DE3426072A1 - Electrically driven stapling and nailing apparatus - Google Patents

Abstract

A stapling and nailing apparatus having a driving-in plunger which can be driven electromagnetically for driving in nails, clips and suchlike attachment means is described, in which the operating winding of the electromagnet is connected to the discharge circuit of a capacitor during the operating stroke. During charging, the capacitor is isolated from the operating winding and can be connected to a power source. A set of rechargeable batteries, which are accommodated in the apparatus housing, is used as the power source.

Description

Electrically operated stapling and nailing device

The invention relates to a stapling and nailing device with one of the Armature of an electromagnet driven driving ram for driving nails, Brackets and the like fastening means, with the working winding of the electromagnet connected to the discharge circuit of a capacitor during the working stroke is separated from the working winding during charging and connected to an energy source is connectable.

From the German patent specification 2 141 776 it is known the working winding the electromagnet of an electrically powered nailer during the one nail or the like. Driving stroke of the nailer over a working stroke that triggers the working stroke To connect changeover switch to the discharge circuit of a capacitor, which is used when charging is separated from the working winding and connected to an alternating current network. However, an alternating current source is often not or, particularly on construction sites only at a greater distance from the workplace accessible. Through this the use of the devices is not possible or is made more difficult by long supply cables.

Electrically driven screwdriving tools are known which address the problem independence from an AC power source thanks to replaceable battery units to solve. For electrically operated screwdrivers, the use of accumulators is without Difficulties possible as no short-term impact energies are available Need to become.

The invention is based on the object of a stapling and nailing device of the type mentioned in such a way that despite the difficulties mentioned above operation is made possible by accumulators. The solution according to the invention draws is characterized by the fact that the energy source is a set of rechargeable batteries is housed in the device housing, the energy of which is periodically transmitted via a DC voltage converter charges the capacitor, which prepares the energy potential for the working winding holds, and that an electronic one for the magnetizing current of the working winding Circuit breaker, controlled by the positive edge of the output pulse of a monostable multivibrator, is provided.

This makes it possible to provide the required high current pulse , although the charging current is only a fraction of the working current. Depending on the strength of the blow the capacitor can only use a fraction of its capacity per shot or shot discharged and practically continuously until the secondary voltage of the DC voltage converter is reached to be charged. Although the required current pulse is very high, it can Device when using the accumulators handy and sufficient easily designed.

The circuit breaker for the magnetizing current is through two Field effect transistors formed. The duration of the control pulse can between a minimum and a maximum value continuously by means of an impact force setting potentiometer can be set. The output pulse of the multivibrator is through a device switch can be triggered, whereby a capacitor charged via a resistor is discharged. The positive edge of its voltage pulse forms the trigger signal for the output pulse of the multivibrator.

The accumulators are preferably above the magazine for the Fastening means and arranged on both sides of a one-armed lever, the is provided for actuating the driving ram. The accumulators are removable Units trained.

In the drawing is an embodiment of one according to the invention designed device is shown schematically and explained below.

They show: FIG. 1 a vertical longitudinal section through a stitching and Nailing device, Fig. 2 is a plan view of the open chambers of the working capacitors and the accumulators, Fig. 3 shows the vertical longitudinal section A-A through an accumulator chamber, 4 shows the vertical longitudinal section B-B through the condenser and Accumulator chamber, Fig. 5 shows the cross-sections C-C in the rear area of the two accumulator chambers, Fig. 6 shows the electrical principle diagram and FIG. 7 shows the electrical circuit arrangement of the Device.

The portable stapling and nailing device for driving fasteners, which are stored in a magazine 1 is equipped with an electromagnet with a working winding L 2 and an anchor 3 equipped. A pin 4 is used for the force-transmitting connection between the armature 3 and a one-armed lever 5 which can be pivoted about the axis 6 is mounted and carries a driving ram 7 at its opposite end. When a working stroke is triggered, the pin 4 suddenly presses the lever 5 and thus the driving ram 7 down. A fastening means, for example a staple is struck through the mouth of the discharge channel 8 into a workpiece. The compression spring 9 is used to reset the lever 5 after the end of the working stroke.

The trigger switch S 2 and the circuit board are in the handle 10 of the device 11 arranged with the electronic components for the control and main circuit. With an adjusting wheel for an impact force adjusting potentiometer is designated.

