RU25927U1 - HEATING UNIT - Google Patents

Description

The utility model relates to household heating appliances for heating and cooking, mainly in field and camping conditions, as well as heating of household and utility rooms

A heating apparatus is known, comprising a housing on which a fuel tank with a valve is located, a storage unit connected by a pipeline in which a feeding unit with an adjustment element is installed, with a wick burner made in the form of a hollow annular cup on which a safety cap made of three coaxial cylinders, while both inner cylinders are made with uniform perforation, and the perforation area of the inner cylinder is 5-10% of the side surface of the cylinder (see handicraft for a utility model of the Russian Federation No. 2015, M Cl. 6 F24 C 5/04, 2000).

A disadvantage of the known heating apparatus is its low efficiency. This is largely due to the design of the safety cap. In the known design, all the cylinders are made of thin-walled metal, while the perforation in the perforated cylinders is the same "10% of the lateral area of the cylinders. Therefore, when the external cylinder is heated due to its small thickness and sufficiently high thermal conductivity, heat from the outer surface is intensively released into the environment, which reduces the efficiency of incoming air heating In the combustion zone from below the hood As a result, the efficiency of ejection through the openings of the perforated cylinders and the temperature of the air entering the combustion zone and, accordingly, the heating efficiency are reduced. In addition, experiments have shown that the same degree of perforation of both cylinders also reduces the burner efficiency due to entering the combustion zone airflow uniform in height.

The technical problem solved by the utility model is to increase the efficiency of the heating apparatus.

This is achieved by the fact that in the heating apparatus comprising a housing on which a fuel tank with a valve is located, a storage unit connected by a pipeline in which a feeding unit with an adjustment element is installed, with a wick burner made in the form of a hollow annular cup on which a safety a cap made of three coaxial cylinders, while both inner cylinders are made with uniform perforation, and the perforation area of the inner cylinder is 5-10% of the side surface and cylinder, according to a utility model, the outer perforated cylinder of the safety cap is made with different degrees of perforation according to

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height in the upper part, the height of which is 55-60% of the height of the cylinder, the perforation area is 85-90% of the lateral area of the cylinder, and in the lower part is 5-10%, while the outer cylinder is made of heat-resistant glass

In addition, the height of the glass cylinder is not less than the height of the upper part of the outer perforated cylinder with a perforation area of 85 - 90% of its lateral area

At the same time, a centering perforated ring is installed on the upper ends of the glass and external perforated cylinders

In Fig 1 shows a longitudinal section of a heating apparatus, and in Fig 2 - part of the scan of the external perforated cylinder

The heating apparatus comprises a housing 1 in the form of a protective and decorative casing with a bottom 2 and a cover 3, designed to accommodate functional units and blocks on it. In the housing 1 on the bottom 2, a U-shaped base 4 is mounted with longitudinal movement on which a storage unit is fixed 5, the feed node 6 and the wick burner 7, which are interconnected by tubes 8 and 9, respectively. The feed node 6 is equipped with an adjustment element 10, made in the form of a vertical screw rod

Under the cover 3 in the housing 1 there is a fuel tank 11, on the bottom fitting of which a normally-closed valve 12 is fixed

A safety cap 13 is installed on the wick burner 7, equipped with a lifting unit (not shown conventionally in the drawing). The cap 13 is made of three coaxial cylinders 14, 15 and 16 installed with a radial clearance between themselves. The outer cylinder 16 is made of heat-resistant glass with a thickness of 1, 5-2 mm and is centered relative to the perforated cylinder 15 by an annular perforated divider 17. The inner cylinders 14 and 15 are made with uniform perforation on the entire surface, while the wick burner 7 is located between the perforated 14 and 15, to which are mounted on the burner 7 The external perforated cylinder is made with different degrees of perforation in height in the upper part, the height of which is 55 - 60% of the cylinder height, the perforation area is 85 - 90% of the lateral area of the cylinder, and in the lower part - 5 -10 % (see Fig. 2) The perforation area of the inner cylinder 14 is 5 - 10% of the lateral area of the cylinder. The height of the glass cylinder 16 is equal to the height of the upper part of the cylinder 15, the perforation area of which is 85 - 90% of its lateral area of the cylinder. Glass cylinder 16 s the top is centered relative to the outer perforated cylinder 15 with a perforated ring. The cap 13 is closed by a grill 18 placed on the housing 1, designed to accommodate cooked food devices. In addition, the cylinder 14 is closed by a perforated cover 19 to which a conical divider 20 is attached

