DE19943226A1 - Charging arrangement for electrical accumulator device - Google Patents

Abstract

The charging arrangement has a modular mechanical and electronic design. Several autonomous individual equipments are combined to form a system that matches the needs of the current situation using a mechanical, electrical and/or optical connection. A second device is supplied with mains from a first device, a third device is fed from the second device, and so on, so that only one supply socket is required for the system.

Description

The invention relates to a battery charger according to the Preamble of claim 1 and an accumulator and Charger arrangement.

A battery charger is known from DE 36 37 669 C2. The subject of this property right is a charger for Accumulators, the accumulators with barcode strips are provided. The charger points in the opening for the Accumulator on a barcode reader with which the barcode strip when inserting the battery into the receiving opening of the Charger is read. The barcode reader delivers the data which are necessary for the charging process of a battery type.

Another charger is known from WO 94/21022. object this property right is a memory chip that is on a Accumulator is attached and is powered by this. Via contacts that when the battery is inserted into the Charger made between the charger and the memory chip battery-specific ones are exchanged Loading data. A disadvantage of this prior art is that a Large number of contacts for contacting the charger and must be provided to the accumulator. Especially at Smaller batteries result in the attachment of many contacts to difficulties or requires a small version of the  Contacts, so that incorrect contacts are not mutually exclusive to let.

The invention has for its object the handling of a Accumulator charger, which a variety of different types of batteries based appropriate loading data can load for the user improve.

This task is done in conjunction with the preamble of Claim 1 according to the invention by the characterizing Features of claim 1 solved and by the features of Claims 9 and 15.

The invention relates to a battery charger with at least a charging bay for an accumulator and reading and / or Writing means made with a controller unit for control and / or regulating an accumulator charging process are connected, the reading and / or writing means for accessing the data of an information carrier are designed on the accumulator is arranged. The essence of the invention is that the Reading and / or writing means for contactless data query are designed by the information carrier, which in one over a electronic circuit accessible data storage of the Information carrier are stored. Through this type of contactless query of information from the information carrier it is possible that the reading and / or writing means the information can also record when reading and / or writing and Information carriers are not exactly aligned or the information carrier is dirty. That means capturing the information stored on the information carrier requires no exact passing of the information carrier past the reading and / or Writing materials, as is the case with a barcode, for example is.

In a particularly preferred embodiment of the invention  the reading and / or writing means for wireless energy supply of the information carrier. This way one needs Information carrier to be addressed does not have its own energy supply for the electronic circuit and the data storage.

The reading and / or writing means preferably comprise Energy supply of the information carrier one Energy delivery unit, in which the energy supply via a electromagnetic field occurs. Through this measure, as Information carrier on the accumulator, for example Transpondor can be arranged. It is also advantageous if the reading and / or writing means are designed so that From reading data on the information carrier of the Information carrier is supplied with energy. Through this Power supply is always guaranteed if the information of the information carrier is needed.

In a particularly preferred embodiment of the invention have the reading and / or writing means next to one Receiving unit for querying data of the information carrier too via a transmission unit, so that data on the information carrier are transferable. This enables the charger to changing data, such as B. the number of charges to write the information carrier. So the accumulator can also be evaluated on another charger. This condition is particularly advantageous when "stand alone" chargers are used that have no connection with each other.

To create charging statistics for individual accumulators and / or for changing loading characteristics and / or for the Data is transferred to an information carrier on the accumulator furthermore, it is particularly preferred if the controller unit is designed to communicate with an evaluation unit, which information is processed specific to the accumulator. As A separate computer can be used for the evaluation unit.  

It is also advantageous if the accumulator is from a charging well is recorded and with this in the charging bay of the charger is insertable, the loading trough an information carrier which has the common electrical characteristics of all in the Charging tray contains suitable batteries. That way conserved the storage capacity of the information carrier and for the Storage of individual accumulator data kept free.

The main idea in an accumulator according to the invention for in particular a charger just described is that the accumulator is an information carrier with an electronic Circuit includes the contactless by reading and / or Writing materials can be queried. To be supplied with energy too , it advantageously comprises an energy absorption unit, that allows contactless energy transport.

The information carrier is preferably a transpondor formed which, for example, within the housing of the Accumulator is arranged.

In a particularly preferred embodiment of the invention the accumulator is an information carrier on which, in addition to the Charging data for a specific battery type Identification of a single accumulator, e.g. B. its Serial number that can be filed. In this way it is possible to To record the history of a single accumulator and if necessary, the loading process individually on a single Adapt accumulator.

