DE10143896C1 - Electric hammer drill has insulation protection circuit for automatic cut-out of electric drive motor when tool bit contacts earthed metal object or voltage line - Google Patents

Abstract

The hammer drill has a 2-pole drive motor (1) connected in series with a controlled electronic switch (6) across an earthed AC network and mechanically coupled to a tool chuck (3), electrically connected to an insulation protection circuit, for automatic cut-out upon contact of the drill bit (4) with an earthed metal object or a voltage line. An additional circuit stage (15) activated by the blocking signal for electronic switch control circuit (7) connects the tool chuck to an earthed protection line (SL) of the lead cable.

Description

The invention relates to an electric hand tool, in particular a hand drill, which in the generic term of claim 1 specified Art.

Such an electric hand tool is from DE 198 09 783 A1 known. The leakage current sensor system has one Electric hand tool the purpose, the electric drive motor gate that mechanically ver with the tool holder is bound and drives the tool clamped in it, then directly via the control device and the elect ronic switch off and shut down accordingly if the tool is placed on a metal object that either earth potential or some other Potential leads. This creates an asymmetry in the Voltage divider circuit causes the blocking signal for the control device controlling the electric motor tion is formed. So that when drilling from under Plastered water pipes or electrical power lines major damage can often be avoided.  

Has the practical work with the power tool Safety shutdown addressed, usually follows Find out which pipe has been drilled and how the damage caused can be repaired. Is a electrical power line has not been drilled, you can easily determine to which circuit this Power line heard that are disconnected from the circuit got to. Securing the usually in a house installation tion protected circuit does not respond. So basically can not be prevented as long as the tool is still engaged at the machining point finds that the tool and the tool holder under one dangerous electrical voltage if the span Leading conductor of an electrical power line should have been hit. In any case, this applies to the Today's usual hand-held electrical tools that are insulated are implemented and do not require protective earthing.

From the DT 25 25 773 A1 an arrangement is known to the Tool holder of a drilling machine permanently with the Erdpo potential of an electrical installation. To is on the tool holder rotating during operation Sliding contact placed on the clamping neck of the machine is held and connected via a separate Line with a grounded conductor of the installation system is connected, with a detection of the grounded Head must be made. The required high me mechanical effort of the known arrangement for contacting the tool holder cannot be realized in practice and also has considerable handling disadvantages.

The invention has for its object a Schutziso electric hand tool of the generic type create, in addition to the already existing NEN safety shutdown of the machine in case of drilling rens of an electrical, live power line their connection to the supply network by addressing the upstream fuse is disconnected.

This task is the gat appropriate type according to the invention by the mark solved the features of claim 1.

It is essential for the invention that in the case of an anodizing rens of an electrical, live power line not just switching off the electric drive motor hand tool, but also this live Power line is disconnected from the network by the pre switched fuse is triggered. This does require basically that the damaged power line over a Fuse, like a circuit breaker, is secured, however, this is due to safety regulations in the today's electrical installations of commercial and private facilities. This will not only do that the tapped power line contacting tool and the Tool holder de-energized, which increases safety the operator serves, it is also on the fuse mentioned recognizes which of the current circling for example in a building installation by the Error case is affected. Opposite permanent grounding the invention has the advantage of interrupting the geer  Deten protective conductor system and body closure of another connected device with protective grounding tensions on the tool holder of the Elektro hand tool.

Advantageous design features of the invention result itself from the subclaim.

The invention is based on the drawing to egg NEM embodiment explained in more detail. The drawing shows a schematic representation of the circuit diagram of an E electric hand tool with a protective circuit arrangement is equipped.

In detail, the drawing shows a single-phase alternating current drive motor 1 of an electric hand drill, which is a particularly common electrical hand tool with which holes in masonry, concrete ceilings or similar building parts are made, in which electrical power lines, gas lines are used or sanitary lines can be laid, which can have a live conductor as electrical power lines or which are otherwise grounded. Drilling machines of this type also include impact drills or rotary hammers.

The drive motor 1 of these devices is mechanically connected via a gear, not shown, and a shaft 2 with egg nem tool holder 3 , such as a drill chuck. In the tool holder 3 , a tool 4 configured as a drilling tool is clamped, which, like the shaft 2 and the tool holder 3, consist of steel, that is to say of an electrically conductive metal.