The device switch S 2 is switched with the manual release 13. the Plug pins 14 are used to connect the control circuit and the circuit breaker.

Inside the housing part 21 of the device body are chambers 15 and 16 to accommodate the rechargeable NC batteries 17 and a chamber 18 for Incorporation of the two working capacitors C 2 provided. Above the working capacitors is a circuit board 19 with a DC voltage converter.

The six cells of the NC accumulator can be exchanged in blocks arranged. For this purpose, the plug-in coupling 20 must be loosened in order to complete the entire set lift out and connect to a charger.

A forward converter is used as a DC / DC converter. The switching transistor t 1 (Figure 7) periodically switches the battery voltage to the primary winding of the voltage converter ü 1. The stepped-up secondary voltage charges via a Decoupling diode d 1 on the working capacitor c 2. This holds the energy potential ready for work winding 1 2. Only then is the high current pulse required possible, although the charging current is only a fraction of the working current.

Depending on the strength of the impact, the working capacitor c 2 becomes through a working stroke only discharged to a fraction of its capacity and then continuously until Reaching the secondary voltage charged.

The diode d 2 and winding 1 1 are used for damping and interference suppression. The standby lamp h 1 shows a voltage divider r 3, r 4 and r 5 sufficient charging of the working capacitor c 2.

In the main circuit, the field effect transistors form t 2 and t 3 the electronic circuit breaker for the magnetizing current of the work coil 1 1. The freewheeling diode d 3 prevents high induction peaks. c 3 and r form 8 a protective circuit for the field effect transistors t 2 connected in parallel and t 3.

The transistors are controlled by the positive output pulse of a monostable Multivibrators a 1 controlled. The duration of the output pulse is between a minimum and maximum value continuously via a power adjustment potentiometer r 12 adjustable. The duration of the pulse is therefore equal to the current flow time of the magnet or. Job winding.

The output pulse is activated by pressing the device switch s 2 triggered via the manual release 13. A previously via r 13 on the battery voltage charged capacitor c 6 discharged via s 2 and r 11. The positive flank of his The voltage pulse at r 11 forms the trigger signal for the output or control pulse of the multivibrator a 1.

Too fast a sequence of shots (trigger sequence) prevents the Capacitor c 6 and the resistor r 13 specific time constant for charging the Capacitor c 6. The zener diode d 4, the resistor r 9 and the capacitor c 4 protect the field effect transistors t 2 and t 3 from excessively high voltage peaks.

- blank page -

Claims (6)

PATENT CLAIMS 1. Stapling and nailing device with one of the anchor Electromagnet driven driving ram for driving nails, staples and the like fastening means, its working winding during the working stroke is connected to the discharge circuit of a capacitor that is used when charging the working winding is separated and can be connected to a power source, thereby characterized in that the energy source is a set of rechargeable batteries (17) is housed in the device housing (14), the energy of which is periodically transmitted via a DC voltage converter (ü 1) charges the working capacitor (c 2), which is the energy potential for the working winding (1 2) of the electromagnet holds ready, and that for the magnetizing current of the working winding (1 2) an electronic circuit breaker (t 2, t 3) is provided and through the positive The edge of the output pulse of a monostable multivibrator (a 1) can be controlled is. 2. stapling and nailing device according to claim 1, characterized in that the circuit breaker for the magnetizing current by two field effect - Transistors (t 2, t 3) is formed. 3. stapling and nailing device according to claims 1 and / or 2, characterized characterized in that for stepping up the battery voltage as a forward converter trained DC voltage converter (ü 1) is used. 4. stapling and nailing device according to one or more of claims 1 to 3, characterized in that the duration of the control pulse (output pulse) between a minimum and a maximum value continuously by means of an impact force setting potentiometer (r 12) is adjustable. 5. stapling and nailing device according to one or more of claims 1 to 4, characterized in that the output pulse of the multivibrator (a -l) through a device switch (s 2) is triggered, whereby a resistor (r 13) charged capacitor (c 6) is discharged, its positive voltage pulse edge forms the trigger signal for the output pulse of the multivibrator. 6. stapling and nailing device according to one or more of claims 1 to 5, characterized in that the accumulators (17) and the working capacitors (c 2) above the magazine for the fasteners and one on either side one-armed lever (5) for actuating the driving ram (1) in removable Chambers are arranged.