RU88784U1 - TOP BLOCK - Google Patents

Abstract

A furnace block containing a housing, inside which there is a combustion chamber with nozzles for the exit of flue gases and a two-way heat exchanger, as well as an explosive valve and a chimney, characterized in that the distance elements are made of symmetrically located corners, one of the shelves of which is welded to the wall of the heat exchanger or combustion chamber, and the other is in contact with the free shelf of the second corner welded to the opposite wall, with the possibility of axial and radial movement of the structure with its thermal expansion rhenium.

Description

The utility model relates to heat power devices, in particular, devices for heating air used for drying bulk solids or heating rooms.

Known air heaters containing a housing, a central channel for the passage of hot flue gases and annular channels for the passage of heated air, equipped with smoke pipes (A.S. 1070402 CL. F26B 23/02) or corrugated grids (A.S. 1545051 CL. F26B 23/02), which increases the intensity and complexity of products.

There is also a device for the production of heated air - “Furnace block TBZH” manufactured by Kotelnichsky Mechanical Repair Plant OJSC (TU 4735-002-00861995-2003). The device is a cylindrical structure, consisting of a housing, inside of which there is a combustion chamber with nozzles for the exit of flue gases and a two-way heat exchanger, in the annular channels of which there are heat exchange pipes fixed in the tube plates by welding. The design is equipped with an explosive valve and a chimney with a spark arrester.

The main disadvantage of this design is the high complexity and weight of the product associated with the installation of heat transfer tubes in the annular channels of the heat exchanger.

The purpose of the proposed utility model is to reduce the complexity and material consumption of the structure.

This is achieved by the fact that heat transfer pipes are excluded from the design of the furnace block, and distance elements from the corners welded around the circumference to the walls of the heat exchanger and the combustion chamber provide a given value of the annular channels between the walls of the combustion chamber and the heat exchanger. The same elements play the role of compensators, as they provide free movement of the structure in the longitudinal and radial directions during thermal expansion of the metal.

In Fig.1 is a General view of the device, in Fig.2 is a view and arrangement of distance elements.

The proposed design (Fig. 1) includes a housing 1, inside which a combustion chamber 2 with a burner 3 is placed, nozzles for the exit of flue gases 4, .5, and a two-way heat exchanger 6. The distance elements 7 provide a predetermined design value of the annular channels. The design is also equipped with a chimney 8 and an explosive valve 9.

The distance elements 7 (figure 2) is made of two symmetrically located corners, one of the shelves of which is welded to the wall of the heat exchanger or combustion chamber, and the corners of the second shelves are in contact with each other. The distance elements are located around the circumference of the structure in the form of 4 ... 5 belts. The distance between the belts is determined by the width of the sheet metal used to make the furnace block. At the upper and lower points of the structure, the distance elements are made of three angles (Fig. 1, view A-A.)

The furnace block operates as follows.

Fuel is burned in the combustion chamber 2 using the burner device 3. The resulting combustion products pass through the nozzles 4 and 5 to the heat exchanger 6, where heat is transferred to the heated air through the walls of the combustion chamber and the heat exchanger, and then they are released into the atmosphere through the chimney 8. Heated air is supplied by a fan (not shown in the figure) through the annular channels of the heat exchanger 6, the size of which is maintained by means of distance elements 7. An explosive valve of reusable action 9 is activated when the pressure in the combustion chamber exceeds the permissible value. With the thermal expansion of the metal, the structure moves freely both in the axial and in the radial directions due to the sliding of the shelves of the corners relative to each other. The absence of pipes in the annular channels of the heat exchanger reduces the complexity and metal consumption of the device, while the heat transfer is not reduced.

Claims (1)

A furnace block containing a housing, inside which there is a combustion chamber with nozzles for the exit of flue gases and a two-way heat exchanger, as well as an explosive valve and a chimney, characterized in that the distance elements are made of symmetrically located corners, one of the shelves of which is welded to the wall of the heat exchanger or combustion chamber, and the other is in contact with the free shelf of the second corner welded to the opposite wall, with the possibility of axial and radial movement of the structure with its thermal expansion rhenium.