DE3744733A1 - Electrical power supply device having various electric tools which can be connected thereto - Google Patents

Abstract

An electrical power supply device is proposed having various electric tools (10) which can be connected thereto via a connecting cable (16) having a connecting plug (22). This electrical power supply device (13) contains an electronic controller (14) for controlling the electric tools (10) as a function of at least one parameter. A coding appliance, which is constructed as a digital memory (30), is tool-specific and can be picked off by the electronic controller (14) via the connection to the electric tool (10), is used for accommodating identification data such as apparatus type, apparatus number, date of sale, owner or the like and/or for accommodating defect signals (error signals) occurring during operation. In consequence, a large amount of necessary and useful data can be called up in a simple manner, for example in the event of a repair, which data not only specify the respective electric tool but may also contain information on the type of defect. <IMAGE>

Description

The invention relates to a power supply device various, via a connecting cable with a ver power tools and with an electronic control device in the Stromver care device to control the power tools in Dependency of at least one parameter.

Such a power supply device is from DE-OS 32 47 046 or from DE-OS 37 09 983 for three-phase transmission known power tools. For speed-dependent control tion of the power tool there is a three-phase current with a variable frequency of, for example, 0-400 Hz. At this power supply device can be any number various power tools over connecting cables old be connected natively.

If such a power tool has a defect, who  the guarantee claims or is it due to a large variety of different types of tools often difficult It is so to determine the applicable maintenance documents often desirable via the information on the nameplate further more information about the device type, the Ge obtain council number, date of sale, owner or the like. Ins especially if written documents are lost such individual and detailed data would be great benefit. It would also be of great help with one such repair or maintenance for more detailed information about the nature of the errors encountered, in particular if errors occur only sporadically.

The invention is therefore based on the object of a current supply device of the type mentioned to sheep fen in which the maintenance, repair and warranty services facilitated by detailed, tool-specific information be tert.

This object is achieved in that a via the connection to the power tool through the electro African control device can be tapped, tool-specific, designed as a digital memory encoder can be seen, which is used to record characteristics such as device type, Ge order number, date of sale, owner or the like and / or for Error signals occurring during operation are formed  is.

For example, in the case of warranty claims, you can click on can be determined by reading the memory, when and to whom the device was sold and by what type exactly it is. Even with ordinary repairs it is very useful to have more precise characteristics about the devices type, especially if, for example, the type shield is no longer legible and other written sub were missing. The repair is also made easier by that saved from this memory during operation Error information can be read, which is especially important in the case of sporadic errors to a great ease leads to repair. A corresponding preparation Malfunctions can be caused by a microcom computer in the power supply device in a known per se Way. Also hidden, not yet from the user In this way, detected errors can be recognized and eliminated before major damage occurs.

By the measures listed in the subclaims advantageous developments and improvements in the An claim 1 specified power supply device possible.

The arrangement of the coding proves to be particularly advantageous device in the connector on the connecting cable  Power supply facility. The encoder could of course also arranged in the power tool itself there would be additional lines in the connection cable required and an exchange of the coding device difficult. In contrast, the connector can be very on to be replaced in a simple manner so that it can also be changed subsequently another coding can be attached.

The advantage of coding when training as a serial Memory consists of a very large variety whose coding values or functions can be provided, only two connecters each to capture the coding Extension contacts and counter contacts are required because the Co is read out serially. This arrangement allows therefore a very exact adaptation to the respective electrical system tool with a very versatile and detailed code tion, the effort involved in increasing the coding values and functions is hardly increased, so that such digital coding especially for complicated, versatile Coding is suitable.

By designing the memory containing the coding as a read and write memory, in particular as an E ² PROM, the coding can also be changed retrospectively without changing the hardware or can only be saved afterwards. This allows, for example, the production of uniform connecting cables and connecting plugs for all different types of power tools, with the coding being carried out only when the power tool is finished and provided with a connecting cable.

Embodiments of the invention are shown in the drawing and explained in more detail in the following description tert. Show it:

Fig. 1 is a schematic, circuit representation of an electric tool connected to a power supply device via a connecting cable with digital coding and

Fig. 2 shows an analog coding in a partial representation.