Further details of the invention are shown in the drawing described by schematically illustrated embodiments.

Here shows

Fig. 1 an accumulator in a schematic sectional view,

Fig. 2 shows a battery charger in a schematic sectional view,

Fig. 3 is a schematic sectional view showing another accumulator,

Fig. 4 is a schematic sectional view of a loading tray,

Fig. 5 is a schematic sectional view of another charger,

Fig. 6 is a schematic view of two charging stations that are connected to an evaluation unit.

Fig. 1 is a schematic side view of an accumulator 1 in section, having a bottom 2, 3 a right side, a left side 4 and a top side 5. On the underside 2 , the accumulator 1 has contacts 6 , which serve for current consumption or current delivery. On the right side 3 , the accumulator 1 carries an information carrier 7 which is designed as a transponder 8 . In detail, the transponder 8 consists of an energy absorption unit 9 , a transmission unit 10 and a reception unit 11 .

Fig. 2 shows a schematic side view in section of a charger 20th The charger 20 has an upper side 21 which has a charging bay 22 . The loading bay 22 has a bottom 23 , a right wall 24 and a left wall 25 . At the bottom 23 contacts 26 for the current output to the battery 1 are arranged. Reading and / or writing means 28 are positioned in a recess 27 of the right wall 24 . The reading and / or writing means 28 have an energy output unit 29 , a receiving unit 30 and a transmitting unit 31 . On the top 21 of the charger 20 there is also a display 32 designed as a display 33 . The reading and / or writing means 28 are connected to a controller 35 via a data line 34 . The controller 35 is in turn connected to an evaluation device 37 via a data line 36 . The evaluation unit 37 has a connection 38 to the display 33 , in which information for the user is displayed. Furthermore, the evaluation unit 37 is in contact with an interface 40 via a connection 39 . The interface 40 is designed as an optical interface 41 .

According to an embodiment of the invention, not shown, the interface 40 is designed as a multi-pole mechanical interface. The accumulator 1 (see FIG. 1) is inserted in the direction of an arrow P1 into the charging bay 22 of the charger 20 . Here, the left side 4 of the battery 1 comes into contact with the left wall 25 of the charging bay 22 and the underside 2 of the battery 1 lies in the inserted state opposite the bottom 23 of the charging trough 22 , so that the contacts 6 are in contact with the contacts 26 . Furthermore, the information carrier 7 enters an effective area 42 (dashed outline) of the reading and / or writing means 28 . A data exchange between the information carrier 7 and the reading and / or writing means 28 takes place in the effective area 42 through the reading and / or writing means 28 .

Fig. 3 is a schematic side view of another rechargeable battery 50. The battery 50 has a housing 50 a with an upper side 51 and an underside 52 . An information carrier 53 is arranged on the upper side 51 . The bottom 52 has contacts 54 .

According to an embodiment variant, not shown, it is also favorable to arrange the information carrier 53 within the housing 50 a. Thus, the information carrier 53 is protected from mechanical influences in the housing 50 a of the battery 50 .

Fig. 4 is a sectional side view of a loading tray 60th The loading tray 60 is designed as an adapter shell 61 . The loading trough 60 has a receiving trough 62 with a base 63 on which contacts 64 are arranged. The contacts 64 are connected via connecting lines 65 to mating contacts 66 which are located on an underside 67 of the charging trough 60 . A data memory 68 is arranged on the underside 67 of the charging trough 60 and carries type-specific information which is common to all the accumulators 50 which fit into the charging trough 60 . For example, the data memory 68 can contain type-specific information about the design of the battery family (for example nickel-cadmium battery or licium-ion battery) for which the charging trough 60 is provided.

Fig. 5 shows the sectional side view of a charger 70th The charger 70 has a top 71 and a bottom 72 . The top 71 has a loading bay 73 with a bottom 74 on which contacts 75 and an information pickup 76 are arranged. The charging trough 60 shown in FIG. 4 is pushed into the charging bay 73 of the charger 70 along an arrow P2. In the inserted state, the underside 67 of the loading trough 60 lies opposite the bottom 74 of the loading bay 73 and the mating contacts 66 are connected to the contacts 75 . Furthermore, the data store 68 and the information pickup 76 are arranged such that information can be transferred from the data store 68 to the information pickup 76 .

According to an embodiment of the subject matter of the invention, not shown, the data memory 68 is designed as a fixed memory chip which is contacted and read out by the information receiver 76 .

In FIG. 5, continued to read and / or to see writing means 77, which have an active area 78 (dotted outline). As soon as the information carrier 53 with the accumulator 50 (see FIG. 3) comes into the effective area 78 of the reading and / or writing means 77 , it is read out by them.

