DE10118051A1 - Battery measurement terminal with external start connection, monitors charging state of a vehicle battery by checking the total current drawn from the battery via all connections to the battery terminal - Google Patents

Abstract

Terminal comprises a pole terminal contact (2) and a connection contact (3) that are separated from each other via an insulation body (4). The contacts are connected via a current path (6) and there is a current sensor (7) arranged in the current path. Associated with the sensor is an integrated signal processing unit (8) that measures the current in the path.

Description

The invention relates to a product with the features of the independent claim.

In motor vehicles, functions relevant to safety are increasingly being provided by electronics realized. To be sure that the functionality of the safety-related compo is guaranteed, there must always be a supply of electrical energy. For this purpose, a generator and at least one on-board electrical system battery are usually in the vehicle Energy buffer available. The safe operation of the motor vehicle depends in particular if the generator fails, it also depends on the state of charge of the on-board electrical system battery. It is therefore important to monitor the battery charge.

In WO 99/54744 A1, a battery terminal for a positive battery terminal has been proposed gene, on the battery cable a measuring device with several sensors and a signal ver Working unit is arranged, with the help of the state variables of the connected Battery to be monitored. The temperature of the battery, the battery chip, is measured voltage and the current in the battery cable. The signal processing unit contains a micro processor with an integrated time measurement. About temporal integral formation in the Microprocessor uses the sensor data to determine and charge the charge removed from the battery the current state of charge of the battery closed.

However, the aforementioned battery monitoring has the disadvantage that it is only one Can record the amount of electricity that was removed from the battery via the battery cable. This can lead to incorrect assessments of the state of charge of a battery. Subsequently turned on Built-in electrical system loads are often attached directly to the pole terminal of the on-board electrical system battery closed, because a redesign of the vehicle electrical system is not practical for retrofitting is. These retrofits are made with a current measurement on the main battery cable not measured. Furthermore, the giving and addition of loading aid usually leads the terminals directly connected to a current flow from the battery or in the battery that is not measured with known measurement setups. The state of charge the battery can change without this being registered.

Starting from the previously described state of the art, the inventive method emerges Task to make the battery monitoring more reliable and also current leads or Capture power supplies via parallel current paths connected to the battery.

According to the invention, this object is achieved by the features of the independent An entitlement. Further advantageous embodiments are contained in the subclaims.

The solution is achieved with a multi-part battery measuring terminal consisting of at least one pole Terminal contact, at least one connection contact, which is used as a jump-start base can be at least one insulation body and at least one current sensor. The The pole terminal contact is ge through an insulation body from the connection contact separates. The pole terminal contact and the connection contact are connected via a current path Current sensor, an integrated signal processing unit or a battery control unit is arranged, electrically connected to each other.

The main advantages of the invention are as follows:
The battery measuring clamp encompasses the battery pole and shields it from the outside to such an extent that electrical contact can only be made via the connection contact. Current which is taken from or supplied to the battery externally must therefore flow via the mass current path of the battery measuring terminal and is thus detected by the current sensor, the integrated signal processing unit or the battery control unit. This enables a full charge balance for the battery.

The battery measuring clamp is easy to use and can be used like a conventional one Pole clamp are handled. Additional explanations in the operating instructions for a Motor vehicle for handling the battery measuring terminal and for connecting the battery, are not necessary due to the battery measuring clamp according to the invention.  

Jumper cables or battery chargers can be used as usual at the jump starting point used contact the battery measuring terminal according to the invention connected become. A conventional additional, separate third-party base is not required Tigt, so that the space otherwise required for a separate external launch base for other applications is available.

The battery measuring clamp according to the invention can also be used as a retrofit kit for existing ones conventional battery terminals as well as for conventional battery earth cables the.

Embodiments of the invention are illustrated below with reference to drawings provides and explained in more detail. Show it:

Fig. 1 shows schematically a partial cross-sectional image of a tenansicht Batteriemeßklemme invention in Sei,

Fig. 2 is a schematic view of a sectional view of a Batteriemeßklemme invention in on,

Fig. 3 is a schematic representation of an external start operation with the erfindungegemäßen Batteriemeßklemme,

Fig. 4 shows an embodiment of the present invention as Batteriemeßklemme polar cap,

Figure 5 is set. An embodiment of the present invention as a retrofit Batteriemeßklemme,

6 is set. An embodiment of the invention Batteriemeßklemme as a retrofit, wherein the terminal contact and the external starting base is spaced from the terminal post spaced

Fig. 7 is a plastic cover for the embodiment of Fig. 6.

