RU132870U1 - GRATE - Google Patents

Abstract

The utility model relates to a power system, in particular, to designs of grates and can be used in various furnace devices, in particular in heat generators.

The grate is made in a cone-shaped shape, expanding towards the bottom, and its body is formed by concentrically oriented rings, between which there are spaces, the rings are connected to each other by ribs, while the upper part of the grate is provided with an integral tide made in a dome shape.

The technical result is an increase in combustion efficiency in the area of the grate and improving the completeness of combustion of fuel.

1 n.p. f-ly, 2 drawings.

Description

The utility model relates to a power system, in particular, to designs of grates and can be used in various furnace devices, in particular in heat generators.

A grate to a combustion device for burning solid fuel is known, which is made in the form of a round stove placed on the supports of the combustion chamber with through holes or openings for air to enter the chamber, through holes or openings are arranged in rows concentrically oriented relative to the central zone of the stove, between which cooling ribs are placed on the back surface of the plate, the cross sections of the openings are radially oriented relative to the central zone of the plate, and the surfaces forming them th or symmetry axis of the plate through-holes are unidirectionally inclined to the plate working surface with the formation of sharp angles, the vertices of which are oriented in the opposite direction to the clockwise rotation, and the acute angle between the generatrix of the clearance surfaces or the symmetry axes of the plate through-holes and the plate working surface is 30-60 °. The plate is formed by sector plates, the radially oriented surfaces of which have recesses and protrusions for contact interaction of adjacent sector plates with each other (patent for utility model of the Russian Federation No. 238896, publ. 20.01.2010)

The closest technical solution chosen by the applicant as a prototype is a grate, made in the form of a hollow cone with concentrically oriented ribs interconnected, between which there are gaps (patent CN 201155772, priority from 2008-11-26).

The disadvantage of this design is its low efficiency, because during combustion in the upper part of the grate, a high temperature is not provided, i.e. when fuel passes through the grate from top to bottom, complete ignition of the fuel occurs already in the lower part of the grate, while the upper part of the grate does not participate in the combustion process. This leads to a decrease in combustion efficiency and, as a result, to incomplete combustion of fuel.

The technical task of the claimed utility model is to increase the combustion efficiency in the upper zone of the grate and improve the completeness of combustion of fuel.

The technical problem is achieved in that the grate is made in a cone-shaped shape, expanding towards the bottom, and its body is formed by concentrically oriented rings, between which there are gaps, the rings are connected to each other by ribs, while the upper part of the grate is provided with an integral tide, made dome-shaped .

Comparison of the claimed utility model with the prototype shows that it differs in the following features:

- a tide is made in the upper part of the body of the grate;

- the tide is solid;

- the tide is made dome-shaped.

Therefore, we can assume that the claimed utility model meets the criterion of "novelty."

The manufacture of a single domed tide in the upper part of the grate allows to significantly increase the efficiency of the combustion process. This may be due to the fact that due to the integral dome-shaped tide, which is heated to a high temperature during combustion, the fuel begins to ignite already at the top of the grate, i.e. the combustion process begins directly on a monolithic hot flush. At the same time, the air drawn through the gaps of the grate, bends around the domed shape of the tide, which additionally leads to a change in the orientation of the torch relative to the burning point, activating the active burning zone. Unlike the prototype, this allows you to effectively use the whole body of the inventive grate, starting from its top. As the experiments showed, the temperature in the combustion zone is 30-50% higher than on the grate without a domed tide. Moreover, the inventive form of the grate provides insignificant ash formation, i.e. the use of the inventive grate grate allows for a high completeness of fuel combustion, which, in turn, eliminates the process of “overgrowing” the grate grate with products of incomplete combustion of fuel.

The grate can be made of heat-resistant material, such as cast iron, using standard equipment using well-known processes, so it meets the criterion of "industrial applicability".

Figure 1 schematically shows the grate, the figure 2 shows the grate installed in the furnace.

The grate 1 is made curly, namely, its body has a conical shape with an extension to the bottom. The body is formed by concentrically oriented rings 2, between the rings 2 there are spaces 3. The rings 2 themselves are interconnected by ribs 4, forming the internal cavity of the body of the grate. In the upper part of the body of the grate, a solid dome-shaped tide 5 is made. It should be noted that the grate is made by casting of heat-resistant cast iron.

Solid fuel first falls on a solid dome-shaped tide 5 of the grate 1, located in the furnace 11, where it begins the combustion process. The combustion of fuel is carried out in stages, first dehydration, then coking and pyrolysis. Pyrolysis combustion products fall on the rings 2 of the grate, where the combustion process ends with its gasification. Through the openings 3, air is supplied, which ensures stable combustion on the grate, and ash is also removed from the grate through the openings 3.

Additionally, the operation of the inventive grate is illustrated in Fig.2. The grate 1 is installed, for example, in the furnace 11, which contains the boot part 6, the air intake part 7, made perforated. The furnace 11 is connected to the combustion chamber 8 and further to the heat exchanger 9. For this design, it is preferable that the outlet of the heat exchanger 9 be connected to a smoke exhauster 10. Fuel, for example, pellets, which enter the grate 1, is loaded into the loading part 6 of the furnace 11. the smoke exhauster 10 is turned on. Then, with the help of a burner, the pellets are ignited through the perforations of the air intake part 7 and the process of active combustion of fuel is in the area of the air intake part 7, while the active combustion zone is due to the draft of the generated smoke the sucker 10 is displaced into the combustion chamber 8, where the gasification of fuel occurs. Formed flue gases from the combustion chamber 8, pass through the heat exchanger 9, giving off heat, and then through the exhaust fan 10 are removed.

When using the inventive grate, ash is formed only in the process of starting and stopping the device, i.e. in conditions of unstable air and fuel supply. In the process of burning, ash is not formed. As it was established experimentally, per 100 kg of solid fuel 1 gram of ash is formed, which is slag, sand and other non-combustible impurities present in the fuel.

Thus, the claimed utility model provides an increase in combustion efficiency in the area of the grate and an improvement in the completeness of fuel combustion.

Claims (1)

A grate made of conical shape, expanding to the bottom, the body of which is formed by concentrically oriented rings, between which there are gaps, and the rings are connected to each other by ribs, characterized in that the upper part of the grate has a solid tide made in a dome shape.

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