RU2613341C1 - Electricity generating supply boxes for injection burner - Google Patents

Abstract

FIELD: heating, ventilation.

SUBSTANCE: invention relates to power engineering and can be used in injection burners of domestic heating devices (gas stoves, etc.) for the combined generation of heat and electrical energy. Electricity generating supply box for injection burner contains a support ring, which is made of a dielectric material, with feets, laid on the mentioned ring thermoelectric power section, consisting of thermionic converters, each of which consists of a pair of line segments, which are made of different metals M1 and M2, curved at perpendicular angles at the bottom, the ends of which are connected between each other, and forming by itself a zigzag row in the form of an open circle, annular screen, that is arranged in the form of a flat ring from a dielectric material, with adjacent racks to the row, wherein the supporting ring, zigzag row and annular screen are seted by legs and struts on the working surface of the gas plate around the injection burner; an annular screen separates a zigzag rows on the horizon from lateral aspect and separates it for hot and cold zones, the length of the curved ends of the M1 and M2 metal lines is chosen that the upper junctions of zigzag number were located in the base area of the torch, the lower junctions of the above-mentioned series were close to the working surface of the plate, thermoelectric power and the cold end sections connected to the collector with similar charges, which are connected with the transmitter, where the required voltage and amperage are created.

EFFECT: invention, which allows to increase the quality of combustion and at the same time to generate electricity during the production of heat.

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Description

The present invention relates to energy and can be used in injection burners of domestic heating appliances (gas stoves, etc.) for the joint generation of heat and electric energy.

A gas burner is known, comprising a cup-shaped housing interfaced with a gas nozzle and a spark plug, a ring gear with a plurality of first flame channels arranged circumferentially along the periphery of the crown, and a top cover covering the burner from above, and on a part of the outer surface and the ring gear of its periphery radial grooves are lower than the level of the first flame channels, along the circumference of the crown there are second flame channels along the circumference, the burner containing a vertical mini venturi for realizing Lenia primary aeration of the operation plate surface [RF patent №2407949, F23D 14/06, 2010].

The main disadvantage of the known gas burner is the lack of an organized supply of secondary air and the inability to generate electrical energy, which reduces its environmental and economic efficiency.

Closer to the proposed invention is a thermoelectric safety device for a gas burner of a household appliance, including an electromagnet, a thermocouple (thermionic converter, consisting of a pair of segments made of different metals M1 and M2), a support frame, auxiliary devices, a burner, which ensures the reliability of its operation [RF patent No. 2476773, F23N 5/10, 2013].

The main disadvantage of the known thermoelectric safety device for a gas burner is the inability to generate electrical energy, which reduces its environmental and economic efficiency.

The technical result of the invention is to increase the economic and environmental efficiency of an electric power generator for an injection burner.

The technical result is achieved by an electric generating set for an injection burner, including a support ring made of a dielectric material, with legs, a thermoelectric section consisting of thermionic converters, each consisting of a pair of segments made of different metals M1 and M2, laid on the aforementioned ring bent from below at right angles, the ends of which are connected by soldering or welding, forming a zigzag row in the form of an open circle, annular a screen made in the form of a flat ring of dielectric material with racks adjacent to the row, while the support ring, zigzag row and ring screen are mounted with legs and racks on the working surface of the gas stove around the injection burner equipped with a gas nozzle, ring gear, top cover and a spark plug, and the annular screen divides the zigzag row horizontally from the outside into hot and cold zones, the length of the curved ends of the metal segments M1 and M2 is chosen so that the upper zigzag series junctions are arranged in the base area of the torch, the bottom junctions of the above series were close to the working surface of the slab, and cold ends thermoelectric power section connected to the collector with like charges connected to the converter, wherein the desired voltage and amperage generated.

The proposed power supply unit for an injection burner is shown in FIG. 1–2 (Fig. 1 is a general view; Fig. 2 is a sectional view).

The power-generating attachment for the injection burner includes a support ring 1 made of dielectric material with legs 2, a thermoelectric section (TPP) 3, consisting of thermionic transducers (TEC) 4, each of which consists of a pair of segments 5, 6, laid on ring 1 made of different metals M1 and M2, bent from the bottom at a right angle, the ends of which are connected by soldering or welding 7, forming a zigzag row 8 in the form of an open circle, an annular screen 9 made in the form of a flat rings of dielectric material, with uprights 10 adjacent to row 8, with the support ring 1, the zigzag row 8 and the annular screen 9 installed legs 2 and racks 10 on the working surface 11 of the gas stove (Fig. 1, 2 not shown) around an injection burner 12, equipped with a gas nozzle 13, a ring gear 14, a top cover 15 and an ignition plug 16, the annular screen 9 separating the zigzag row 8 horizontally from the outside into cold and hot zones 17 and 18, the length of the curved ends of segments 5, 6 metals M1 and M2 is chosen oh that the upper junctions 8 number 7 were located in the base area of the torch, the lower number of junctions 7 8 located close to the working surface of the plate 11 (FIG. 1, 2), and the current leads 19 and 20 of the thermoelectric section 3 are connected to the collector with the same charges connected to the converter, where the required voltage and current are generated (not shown in Fig. 1, 2).

