RU32241U1 - Hot water boiler - Google Patents

Description

Hot water boiler

The utility model relates to boiler equipment, and can be used for low-power heating boilers.

A heating boiler is known, comprising a lined housing with a firebox housed therein, framed by packages of heat-exchange sections, forming channels for gas passage with housing fittings connected to a discharge duct made in the lining and arranged longitudinally in section packs, the outlet duct is located above the sections provided on the side lining the channels with holes in the lower part, above which baffles are additionally installed in the channels, dividing them into upper and izhnie portions connected respectively to a recovery gas duct and through otverstiyav brickwork - a furnace (refer to the description and with the USSR № 1078211. appl 17 February 82, tml F 24 H 1/32.....).

A disadvantage of the known boiler is its high temperature of the exhaust gases, due to the insignificant path of their passage along the heat exchange surface, which reduces the efficiency of the boiler.

MDK7F 24 HI / 00

The closest set of essential features to the claimed (prototype) is a hot water boiler. Containing a combustion chamber having a radiation heating surface formed by vertical and upper horizontal tubular screens and a convective heating surface in the form of horizontally arranged coils, while the heating surfaces are connected with the lower and by the upper horizontal collectors connected to the supply and removal lines of the tag carrier (see the description to the AS of the USSR No. 943493, declaration 23. 05. 80., according to class F 24 N 1/24) .

The design of this boiler does not exclude contamination of the inner and outer surfaces of the pipes due to the uneven distribution of the heat load on the screens and boiling of the coolant.

The objective of this utility model is to create a hot water boiler that would significantly reduce pollution of the inner and outer surfaces of the pipes, due to a more even distribution of the heat load on the screens and eliminate boiling of the coolant.

The problem is solved in that in a known hot water boiler containing a combustion chamber having a radiation heating surface formed by vertical and upper

horizontal tubular screens and convective heating surface in the form of horizontally arranged coils, while the heating surfaces are connected to the lower and upper horizontal collectors connected to the supply and removal lines of the coolant, according to the utility model, the radiation and convective heating surfaces are separated by a transverse partition, the coils forming convective heating surface, staggered and assembled in two packages, separated by an additional partition, snake packages are connected in series, the radiating heating surface additionally has a lower tubular screen, the front collector of which is connected to the coolant supply line, and the rear, through the far vertical screen, with the upper horizontal tubular screen connected to the input of the furthest of the coil packages, the output of which is divided into two flows and connected to the side tubular screens., the output of which is connected to the front tubular screen connected to the coolant drain line, and the side tubular screens divided into sections by means of partitions located in their horizontal collectors.

A comparative analysis of the inventive hot water boiler with the known allows us to conclude that the proposed set of features is new and industrially applicable.

In FIG. -1 shows a diagram of a boiler;

in FIG. - 2 shows a longitudinal section of a boiler.

The hot water boiler contains a combustion chamber 1 with radiation and convective heating surfaces. The radiation surface of the heating is formed by the front 2 side 3, 4 and far 5 vertical tubular screens, as well as the upper 6 horizontal tubular screen. The convective heating surface consists of horizontal coils 7. Coils 7 are staggered and assembled in two packages 8, 9, separated by an additional partition 10. Bags 8 and 9 are connected in series. The heating surfaces are connected to the respective lower and upper horizontal collectors. Radiation and convective heating surfaces are separated by a transverse partition 11, in which a channel 12 for the passage of flue gases is made. The radiation heating surface additionally has a lower 13 tubular screen, the front 14 of which is connected to the coolant supply line 15, and the rear 16 of its collector, through the far 5 vertical screen, with the top 6 horizontal tubular

screen. The upper 6 horizontal tubular screen is connected to the input of the far 9 package of coils 7, and the output of the nearest 8 package is divided into two streams and connected to the side 3 and 4 tubular screens, and the side 3, 4 tubular screens are divided into sections 17 by means of partitions 18 located in their horizontal headers. The output of the side 3 and 4 tubular screens is connected to the front 2 screen connected to the coolant drain line 17. .

The hot water boiler operates as follows.

When burning fuel, for example coal in the combustion chamber 1, the flue gases heat the tube screens 2, 3, 4, 5, 6, 13 of the radiation heating surface. Further, the flue gases through the channel 12 in the transverse partition 11 enter the convective heating zone, heat the packets 8 and 9 of the coils 7 and go outside.

The coolant from the supply line 15 through the frontal 14 collector under pressure enters the lower 13 tubular screen and sequentially passes the distant 5 vertical and upper 6 horizontal tubular screens of the radiation heating surface. From the zone of radiation heating, the coolant is fed to the input of the far 9 packet of coils 7. After passing through the far 9 and then the next 8 packets of horizontal staggered coils, the coolant 7 is divided into two parallel flows and

enters the lateral 3 and 4 vertical tubular screens of the radiation heating zone. In the lateral 3 and 4 screens, divided into sections by means of partitions 18 located in their horizontal collectors, the coolant is additionally heated to a predetermined temperature and enters the front 2 tubular screen, and then to the coolant drain line 17.

The proposed hot water boiler can significantly reduce pollution of the inner and outer surfaces of the pipes, due to a more even distribution of the heat load on the screens and eliminating boiling of the coolant.

General Director of CJSC Sibteshtomontazh /&&%& B.A. Nekrasov

Claims (1)

A water boiler containing a combustion chamber having a radiation heating surface formed by vertical and upper horizontal tubular screens and a convective heating surface in the form of horizontally arranged coils, the heating surface is connected to the lower and upper horizontal collectors connected to the coolant supply and exhaust lines, characterized in that the radiative and convective heating surfaces are separated by a transverse partition, the coils forming the convective heating surface а, they are staggered and assembled in two packages, separated by an additional partition, the coil packages are connected in series, the radiation heating surface additionally has a lower tubular screen, the front collector of which is connected to the coolant supply line, and the rear, through the far vertical screen, with the upper horizontal a tubular screen connected to the input of the furthest of the coil packages, the output of the near of which is divided into two streams and connected to side tubular screens, the output of which connected to the front tubular screen connected to the coolant discharge line, and the side tubular screens are divided into sections by means of partitions placed in their horizontal collectors.