RU176927U1 - WATER BOILER TYPE КВ-ГМ - Google Patents

Abstract

The utility model relates to the power system and can be used in industrial heating energy boilers equipped with medium-power boilers. The area of application is heating boilers operating on natural gas, household stoves, diesel fuel and heating oil. The purpose of the utility model is to reduce the size of the boiler and increase efficiency due to the horizontal layout of the convective unit and the use of gas-tight membrane panels to enclose the furnace chamber unit and the convective unit. This task is achieved by the fact that the KV-GM type hot water boiler contains a furnace block located horizontally. The furnace block is limited by a front screen, one U-shaped screen consisting of side and rear screens, and a second U-shaped screen consisting of a ceiling screen, festoon and a two-light screen. The double screen is located inside the boiler. And the convective unit is located horizontally and is limited to a double-screen - above, a lower screen - below and a U-shaped screen, consisting of side screens and a rear screen. The convective heating surface is also located in the convective block. The inventive utility model allows to reduce the dimensions of the boiler, therefore, to reduce its metal consumption and cost and to provide gas tightness of the furnace block and the convective block.

Description

The utility model relates to a power system and can be used in industrial heating energy boiler houses equipped with medium power boilers.

A scope - heating boiler rooms working on natural gas, household furnace, diesel fuel and heating oil.

In this area, it is widely known to use steam and hot water boilers with furnace devices of various designs (see, for example, Small and medium-capacity boilers and furnace devices. The industry catalog. Research institutes of economics, organization of production and technical and economic information in thermal power engineering, Moscow, 1987 , 208 with the order of the Institute 14-87-02). The medium and low power hot water boilers described therein contain a frame, a furnace block made in a non-gas tight version, a convective block made in a non-gas tight version, gas and air ducts, stairs and platforms.

One of the drawbacks of the medium-power boilers described in it is the low degree of gas density, which leads to a decrease in efficiency with a relatively high metal consumption of the structure.

The closest set of essential features to the claimed design is a KV-GM two-way boiler designed by the plant of JSC Dorogobuzhkotlomash (http://www.dkm.ru/documentation/documentation-for-boilers/, see 08.17.2016 .). The boiler contains a combustion chamber having a horizontal layout, shielded by pipes entering the collectors. Also, a convective shaft, located vertically and completely screened by pipes, in which convective heating surfaces are located.

The disadvantages of the prototype are the large dimensions of the boiler, as well as large metal consumption, non-gas-tight firebox screens and convective parts.

The objective of the utility model is to reduce the dimensions of the boiler and increase the efficiency due to the horizontal layout of the convective unit and the use of gas-tight membrane panels to enclose the combustion chamber unit and convection unit.

The task is achieved in that the KV-GM type boiler contains a furnace block located horizontally, and a furnace block limited by a front screen, one U-shaped screen consisting of side and rear screens, and a second U-shaped screen consisting of a ceiling screen, festoon and double screen. The double screen is located inside the boiler. And the convective unit, located horizontally, and bounded by a two-color screen - on top, a lower screen - on the bottom and a U-shaped screen, consisting of side screens and a rear screen. Also in the convective block is the convective heating surface.

The inventive utility model allows to reduce the dimensions of the boiler, therefore, to reduce its metal consumption and cost and to provide gas tightness of the furnace block and the convection block.

A utility model is illustrated in the drawing, where in FIG. 1 shows a general view of the boiler; FIG. 2 - section aa in figure 1.

The hot water boiler of the type KV-GM contains a furnace block, located horizontally and limited by two U-shaped screens and a front screen 1, on which a burner device (not shown) is mounted. The first U-shaped screen consists of side 2 and rear 3 screens. The second U-shaped screen consists of a ceiling screen 4, festoon 5 and a double-screen 6. A double-screen 6 is located inside the boiler. The convective block is located horizontally and is limited to a double-screen 6 - from above, a U-shaped screen consisting of side screens 2 and a rear screen 3, and a lower screen 7. In the convective block there is a convective heating surface 8.

Hot water boiler type KV-GM works as follows. Flue gases resulting from the combustion of fuel in a burner device (not shown), mounted on the front screen 1, enter the combustion unit. Then through the scallop 5 pass into the convective block, washing the convective heating surface 8. The double-screen 6 is subjected to two-sided irradiation. From a convective unit, combustion products enter a chimney (not shown).

The movement of water in the boiler is as follows. Water enters the collector of the convection unit and is distributed between the side 2, rear 3 and lower 7 screens of the convection unit. Further, the water through the collector of the convection and combustion unit is distributed between the side 2 and rear 3 screens of the furnace unit, a double-screen 6 and through the festoon 5 enters the ceiling 4 and front 1 screens. Next, water through the collector on the one hand enters the convective heating surface 8, passes through it and through the collector on the other hand comes out and goes on for further processing.

Claims (1)

The KV-GM type hot water boiler is characterized in that the furnace block is located horizontally and is limited by a front screen, one U-shaped screen consisting of side and rear screens, a second U-shaped screen consisting of a ceiling screen, festoon and a two-screen screen located inside boiler, and the convective unit is located horizontally and is limited to a two-screen screen - above, a lower screen - below and a U-shaped screen consisting of side screens and a rear screen, also a convective heating efficiency.

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