RU13918U1 - HEATING RADIATOR - Google Patents

Abstract

1. A heating radiator comprising collectors for supplying and discharging a heat carrier, profiled sections made of ribbed pipes located between them, bushings with annular grooves for connecting ribbed pipes to manifold openings and sealing their connections, characterized in that the seal is in the connection of the ribbed pipe to the collector opening made in the form of an insert of elastic material, with an interference fit installed between the sleeve with annular grooves and the inner surface of the ribbed pipe, as well as between the sleeve and the hole in collector. 2. The heating radiator according to claim 1, characterized in that the insert of elastic material has protrusions located on its side in contact with the inner surface of the ribbed pipe, as well as with an opening in the manifold. The heating radiator according to claim 1 or 2, characterized in that the insert of elastic material is made of two parts, one of which is installed on the side of the end of the sleeve located in the collector, and the other part on the side of the end of the sleeve located in the ribbed pipe of the radiator section .

Description

The utility model relates to heating equipment, namely, to radiators of water heating systems, mainly, domestic premises.

Known heating radiators containing collectors and sections in the interior of ribbed pipes made of extruded aluminum profiles, for example, patents of the Russian Federation Ј 2059933 R 24D 3/12, 1996; 2073817 P 24D 19/00, 1997; L 2073818 P 24 D 19/00, 1997.

The closest analogue to the patented one can be attributed to a heating radiator according to the patent of the Russian Federation L 2059933 Р 24Д 3/12, 1996. It contains collectors for supplying and discharging the coolant, profiled sekshs from ribbed pipes located between niches, bushings with annular grooves for connecting ribbed pipes with holes collectors and seals of their connections. Seals are gaskets that are located in U-shaped annular gaps formed between chamfers in the holes of the collectors and chamfers made on the inner surfaces of the ribbed pipes,

In this radiator, the seals of the connections of the sections with the collectors are not reliable enough, which can lead to a loss of tightness of the radiator. This is because in order to ensure tightness using the said gaskets, sections of exactly the same length are required. To achieve this is technologically difficult, as a result of which, in the locations of the gaskets, tightened with insufficient force, leakage of the coolant is possible. This is also facilitated by the possible misalignment of the upper and lower bushings when assembling sections with collectors, which leads to

distortions, loosening of seals and loss of tightness.

The patented model is aimed at creating a reliable radiator in operation

The technical result that is achieved by the proposal is to increase the reliability of the seals of the joints of the ribbed pipes with the collectors and thereby ensuring the tightness of the radiator.

For this, the seal in the connection of the ribbed pipe with the hole of the collector is made in the form of an insert made of elastic material, with an interference fit between the sleeve with ring grooves and the inner surface of the ribbed pipe, as well as between the sleeve and the hole in the collector.

The placement of inserts of elastic material with an interference fit between rigid elements, which are ribbed pipes and collectors, due to elastic deformations compensates for possible inaccuracies in their manufacture, distortions between sections and inaccuracies between pairs of bushings with grooves, eliminating leaks between these bushings and the inner surfaces of the ribbed pipes, as well as between bushings and manifold holes.

The reliability of the seals is enhanced by the presence of protrusions on the insert made of elastic material from the side in contact with the inner surface of the ribbed pipe, as well as with the hole in the collector in accordance with paragraph 2 of the utility model formula. This is because under the action of compressive forces on the protrusions of the elastic insert from the walls of the ribbed pipe and the holes in the collector, these protrusions are deformed, and the annular grooves of the bushings are filled with the elastic material of the insert, forming a labyrinth seal.

ctor, and the other from the side of the end of the sleeve located in the finned tube of the radiator section. With this embodiment, it is possible to simplify the assembly of collectors with sections.

A utility model is illustrated by a drawing, in which Fig. 1 shows a general air intake of a heating radiator; figure 2 - section aa, the seal connection of the ribbed pipe of the section with the collector (scaled up); Fig. 3 is a view I, one of the parts of the insert of elastic material.

The heating radiator contains an upper collector I for supplying coolant (hot water), a lower collector 2 for draining the coolant from the radiator, profiled sections of finned tubes 3 located between the collectors I and 2, bushings 4 for connecting the finned tubes to the collectors and sealing these connections. Collectors have bases in which vertical holes are made for connection with ribbed pipes.

Each seal in the connection of the ribbed pipe with the hole of the collector is made in the form of an insert 5 of elastic material, for example, heat-resistant rubber, with an interference fit between the sleeve 4 and the inner surface of the ribbed pipe 3, as well as between the sleeve 4 and the hole in the collector. The bushings 4 have annular grooves 6, and the inserts 5 have protrusions 7 located on the side of the insert in contact with the inner surface of the ribbed pipe, as well as with the hole in the manifold. The inserts 5 are made of two identical parts, one of which is installed on the side of the end of the sleeve 4 located in the manifold, and the other on the side of the end of the sleeve 4 located in the finned tube of the radiator section. Parts of the inserts 5 have shoulders 8 with which they are in contact with each other.

J000f03ZЈ3 - 3 is installed in the holes of the collectors. Then the bushings 4 with inserts 5 are installed with an interference fit in the ribbed pipes of 3 sections, after which the sections are connected to the upper and lower collectors. An insert 5 of elastic material fills the spaces between the bushings 4 and the surfaces of the finned tubes and the holes in the manifolds. In this case, the protrusions of the 7 inserts deform and fill the annular grooves of the 6 bushings with elastic material, increasing to a greater extent the reliability of the seals between the sections and collectors.

From the upper collector I, the coolant enters the vertical ribbed tubes of 3 sections, flows into the lower manifold 2 and is discharged from the radiator along it. The heat carrier heats the aluminum sections with ribbed tubes, from which the room air is heated by convection and radiation.

General Director of CJSC ZHASSK MACHINE-BUILDING PLANT AND COMPANY

A. V. Uporov

Claims (3)

1. A heating radiator comprising collectors for supplying and discharging a heat carrier, profiled sections made of ribbed pipes located between them, bushings with annular grooves for connecting ribbed pipes to manifold openings and sealing their connections, characterized in that the seal is in the connection of the ribbed pipe to the collector opening made in the form of an insert of elastic material, with an interference fit installed between the sleeve with annular grooves and the inner surface of the ribbed pipe, as well as between the sleeve and the hole in collector.  2. The heating radiator according to claim 1, characterized in that the insert of elastic material has protrusions located on its side in contact with the inner surface of the ribbed pipe, as well as with a hole in the collector. 3. The heating radiator according to claim 1 or 2, characterized in that the insert of elastic material is made of two parts, one of which is installed on the side of the end of the sleeve located in the manifold, and the other part on the side of the end of the sleeve located in the ribbed pipe radiator sections.