Referring to FIG. 1, a power tool 10, which may be example, as an angle grinder, jig saw, circular saw, plane od. The like is formed., Electrically seen in wesentli Chen from an operating member 11 and a three-phase motor 12, which is preferably designed as an asynchronous motor. The schematically illustrated power supply device 13 consists essentially of an electronic control device 14 designed as a microcomputer and an electronic power unit 15 . In a connecting cable 16 starting from the power plant 10 , five lines are arranged, namely two control lines 17 , 18 and three operating current lines 19-21 for three-phase supply of the three-phase motor 12 from the power unit 15 . The connecting cable 16 is provided with a connector 22 which can be inserted into a correspondingly designed socket 23 on the power supply device 13 .

The plug-in connection could of course in principle also be arranged on the power tool 10 or in the cable between the power tool 10 and the power supply device 13 .

According to the prior art specified at the outset, the electronic control device 14, together with the power section 15, forms, inter alia, a converter for converting the mains AC voltage supplied to the power supply device 13 into a three-phase voltage with an adjustable, variable frequency and amplitude, the setting being carried out in principle via a potentiometer.

In the control element 11 , the series connection of a loading switch 24 with a speed controller 25 designed as a potentiometer and a PTC resistor 26 is provided. The outer connections of this series connection are connected on the side of the PTC resistor 26 via the control line 18 in the power supply device 13 to ground or a neutral conductor and on the side of the operating switch 24 via the control line 17 to a current source 27 which is connected to an auxiliary voltage U _{h is} supplied. At the point of connection of the current source 27 with the control line 17, there is a control voltage for the converter or the setting of the frequency and / or the amplitude of the three-phase current for supplying the three-phase motor 12 , which is supplied to the electronic control device 14 via an A / D converter 28 becomes. The PTC resistor 26 is thermally conductively connected to the three-phase motor 12 , which is indicated by the line 29 .

Such a control is known for example from DE-OS 37 22 177 and is therefore not described in detail. It is only essential that the speed of the rotary current motor 12 can be adjusted by changing the control voltage via the speed controller 25 , and that the speed is reduced to a minimum value via the PTC resistor 26 at an impermissibly high motor temperature. Of course, additional control and monitoring functions can be implemented by additional resistors or other switching elements that act on the control voltage.

In a simpler embodiment, such a remote control via the control lines 17 , 18 can also be omitted, in which case the operating switch 24 and optionally also the PTC resistor 26 act directly on the electrical currents in the operating current lines 19-21 .

A digital memory 30 is arranged in the connector 22 and is designed as a serial PROM, preferably as an E ² PROM. For the power supply, it is connected to the control line 18 connected to ground and via a further power supply line 31 in the power supply device 13 to an auxiliary voltage U _h . Two data transmission lines 32 , 33 lead from the memory 30 to an I / O circuit 34 (input / output circuit) of the control device 14 .

In this way, and provided on the connector 22 eight connection contacts not shown corresponding to the socket 23 eight corresponding mating contacts.

A tool-specific coding is stored in the digital memory 30 , preferably after the finished assembly of the power tool 10 , when this is already seen with the connecting cable 16 and the connecting plug 22 . If the connector 22 is now plugged into the socket 23 , the data forming the coding are read serially into the electronic control device 14 via the data transmission lines 32 , 33 and the I / O circuit 34 . This coding, for example, limits for parameters such as speed, temperature, torque, electrical current, electrical voltage or the like. predefined, and in addition control functions for the respectively connected power tool of the electronic control device 14 can be predefined, such as the specification of the speed range, a specific starting and / or braking behavior, working characteristics, a current / resistance compensation for adaptation in the field weakening range or the like. In this way, the basic control functions and basic monitoring functions contained in the program of the electronic control device 14 can be modified by the coding data, so that the power supply to the three-phase motor 12 takes place via the operating current lines 19-21 as a function of the functions thus formed and modified. In this way, a variety of electric tools can to the same power supply device 13 is closed, are in each case automatically an electrical adjustment is made by reading out the encoded data contained in the connector.

