RU2362092C1 - Bath stove - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: invention relates to bath designs and can be used for bath equipment. The proposed bath stove bath comprises body, furnace, gas duct, smoke pipe and high-heat capacity-material chamber arranged above the said furnace. Smoke pipe inlet is arranged below aforesaid chamber surrounded by aforesaid gas duct. The proposed stove is furnished with the main baffle, located between the furnace and smoke pipe, and provided with the gate to shut off direct ingress of flue gases into smoke pipe and to force them around aforesaid chamber. The furnace incorporates additional baffle arranged vertically between the stove body and aforesaid chamber. The upper layer of additional baffle is located aligned with the upper wall of said chamber to form ejection hole. Its lower edge is jointed to the main baffle. Note the stove incorporates at least one air duct arranged between aforesaid baffles and chamber.

EFFECT: more complete fuel combustion, higher heat output, reduced fuel consumption.

3 cl, 1 dwg

Description

The invention relates to designs of furnaces and can be used for bath equipment.

Closest to the claimed invention, the technical solution is a furnace for a bath containing a housing, a furnace, a flue, a chimney, a chamber with a heat-resistant material located above the furnace, while the inlet of the chimney is located below the chamber with a heat-resistant material (see patent RU No. 2076277 publ. 2005.04.20)

Its disadvantage is the incomplete combustion of gaseous products formed as a result of pyrolysis of solid fuel in the furnace space, high fuel consumption.

The objective of the invention is to provide a more complete combustion of the fuel, increasing the heat output of the furnace, reducing fuel consumption.

The technical result is achieved in that the furnace for the bath contains a housing, a furnace, a gas duct, a chimney, a chamber with a heat-resistant material located above the furnace, while the inlet of the chimney is located below the chamber with a heat-sensitive material, the gas duct is made around the chamber with a heat-resistant material, the furnace equipped with a partition located between the furnace and the chimney, and the partition is equipped with a valve with the ability to block the direct flow of flue gases into the pipe and allow them to move around the chamber with t with a creeper material, in addition, the furnace is equipped with an additional partition installed vertically between the furnace body and the chamber with the heat-absorbing material, the upper edge of the additional partition being located at the level of the upper wall of the chamber with the heat-sensitive material with the formation of an ejection hole, and the lower edge is connected to the main partition, except In addition, the furnace is equipped with at least one duct located between the partitions and the chamber with heat-absorbing material, in addition, the partition can be installed inclined but at an angle of 5–30 degrees to the horizontal plane, and the furnace is equipped with a flap for regulating the size of the ejection opening.

A distinctive feature of the proposed design from the well-known, closest in technical essence, is that the gas duct is made around a chamber with heat-sensitive material, the furnace is equipped with a partition located between the furnace and the chimney, and the partition is equipped with a valve with the possibility of blocking the direct flow of flue gases into the pipe and create the possibility of their movement around the chamber with heat-resistant material, in addition, the furnace is equipped with an additional partition mounted vertically between the furnace body and the chamber with a heat-resistant material, the upper edge of the additional partition being located at the level of the upper wall of the chamber with the heat-absorbing material to form an ejection hole, and the lower edge is connected to the main partition, in addition, the furnace is equipped with at least one duct located between the partitions and the chamber with the heat-absorbing material in addition, the partition can be installed obliquely at an angle of 5 ÷ 30 degrees to the horizontal plane, and the furnace is equipped with a damper to regulate the size of the ejection hole .

The essence of the proposed technical solution is illustrated by the drawing, which shows the furnace in section.

