DE2821034A1 - Mixture control for gas-air burner - has solenoid-operated sliding Venturi regulated by bimetal switch - Google Patents

Abstract

The air-gas mixing tube is positioned in an asbestos block or other heat resistant material, with a wire grill over the mouth and a reflector plate. A cutaway carries a transformer for glow wire ignition. At the rear of the tube is a sliding venturi nozzle controlled by a pin. A magnetic coil when activated pulls the soft iron core back, overcoming a spring to pull the nozzle back to a minimal air setting. When the interior of the tube reaches the optimum operating temp. the current activating the coil is switched off by a temp. controlled bimetal switch.

Description

Device for adjusting the nozzle in a burner system

The invention relates to a device for adjusting the nozzle For regulating the gas-air mixture in a burner system in thermogenerators or gas burners that work with a gas-air mixture is a setting this mixture is required. When starting, i.e. when cold, the Set the gas proportion higher than after heating the burner system. The gas-air mixture was previously set manually by adjusting the nozzle using an adjusting screw and ignited. The setting of the excess gas for the cold start takes place emotionally. After the burner system has warmed up, the mixture is adjusted using the same adjusting screw adjusted by hand until the most favorable setting for continuous operation is through Measuring the voltage delivered by the thermal system is found. This process is after 3 To be carried out again every longer business interruption.

The invention is based on the object of a device for setting of the gas-air mixture to start when the burner system is cold controlled ignition of the gas-air mixture at the burner nozzle and adjustment of the Guaranteed nozzle for an optimal mixture during continuous operation.

This task is carried out with a device of the type described at the beginning Kind according to the invention solved in such a way that an electromagnetic coil arrangement is provided from a coil and a soft iron core immersed in the coil with a stop limiting the immersion depth that the soft iron core has a Axis is rigidly connected to a slide, which is in a guide, under the spring tension a compression spring counteracting the coil attraction force, is guided and over one pin engages the nozzle and that one is thermally engaged with the burner system coupled switch is in the circuit of the coil.

Advantageous developments of the subject matter of the invention are in the Subclaims specified.

The invention is explained in more detail below with the aid of an exemplary embodiment explained.

There are shown Fig. 1 in a partial representation of the burner system and the Device for setting the gas-air mixture and FIG. 2 in a detail view of Fig. 1, the switching element of the coil arrangement.

The burner system, consisting of a funnel-shaped screen 1 and a grid 2 arranged centrally therein, as well as the devices for the supply and adjustment of the gas-air mixture are in an insulating block 3 made of a heat-resistant Material, for example made of asbestos, held. The insulating block 3 has a lateral Recess 4 in which the ignition device is arranged.

The supply of the gas-air mixture to the front of the insulating block 3 attached burner system takes place via a cylindrical chamber 5, which is in a central bore of the insulating block 3 is used. In the chamber 5 is a Nozzle 6 arranged displaceably, through which the adjustment of the gas-air mixture he follows. The gas enters the chamber through a frontal feed, while a longitudinal slot is provided for the air supply on the jacket, so that according to the position of the nozzle 6 in the chamber 5 a more or less large Opening for air admission is released.

The adjustment of the nozzle 6, for example a Venturi nozzle, for correct setting of the gas-air mixture takes place with the electromechanical according to the invention Furnishings. This consists of a coil arrangement consisting of a coil 7 with terminals 8 and a soft iron core dipping into the coil 9. The soft iron core 9, the is provided with a stop 10 limiting the immersion depth, is via a Axis 11 is connected to a slide 12 which is connected to the nozzle via a pin 13 6 is engaged. The slide 12 is guided in a hollow cylindrical guide 14, which has a bottom-side central bore through which the axle 11 extends. Between the bottom of the guide 14 and the slide 12 there is one on the axis 11 placed compression spring 15 arranged, which counteracts the coil attraction force. It is therefore pretensioned when the soft iron core 9 is immersed in the coil 7.

The soft iron core 9 is variably adjustable and has a locking device in the form of a nut 13. For the slide 12 there is a stop in the form of a nut 17 is provided, which rests against the outside of the bottom of the guide 14. To their Securing a second nut 15 (lock nut) is provided. By means of the stop the stroke of the slide 12 is adjustable.

The coil 7 is attached to a coil carrier 19, consisting of a bracket attached to the end face of the cylindrical chamber 5, in which at the same time the guide 14 is held. The coil is so opposite to the coil carrier fixed to the burner system.

In the circuit of the coil 7 is a thermal with the burner system coupled switch. The switch is designed as a bimetal switch, consisting from a bimetal strip 20 and a switching contact 21 with one on the bimetal strip adjacent pin 21, and is attached to the outside of the screen 1 of the burner system (cf. the detail drawn in the dashed circle in FIG. 1 at II and FIG. 2). For the sake of clarity, the circuit for the coil is not shown. With the inclusion of an appropriate power source, the connection terminals 22 at the switch and the terminals 8 of the coil 7 are connected to one another.

The nozzle setting for the cold start is done automatically by energizing the coil 7, which is supplied via the terminals 8 current. It pulls magnetic force of the coil 7 the soft iron core 9 up to the stop 10 in the coil into it. The soft iron core, which is mechanically connected to the slide 12 via the axis 11 is coupled, takes the nozzle 6 with it via the pin 13 and holds this in the position for excess gas. This state remains as long as it is the excitation current flows through the coil 7. The gas-air mixture is now by means of Glow wire ignited. The bimetal switch thermally coupled to the burner system is dimensioned in such a way that, after the system has been sufficiently heated, it can supply the excitation current the coil interrupts. When the excitation current is flowing, the coil 7 is the soft iron core 9 free. The force of the spring 15 arranged in the guide 14 presses the slide 12 up to the stop 17 against the guide. The nozzle 6 is over the pin 13 taken and held in the position for optimal gas-air mixture.

5 claims 2 figures

Claims (5)

Claims 0 device for adjusting the nozzle for the regulation of the gas-air mixture in a burner system, d u r c h g e k e n n z e i c h n e t that an electromagnetic coil arrangement is provided from a Coil and a soft iron core immersed in the coil with a depth of immersion limiting stop that the soft iron core rigidly with a slide on an axis is connected, which is in a guide, under the spring tension of one of the coil attraction force counteracting compression spring, is guided and via a pin with the nozzle in the Is engaged and that a switch thermally coupled to the burner system is in the circuit of the coil. .2. Device according to Claim 1, d a d u r c h g e -k e n n z e i c h n e t that the soft iron core on the pin by means of a lock, for example a mother, is adjustable in its position. 3. Device according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that the stroke of the slide by means of a lock, for example a nut, is adjustable. 4. Device according to one of claims 1 to 3, d a -d u r c h g e k e n n n n e i c h n e t that the coil is connected to the torch system by means of a coil carrier connected is. 5. Device according to claim 4, d a d u r c h g e -k e n n z e i c h n e t that the coil carrier also forms the holder for the guide.