RU200191U1 - Water tube boiler heat exchanger - Google Patents

Abstract

The utility model relates to the field of heat engineering and can be used to generate heat, steam and other media. In a heat exchanger containing a housing with front and rear walls and heat exchange tubes located along the perimeter of the combustion chamber, connected in a zigzag manner by taps, the heat exchange tubes are welded on one side to sector plates connected by fasteners from the outside to the front wall of the housing to form a closed plate ring, and with the other is on the back of the case. The heat exchanger is reliable in operation and economical in operation.

Description

The utility model relates to the field of heat engineering and can be used to generate heat, steam and other media.

Known heat exchanger for a water-tube boiler, containing a housing with front and rear walls and located along the perimeter of the combustion chamber heat exchange pipes welded to both walls and zigzag connected by taps to form a single water path (patent RU No. 2646524, class F24H 1/00 publ. 05.03.2018 g.)

The disadvantage of the known device is the complexity of replacing the heat exchanger tubes and, as a result, the rise in costs during repair work.

The technical problem is the elimination of the noted drawback. The technical result consists in increasing the maintainability of the device. The problem is solved, and the technical result is achieved by the fact that in a heat exchanger containing a housing with front and rear walls and heat exchange pipes located along the perimeter of the combustion chamber, zigzag connected by taps, the heat exchange pipes are welded on one side to sector plates connected by fasteners from the outside to with the front wall of the housing to form a closed lamellar ring, and on the other - on the rear wall of the housing. One or more pipes can be fixed on the sector plate, which can be made of finned.

FIG. 1 and 5 show a general view of the heat exchanger, front view; in fig. 2 and 6 - rear view; in fig. 3 and 7 - node A in FIG. 1 and 5; in fig. 4 - section of the heat exchanger with two pipes on one plate; in fig. 8 - the same, with one pipe.

The heat exchanger is located in a water-tube boiler and contains a housing with front 1 and rear 2 walls. Heat exchange pipes 3 are located along the perimeter of the combustion chamber, connected in a zigzag manner by taps 6. The heat exchange pipes are welded on one side of the sector plates 7, connected by fasteners 8 from the outside to the front wall 1 of the body to form a closed lamellar ring, and on the other - to the rear wall 2 housing. One sector plate 7 can be fitted with one or more pipes, which can be made finned.

The coolant through the return pipe 4 enters the finned heat exchange tubes 3, where, gradually heating up, moves along the adjacent pipes, unfolding due to the zigzaz-like connection in the outlets 6. gradually heating to the required temperature. Sequential heating of the coolant makes it possible to reduce thermal and hydraulic sweeps in the circuit. During operation, after stopping the boiler, a drain is opened to empty it. The air from the boiler is removed through the supply pipe 5. The sequential movement of the coolant in the pipes 3 allows to ensure the optimal speed of water movement. Optimum speed of water movement avoids overheating of water and metal. Thus, the use of sector plates in the proposed heat exchanger simplifies its design and manufacture due to the use of simple, similar elements, reduces the metal consumption of the boiler as a whole and increases operational reliability and efficiency in comparison with the prototype; makes it possible to create many options for the same type of boilers of various capacities.

Claims (4)

1. A heat exchanger of a hot water boiler, containing a body with front and rear walls and heat exchange pipes located along the perimeter of the combustion chamber, zigzag connected by taps, characterized in that the heat exchange pipes are welded on one side to sector plates connected by fasteners from the outside to the front wall of the body with the formation of a closed lamellar ring, and on the other - on the rear wall of the body. 2. Heat exchanger according to claim 1, characterized in that one pipe is fixed to the sector plate. 3. The heat exchanger according to claim 1, characterized in that several pipes are fixed on the sector plate. 4. The heat exchanger according to claim. 1, characterized in that the heat exchange tubes are made finned.

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