RU218229U1 - Heating apparatus of upper and lower combustion with a modified combustion chamber - Google Patents

Abstract

The utility model relates to thermal power engineering, namely to the design of autonomous solid fuel hot water boilers designed to generate thermal energy for heating and hot water supply systems. EFFECT: increased efficiency of the heating apparatus when used in any climatic conditions and various types of solid fuels, including those with low calorific value. Universal heating apparatus of upper and lower combustion, containing a body with a combustion chamber 1 and a grate 12, windows with hermetically closing doors 15, 16 for loading fuel and removing ash, an ash chamber 17 with a sealed bottom, equipped with a remote container 22, a cavity for supplying heat carrier and its removal to the consumer, a nozzle device 5 for supplying and distributing air in the combustion chamber 1 with supply tubes, and the air distributor 5 is connected to the chamber 4 for heating air through a telescopic pipe 6, a draft control device equipped with a mechanical draft regulator with an internal thermostatic element, at the same time, a removable screen-limiter 21 is installed on the telescopic pipe 6, fixed by means of a cotter pin inserted into the through hole 24 selected on the pipe 6, made in the form of a metal disk with a size fraction of 5/6 of the inner diameter of the chamber 1 and with the possibility of free rotation around of its axis, equipped with at least two slide gates 23. In addition, it is additionally equipped with an electric heater 25 placed in a protective shell in the cavity of the heating circuit 2 for the coolant. 3 ill.

Description

The utility model relates to thermal power engineering, namely to the design of autonomous solid fuel hot water boilers designed to generate thermal energy for heating and hot water supply systems.

Known designs of furnaces with top air supply, for example, a furnace for burning granular solid fuels and heating indoor air (see US No. 4782765, class F23L 1/00; F23L 9/02; F23K 3/00; F23K 3/14; F23L 9/00; F23H 005/18, published 11/08/1988), consisting of a combustion chamber, in the center of which air supply pipes and a screw device are inserted. Air is supplied to the combustion chamber from above, and granulated fuel is loaded from below using a screw device.

The disadvantage of such a design of the furnace is the constant energy dependence, the complexity of the design of air ducts, the unreliability of the screw device, the need to use only granular fuel, etc.

Also known is a universal heating apparatus of upper and lower combustion (see RU No. 187524, class F23B 101/00, F24H 1/24, F23B 60/00, publ. grate, container for receiving the coolant and supplying it to the consumer, a device for supplying and distributing air, made in the form of a universal air distributor with three secondary air supply pipes oriented at an angle of 30 ° to the combustion chamber wall and one central primary air pipe with an inverted cone-shaped tip oriented towards the bottom of the combustion chamber.

At the same time, the absence of a combustion chamber volume limiter increases mechanical fuel losses due to the entrainment of small fuel particles with an increase in the amount of excess air entering the furnace with unregulated supply, which occurs with a gradual increase in the volume of the combustion chamber with burning of the fuel, increasing its consumption and reducing heat transfer.

Upper combustion heater according to patent RU No. 139341 (class F23B 101/00, F24H 1/24, F23B 60/00, F23L 9/02, F23L 1/00, F23L 15/00, published on 20.04.2014), containing a housing in which the combustion chamber is made, with two windows with hermetically closing doors for loading fuel and for removing ash, a cavity for supplying the coolant and removing it to the consumer, a device for supplying air and distributing it in the combustion chamber, in which the air distributor is connected by means of a telescopic pipe with a chamber for heating air, to which a pipe is connected, brought under the grate from below, the coolant inlet pipe and the outlet pipe to its consumer are equipped with three-way valves, between which a pipe is fixed for recirculating the coolant in its cavity, and the air distributor is made in the form of a cone-shaped tip , in the upper part of which a hollow disk is mounted, forming an annular gap between itself and the inner wall of the combustion chamber, holes in the form of nozzles are made in the walls of the disk for uniform distribution of the consumed volume of air supplied through the cavity of the said telescopic pipe using a pneumatic pump.

The disadvantage of the known design of the heater is the low efficiency of heat transfer to the coolant, which reduces the efficiency of the device. In addition, the low efficiency of the apparatus is due to high fuel consumption, expressed in a decrease in the burning time of a loaded furnace, the inability to control the combustion process with different types of fuel and under the influence of a cold climate.

The objective of the claimed utility model is to improve the operating conditions and increase the reliability of the heating apparatus by stabilizing the operating mode.

The technical result obtained in solving the problem is expressed in the creation of a heating boiler device that is highly efficient when used in any climatic conditions and various types of solid fuels, including those with low calorific value.