The furnace for the bath contains a housing 1, a furnace 2, a blower 3, a flue 4, a chimney 5, a chamber 6 with heat-resistant material located above the furnace 2. The inlet 7 of the chimney 5 is located below the chamber 6 with a heat-resistant material. The flue 4 is made around the chamber 6 with a heat-resistant material. The furnace is equipped with a partition 8 located between the furnace 2 and the chimney 5. The partition 8 is equipped with a valve 9 with the possibility of blocking the direct flow of flue gases into the pipe 5 and making it possible to move them around the chamber 6 with heat-resistant material through the duct 4. The furnace is equipped with an additional partition 10, mounted vertically between the furnace body 1 and the chamber 6 with a heat-resistant material. The upper edge of the additional partition 10 is located at the level of the upper wall of the chamber 6 with a heat-resistant material with the formation of an ejection hole 11, and the lower edge is connected to the main partition 8. The area of the ejection hole 11 is 10 ÷ 30 times less than the cross-sectional area of the duct 4. For fresh The furnace is equipped with air ducts 12, 13, made, for example, in the form of pipes with holes located between the partitions 8,10 and the chamber 6 with heat-resistant material. The inlets of these pipes are located outside the furnace and are equipped with control flaps (not shown). The partition 8 can be installed obliquely at an angle of 5 ÷ 30 degrees to the horizontal plane. In addition, the furnace is equipped with a shutter 14 for regulating the size of the ejection opening 11 and a moisture supply device 15 connected to the chamber 6 with a heat-resistant material.

The proposed furnace operates as follows.

Gate valve 9 opens. Fuel is placed in the furnace 2 and ignited. Hot gas generated from the combustion of fuel rises and enters the chimney 5. Residues from the combustible fuel wake up through the grate to the blower 3. As soon as the draft increases (jumps), the valve 9 closes, the hot gas enters the gas duct 4 and moves around the chamber 6 with heat-resistant material. In this case, lighter particles of fuel combustion products enter the pipe 5, while heavier particles approach the partition 8 with the valve 9, which is heated to a high temperature, heat up from them and, since fresh air comes from the 12.13 air ducts, they burn out. Part of the combustion products rises between the baffle 10 and the chamber 6 with the heat-absorbing material to the ejection hole 11. In this case, they come into contact with the heated baffle 10 and also burn out. Part of the combustion products through the ejection opening 11 enters the gas duct 4 and moves around the chamber 6 with the heat-sensitive material again. In this case, additional heat is released and transferred to the chamber with the heat-intensive material and additional heating of the bath room through the furnace body. The magnitude of the ejection opening 11 is set by the shutter 14, based on the optimal parameters of the flue gases leaving the pipe 5 (without devices, you can be guided by their color). The optimal mode is also selected by adjusting the supply of fresh air through the air ducts 12, 13 and through the blower door 3. To receive steam from the water tank installed above the furnace (not shown), liquid is supplied through the moisture-falling device 14 to the chamber with heat-resistant material. The formed steam enters through the hole in the upper wall of the chamber 6, connected with the housing 1 of the furnace, into the bathhouse.

The operation of the prototype showed that the proposed design of the furnace fulfills its tasks and provides a reduction in specific fuel consumption, increase the capacity of the furnace, and reduce emissions of solid fuel pyrolysis products.

Claims (3)

1. The furnace for the bath, comprising a housing, a furnace, a flue, a chimney, a chamber with a heat-sensitive material located above the furnace, while the inlet of the chimney is located below the chamber with a heat-resistant material, characterized in that the gas duct is made around the chamber with a heat-resistant material, the furnace is equipped with a main partition located between the furnace and the chimney, and the specified partition is equipped with a valve with the possibility of blocking the direct flow of flue gases into the pipe and creating the possibility of their movement around the chamber with heat-resistant material, in addition, the furnace is equipped with an additional partition wall mounted vertically between the furnace body and the chamber with the heat-resistant material, the upper edge of the additional partition being located at the level of the upper wall of the chamber with the heat-sensitive material with the formation of an ejection hole, and the lower edge is connected to the main partition, except In addition, the furnace is equipped with at least one duct located between the partitions and the chamber with heat-resistant material. 2. The furnace according to claim 1, characterized in that the main partition is installed obliquely at an angle of 5-30 ° to the horizontal plane. 3. The furnace according to claim 1, characterized in that it is provided with a shutter for regulating the magnitude of the specified ejection holes.