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In the initial state, the fuel tank 11 and the storage unit 5 are filled with fuel, the adjusting element 10 blocks the access of fuel to the burner 7. The adjusting element 10 sets the mode of fuel entry into the wick burner 7. After the wick has been soaked with fuel, the apparatus is ready for operation.

The heating apparatus operates as follows.

The lever of the lifting assembly of the safety cap 13 (not shown conventionally in the drawing) lifts it together with the perforated cups 14, 15 and 16 above the wick burner 7 to a height sufficient to introduce, for example, matches for igniting the burner into the gap formed. The fuel evaporated from the ring wick ignites. Then the lever is lowered, the cap 13 is lowered, and the cylinders 14 and 15 are lowered onto the burner cup 7. As fuel is generated from the burner cup 7, it is automatically replenished by gravity from the storage unit 5. The heating efficiency is regulated by adjusting the fuel flow rate through the supply unit 6 with an adjustment element 10.

After the start of combustion and heating of the air located in the annular gap between the perforated cylinders 14 and 15, he begins to eject cold air from under the cap 13 into the gap between the cups 16 and 15 and from the inside of the cup 14 into the combustion zone. As the air warms up, cylinders 14, 15 and 16 also start to warm up. Due to the low thermal conductivity of the glass of cylinder 16, its heated inner wall transfers all the accumulated heat to the air located between its wall and cylinder 15. Since the perforation area is small at the bottom of cylinder 15, it passes through them low consumption of cold air, but sufficient to maintain combustion. The main flow rate of air heated to a sufficiently high temperature from the heated glass wall of the cylinder 16 enters the upper part of the combustion zone (part of the air flow enters through the perforation of the inner cylinder 14). Higher heated air temperature increases efficiency operation of the apparatus, slightly increasing the rate of evaporation of fuel from the surface of the wick. The selected ranges for perforations on cylinders 14 and 15 were obtained as a result of experiments

Using a utility model will increase the efficiency of the heating apparatus, i.e. its efficiency This is especially true when cooking in camping conditions, as well as in the premises of tourist complexes: canteens, cafes, especially when using several devices when heating large rooms, etc.

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Claims (4)

1. A heating apparatus comprising a housing on which a fuel tank with a valve is located, a storage unit connected by a pipeline in which a feeding unit with an adjustment element is installed, with a wick burner made in the form of a hollow annular cup on which a safety cap made of three coaxial cylinders, while both inner cylinders are made with uniform perforation, and the perforation area of the inner cylinder is 5-10% of the side surface of the cylinder, characterized We note that the outer perforated cylinder of the safety cap is made with different degrees of perforation in height: in the upper part, the height of which is 55-60% of the cylinder height, the perforation area is 85-90% of the lateral area of the cylinder, and 5- 10%, while the outer cylinder is made of heat-resistant glass.  2. The apparatus according to claim 1, characterized in that the height of the glass cylinder is not less than the height of the upper part of the outer perforated cylinder with a perforation area of 85-90% of its lateral area.  3. The apparatus according to claim 1, characterized in that a centering perforated ring is installed on the upper ends of the glass and external perforated cylinders. 4. The apparatus according to claim 1, characterized in that the inner perforated cylinder is closed by a perforated cover to which a conical divider is attached.