RU173058U1 - HEATING DEVICE - Google Patents

Abstract

The utility model relates to heating units operating on solid fuel, and can be used for heating rooms equipped with air heating systems with natural or forced circulation. The heating device contains a firebox and a convective system consisting of separate blocks with the formation of a vertical channel for movement along it gaseous coolant. Each convective system block is made in the form of a cylinder with a base and an internal annular cavity with a radial overheat rodkoy. A through hole located near the radial partition is made at the base of the cylinder. The convection system block consists of separate segments, while the radial partition and the through hole in the base are made in one of the block segments. This allows to simplify the design significantly, reduce the time of installation of the heating device, its maintenance and repair. In addition, the heating device allows for maximum heat transfer to the convection system units.

Description

The utility model relates to heating units operating on solid fuel, and can be used for heating rooms equipped with air heating systems with natural or forced circulation.

A known furnace containing blocks interconnected with the frame, a monolithic heat-insulating block made of two square elements, diagonally shifted relative to each other, forming all the faces of the block in the form of a step for connection to each other in a "lock", in the heat-insulating block there are two round holes and two holes in the form of narrow rectangles, washers are located on the surface of the heat-insulating block, allowing to form an air gap between two heat-insulating blocks, the heat block is made in the form of a monolithic square element, which is one half located above one heat-insulating block, and the other above the other neighboring heat-insulating block, a hole for fastening the studs is made on each half of the thermal block, and each of the studs fastens one thermal block with the external and internal heat-insulating to the external the metal frame of the furnace, the arch of the furnace is made of one row of heat-insulating central blocks, two rows of heat-insulating support blocks, the lower row of which is connected to the upper heat-insulating by a block having a semi-cylindrical surface on the upper inner face, the end parts of the support blocks are made semi-cylindrical and connected to the semi-cylindrical recesses of the central block and semi-cylindrical protrusions on the lower part of the surface of the support blocks, the side walls of the support blocks are made in the form of a step and are interconnected into a “lock” , the central blocks from the ends have two semi-cylindrical recesses for connection with two rows of support blocks and side faces made in the form of a step for connection with each other, in the central blocks, studs are inserted that extend onto the outer surface of the blocks and are used for fastening to the external metal frame of the furnace, under the furnace is made of rows of heat-insulating blocks connected to each other "in the lock", and one row of thermal blocks that are attached by pins to external metal hearth frame (see application for the invention of the Russian Federation 2011124269/02, filing date 06/15/2011, publication date 12/20/20120).

This furnace has a complex structure, which complicates its installation, maintenance and repair.

The closest effect to the claimed (prototype) is a heating device containing a furnace and a convective system made of separate blocks with the formation of a vertical channel for movement of a gaseous coolant along it, and the vertical channels of individual blocks have a different configuration and are made with a periodically changing section ( see application for invention of the Russian Federation 96116769/03, filing date 08.08.1996, publication date 10.01.1999).

The implementation of channels of complex shape with a periodically changing cross section complicates the design of the blocks, installation, maintenance and repair of the heating device as a whole.

The technical result of the utility model is a significant simplification of the design of the blocks, reducing the time of installation of the heating device, its maintenance and repair.

The technical result is achieved by the fact that in a heating device containing a furnace and a convective system made of separate blocks with the formation of a vertical channel for the movement of a gaseous coolant, according to a utility model, each convective system block is made in the form of a cylinder with a base and an internal annular cavity overlapped radial partition, and at the base of the cylinder a through hole is made, located near the radial partition.

A convective system block made in the form of a cylinder consists of separate segments, and a radial partition and a through hole in the base are made in one of the block segments.

The implementation of each block of the convective system in the form of a cylinder with an internal annular cavity, blocked by a radial partition and the base of the cylinder having a through hole located near the radial partition greatly simplifies the design of the heating device and, in addition, allows for the possibility of circular motion of the coolant in each block of the convection system ( circuit) and improve heat transfer.

The implementation of the convection system unit in the form of a cylinder consisting of separate segments, the presence of a radial partition and a through hole at the base of one of the segments simplifies the manufacturing technology of the unit, installation of the heating device, its maintenance and repair.

The essence of the utility model is illustrated by a description of its design and drawings, where:

in FIG. 1 schematically shows a General view of the inventive device in section;

in FIG. 2 shows a convective system unit, section along AA in FIG. one.

The heating device comprises a furnace 1 and a convective system consisting of separate blocks with the formation of a vertical channel for the movement of a gaseous coolant.

Each convective system unit is made in the form of a cylinder 2 with a base 3 and an inner annular cavity 4 with a blocked radial partition 5. At the base 3 of the cylinder 2 there is a through hole 6 located near the radial partition 5.

The convective system block, made in the form of a cylinder 2, consists of separate segments, while the radial partition 5 and the through hole 6 in the base 3 are made in one of the block segments (see Fig. 2).

Individual segments of the convection system block can be made, for example, of heat-resistant concrete.

To simplify the manufacturing technology of the convection system unit and assembly of the heating device, cylinder 2 is assembled from four segments. In this case, for each block, one segment is prepared with a radial partition 5 and a through hole 6, and three without them.

The furnace 1 can be made of two cylinders 2, the lower of which is placed with the base down and the top with the base up, while the lower cylinder 2 is assembled from segments without a radial partition 5 and the through hole 6, and the upper cylinder 2 of the furnace 1 is made of segments without a radial partition 5.

The heating device operates as follows.

When burning coal or wood, the coolant from the furnace through its through hole 6 enters the inner annular cavity 4 of the lower convective system block located above the furnace 1. Since the annular cavity 4 near the through hole 6 is blocked by a radial partition 5, the coolant fills the entire annular cavity 4 and through the through hole 6, made at the base of the upper block located above it, enters its annular space and the cycle repeats.

The inventive utility model can significantly simplify the design, reduce the installation time of the heating device, its maintenance and repair, as well as provide the possibility of maximum heat transfer to the blocks of the convection system.

Claims (2)

1. A heating device containing a furnace and a convective system of separate blocks with the formation of a vertical channel for the movement of a gaseous coolant, characterized in that each convective system block is made in the form of a cylinder with a base and an inner annular cavity covered by a radial partition, and in the base of the cylinder made through hole located near the radial septum. 2. The heating device according to claim 1, characterized in that the convective system block made in the form of a cylinder consists of separate segments, and the radial partition and the through hole in the base are made in one of the block segments.

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