings. It demonstrate:

1 in side view, an embodiment of the connecting device according to the invention, wherein the entire connecting device consists of a low-resistance material of uniform material, and

2 in perspective, a complete connection device with an integrated measuring resistor and a current measuring module, coated with a plastic sheath.

1 shows an embodiment of the connection device 10 , the material consists of a low-resistance material. This may preferably be a copper-manganese-nickel alloy (CuMn12Ni). Unless a certain size for the measuring resistor 13 is desired, the area can 14 between the predefined contact points 17 tapered or widened by removing or applying material. For example, the rejuvenation 14 be further milled. In order to achieve an exact resistance, this area can be additionally processed with a laser. This processing of the connection device 10 However, it is very expensive, which is why it is much easier, the size of the measuring resistor 13 between the predefined contact points 17 measure. and as a calibration value in the measurement circuit 16 to deposit or save.

A perspective view of the connecting device according to the invention 10 comes from 2 out. Also in this figure it can be seen that an integrated measuring resistor 13 Application finds. Directly above the measuring resistor 13 or the rejuvenation 14 is the current measurement module 12 arranged. This is with the circuit board 18 at the predefined contact points 17 with the connection device 10 connected. The measuring resistor 13 , the circuit board 18 , the electrical components 19 on the circuit board 18 and the integrated circuit 20 , as well as the outgoing signal lines 21 form the measuring circuit 16 of the current measuring module 12 , The entire current measurement module 12 is with a plastic jacket 22 or a casting resin wrapped. As can be clearly seen, the ladder 11 as well as the signal lines 21 also partly from the plastic jacket 22 or the casting resin enveloped. This is on the one hand a strain relief of the ladder 11 and the signal lines 21 possible and on the other hand, the electrical transitions of the lines 11 . 21 to the connection device 10 or to the current measurement module 12 protected against moisture and the like.

It goes without saying that even more IC's 20 and other electrical / electronic components 19 on the circuit board 18 can be provided. Preferably, these components are 19 so-called SMD's, which manage without connecting wires, the shape of the circuit board 18 is not limited to a rectangular cross-section, but can be configured arbitrarily. So can the circuit board 18 For example, also have a bow or wavy course.

Finally, it should be noted that the embodiments of the connecting device shown here 10 are only exemplary implementations of the invention. However, this is not limited to the combinations shown. It will be understood that the illustrated components and their arrangements may be embodied in other embodiments and constructions having similar characteristics to those described and claimed herein.

10

connection device

10a

pole region the connection device

10b

Head of the connection device

11

ladder

12

Current measurement module

13

measuring resistor (Shunt)

14

Rejuvenation for 13

15

Junction between 10 and 13 (Weld)

16

measuring circuit

17

predefined contact points

18

circuit board

19

electric, electronic components,

20

integrated Circuit (IC)

21

signal lines

22

Plastic coating / -umhüllung,

23

slot in the ring-shaped pole region

24

mother

25

screw (with square head)

Claims (20)

Connection device ( 10 . 10a . 10b . 13 ) for a battery, in particular a vehicle battery, for the electrical connection of a battery pole with at least one electrical conductor ( 11 ), with a current measuring module ( 12 ), the at least one measuring resistor ( 13 ) and a measuring circuit ( 16 ), the measuring circuit ( 16 ) at least the voltage applied to the measuring resistor ( 13 ) and the previously known size of the measuring resistor ( 13 ) determines the current flowing through, and forwards the acquired measurement data in analog or digital form to an evaluation or control unit, characterized in that the connection device ( 10 . 10a . 10b ) and the measuring resistor ( 13 ) are formed of the same material. Connecting device according to claim 1, characterized in that the entire connecting device ( 10 . 10a . 10b . 13 ) consists of a low-resistance material. Connecting device according to one of the preceding claims, characterized in that the connecting device ( 10 . 10a . 10b . 13 ) consists essentially of a copper-manganese-nickel alloy, such as CuMn12Ni. Connecting device according to one of the preceding claims, characterized in that the size of the measuring resistor ( 13 ) by two predefined contact points on the connecting device ( 10 . 10a . 10b . 13 ) is defined. Connecting device according to one of the preceding claims, characterized in that the size of the measuring resistor ( 13 ) through a rejuvenation ( 14 ) or extension of the connection device ( 10 ) in the area between the two predefined contact points ( 17 ) is determinable. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) of the current measuring module ( 12 ) at least at the two predefined contact points ( 17 ) directly by a solder connection with the connection device ( 10 ) connected is. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) of the current measuring module ( 12 ) at the two predefined contact points ( 17 ) indirectly through contact lines with the connection device ( 10 ) connected is. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) of the current measuring module ( 12 ) mechanically attached to the measuring resistor ( 13 ) or the connection device ( 10 ) is provided. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) the acquired measurement data via at least one electrical or optical signal line ( 21 ) to the evaluation or control unit forwards. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) contains at least one integrated circuit. Connecting device according to one of the preceding Claims, characterized in that the measuring circuit additionally the Temperature recorded as measured value. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) of the current measuring module ( 12 ) a thermally conductive connection to the surface of the measuring resistor ( 13 ) or the connection device ( 10 ) having. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) performs a temperature correction of the detected, temperature-dependent measured values on the basis of the determined temperature. Connecting device according to one of the preceding claims, characterized in that the size of the measuring resistor ( 13 ) as a calibration value in the measurement circuit ( 16 ) is stored. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) has a non-volatile memory in which data, in particular calibration value, temperature compensation values, historical measured values and / or programs are stored. Connecting device according to one of the preceding claims, characterized in that the measuring circuit ( 16 ) receives and processes external data, programs or control commands from other devices. Connecting device according to one of the preceding claims, characterized in that at least a part of the surface of the connecting device ( 10 ) is provided with tin. Connecting device according to one of the preceding claims, characterized in that at least the entire current measuring module ( 12 ) with the measuring resistor ( 13 ) with a plastic jacket ( 22 ), wherein the plastic sheath ( 22 ) the current measuring module ( 12 ) protects against mechanical and other external disturbances, in particular moisture. Connecting device according to one of the preceding claims, characterized in that in addition to the current measuring module ( 12 ) and the measuring resistor ( 13 ) also the ladder ( 11 ) as well as the signal lines ( 21 ) with a plastic jacket ( 22 ) are wrapped. Method for measuring electric current in vehicles by means of a connecting device ( 10 ) according to claims 1 to 19.