The coding consequently also affects the signals or control voltages of the operating element 11 . In the electronic control device 14 , these signals are implemented depending on the read-out coding or influenced in the manner of a function generator, so that all of the various power tools can be equipped with the same operating element 11 . For example, the speed controller 25 then specifies different speed ranges depending on the respective coding.

As already stated, the coding is read out from the memory 30 automatically after the connector 22 has been inserted into the socket 23 . If an error occurs during reading, that is, data is read out which the microcomputer interprets as incorrect data, for example because it lies outside the specified and possible limit values, the reading process is repeated automatically. After a predetermined number of failed attempts by the readout program, an error signal is then emitted via the I / O circuit 34 to an optical or acoustic error indicator 35 , that is to say that a tone or a preferably flashing light signal is generated. To repeat the reading process, the mains plug must be unplugged and unplugged or the power supply must be interrupted in some other way.

Memory areas of the memory 30 can also be used to identify characteristics of the power tool such as device type, device number, date of sale, owner or the like. to save. The buyer-specific data can be entered shortly before the sale using an appropriate coding device. This information enables problem-free processing of guarantee, repair and service services. Finally, memory areas can also be used as an error memory, that is, errors that occur during operation, such as malfunctions, false signals or the like, are caused by a special error program in the microcomputer. recognized and stored as corresponding data in the memory 30 . During an inspection or repair, this data can then be read out and evaluated in the workshop. This allows errors to be determined in a simple manner, in particular also errors that only occur sporadically.

A further exemplary embodiment with an analog coding is shown in sections in FIG. 2. A Ver connector 40 is inserted into a socket 41 of a power supply device 42 . Of these parts, only those areas are shown that relate to the coding. This is done via resistors 43 , 44 in the connector 40 , which are connected on one side and connected to the control line 18 which is connected to ground. The other two connections of the opponents 43 , 44 are connected via lines 45 , 46 to current sources 47 , 48 in the power supply device 42 , which in turn are fed by the auxiliary voltage U _h . The voltages U _f and U _i dropped across the resistors 43 , 44 can be tapped off at the lines 45 , 46 and fed to the control device 14 .

A value or a function can be encoded by each of the resistors 43 , 44 , for example by the resistor 43 the frequency or speed range for the three-phase motor 12 and by the resistor 44 the maximum current value, which includes a load or torque limitation. The corresponding coding voltages U _f and U _i are supplied in the case of an electronic control device designed as a microcomputer via an A / D converter, or in the case of an analog evaluation a corresponding analog function generator.

This type of coding is particularly suitable for a small number of coding values or coding functions, since only a single coding resistor is required in each case. If the number of coding values or coding functions becomes too large, the number of lines 45 , 46 increases too much, so that the solution shown in FIG. 1 is preferable.

Finally, it is also possible to use a mechanical one  To provide coding, for example, coding pin on the connector into corresponding recesses in the Insert the socket and there an electrical connection produce or solve.

Claims (6)

1. Power supply device with various types, via a connecting cable with a connector plug on closable power tools and with an electronic control device in the power supply device for control of the power tools depending on at least one parameter, characterized in that a connection to the power tool ( 10 ) the electronic control device ( 14 ) can be tapped into a tool-specific coding device designed as a digital memory ( 30 ), which is designed to receive characteristic data such as device type, device number, date of sale, owner or the like and / or for error signals occurring during operation. 2. Power supply device according to one of the preceding claims, characterized in that the Codiereinrich device ( 30 ) is arranged in the connector ( 22 ). 3. Power supply device according to claim 1 or 2, characterized in that the memory ( 30 ) is designed as a serial memory with serial output of the various coding values or functions. 4. Power supply device according to claim 3, characterized characterized in that two connection contacts and counter contacts for data transmission are provided. 5. Power supply device according to one of the preceding claims, characterized in that the memory ( 30 ) as a read and write memory, in particular as E ² PROM, is formed. 6. Power supply device according to claim 5, characterized in that a reading or changing the Codie tion before or after assembly allows unified connector ( 22 ) is provided.