RU153813U1 - STEEL PASS THROUGH RADIATOR TUBE FOR HEATING CAST IRON RADIATOR - Google Patents

Abstract

Steel passage radiator plug for a cast-iron heating radiator, made in the form of a sleeve, the outer surface of which at one end is made in cross section in the form of a hexagon, and a threaded section is made on the outside of the other end, while in the longitudinal hole of the sleeve under the hexagonal outer surface an internal thread is made, characterized in that the length of the portion of the internal thread is equal to half the length of the longitudinal hole, and on the outside on the sleeve is made cylindrical the th flange located between the hexagonal outer surface adjacent to it and the threaded section, an annular recess is made in the end surface of the flange from the side of the threaded section, the inner diameter of which is equal to the outer diameter of the threaded section, while the internal thread is 3/4 "inch, and the external one".

Description

Steel radiator plug for heating cast iron radiator.

The utility model relates to the field of heating, in particular to heating devices of central and local heating systems.

Known deaf radiator plug for a cast iron heating radiator, made in the form of a cup, the bottom of which is formed by a flat rectangular flange, and on the outer surface of the side wall there is a section with an external thread (see GB patent No. 1364557, class F24H 9/14. 08.21.1974 )

However, this radiator plug has a sufficiently large metal consumption, which is a common drawback of cast iron plugs and is associated with the fragility of cast iron, which causes a significant wall thickness.

The closest to the utility model in terms of technical nature and the achieved result is a steel passage radiator plug for a cast-iron heating radiator, made in the form of a sleeve, the outer surface of which is made from the one end in cross section in the form of a hexagon, and a threaded section is made on the outside of the other end while a step hole is made in the sleeve and an internal thread is made in the step of a smaller diameter (see patent RU No. 2215947, class F24H 3/08, 11/10/2003).

This radiator plug has a more optimal design, however, this radiator plug also has a rather high metal consumption, since the use of cast iron necessitates the implementation of thick walls to provide the required strength.

The objective of the utility model is to eliminate the above drawback.

The technical result consists in the fact that it is possible to reduce the material consumption of the cork.

This problem is solved, and the technical result is achieved due to the fact that the steel passage radiator plug for a heating cast iron radiator is made in the form of a sleeve, the outer surface of which is made in cross section from one end in the form of a hexagon, and from the other end is threaded on the outside plot, while in the longitudinal hole of the sleeve under the hexagonal outer surface, an internal thread is made, while the length of the portion of the internal thread is equal to half the length of the longitudinal holes, and on the outside on the sleeve there is a cylindrical flange located between the hexagonal outer surface adjacent to it and the threaded portion, an annular recess is made in the end surface of the flange from the threaded portion, the inner diameter of which is equal to the outer diameter of the threaded portion, while the internal thread is made 3/4 ″ inches and the outer 1 ″.

As it was found that the combination of a radiator plug made of steel and a radiator plug in the form of a sleeve, the outer surface of which at one end is made in cross section in the form of a hexagon, and from the other end on the outer surface there is a threaded section, while in the longitudinal hole of the sleeve under the internal thread is made with a hexagonal surface, while the length of the internal thread section is equal to half the length of the longitudinal hole, and a cylindrical flange is made on the sleeve from the outside, located between the hexagonal outer surface adjacent to it and the threaded portion, an annular recess is made in the end surface of the flange from the threaded portion, the inner diameter of which is equal to the outer diameter of the threaded portion, while the internal thread is 3/4 ″ inch and the outer thread is 1 ″ to form from a sleeve with a flange and threaded sections made from opposite ends of the sleeve of an equally strong construction along the length of the radiator tube reinforced by the flange as a stiffener, which, in Oy turn allowed to achieve desired structural strength radiator tube with a smaller thickness of the side wall and as a result, has reduced material consumption radiator tube.

In FIG. 1 is a side view of a through-passage steel radiator plug for a cast-iron heating radiator.

In FIG. 2 shows a section aa in FIG. one.

Steel passage radiator plug for a cast-iron heating radiator is made in the form of a sleeve, the outer surface of which at one end is made in cross section in the form of a hexagon 1, and from the other end, a threaded section 2 is made on the outer surface.

In the longitudinal hole 3 of the sleeve under the hexagonal outer surface 1, an internal thread 4 is made, while the length of the portion of the internal thread 4 is equal to half the length of the longitudinal hole 3.

An outer cylindrical flange 5 is made on the outside of the sleeve, located between the hexagonal outer surface 1 adjacent to it and the threaded portion 2, an annular recess 6 is made in the end surface of the flange 5 from the threaded portion 2, the inner diameter of which is equal to the outer diameter of the threaded portion 2, this, the internal thread 4 is made 3/4 ″ inches, and the external 2 - 1 ″.

Thus, due to the above-described features of the implementation of the radiator plugs, it is possible to produce a relatively light and durable radiator plug and, in comparison with the prototype, reduces its metal consumption.

Claims (1)

Steel passage radiator plug for a cast-iron heating radiator, made in the form of a sleeve, the outer surface of which at one end is made in cross section in the form of a hexagon, and on the other side, a threaded section is made on the outer surface, while in the longitudinal hole of the sleeve under the hexagonal outer surface an internal thread is made, characterized in that the length of the portion of the internal thread is equal to half the length of the longitudinal hole, and on the outside on the sleeve is made cylindrical the th flange located between the hexagonal outer surface adjacent to it and the threaded section, an annular recess is made in the end surface of the flange from the side of the threaded section, the inner diameter of which is equal to the outer diameter of the threaded section, while the internal thread is 3/4 "inch, and the external one".

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