CS226882B1 - Transformer soldering lamp with inverter - Google Patents

Description

The invention relates to a transformer solder with an inverter for connection to a DC power supply. The soldering iron is designed for workplaces where the AC network is not within reach, eg in motor vehicles, boats, airplanes, etc.

Previously known transformer soldering irons are powered only from an AC power source. In workplaces where the mains voltage is accumulators, which are usually charged by DC units and where operational tests, maintenance, repairs and other manipulations on electrical equipment requiring soldering are required, the use of this transformer soldering iron is difficult because it must be connected to AC and stretch the extension cable to the work place, which is very laborious and time consuming, or precede a transformer soldering iron with a special portable inverter. Even the use of a resistive solder with the same power is not advantageous in these conditions, since its heating and cooling time is lengthy, which limits the readiness in case of rapid intervention.

The above drawbacks overcome the transformer soldering iron with inverter according to the invention, which is supplied from a DC power supply and wherein the inverter and the DC power supply are located in a pistol-shaped insulating housing connected in a circuit consisting of a transformer whose secondary winding has a solder tip loop. , a capacitor, and a controllable pulse source, connected via a single input to the source

226 882 to the positive pole of the DC power supply, and through the second input via a series combination of a blocking diode with a push button bridged by the suppression capacitor, to the positive pole of the source. It is an object of the invention that the output of the controllable pulse source is connected to a control electrode of a thyristor, the anode of which is connected to a tap of the transformer primary winding which divides it into two sections of unequal number of turns. the beginning of the second part of the primary winding. The end of the second part of the primary winding is connected in series with the capacitor at the same time as the thyristor cathode to the negative pole of the DC power supply, while the beginning of the first part of the primary winding is connected to the positive pole. DC power supply.

An advantage of the transformer soldering iron according to the invention is that it reduces the time losses that occur when driving to the AC grid when soldering by an AC transformer soldering iron is eliminated, and the effort involved in stretching and removing the extension cable is eliminated. There is also no need for a separate portable inverter when connecting the soldering iron according to the invention to a DC power source. It eliminates the time losses that arise when handling the resistor, which has a long heating and cooling time. .

The arrangement of the transformer soldering iron according to the invention achieves less weight than the previously known transformer soldering iron, since its circuit operating at a higher frequency allows a smaller cross-section of the transformer core to be selected. In doing so, it retains one of its most important features, which is immediate readiness to use.

Another advantage is the possibility of regulating the total power by changing the frequency and thus the power of the soldering tip in the range of 30%. Also advantageous is the fact that it can be used to manufacture the housing of standard soldering iron and transformer core from the thyristor series, thereby reducing its manufacturing costs.

The drawing shows an example of a transformer soldering iron according to the invention, showing the circuit diagram of its circuit.

The controllable pulse source 1 is connected by one input to the negative pole of a low voltage DC power supply and by its second input via a series combination of a blocking diode 12 with a pushbutton switch 10 and a fuse 2 to the positive pole of this source. The series combination is bridged by a suppression capacitor 11. The adjustable pulse source 1 is a relaxation oscillator, or an astable multivibrator, provided at the output with a pulse slope conditioner. The output of the controllable pulse source 1 is connected to the control electrode 6 of the thyristor, the anode of which is connected to a branch 6 of the primary winding of the transformer, which divides them into two portions of unequal number of turns. the beginning of the second part 6 of the primary winding. The end of the second part J of the primary winding is connected in series with the capacitor 6 at the same time as the cathode of the thyristor 6 to the negative pole - the DC supply of the low voltage, while the beginning of the first part 2 of the primary winding.

226 882 is connected via fuse ^{28 to the} positive terminal + of this power supply. The transformer secondary winding consists of two separate windings, one with a solder tip loop 8 and the other with a filament bulb 2 ·

The entire circuit is housed in a housing of standardly manufactured pistol-shaped transformer feeders designed for connection to an AC network. The transformer soldering iron housing according to the invention is further provided with a longitudinal groove near the handle, from which a part of the control disk of the controllable pulse source 1 protrudes.

The transformer soldering iron inverter is essentially a pulse converter with autotransformer commutation, which makes it possible in particular to connect the thyristors 6 with both parts 2, ½ of the primary winding of the transformer and the capacitor 2.

The function of the circuit is as follows: by connecting the soldering iron to a DC power supply, the capacitor 2 is charged through both parts of the primary winding by the voltage of this source. When the pushbutton switch 10 is actuated, a pulse is sent from the controllable pulse source 1 to the thyristor control electrode 4, thereby opening it and current to the anode of the thyristors 4 flows through both primary winding portions 2, 4. its second part 3, the induced voltage in this first part 2 exceeds the voltage of the DC power supply. The voltage of the thyristors 6 is negative at this time, so that it closes and restores its blocking ability. As a result, the capacitor ²⁸ is recharged via both portions 2, 6 of the primary winding, while the button switch 10 is still closed, another commutation oscillation is repeated. The oscillating current is induced from the primary winding to both secondary windings with connected loads as long as the pushbutton switch 10 is closed. By adjusting the frequency of the adjustable pulse source 1, the power of the soldering tip can be set within 30%.

Claims (1)

SUBJECT OF THE INVENTION Transformer feeder with inverter for connection to a DC power supply, where the inverter and the DC power supply are housed in a pistol-shaped insulating housing and are connected in a circuit consisting of a transformer whose secondary winding is provided with a soldering tip loop, thyristors, capacitor and adjustable a pulse source connected via one input to the negative pole of the DC power supply and the other through a series of blocking diodes with a pushbutton switch bridged by a suppression capacitor to the positive pole of the source, characterized in that the output of the adjustable pulse source (1) is coupled with a thyristor control electrode (4), the anode of which is connected to a transformer primary winding tap (6) which divides it into two parts with an unequal number of turns and forms the end of the first primary winding part (2) with a larger number and the beginning of the second part (3) of the primary winding, the end of which in series with the capacitor (5) is connected both behind the cathode of the thyristors (4) and the negative pole (-) of the DC power supply. the primary winding is connected to the positive (+) pole of the DC power supply.