RU210478U1 - STEEL CORE FOR A SECTION OF A BIMETALLIC SECTIONAL RADIATOR - Google Patents

Abstract

The utility model relates to sectional radiators, radiator sections and connections of radiator sections, namely to steel cores for sections of a bimetallic sectional radiator. The steel core for the section of the bimetallic sectional radiator includes the lower and upper tubular parts connected by a pipe-column. Each tubular part is made with symmetrically cut left and right internal threads. In order to exclude the possibility of incorrect positioning of workpieces in the manufacture of sections of radiators, two recesses with cylindrical surfaces are made on the outside on the sides of the tubular parts containing left-hand threads. The axis of the cylindrical surface of each recess is parallel to the axis of symmetry of the pipe-column, and the recesses themselves are placed diametrically opposite to the axis of symmetry of the tubular parts. The length of each recess is selected from the ratio: F=0.35÷0.45D, where F is the length of the recess, D is the outer diameter of the tubular part.

Description

The claimed utility model relates to means of space heating, in particular to sectional radiators, sections of radiators and connections of sections of radiators.

An analogue of the claimed utility model is a steel core for a section of a bimetallic sectional radiator, including the lower and upper tubular parts that form collectors, while the tubular parts are connected by a tube-column, and each tubular part is made with symmetrically cut left and right internal threads (see patent RF No. 161226, IPC F24H 3/00, 2016). The essential features of the analogue "lower and upper tubular parts, column pipe, each tubular part is made with symmetrically cut left and right internal threads" coincide with the essential features of the claimed utility model.

The disadvantage of analogue is the increased possibility of manufacturing defective products due to the difficulty of identifying the left-hand thread and, accordingly, the correct positioning of the workpieces both during core welding and during the manufacture of radiator sections.

The closest analogue of the claimed utility model is a steel core for a section of a bimetallic sectional radiator, including the lower and upper tubular parts that form collectors, while the tubular parts are connected by a pipe-column, and each tubular part is made with symmetrically cut left and right internal threads (see Patent of the Russian Federation No. 161300, IPC F24H 3/00, 2015). The essential features of the closest analogue "lower and upper tubular parts, column pipe, each tubular part is made with symmetrically cut left and right internal threads" coincide with the essential features of the claimed utility model.

The disadvantage of the closest analogue is also an increased possibility of incorrect manufacturing of the product due to the possibility of mixing up the left and right threads and, accordingly, incorrect positioning of the workpieces during welding and in the manufacture of radiator sections.

The task to be solved by the claimed utility model is to reduce possible defects by identifying left-handed threads and eliminating the possibility of incorrect positioning of workpieces.

To achieve the specified technical result in a steel core for a section of a bimetallic sectional radiator, including the lower and upper tubular parts connected by a pipe-column, while each tubular part is made with symmetrically cut left and right internal threads, on the outer surfaces of the tubular parts containing left-hand threads two recesses are made having cylindrical surfaces, while the axis of the cylindrical surface of each recess is parallel to the axis of symmetry of the pipe-column, and the recesses themselves are placed on the side surfaces of the tubular parts diametrically opposite to the axis of symmetry of the tubular parts, while the length of each recess is selected from the ratio: F= 0.35÷0.45D, where F is the length of the recess, D is the outer diameter of the tubular part.

Essential features of the claimed utility model “on the outer surfaces of the tubular parts containing left-hand threads, two recesses are made having cylindrical surfaces, while the axis of the cylindrical surface of each recess is parallel to the axis of symmetry of the pipe-column, and the recesses themselves are located on the side surfaces of the tubular parts diametrically opposite to the axis of symmetry tubular parts, while the length of each recess is selected from the ratio: F=0.35÷0.45D, where F is the length of the recess, D is the outer diameter of the tubular part" are distinctive from the features of the closest analogue.

In FIG. 1 shows a steel core. In FIG. 2 shows a section of a steel core.

The steel core includes a lower tubular part 1 and an upper tubular part 2. The tubular parts are connected by a column-pipe 3. The tubular parts have an internal right-hand thread 4 and an internal left-hand thread 5. Outside, i.e. recesses 6 are made on the outer side surface of each tubular part in the zones with left-hand thread, two recesses diametrically located to each other on each tubular part. Each recess is made with a cylindrical surface, the axis of rotation of which is parallel to the axis of rotation of the pipe-column. The length of each recess along the axis of rotation of the cylindrical surface of the recess is from 35% to 45% of the outer diameter of the tubular part, i.e. this length is selected from the ratio: F=0.35÷0.45D, where F is the length of the recess, D is the outer diameter of the tubular part.

The inventive device can be manufactured in a known manner, wherein the tubular parts are preliminarily indented with a cutting tool.

The use of recesses having a cylindrical surface makes it possible to increase the distinctiveness of the corresponding structural elements, especially in the manufacture of radiator sections in conditions of insufficient visibility and illumination, since the direction of the reflected light and its scattering from a convex cylindrical surface and from a concave cylindrical surface differ significantly. Even in comparison with the commonly used so-called "flats", which are a flat cut into a part such as a body of revolution, the concave cylindrical surface of the recess reflects light in a completely different way. Even more significant is the difference with the convex cylindrical surface of the tubular part of the steel core, which greatly increases the distinctiveness. With regard to the length of the recess, if the length is less than 35% of the outer (visible) diameter of the tubular part, then in conditions of poor visibility, discrimination may be insufficient (the recess is too "shallow"). If the length of the recess is greater than 45% of the outer diameter of the tubular part, then the recess can significantly weaken the wall of the tubular part at that location. Taking into account the possible rather high coolant pressures in the radiator, such weakening of the wall is undesirable. According to the applicant, the claimed ratio is optimal from the point of view of operational characteristics, because due to the parallelism of the axes of rotation of each recess and the column pipe, the recesses are located on the most visible part of the steel core during the installation process in the manufacture of sections of the bimetallic sectional radiator.

Claims (1)

A steel core for a section of a bimetallic sectional radiator, comprising lower and upper tubular parts connected by a pipe-column, each tubular part is made with symmetrically cut left and right internal threads, characterized in that on the outer surfaces of the tubular parts containing left-hand threads, two recesses having cylindrical surfaces, while the axis of the cylindrical surface of each recess is parallel to the axis of symmetry of the pipe-column, and the recesses themselves are placed diametrically opposite to the axis of symmetry of the tubular parts, while the length of each recess is selected from the ratio: F=0.35÷0.45D , where F is the length of the recess, D is the outer diameter of the tubular part.

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