The drive motor 1 is an electronic switch 6 , namely a triac, and the gate of the electronic switch 6 is connected to a control device 7 . Otherwise, during operation of the electronic switch 6 and the drive motor 1 in series with one another between the phase conductor L1 and the neutral conductor N of an AC network, in which a grounded protective conductor SL is carried along. By means of a three-wire cable, not shown in the drawing, the phase conductor L1, the neutral conductor N and the protective conductor SL are inserted into the electrical hand tool by inserting the remote end of the connecting cable with a protective contact plug into a protective contact socket. In this way, the protective conductor SL, which is otherwise not required for protective insulation, is also introduced into the machine. The main switch, which is still present between the phase conductor L1 and the neutral conductor N and the drive motor 1 , is also not shown in the drawing for the sake of simplicity.

Symmetrically between the two poles over which the series circuit of the electronic switch 6 and the drive motor 1 is on the phase conductor L1 and on the neutral conductor N, two high-resistance resistors 8 and 9 are also arranged in series with one another, between which there is a node 13 which by means of a line 11 via egg NEN resistor 12, the shaft 2 and thus the tool holder 3 is electrically connected. The potential at this node 13 lies in the middle between the differing potentials of the phase conductor L1 and the neutral conductor N, because the two high-resistance resistors 8 and 9 are of the same size and, in relation to them, the electrical components which are further in series with regard to their resistance was negligible. This is especially true for a Wi resistor, which is in series with the high-resistance resistors 8 and 9 and which is a measuring resistor 10 , to which a detectable voltage drops. Overall, the high-resistance resistors 8 and 9 represent a voltage divider circuit which is symmetrical with the phase conductor L1 and the neutral conductor N.

Between the high-resistance resistor 9 and the measuring resistor 10 is another node 14 , which is connected to the control input of the control device 7 . Via this control input, the control device 7 can be acted upon with a blocking signal, whereby the passage through the electronic switch 6 is interrupted and the drive motor 1 is thus de-energized.

When the electric hand tool operates correctly, the center potential between the phase conductor L1 and the neutral conductor N is present at node 13 of the voltage divider circuit. Corresponding to the small voltage drop across the measuring resistor 10 , an output potential arises at the node 14 , in which the switch-off function of the control device 7 does not come into action. If, when working, the tool 4 strikes an electrically conductive body which has earth potential or a potential close to earth, a potential shift occurs in the direction of the earth potential at node 13 of the voltage divider circuit and thus also at node 14 . As a result of a comparison of the changed potential with a reference potential in the control device 7 , the lock for the electronic switch 6 is activated and the drive motor 1 is de-energized due to the deviation from the output potential. The same also occurs when an ungrounded, live phase of an electrical power line L2 is drilled with the tool 4 . Then namely the potential shift takes place in the opposite direction, whereby in the same way due to the comparison with the reference potential in the control device 7, the passage of the electronic switch 6 is blocked and the drive motor 1 is de-energized.

The blocking signal tapped at the node 14 is not only forwarded to the control device 7 , but also to a circuit unit 15 , which essentially consists of electronic components, not shown. The circuit device 15 causes an incoming blocking signal, the electrical connection of the metal tool holder 3 with the protective conductor SL inserted into the machine via a schematically illustrated switch 16 and a line 17 , so that the tool holder 3 and the tool 4 before al lem then with the Protective conductors SL are connected when the live conductor of a drilled power line L2 has been hit. Thus, the voltage-carrying conductor of the drilled power line L2 is short-circuited to the earth potential at the moment, and the fuse 5 connected upstream of the voltage-carrying conductor falls. Since the tool holder 3 and the tool 4 are kept free of dangerous electrical voltages. Above all, when the fuse 5 is addressed, it is easy to locate the circuit to which the drilled, voltage-carrying line belongs.

Claims (2)

1. Electric hand tool, in particular hand drill, in a protective insulated design with a to be fed from a grounded th AC network, with this by means of a connecting cable to be connected to two poles drive motor ( 1 ), which is driven in series with a control device ( 7 ), electronic switch (6) and which is mechanically coupled with a tool holder (3) which is electrically connected to processing assembly having a protective circuit, NEN on upon impact of the clamped in the tool holder (3) tool (4) on a metal, grounded object or egg Live conductor of a power line (L2) a leakage current flows and the passage of this from the control device ( 7 ) blocks the passage through the electronic switch ( 6 ), for which purpose to detect the leakage current of the tool holder ( 3 ) by means of a voltage divider circuit with high impedance resistors ( 8 , 9 ) The line ( 11 ) is connected to each of the poles to be connected to the line conductors (L1, N) and a blocking signal for the control device ( 7 ) resulting from a potential shift when the leakage current occurs is tapped at the voltage divider circuit, characterized in that there is an additional circuit unit ( 15 ) which connects the tool holder ( 3 ) to an earthed protective conductor (SL) carried in the connecting cable when a leakage current occurs. 2. Electric hand tool according to claim 1, characterized in that the circuit unit ( 15 ) is activated via the locking signal for the control device ( 7 ).