Fig. 1 shows a schematic partial sectional view of a battery measuring clamp according to the invention, as it is anode on a battery pole 1 . The battery measuring terminal consists of a pole terminal contact 2 , an insulation body 4 and a connection contact 3 . The pole terminal contact and the connecting contact are separated from one another by the electrical insulation body 4 . The connection contact encloses the insulation body and the pole terminal contact. Advantageously, the pole terminal contact, insulation body and connection contact are designed in a ring shape, but other geometrical shapes are also possible, in particular the outer contour of the connection contact can be a square profile. The battery measuring clamp is designed as a clamping contact and completely encloses the battery pole except for a small compensation slot. The battery clamp is fastened in the manner known from conventional car battery clamps with a clamping screw. The clamping screw is not shown. A known battery clamp can be found in WO 99/54744 A1, the clamping mechanism of which is explicitly included in the invention. The pole terminal contact and the connection contact are connected to one another via a current path 6 . At least one current sensor 7 is arranged on or in the current path 6 and measures the current flow through the current path. However, a complete signal processing unit or a battery control unit 8 is advantageously arranged in the current path 6 , which, in addition to the current flow in the current path, also measures and monitors the battery voltage and the battery temperature. Examples of suitable current sensors or signal processing units can be found, inter alia, in WO 99/54744 A1. In the exemplary embodiment in FIG. 1, the current sensor 7 or the signal processing unit 8 is located in the ground current path of the connected battery. The signal processing unit is also referred to below as a battery control unit. Battery control unit is the more common term in the language of technology.

Fig. 2 shows a plan view of the battery measuring terminal of Fig. 1 in partial section. One recognizes the internal pole terminal contact 2 which is in direct electrical contact with the pole 1 of the battery. Consumers to be connected or any charging aids or jump starter cables to be connected must be connected to the external connection contact 3 . The battery measuring clamp can be designed in one piece as an integrated battery measuring clamp or in several parts as a retrofit kit. Exemplary embodiments of a battery measuring terminal suitable as a retrofit kit are explained in FIGS. 5 to 7. In the one-piece design of the battery measuring clamp, the components of the battery measuring clamp are firmly connected to one another and shield the battery pole in such a way that consumers can only be connected to the terminal contact of the battery terminal and no longer to the battery pole. The battery measurement terminal according to the invention can be designed both as a terminal for the positive battery terminal (standard terminal 30 ) and as a terminal for the negative battery terminal (standard terminal 31 ).

In the embodiment of FIG. 3, the battery measuring terminal is clamped to the negative pole of the battery 10 . Now, as shown in FIG. 3, an additional starting aid source 11 is connected to a battery 10 equipped with the battery measuring terminal according to the invention via an external start cable pair 9 , the current initially flows via the pole terminal contact 2 from the battery 10 into the current path 6 and into the ground contact 12 in. This is detected and evaluated by the current sensor 7 or the integrated signal processing unit or the battery control unit 8 . The current now flows via the ground contact in the current path 6 to the connection contact 3rd From there, the current is tapped via the jump-start cable. It is important that the complete charge balance on the single current path 6 leads and any parallel current paths on the battery can only be connected via the contact 3 contact.

Fig. 4 again shows an alternative embodiment of the invention, in which the battery measuring terminal is designed as an integrated battery pole cap, which completely shields the battery pole 1 from its surroundings. In this embodiment, the Batteriemeßklem me expediently contains in the insulation gap between the pole terminal contact 2 and the cap-shaped connection contact 3 , the current sensor 7 necessary for evaluating the energy balance of the battery or the signal processing unit or the battery control unit 8 .

Fig. 5 shows a multi-piece battery measuring terminal, which is suitable as a retrofit kit for conventional pole terminals. In the pre-installed Polklemmenkontakt 2 of the sleeve-shaped or cap-shaped Anschlußkon is clock-3 with internal insulation body 4 to the previously isolated attached to the battery closed Polklemmenkontakt 2 pushed subsequently into the multi-piece embodiment. In the multi-piece embodiment of the battery measuring terminal, the ground current path for connecting the pole terminal contact to the terminal contact is also in several pieces ( 6 a, 6 b). The current sensor 7 or the signal processing unit or the battery control unit 8 can consequently be arranged in any section ( 6 a, 6 b) of the current path between the pole terminal contact and the connection contact. The connection of the two partial current paths 6 a, 6 b takes place via the electrical ground 12 of the system.

