RU95799U1 - FURNACE FOR A BATH - Google Patents

Abstract

 1. A furnace for a bath containing a firebox with a door and an opening for a chimney, a metal frame for a heat storage load, located around the fire chamber, characterized in that the frame is made in the form of a metal grill, and convection channels are made between the walls of the fire chamber and the heat storage load grate. ! 2. The furnace for the bath according to claim 1, characterized in that the channels are made in the form of a gap between the lattice for heat storage loading and the furnace furnace. ! 3. The furnace for the bath according to claim 1, characterized in that the channels are made in the form of air guide boxes, and have a common wall with the furnace furnace. ! 4. The furnace for a bath according to claim 1, characterized in that the channels are made in the form of air guide pipes installed between the furnace adjacent to it and the grate for heat storage loading.

Description

The utility model relates to the field of heat engineering, namely to domestic bath stoves and is intended for heating the room and receiving steam, used in public and individual baths.

Known furnace for a bath according to patent No. 2011121, IPC F24B 9/04, 1994, containing a housing, a firebox located on the lid of the firebox, a heat storage load, a chimney, a gas duct and a water heater. The heat storage load is placed in the chamber, which is connected by a gas duct to the furnace and the chimney. In addition, the furnace is made with side pockets filled with heat storage load.

The disadvantage of this furnace is its low efficiency due to the inertia of heating the steam room, which is due to the small area of the heat-transfer surfaces and the low speed of convection flows of air passing through the stones. In addition, the heating of stones located in the side pockets occurs only due to infrared radiation from the side walls of the furnace, which also increases their heating time and the heating time of the steam room.

The closest in technical essence and the achieved result is the design of the HARVIA LEGEND wood-burning stove manufactured by the Finnish company HARVIA, the Internet, which contains a firebox with a door, a steel frame for heat storage loading, an opening for the chimney. The heat storage load is laid around the furnace body and is fixed with a steel frame.

The disadvantage of this wood-burning stove is the low efficiency of the stove in terms of the heating rate of the steam room. Cold air passing in the cracks between the stones rises up, heats up and heats the air in the steam room. However, the channels between the stones through which air passes upward have a broken configuration, which leads to a decrease in the flow rate of heated air. With this design of the furnace, overheating of the walls of the furnace occurs, since there is no convection blowing of the walls, and this leads to a decrease in the life of the furnace.

The technical task of this utility model is to increase the efficiency and life of the furnace.

The problem is solved due to the fact that in the furnace for a bath containing a furnace with a door and a hole for the chimney, a metal frame for heat storage loading, located around the furnace, according to the formula of the utility model, the frame is made in the form of a metal grill, and between the walls of the furnace and the grill convection channels are made for the heat storage load.

The problem is also solved due to the fact that convection channels are made in the form of a gap between the lattice for heat storage load and furnace furnace. Convection channels are made in the form of air ducts, and have a common wall with the furnace furnace. Convection channels are made in the form of air guide pipes installed between the firebox adjacent to it and the grill for heat storage loading.

The specified set of features is significant and new since, the implementation of the metal frame for the heat storage load in the form of a steel grid allows more efficient heating of stones due to infrared radiation from the furnace and due to convection air flows. Convection channels between the furnace and the lattice for heat storage loading contribute to the rapid organized passage of heated air flows through them. This allows you to increase the heating rate of the room and increase the life of the furnace.

The essence of the utility model is illustrated in the drawing. Figure 1 shows a cross section of the furnace, rear view.

The proposed furnace contains a furnace 1 with a loading door 2, a grate 3 for heat storage loading, a convection channel 4, an opening for the chimney 5.

The operation of the inventive furnace is as follows. The heat storage load is loaded into the lattice 3. Fuel is loaded into the furnace 1 through an opening with a door 2 and burned. The walls of the furnace 1 are heated, and cold air from the floor of the steam room rises up along the convection channels 4. The air is heated from the walls of the furnace 1 and heats the steam room. The heat storage load (stones) is heated both by convection air flows and infrared radiation of the walls of the furnace 1. The metal frame 3 made in the form of a lattice does not impede the rapid heating of stones due to infrared radiation and allows convection air flows through the stones to easily pass. The optimally selected gap between the furnace body 1 and the grill 3 for the heat storage load allows you to achieve the most powerful hot air flow, evenly and quickly heat the steam room and heat the heat storage load to remove high-quality steam from it. If the channels are made in the form of air guide ducts, and have a common wall with the furnace furnace, then cold air from the floor of the paired room rises up the air guide duct, heats up from the fire wall, cooling it, and heats the room. Similarly, air moves and heats up through the air guide pipes. (Not shown in the figure).

The length of the preparation period for a bathhouse for receiving procedures depends on the design of the room, the material of the walls, the intensity of the furnace process, the quality of the fuel and atmospheric conditions. On average, it ranges from 1 to 1.5 hours, while ceteris paribus, a furnace of a similar design, but without convection channels, with a large mass of heat-accumulating load, heat up a similar room for 2-3 hours. The room heating time is doubled.

Thus, the proposed furnace is efficient, simple in design and easy to operate.

Claims (4)

1. A furnace for a bath containing a firebox with a door and an opening for a chimney, a metal frame for a heat storage load, located around the fire chamber, characterized in that the frame is made in the form of a metal grill, and convection channels are made between the walls of the fire chamber and the heat storage load grate. 2. The furnace for the bath according to claim 1, characterized in that the channels are made in the form of a gap between the lattice for heat storage loading and the furnace furnace. 3. The furnace for the bath according to claim 1, characterized in that the channels are made in the form of air guide boxes, and have a common wall with the furnace furnace. 4. The furnace for a bath according to claim 1, characterized in that the channels are made in the form of air guide pipes installed between the firebox adjacent to it and the grate for heat storage loading.