Fig. 6 is a schematic view showing a charger 80th The charger 80 consists of two charging stations 81 , 82 and an evaluation unit 83 , which is designed as a computer 83 a. In a charging bay 84 of the charging station 81 there is an accumulator 85 which carries an information carrier 86 . The information carrier 86 lies in an effective region 87 (dashed line) of reading and / or writing means 88 . By inserting the accumulator 85 , the reading and / or writing means 88 are activated. The reading and / or writing means 88 , which consist of an energy delivery unit 88 a, a reception unit 88 b and a transmission unit 88 c, emit an alternating electromagnetic field 89 with the energy delivery unit 88 a after activation. The information carrier 86 consists of an energy absorption unit 86 a, a transmission unit 86 b and a reception unit 86 c. The energy absorption unit 86 a receives the electromagnetic field and thus supplies the transmission unit 86 b, which then sends out individual information stored in the information carrier 86 . The sent z. B. individual information is in turn received by the receiving unit 88 b of the reading and / or writing means 88 and forwarded by this to a controller 91 . The "individual information" sent includes, among other things, battery-specific data such as the serial number of the battery, owner of the battery, number of charging cycles. In addition, the controller 91 also receives data from a data memory (not shown) which is arranged in a loading trough 93 . In this way it can be ensured that an accumulator is also charged with the charging parameters provided for it, without necessarily having to transmit these from an information carrier on the accumulator. These data include, for example, the nominal voltage of the accumulator and the type of accumulator. The controller 91 forwards all data to the evaluation unit 83 . From there he receives control signals for recording and carrying out the charging process for the accumulator 85 .

The statements relating to the charging station 81 also apply analogously to the charging station 82 . The two charging stations 81 , 82 are connected to one another via an optical interface 94 . Through this connection, the charging stations 81 , 82 and the evaluation unit 83 are combined to form the charger 80 . The charging stations 81 , 82 are galvanically separated from one another by the optical interface. The evaluation unit 83 or the computer 83 a are connected to one of the charging stations 81 , 82 via a data line 95 . The computer 83a stores and processes the individual information and the type-specific information. With the help of suitable software, both information is analyzed and processed statistically. A the for storage in the computer 83 a and / or are provided on the information carrier 86 can continue in the computer 83 on the basis of the processing and analysis of the individual information and the type-specific information resulting information is calculated.

According to an embodiment of the invention, not shown it is planned to use the data in whole or in part using Storage media or data transfer to another charger or transfer to a central database. In this way the data is at all charging stations in a network of Charging stations.

In the exemplary embodiment shown in FIG. 6, it is provided that the resulting information is at least partially transferred back to the information carrier 86 . This retransmission takes place with the aid of the energy delivery unit 88 a and the transmission unit 88 c of the reading and / or writing means 88 . The reception takes place with the energy absorption unit 86 a and the reception unit 86 c of the information carrier 86 . The energy delivery unit 88 a provides the energy which the information carrier 86 needs to carry out the data storage. Resulting information such as the number of charging cycles, age of the accumulator, owner (change of owner) and fault messages are provided for the transmission.

According to an embodiment of the invention, not shown, it is provided to provide central reading and / or writing means for a charger 80 , which consists of several charging stations 81 , 82 . In order to read the individual information, the accumulator 85 with the information carrier 86 is brought close to the central reading and / or writing means. After the transmission of the individual information, a lamp flashes at one of the charging stations 81 , 82 , which indicates that the respective charging stations 81 , 82 are provided for the reception of the accumulator 85 by the evaluation unit 83 . The accumulator 85 can now be inserted into the charging trough of the charging station 81 , 82 within a predetermined period of time. If the insertion does not take place or takes place too late, the data recorded by the information carrier 86 are deleted again and an original state is restored in the memory of the evaluation unit 83 . For writing back the resulting information, the accumulator 85 is brought close to the central reading and / or writing means. Before the resulting information is written back, the individual information is read in again to ensure that the resulting information is transferred to the correct accumulator 85 .

