RU108822U1 - OVEN - Google Patents

Abstract

 1. A furnace containing a body, a furnace with a grate, a smoke exhaust pipe, at least two chambers with a heat storage charge located above the fire chamber, a gas duct passing along the perimeter of the body around the chambers, connected to chambers with a heat storage charge and a fire chamber, characterized in that chambers with heat storage loading are separated by gas ducts connected to the furnace through slots formed by the walls of the body and the bottom of the chambers, slots are made in the smoke exhaust pipe in the area of the separation channels, and the side Tenkai housing on three sides of the sheet made of corrugated material, wherein the cavity formed between the walls of the chambers and the corrugated walls of the housing, the top tightly closed. ! 2. The furnace according to claim 1, characterized in that the chambers with heat storage loading are made in the form of truncated pyramids.

Description

The utility model relates to furnace designs and can be used for bath equipment.

A known furnace (RF patent No. 2289069 class. F24B 13/02), comprising a housing, a furnace, a grate, a smoke exhaust pipe, a heat storage material placed between the furnace and the walls of the housing, a gas duct connected to the furnace and the chimney, a water heater, the firebox has the shape of a truncated pyramid, and above the junction of the walls of the casing and the furnace there are openings for the entry and circulation of cold air through the heat-accumulating material, and the water heater is made in the form of a pipe located at the periphery of the grate, on Otori installed furnace.

The disadvantages of the furnace are:

- not enough high heat transfer of the furnace, since the heat storage load is heated only from the ceiling and side walls of the furnace. Due to the small contact surface of the hot walls of the furnace with a heat storage load, the gases leave the furnace with a high temperature and are sent to the chimney. As a result of this, heat loss with flue gases is large and the furnace efficiency is low;

- high heat consumption to obtain the desired result.

Closest to the technical nature of the claimed is a furnace protected by RF patent No. 2385440 class. F24B 1/02, which is adopted as a prototype. The furnace contains a housing, a furnace, a smoke exhaust pipe with a valve, chambers with a heat storage load located above the fire chamber, an ash pan with a grate, a gas duct passing along the perimeter of the body around the chambers, connected to chambers with a heat storage load and a fire chamber. The furnace contains an additional pipe installed in the furnace and in the opening of the chambers with a heat storage load and connecting the cavity below the furnace with a smoke exhaust pipe. The upper end of the additional pipe is located in the pipe for smoke removal below the valve level, and the valve of the pipe for smoke removal below the valve level, and the valve of the pipe for smoke removal is made with the possibility of overlapping the opening between the pipe for smoke removal and the additional pipe with the possibility of movement of flue gases when the valve is closed in the flue, cavity, additional pipe and pipe for smoke removal above the valve.

The disadvantages of the furnace are:

- the heat transfer of the furnace is not high enough, since the heat-accumulating load is heated mainly due to the flow of hot gases after the valve is closed, passing through the gas duct made around the perimeter of the furnace body around the chambers, and the inner walls of the chambers are heated only when the smoke exhaust pipe warms up. Due to the small contact surface of the hot walls of the chambers with the heat storage load, the heat transfer of the furnace is reduced;

- high heat consumption to obtain the desired result.

The objective of the utility model is to increase the heat output of the furnace and reduce fuel consumption.

This object is achieved in that in a furnace containing a body, a furnace with a grate, a smoke exhaust pipe, at least two chambers with a heat storage load, located above the fire chamber, a gas duct passing along the perimeter of the body around the chambers, connected to cameras with a heat storage load and a fire chamber , according to a utility model, heat-holding loading chambers are separated by gas ducts connected to the furnace through slots formed by the walls of the casing and the bottom of the chambers in the smoke exhaust pipe in the divided zone Slots are made in the channels, and the side walls of the casing are made of corrugated sheet material on three sides, and the cavities formed between the walls of the chambers and the corrugated walls of the casing are tightly closed from above.

Chambers with heat storage loading in the inventive furnace can be made in the form of a truncated pyramid.

Figure 1 shows a General view of the furnace in section;

In figure 2. - section of the furnace according to AA.

The furnace contains (Fig. 1) a housing 1, a firebox 2, a grate, a smoke exhaust pipe 3, chambers 4 with a heat storage load 5 located above the firebox. The furnace 2 is bounded from below by the grate 6, under which an ash pan is located 7. A gas duct 8 is made around the chambers around the chambers 4, connected to the chambers with heat-insulating loading and the furnace. The chambers 4 are separated by gas ducts 9 connected to the furnace through slots formed between the walls of the housing and the bottom 10 of the chambers 4 (Fig. 2). In the pipe for smoke removal 3 in the area of the separation channels, slots 11 are made for the exit of gases, and the bottom hole of the pipe is blocked by the bottom of the chambers. The side walls of the housing on three sides are made of corrugated sheet material, and the cavities formed between the walls of the chambers and the corrugated walls of the housing are tightly closed from above. Chambers with heat storage loading can be made in the form of truncated pyramids in order to increase the heat transfer surface. A furnace door 12 is made on the front wall of the housing.

The furnace operates as follows.

In furnace 2, fuel is ignited, for example, firewood. The products of combustion of flue gases pass through the slots formed by the bottom of the chambers 10 and the corrugated walls of the casing, falling into the gas duct 8 passing along the perimeter of the casing around the chambers, heating the walls of the chambers facing the casing. Next, the flue gases pass into the gas ducts 9 separating the chambers, heating the walls of the chambers facing each other, increasing the heat transfer surface. Smoke removal occurs through the slots 11 in the pipe 3. The combustion mode of the fuel is regulated by the extension of the ash box.

The advantages of the proposed furnace in comparison with the known are:

- increase the heat transfer of the furnace by increasing the ability to block the direct flow of hot flue gases into the pipe and create their movement around all the walls of the chambers with heat storage load, which significantly increases the heat transfer surface;

- reducing fuel consumption to obtain the desired result.

Claims (2)

1. A furnace containing a body, a furnace with a grate, a smoke exhaust pipe, at least two chambers with a heat storage charge located above the fire chamber, a gas duct passing along the perimeter of the body around the chambers, connected to chambers with a heat storage charge and a fire chamber, characterized in that chambers with heat storage loading are separated by gas ducts connected to the furnace through slots formed by the walls of the body and the bottom of the chambers, slots are made in the smoke exhaust pipe in the area of the separation channels, and the side Tenkai housing on three sides of the sheet made of corrugated material, wherein the cavity formed between the walls of the chambers and the corrugated walls of the housing, the top tightly closed. 2. The furnace according to claim 1, characterized in that the chambers with heat storage loading are made in the form of truncated pyramids.