DE1613444A1 - Device with magnetic coil - Google Patents

Description

Magnetic coil device-The invention relates to a device; in particular on a; memorandum in which a. mechanical process by short-term Excitation of a solenoid is triggered, such as. B: a device for driving of nails, staples or the like.

Devices with electromagnetic actuation are already known in which an armature is moved by the excitation of a magnetic rinse, which causes a mechanical process. Among other things, tools are known in which fastening or holding parts such as nails, clips, wire pins or the like in this way. be driven into a pad. Such an electromagnetic nailing device is described, for example, in the US patent specification 5 'IM 1 171: An essential component of such a device is a magnetic coil through which a current is sent, -by which an armature-briefly.ib -moved will. For this purpose, the magnetic coil must be briefly connected to a power source by means of a suitable switch. - It has-.be useful that the known devices of this kind of night. exhibit.

One such disadvantage is that when the device is operated frequently and in quick succession, the magnet coil heats up very strongly, so that the device is damaged by excessive heat actuation of the electrical con-t - k '(slightly contact bounce occurs for connecting the Nagnetspule to the power source, that is, the re;, reg7.iclze contact into mechanical vibrations for device # d cor Cor, CD .fast in sequence several times closed ur ;; geö- Ono t. This has the consequence that the mechanical process, e.g. the driving in of a clamp or a Na '-, e -'- S in an undesirable manner several times in succession a1 :, = The invention is based on the task of avoiding these disadvantages of the known device.

This is achieved according to the invention in that means are provided - @ rerden, through which the tripping frequency of the. Device limited upwards will.

This limitation of the release frequency prevents that when the contact bounces the r "@ mechanical process is triggered several times and also w-i rd avoided, that the mechanical process by kur ":; eitigo:> closing the ; The switch can be triggered one after the other in such quick succession, date itself dis: heated in an impermissible manner. The invention can be in various tracks can be realized.

One way of carrying out the invention: the idea is to to simultaneously charge a mechanical memory when the device is triggered and to close an operating lock. Thehechanical memory is then stored in more defined: Tit discharged and when a certain state of discharge is reached the lock is removed again: This can happen, for example, that when triggered the device a spring is tensioned, which: relaxes delayed. The delay can be carried out in any known manner, e.g. B. by means of a.Hemmreglers or the like. A small pressure cylinder can also serve as a mechanical storage device. in that one. liquid or gaseous medium stored under pressure when triggered and slowly flows out of the cylinder through an opening of defined dimensions. Simultaneously with the charging of the memory, an activation lock for the Device closed so that it cannot be released again. It can e.g. . B. the button that is used to Sehlie (3rd of the switch is mechanically locked. But it is also possible to use an electrical contact as an actuation lock. which lies in the connection line between the power source and the solenoid and which is opened when locking. After the memory is in a defined time has unlpden; the lock will be lifted again, z. B. the break contact-ih the supply line closed again, so that a new triggering of the device is possible. A particularly advantageous embodiment of the in The device in question is that instead of a mechanical switch A controllable rectifier is used between the power supply and the solenoid will. As is known, such a rectifier can be provided by an ignition pulse on the control electrode switched to the conductive state.

According to the further embodiment of the invention are such Form of training means provided by which the 'frequency of the ignition pulses according to is limited above. This also prevents a repeated actuation of the device occurs and by repeated, rapidly successive Triggering overheating of the solenoid occurs.

The ignition of the controllable rectifier can, for example, thereby caused by a capacitor discharge a pulse at the control electrode is produced. The limitation of the triggering frequency according to the invention can then this can be achieved by charging the capacitor through a charging resistor is delayed.

Further advantages are achieved in that as a charging resistor a resistor: used with a positive temperature coefficient of the resistance value which is arranged in good thermal contact with the solenoid. In this way the delay is made dependent on the temperature of the solenoid. If If the bobbin has heated up too much during continuous use, it will increase ; ert of resistance accordingly to and the. time delay of capacitor charging becomes larger. As a result, the device can inevitably only be used at larger intervals triggered so that the solenoid can cool down again. After ' Cooling down reduces the resistance value. of the charging resistor, so that the Device can be triggered again at shorter time intervals.

-In the figure, for example, there is a circuit arrangement for the Tripping shown with a controllable rectifier. .-With R and Mp that is AC mains connected. The solenoid m1 is in series with the controllable one Rectifier n1 on the power grid. The controllable rectifier n1 is ignited by actuating the switch a1 .. Via the break contact of the switch a1 'the Capacitor k2 is charged and, when switch a1 is actuated, the capacitor Discharge-. The resulting voltage surge is controlled by the cascade the transistors t1 and t2 amplified and the control electrode of the controllable rectifier n1 supplied .. This puts the controllable rectifier in the conductive state switched and current flowing through the magnetic coil m1 ß. -: In the idle state, the Capacitor k2 in parallel with capacitor k3 via diodes n2 and n5 and the resistor r1 to mains voltage. If the switch contact bounces when the switch a1 is released occurs, then several ignition pulses of the control electrode of the controllable rectifier n1 fed and the. Magnet coil m1 is excited several times in succession. Through this If a nailing device were to be used, several staples would be inserted one after the other into the base be pressed in.

Claims (1)

Claims: '1.) Device in which. a mechanical process is triggered by brief "excitation of a magnetic coil, in particular electromagnetic TTagelvorrichtung, characterized in that means are provided by which the trigger frequency is limited upwards. 2.) Device according to claim 1, characterized in that when triggered mechanical memory is charged and at the same time a lock is actuated and that the memory is discharged in a defined time and the lock is removed again. Device according to claim 2, characterized in that an electrical contact in the coil power supply is opened as an actuation lock according to claim 1, in which the magnetic coil is excited in that an ignition pulse is applied to the control electrode of a controllable rectifier located between the power source and the magnetic coil, characterized in that means are provided by which the frequency of the ignition pulses is limited upwards ) Device according to app Ruch 4, characterized in that the ignition of the controllable rectifier is effected by discharging a capacitor and that the charging of the capacitor is delayed by means of a charging resistor. 6.) Device according to claim 5, characterized in that a resistor with a positive temperature coefficient is used as the charging resistor and is arranged in good thermal contact with the magnetic coil: List of terms used Reference original language D / R translation E / D -sign AC connections ? T Mp m1 solenoid n1 controllable rectifier r.2 n3 diodes n 4 K2 capacitors k3. t% transistors rj eyelid resistances r6 charging resistance a: operating switch