A further embodiment of the invention, which is suitable as a retrofit kit, is shown in FIGS. 6 and 7. A commercial pole terminal 2 is connected to a battery 10 to the negative pole 1 and to a first ground wire 6 b electrically connected to a ground terminal 12th The terminal contact 3 of the battery measuring terminal does not include the pole terminal contact but the insulation body 4 of the first battery ground cable 6 b in the exemplary embodiment. The cable insulation 4 of the battery ground cable 6 b is advantageously used in this embodiment of the invention to isolate the connection contact 3 from the pole terminal contact 2 . The connection contact 3 is therefore in this after kit as a cable lug and as a cable holder for a second battery earth cable 6 a forms. Analogously to the exemplary embodiment in FIG. 5, the two battery ground cables 6 a and 6 b form two partial current paths, at least one of which contains a current sensor 7 or a battery control unit 8 . The connection contact is formed from an electrically conductive mate rial and conductively connected to the second battery earth cable 6 a. The second battery ground cable 6 a is preferably soldered into a stuffing box of the contact 3 . With a second mounting sleeve, the connection contact 3 encloses the cable insulation of the first commercially available ground cable 6 b. The first battery ground cable is preferably glued into the fastening bushing of the connection contact with a non-conductive adhesive. The locking of the connection contact 3 on the insulation of the first battery earth cable is preferably carried out in the vicinity of the pole terminal 2 , but at a sufficient distance from the pole terminal so that the pole terminal and the terminal contact cannot be accidentally brought into direct contact with one another, but analogously to the exemplary embodiment in FIG. 5 Electrical connection between the pole terminal and the connection contact is made only via the two partial current paths 6 a and 6 b and the electrical system ground 12 . In the case of a necessary starting aid, the connection contact 3 also serves as an external starting point in the exemplary embodiment in FIG. 6. Analogous to the exemplary embodiment in FIG. 5, a current sensor 7 or an integrated signal processing unit or a battery control unit 8 is located in at least one of the partial current paths formed by the battery ground cables for the external starter detection and for the detection of the correct charge balance.

In order to further reduce the risk of accidental direct electrical bridging of the contact 3 and pole terminal contact 2 , at least the pole terminal and the mini pole of the battery is enclosed as shown in FIG. 7 with a plastic cover 13 , which the pole terminal contact 2 after its attachment to the negative pole Battery inaccessible for further contacts. In order to be able to carry out an external start detection even when the pole terminal is covered, the connection contact and external start point 3 must remain accessible. The plastic cover shown in Fig. 7 therefore has lateral recesses from which the connection contact and external starting point 3 protrudes laterally and thus remains accessible for the clamping jaws of a commercially available jumper cable. Of course, in a simpler embodiment of the plastic cover, the external starting point 3 can also be left completely exposed.

Claims (10)

1.Battery measuring terminal for monitoring the state of charge of a vehicle battery ( 10 ) from at least one pole terminal contact ( 2 ) and at least one connection contact ( 3 ), which are separated from one another by an insulation body ( 4 ) and the pole terminal ( 2 ) with the connection contact ( 3 ) is electrically connected via a current path ( 6 ) and a current sensor ( 7 ) or an integrated signal processing unit ( 8 ) is arranged in or on this current path, with which the current in the current path ( 6 ) is measured. 2. Battery measuring terminal according to claim 1 designed as an annular pole terminal with an annular inner pole terminal contact ( 2 ) and an annular outer connection contact ( 3 ). 3. Battery measuring terminal according to claim 1 designed as a pole cap with an annular inner pole terminal contact ( 2 ) and a cap-shaped outer connection contact ( 3 ). 4. Battery measuring terminal according to one of claims 1 to 3 designed for a battery negative pole of a vehicle battery (standard terminal 31 ). 5. Battery measuring terminal according to one of claims 1 to 3 designed for a battery positive pole of a vehicle battery (standard terminal 30 ). 6. Battery measuring terminal according to claim 3, in which the current sensor ( 7 ) or the signal processing unit ( 8 ) is integrated in the battery measuring terminal. 7. Battery measuring terminal according to one of claims 1 to 6 as a one-piece battery measuring terminal, in which the pole terminal contact ( 2 ), the insulation body ( 4 ) and the connection contact ( 3 ) are firmly connected. 8. Battery measuring terminal according to one of claims 1 to 6 as a multi-piece battery measuring terminal, in which the connection contact ( 3 ) and the insulation body ( 4 ) from the pole terminal contact ( 2 ) are separable. 9. battery measuring terminal according to claim 1, wherein the insulating body ( 4 ) from the Kabeliso lierung a battery ground cable ( 6 b) is formed. 10. Battery measuring terminal according to claim 9, wherein the pole terminal ( 2 ) is covered by a plastic cover ( 13 ).