Reference list

1

accumulator

2nd

bottom

3rd

right side

4th

left side

5

Top

6

Contact

7

Information carrier

8th

Transponder

9

Energy absorption unit

10th

Transmitter unit

11

Receiving unit

20th

charger

21

Top

22

Loading bay

23

ground

24th

right wall

25th

left wall

26

Contact

27

Return

28

Reading and / or writing materials

29

Energy delivery unit

30th

Receiving unit

31

Transmitter unit

32

display

33

Display

34

Data line

35

Controller

36

Data line

37

Evaluation unit

38

connection

39

connection

40

interface

41

optical interface

42

Effective range

50

accumulator

50

a housing

51

Top

52

bottom

53

Information carrier

54

Contact

60

Loading trough

61

Adapter shell

62

Receptacle

63

ground

64

Contact

65

Connecting line

66

Counter contact

67

bottom

68

Data storage

70

charger

71

Top

72

bottom

73

Loading bay

74

ground

75

Contact

76

Information taker

77

Reading and / or writing materials

78

Effective range

80

charger

81

Charging station

82

Charging station

83

Evaluation unit

83

a computer

84

Loading bay

85

accumulator

86

Information carrier

86

a energy absorption unit

86

b Sending unit

86

c receiving unit

87

Effective range

88

Writing materials

88

a energy delivery unit

88

b Receiver unit

88

c sender unit

89

Alternating field

91

Controller

93

Loading trough

94

interface

95

Data line

Claims (16)

1. Accumulator charger with at least one charging bay for an accumulator and reading and / or writing means which are connected to a controller unit for controlling and / or regulating an accumulator charging process, the reading and / or writing means being designed to access the data of an information carrier which is arranged on the accumulator ( 1 , 50 , 85 ), characterized in that the reading and / or writing means ( 28 , 77 , 88 ) are designed for contactless interrogation of data from the information carrier ( 7 , 53 , 86 ) which are stored in a data memory that can be addressed via an electronic circuit. 2. Battery charger according to claim 1, characterized in that the reading and / or writing means for wireless power supply of the information carrier ( 7 , 53 , 86 ) are designed. 3. Battery charger according to one of the preceding claims, characterized in that the reading and / or writing means ( 28 , 77 , 88 ) for energy supply to the information carrier comprise an energy delivery unit ( 29 , 88 a), in which the energy supply preferably via an electromagnetic field he follows. 4. Battery charger according to one of the preceding claims, characterized in that the reading and / or writing means ( 28 , 77 , 88 ) in addition to a receiving unit ( 11 , 86 c) for querying data of the information carrier ( 7 , 53 , 86 ) also have a transmitting unit ( 31 , 88 c) so that information can be transferred to the information carrier ( 7 , 53 , 86 ). 5. Accumulator charger according to one of the preceding claims, characterized in that the controller unit ( 35 , 91 ) is designed to communicate with an evaluation unit ( 37 , 83 ) which processes information specific to the accumulator. 6. Battery charger according to one of the preceding claims, characterized in that the evaluation unit ( 37 , 83 ) is designed as a separate computer ( 83 a). 7. Battery charger according to one of the preceding claims, characterized in that a charging trough ( 60 , 93 ) for an accumulator ( 1 , 50 , 85 ) is provided which in a charging bay ( 22 , 73 , 84 ) of the charger ( 20 , 70 , 80 ) can be inserted. 8. Accumulator charging system according to one of the preceding claims, characterized in that the charging trough ( 60 , 93 ) has a data memory ( 68 ) which contains the type-specific information of all the batteries ( 1 , 50 , 85 ) matching the charging trough ( 60 , 93 ) . 9. Accumulator for in particular a charger according to one of the preceding claims, characterized in that the Accumulator an information carrier with an electronic Circuit includes the contactless by reading and / or Writing materials can be queried. 10. Accumulator and claim 9, characterized in that the information carrier can be supplied with energy without contact via an energy absorption unit ( 9 , 86 a). 11. Accumulator according to claim 9 or 10, characterized in that the information carrier in addition to a transmitting unit ( 10 , 86 b) for transmitting data has a receiving unit ( 11 , 86 c). 12. Accumulator according to one of claims 9 to 11, characterized in that the information carrier ( 7 , 53 , 86 ) is designed as a transponder ( 8 ). 13. Accumulator according to one of claims 9 to 12, characterized in that the transponder ( 8 ) within the housing ( 50 a) of the accumulator ( 1 , 50 , 85 ) is arranged. 14. Accumulator characterized in particular according to one of claims 9 to 13, with an information carrier ( 7 , 53 , 86 ) on which the identifier for identifying the individual accumulator can be stored. 15. Charger arrangement of chargers according to one of claims 1 to 8, characterized by at least two chargers which are connected via an optical interface ( 94 ). 16. Charger arrangement and claim 15, characterized in that the at least two chargers ( 81 , 82 ) are connected via an optical interface ( 95 ) to an evaluation unit ( 83 ).