To solve the problem, a heating apparatus of upper and lower combustion, containing a housing with a combustion chamber and a grate, windows with hermetically closing doors for loading fuel and removing ash, an ash chamber with a sealed bottom, equipped with a remote container, a cavity for supplying the coolant and removing it to the consumer , a nozzle device for supplying and distributing air in the combustion chamber with supply pipes, moreover, the air distributor is connected to the chamber for heating air through a telescopic pipe, a draft control device equipped with a mechanical draft regulator with an internal thermostatic element, characterized in that a removable screen-limiter, fixed at a certain height by means of a cotter pin inserted into a through hole selected on the pipe, made in the form of a metal disk with a size fraction of 5/6 of the inner diameter of the chamber and with the possibility of free rotation around its axis, equipped with at least , two slide gates. In addition, it is additionally equipped with an electric heater placed in a protective shell in the cavity of the heating circuit for the coolant.

A comparative analysis of the features of the claimed solution with the features of analogues indicates the compliance of the claimed solution with the criterion of "novelty".

The set of features of the utility model provides a solution to the stated technical problem, namely, increasing the reliability of the long-burning heating apparatus, made with the ability to control the combustion process, maintain a stable operation of the furnace depending on climatic conditions. In addition, an increase in the efficiency of fuel combustion contributes to an increase in the heat release of the furnace and the safety of heat supply during the operation of the unit.

The heating apparatus is characterized by the fact that the device for supplying and distributing air is made in the form of a telescopic pipeline having at least three sections for adjusting its length along the height of the combustion chamber, on which a removable screen-limiter of the furnace is additionally installed, made of a rounded shape with a dimensional share 5/6 of the inner diameter of the chamber. The screen-limiter of the furnace is made of a steel disk, for example, 2 mm thick, installed on a telescopic pipeline with the possibility of free rotation around its axis, while at least two holes with slide gates are selected on the disk to control draft and degree of combustion by means of change in screening area.

The heating apparatus is characterized by the fact that the internal geometric parameters of the combustion chamber can be changed by changing the height of fixation of the screen-limiter of the active volume of the furnace on the telescopic pipe, depending on the type, composition and moisture content of solid fuel for more efficient combustion.

The heating apparatus of the upper and lower combustion is characterized by the fact that the body of the heating apparatus contains an additional tubular electric heater with an automatic temperature controller for the combined generation of thermal energy. The heating element circuit is connected to the water cavity circuit of the heating apparatus.

The claimed device is illustrated by drawings, where figure 1 schematically shows a general view of the device from the front with a section along the vertical axis; figure 2 - General view of the device from the side with a section along the vertical axis; on the figure 3 - air distributor device with a screen-limiter of the active volume of the furnace (A - side view, B - top view, C - disk of the screen-limiter).

The heating apparatus of the upper and lower combustion contains a combustion chamber 1 made in the form of a vertically oriented cylinder. The combustion chamber has a double wall, forming a heating circuit 2 for the coolant, and an outer wall 3 with thermal insulation, shielded by a metal sheet. Inside the body of the device there is an air heating chamber 4 connected to a telescopic pipe 6, at the end of which an air distributor 5 with supply tubes is fixed. A removable screen-limiter 21 of the active volume of the furnace is installed on the telescopic pipe 6 with the possibility of adjusting the height of its location on the pipe 6. At the same time, the screen 21 is additionally equipped with at least two slide gates 23.

A secondary air supply channel 7 is connected to the air heating chamber 4, while the chamber 4 is equipped with a damper 11 for switching the direction of air flow through the channel. A hole for the chimney 8 is arranged in the upper part of the apparatus, and on the outside of the body there is a coolant supply pipe 9 and a coolant return pipe 10. A grate 12 is located in the lower part of the apparatus. The heating apparatus is equipped with a metal damper 13 to provide air access to the combustion chamber 1, regulation of the volume of supplied air is carried out due to the operation of a mechanical thermostat. In the upper part of the outer wall of the heating apparatus, a hole with a sleeve 14 is made for installing a contact thermometer. Two openings with hermetically sealed steel doors 15 and 16 are made in the wall of the apparatus body, designed for loading fuel, and in the lower part there is an opening 17 with a hermetically sealed door for the ash chamber with a container 22 for collecting and removing ash. The heating apparatus is equipped with a cable 18, the inner end of which is connected to a telescopic pipe, and the outer end is fixed with a hook 19 on the outer wall of the apparatus, while the regulation of the cable 18 is carried out by a roller mechanism 20. The body of the heating apparatus contains an additional tubular electric heater 25 connected to the heating circuit 2 water cavity of the heating apparatus (see Fig. 1, 2).

