RU190419U1 - Heating radiator - Google Patents

Abstract

The utility model is designed for use in heating, namely, in devices for space heating. The essence is that the radiator of the heating system consists of two volumes attached to the inlet and outlet nozzles with pipes located between the volumes, characterized in that the two volumes are angled to each other, each of which is structurally manufactured as a pipe in pipe, with the ends of these volumes, namely the annular space is plugged and the connection between them is one pipe. 2 Il.

Description

The utility model is designed for use in heating, namely, in devices for space heating. The heating system radiator consists of two horizontal volumes with pipes located between them installed with a slope, the slope is made in a plane parallel to the axes of the horizontal volumes.

Known heating radiator, for the invention according to the patent of the Russian Federation No. 2006756 IPC F24H 3/06, publ. 01/30/1994., Containing a pipe for heat carrier with plates fixed on it, moreover, to improve efficiency, the plates are fixed on the pipe with a cantilever and equipped with edges of triangular and sinusoidal sections placed on one of the surfaces of the plate, while the geometric dimensions of the plate satisfy the ratios l0 = n (δ1 + l1); 3δ1≥l1> 2δ1; δ (l1 + δ1) ≥l≥3 (l1 + δ1); 2 / 5Rtr≥δ≥2 / Rtr, where l0 is the plate length; δ1 — rib thickness at the base; δ — plate thickness; l1 is the distance between the ribs at the base; l is the height of the ribs; Rтр - radius of the pipe for the coolant; n = 2, 3, 4, 5, ..., and for the case of n = 1, the radiator is a plate of length l0≅45δ.

The disadvantage of this radiator is that in order to increase the heat-transfer surface area, the material consumption for the production of plates increases, which leads to an increase in the labor intensity of their production.

Known heating radiator, for the invention according to the patent of Russian Federation №2177588 IPC F24H 3/00, publ. 12.27.2001., Consisting of two horizontal volumes attached to the inlet and outlet nozzles, with pipes arranged between the volumes, installed with a slope, moreover, the pipes contain sections with different angles of inclination and are arranged in several rows, the slopes of the pipes in the rows are opposite, and horizontal volumes in cross section have the shape of an ellipse (see Pat. No. 2177588 IPC F24H 3/00, publ. 27.12.2001.).

The disadvantage of this radiator is that the increase in the area of the heat-transfer surface is achieved by increasing the mass of the radiator and the volume of the coolant.

Closest to the claimed technical solution for the combination of essential features and the achieved technical result is the invention according to the patent of Russian Federation №2177588 IPC F24H 3/00, publ. 12.27.2001. The entity is a radiator consisting of two horizontal volumes attached to the inlet and outlet nozzles, with pipes located between the volumes installed with a slope, moreover, the pipes contain sections with different angles of inclination and are arranged in several rows, the inclinations of the pipes in rows are opposite, and horizontal volumes in cross section have the shape of an ellipse.

The disadvantages of the known technical solutions are that the increase in the area of the heat-generating surface is achieved by increasing the metal consumption of the radiator and the volume of the coolant, in addition, the known technical solution has a high labor intensity and material consumption, because during manufacturing it is required to perform a large number of works on welding a large number of pipes between volumes, which significantly increases the labor costs for welding pipes between volumes.

The claimed technical solution is illustrated by photographs:

FIG. 1 - front view radiator;

FIG. 2 - side view of the radiator.

The radiator consists of the following structural elements:

- inlet pipe 1,

- discharge pipe 2,

- hollow connecting pipe 3,

- volume 4,

- volume 5,

- strut 6.

- end cap volumes 4, 5.