The basis of the work of the proposed power generator for an injection burner is based on the effect of thermoelectricity. Since TPP 3 is made in the form of zigzag rows 8, made of paired wire segments 5 and 6, made of different metals M1 and M2, welded (welded) at the ends between each other, when heating one of the soldered ends of the wire segments 5 and 6 of TEP 4 at the base of the torch at the lid 15 (hot zone 18) and cooling of the opposite welded ends of the TEC 4 located in the cold zone 17 at the working surface 11, different temperatures are set on the opposite junctions of the pair of wire segments 5 and 6, in the contact zone (junction 7) metals М1 and М2 пр thermal emission of electrons occurs, as a result of which thermoelectricity appears in the zigzag rows 8 of TPP 3 [S.G. Kalashnikov. Electricity. - M .: "Science", 1970, p. 502-506].

The operation of the power supply unit for the injection burner is as follows. Preliminary on the injection burner 12 are mounted elements of the console. First, a support ring 1 is mounted on the working surface 11 of the gas stove (not shown in Fig. 1.2) so that the burner body 12 is located exactly in the middle of the ring 1 and fix it with the surface 11 (the attachment points in Figs. 1, 2 are not shown ) Next, a TPP 3 is installed on the ring 1, an annular screen 9 is put on the TPP 3, it is installed by the struts 10 on the working surface 11 and fixed (the attachment points in Figs. 1, 2 are not shown).

Primary air is sucked up over the working surface of the stove through the gap between the burner body 12 and crown 14. The burner body 12 is connected to a nozzle 13 through which gas is supplied, and primary air is mainly sucked into the burner crown by friction with a gas stream. Since the toothed rim 14 of the burner is provided with a plurality of radial grooves (flame channels) around its circumference, the gas-air mixture ignited by the glow plug 16 comes out in the radial direction with the formation of an annular torch. The cover 15 closes the burner from above and together with the crown 14 of the burner determines the dimensions of the flame channels located on it. An increase in flame stability and combustion quality around the burner body 12 occurs due to the annular channel formed by a zigzag row 8 of TEC 4 of TPP 3 and an annular screen 9, through which heated secondary air is sucked from the cold zone 17 into the hot zone 18 and further into the combustion zone, which simultaneously cools the lower soldered ends 7 of TEC 4 of TEC 3 in the cold zone 17. At the same time, when one of the soldered ends of the wire segments 5 and 6 of TEC 4 is heated at the base of the torch at cover 15 (hot zone 18) and the opposite ones are soldered at the ends of the TEC 4 located in the cold zone 17 at the surface 11 of the plate (not shown in FIGS. 1–2), different temperatures are set on the opposite junctions of the pair of wire segments 5 and 6, in the contact zone (junction 7) of the metals M1 and M2 thermal emission of electrons, as a result of which thermoelectricity appears in the zigzag row 8 of TPP 3. The resulting thermoelectricity through the current leads 19 and 20 of the zigzag row 8 of each TPP 3 enters the collectors with the same charges, then to the converters (not shown in Figs. 1–2), where the required voltage and current are generated and supplied to the consumer.

Thus, the proposed power-generating attachment for an injection burner can improve the quality of combustion and at the same time generate electricity in the process of generating heat, which increases its economic and environmental efficiency.

Claims (2)

An electricity-generating attachment for an injection burner, including a burner equipped with a gas nozzle, a ring gear, a top cover and a spark plug, a thermionic converter consisting of a pair of pieces made of different metals M1 and M2, characterized in that a support ring is placed around the injection burner made of a dielectric material, with legs, laid on the aforementioned ring, a thermoelectric section consisting of thermionic converters, a pair of metal segments M1 and M2 which are bent from the bottom at a right angle, and their ends are interconnected by soldering or welding, forming a zigzag row in the form of an open circle, an annular screen made in the form of a flat ring of dielectric material, with racks adjacent to the aforementioned zigzag row, while supporting the ring, the zigzag row and the annular screen are installed by legs and racks on the working surface of the gas stove, the annular screen divides the zigzag row horizontally from the outside into hot and cold On the other hand, the length of the bent ends of the metal segments M1 and M2 is chosen so that the upper junctions of the zigzag row are located in the zone of the base of the torch, the lower junctions of the aforementioned row are close to the working surface of the plate, and the current leads of the thermoelectric section are connected to the collector with the same charges connected to the converter, where the required voltage and current are created.

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