The screen-limiter 21 of the volume of the active furnace is installed on the telescopic tube 6 and is equipped with at least two slide gates 23 (see Fig. 3). The area of the shutters 23 in the open state can be up to 25% of the total area of the screen 21. The diameter of the mounting hole of the screen disc 21 corresponds to the outer diameter of the middle section of the telescopic tube 6. For installation, the screen disc 21 is brought to the telescopic pipeline 6 from the bottom side and freely fixed from the bottom of the disc with a special cotter pin, which is inserted into the through hole 24, selected on the pipe section 6. At the same time, the disk of the screen-limiter 21 has the ability to freely rotate around its axis, which is necessary to provide the operator of the boiler unit with access to the dampers 23.

To control the active volume of the furnace, the height of the screen-limiter 21 on the pipe 6 is adjusted, as well as by opening or closing the dampers 23. sections with a smaller diameter will be insignificant, which also does not affect the achieved technical result. The dampers 23 can be closed in order to reduce excess air, increase heat transfer from flue gases and the intensity of reflection of heat rays in the active furnace volume when the process of fuel coking in the furnace begins. Thus, by controlling the amount of combustion products passing into the chimney of the heater 8 through the shutters 23 and the cavity formed between the restrictor screen 21 and the inner wall of the combustion chamber housing 1, the operating modes of the device are stabilized.

The operation of the heating apparatus is carried out as follows.

Before fuel is loaded into the combustion chamber 1, the air distributor 5 is removed from the telescopic pipe 6, after which, at a certain height, a screen-limiter 21 of the furnace volume is fixed on the pipe 6 by means of a cotter pin inserted into the through hole 24. Next, the air distributor 5 is installed back on the pipe 6.

Fuel is loaded into the combustion chamber 1 through the door 15 and 16 and set on fire. The ring of the metal cable 18 is removed from the hook 19 and lifted up, so that the air distributor 6 is lowered onto the fuel under its own weight. Doors 15 and 16 close tightly and open damper 13 to supply air to heating chamber 4, from where air is distributed into 2 flows - upper and lower, in approximate proportions: 65-70% through distributor 5 and 30-35% through pipe 7. Heated in chamber 4, the air tends down the telescopic pipe 6 to the distributor 5, providing the combustion zone with oxygen. The distributor 5 on the telescopic pipe 6 goes down as the fuel burns out, ensuring combustion only in the upper zone. The lower air flow, passing through the pipe 7 in the cavity of the chamber 1, heats up along the way and, falling under the fixed steel grate 12, rushes up, drying the fuel along the way and providing the combustion zone with oxygen. The output of combustion products occurs through the chimney 8.

At the same time, the screen-limiter 21 of the furnace volume performs the function of a vault in the boiler unit and, thereby, contributes to the reflection of heat rays back to the burning layer of fuel and better afterburning of fuel fines, excluding their removal due to natural draft through the chimney 8, which ensures the safety of the device. In addition, by reducing the rate of passage of fuel combustion products into the chimney 8, a greater heat transfer of thermal energy to the heating circuit 2 from the heated combustion products is achieved.

In this case, the heat carrier of the heating system is heated through the heating system passing through the supply pipe 9 and the return pipe 10 of the coolant to the heating circuit 2.

In the absence of the operator of the heating apparatus or in the absence of solid fuel for kindling the heating apparatus, it is possible to use a tubular electric heater (hereinafter referred to as the heating element) 25, which is connected to the heating circuit 2. The operation of the heating element 25 can be controlled using an automatic thermostat that is triggered when the coolant temperature drops to critical values. The device can control the operating temperature of the coolant offline, which significantly expands the reliability of use and safety of operation.

Thus, the screen-limiter 21 of the active volume of the furnace is used to intensify the combustion process of solid fuel during burnout and subsequent reduction of the fuel layer. The use of the claimed device helps to reduce the consumption of solid fuel, increase the heat release of the furnace and the efficiency of the boiler unit, which is characterized by fuel combustion in a more stable mode, without sudden temperature changes in the combustion chamber 1 and providing favorable conditions for the operation of the heating system at low temperatures.

Claims (2)

1. A universal heating apparatus of upper and lower combustion, containing a body with a combustion chamber and a grate, windows with hermetically closing doors for loading fuel and removing ash, an ash chamber with a sealed bottom, equipped with a remote container, a cavity for supplying the coolant and removing it to the consumer, a nozzle device for supplying and distributing air in the combustion chamber with supply tubes, the air distributor being connected to the air heating chamber by means of a telescopic tube, characterized in that a removable screen-limiter is installed on the telescopic tube, fixed by means of a cotter pin inserted into the through hole, selected on the pipe, made in the form of a metal disk with a size fraction of 5/6 of the internal diameter of the chamber and with the possibility of free rotation around its axis, equipped with at least two slide gates. 2. Universal heating apparatus of upper and lower combustion according to claim 1, characterized in that it is additionally equipped with an electric heater placed in a protective shell in the cavity of the heating circuit for the coolant.

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