The assembly of the radiator is made as follows. Volumes 4 and 5 are made of two pieces of cylindrical pipes of different diameters, for example, 108 and 57 mm. of equal length, a thin pipe is inserted into a pipe of a larger diameter, pipes are fixed at an equidistant distance from each other (set them equidistant) in a known manner, for example, by means of tacking struts by welding, then take the end cap and perform welding on the outer diameter of the plug with a larger pipe and the inner diameter of the end cap of the outer diameter of the pipe of a smaller diameter, the same procedure for welding the plug is repeated at the opposite end of these pipes. As a result, the declared volumes are 4 and 5 radiators of the heating system. Next, the hollow connecting pipe 3, which connects volumes 4 and 5, is welded together, and a spacer 6 is installed to fix the volumes together. At the end of the assembly of the heating radiator, the inlet 1 and outlet 2 nozzles are welded at the place of installation or tie-in to the heating system.

To ensure operation, the radiator is filled with coolant, for example, water.

The radiator works as follows. In the inlet pipe 1 enters the coolant, which enters the volume 4, then through the hollow connecting pipe 3 enters the volume 5, as a result of which the radiator walls are heated, which give off heat to the surrounding space, both through the external and internal surfaces of the volumes, after which the coolant exits through the outlet pipe 2.

Further, the applicant provides a more detailed description of the operation of the radiator of the heating system and provides explanations explaining the essence of the processes inside the radiator of the heating system.

Taking into account the fact that the two volumes 4, 5 are made in the form of cylinders, each of the volumes being structurally designed as a pipe in a pipe, the ends of the pipes are plugged on both sides, respectively, between the inner surface of the pipe of larger diameter and the outer surface of the pipe of smaller diameter a closed annular space is created in which the coolant circulates, while the inner surface of the pipe with a smaller diameter remains hollow (open) on both sides of the volume and thus provides additional area t plootdachi. To ensure circulation of the coolant in the annular space, each of volumes 4 and 5 are interconnected by a hollow connecting pipe, while the other ends of the volumes are fixed between each other by a spacer 6, respectively. This design is connected to the heating system through the supply pipe 1 and the outlet pipe 2. Volumes 4 and 5 are in the same vertical plane, to ensure better circulation of the coolant and increase the speed of convection, the volumes are angled to each other.

The objective of the claimed technical solution is the creation of a simple in design and effective in operation of a heating radiator suitable for production in conditions of handicraft production.

The task is solved by the fact that the radiator of the heating system, consisting of two volumes connected to the supply and discharge pipes, with pipes located between the volumes, is characterized by the fact that the two volumes are angled to each other, while each of the volumes is structurally manufactured as the pipe in the pipe, with the ends of these volumes, namely the annular space, plugged and interconnected by one pipe.

The claimed technical solution is made with the possibility of increasing the natural rate of circulation of the coolant without the cost of additional energy. The volumes are located at an angle to each other, which ensures the creation of natural convective flows, contributes to an increase in heat transfer from the radiator, while, in addition to the above, the heat transfer efficiency in the claimed technical solution increases additionally due to the peculiarities of the design of the volumes, heat emission comes from both external and internal surfaces of volumes. In this case, due to the inclination of each of the volumes horizontally, it is possible to wash off sedimentary contaminants in the radiator through the discharge pipeline, which excludes the possibility of clogging of the radiator during its operation.

At the same time, the annular volume of the volumes is obstructed, a significant decrease in the volume of the coolant is achieved while simultaneously increasing the area of the heat radiating surface and simultaneously reducing the weight of the radiator assembly. Specified as a whole proves a significant increase in the efficiency of radiator use during operation, namely, a decrease in the required heat carrier volume, while simultaneously increasing heat transfer and minimizing the possibility of radiator clogging during operation.

The stated technical solution resolved this problem, because the possibility of increasing heat transfer with a simultaneous decrease in the volume of coolant.

Analysis of the known technical solutions, carried out according to scientific, technical and patent documentation, showed that the set of essential features of the proposed technical solution is not known from the prior art, therefore, it meets the criterion "novelty", and the manufacture and trial operation of the working layout proves the compliance of the claimed technical solution the criterion "industrial applicability".

Claims (1)

A heating system radiator consisting of two volumes attached to the supply and discharge pipes with pipes located between the volumes, characterized in that the two volumes are angled to each other, each of which is structurally manufactured as a pipe in the pipe, with the ends These volumes, namely the annular space, are plugged and interconnected by one pipe.

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