RU177539U1 - HEAT EXCHANGER FOR BOILER - Google Patents

Abstract

The utility model relates to the field of heat engineering and can be used for heating residential buildings and other buildings. The task the utility model is aimed at is to reduce the hydraulic resistance of the heat exchanger for the boiler, as well as to perform useful heat removal in the front vertical plane of the heat exchanger and, as a result, increase its efficiency, reduce operating costs, and increase reliability. The technical result is achieved by reducing the hydraulic resistance of the heat exchanger and providing useful heat removal from the rear wall of the rotary chamber of the heat exchanger. The boiler heat exchanger is formed by two supply manifolds 3 and return 4 and connected to them by horizontal finned and on one side of the heat exchanger connected by taps 2 pipes 1, arranged in two rows, on the other side of the heat exchanger finned tubes 1 are interconnected via a rotary chamber 5, having a removable front cover, and the rear wall 6 of the rotary chamber 5 of the heat exchanger is a useful heat exchange surface. 1 ill.

Description

The utility model relates to the field of heat supply, namely, to heat exchangers for hot water boilers and can be used for heating residential buildings, communal and industrial buildings with a heating system with a coolant.

The prior art heat exchanger for a hot water boiler, made in the form of a coil equipped with inlet and outlet pipes and formed by horizontal pipes arranged in height, at least in two parallel rows in a checkerboard pattern and connected by taps (see patent RU 2477824, C. F24H 1/40, publ. 03/20/2013). The disadvantages of this device are the small heat transfer surface and, as a result, the low efficiency of the boiler in which it is installed.

Closest to the invention in technical essence is a heat exchanger for a hot water boiler, made in the form of a coil equipped with inlet and outlet pipes and formed by horizontal pipes arranged in height, at least in two parallel rows in a checkerboard pattern and connected by taps, on each the pipe is made of ribbing in the form of a single steel strip fixed laterally on the pipe along a helical line (see patent RU 158835, class F24H 1/00, publ. 02.20.2016).

The disadvantage of this device is the design of the heat exchanger in the form of a single coil, leading to an increase in hydraulic resistance. The energy spent to overcome the increased hydraulic resistance of a single coil reduces the efficiency. The disadvantage of the prototype is the lack of useful heat removal in the front vertical plane, as well as the lack of non-destructive testing of the condition of the internal surfaces of the finned heat exchanger tubes, which reduces the efficiency and complicates the maintenance of the heat exchanger.

The task to which the utility model is directed is to reduce the hydraulic resistance of the heat exchanger, as well as to perform useful heat removal in the front vertical plane and, as a result, increase the efficiency of the heat exchanger.

The technical result is an increase in the efficiency of the heat exchanger due to the reduction of hydraulic resistance, and ensuring beneficial heat removal in the front vertical plane.

The problem is solved, the technical result is achieved due to the fact that the heat exchanger is formed by two supply and return collectors and horizontal finned connected to them and on one side of the heat exchanger connected by pipes, which are arranged in two rows, while on the other side of the heat exchanger finned tubes are interconnected through a pivoting chamber having a removable front cover.

The claimed utility model is illustrated by one figure, which shows a general view of the boiler heat exchanger.

The heat exchanger of the boiler is formed by two supply manifolds 3 and return 4 and connected to them by horizontal finned and on one side of the heat exchanger interconnected by taps 2 pipes 1, arranged in two rows, while on the other side of the heat exchanger finned tubes 1 are interconnected via a rotary chamber 5 having a removable front cover, and the rear wall 6 of the pivoting chamber 5 is a useful heat exchange surface.

The heat exchanger operates as follows. The coolant water first enters the return manifold 4, and then is distributed through the finned tubes 1 connected to the return manifold 4 in the direction of the rotary chamber 5. Passing through the finned tubes, the water is heated. In the rotary chamber, water takes part of the heat from the rear wall 6 of the rotary chamber 5, turns around and moves along the finned tubes 1, which are connected at the rear of the boiler by taps 2. In these taps, the water unfolds and moves again in the direction of the rotary chamber 5. The cycle repeats. At the final stage, the water, passing through the finned tubes 1 connected to the supply manifold 3, enters the supply manifold 3, from where it goes to the consumer.

This heat exchanger has the following advantages while maintaining the useful properties of the prototype:

- greater efficiency, so all the heat of the front vertical plane, which is the rear wall of the rotary chamber, is given to the coolant water;

- the possibility of non-destructive multiple control of the inner surfaces of the finned heat exchanger tubes, thanks to the removable lid of the rotary chamber of the boiler, which greatly facilitates the process of maintenance and repair;

- large heat storage capacity of the heat exchanger due to the additional volume of the rotary chamber.

Heat exchangers are used as part of hot water boilers and are manufactured on standard equipment using modern materials and technologies.

Claims (2)

1. The heat exchanger for the boiler, formed by two supply and return manifolds and connected to them by horizontal finned and on one side of the heat exchanger interconnected by pipes, which are arranged in two rows, on the other side of the heat exchanger finned tubes are interconnected through a rotary chamber. 2. The heat exchanger according to claim 1, characterized in that the rotary chamber of the heat exchanger has a removable front cover.

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