RU197819U1 - BIMETAL HEATING RADIATOR WITH BOTTOM CONNECTION - Google Patents

Abstract

A bimetal heating radiator with a lower connection includes at least two sections, each with an aluminum alloy shell obtained by injection molding, and an embedded element - a steel manifold, and two fittings, respectively, for supplying and removing the coolant, each fitting is connected by a butt by contact welding with the edge of the hole in the part of the lower horizontal pipe of the steel manifold of one of the two sections joined to each other without an aluminum alloy shell, the lower horizontal channel formed by the lower horizontal pipes of the steel manifolds of two sections, separated by a partition.

Description

Technical field

The claimed utility model relates to heating appliances, in particular, to bimetallic radiators used for space heating.

State of the art

Bimetal radiators are known and widely used. For example, a sectional bimetallic radiator is known, which is disclosed in the patent of the Russian Federation 2354894 dated 05/10/2009, including at least two sections made each with an aluminum alloy sheath and a steel embedded element and tightened with nipples screwed into the horizontal pipes of the docked embedded elements of the sections. But well-known sectional bimetallic radiators do not provide for a lower connection to the heating system.

At the same time, metal radiators with a lower connection are known from the prior art, disclosed, for example, in RF patent No. 192310 dated 09/12/2019, which provides for a lower connection to a heating system by means of fittings (brass adapters 8) screwed into the lower parts of the radiator section made with a thickening "in the process of casting sections". Firstly, to implement this technical solution, it is necessary to use a modified mold. Secondly, when using such a technical solution for bimetallic radiators, it is necessary to provide sealing of the contact surface of the aluminum shell and the steel embedded element to prevent corrosion and destruction of the radiator. In addition, the threaded connection requires additional sealing, which is difficult in practice. Thus, the use of this known technical solution does not provide a reliable lower connection of a bimetallic radiator.

The claimed technical solution is aimed at solving the technical problem of reliable connection of the bimetallic radiator from below to the heating system without the need to change the mold to obtain an aluminum shell with a built-in element.

Utility Model Disclosure

The technical result achieved in the claimed technical solution is to obtain a reliable tight connection from the bottom of the bimetal radiator to the heating system. In this case, it becomes possible to arrange the input and output of the coolant relative to each other at a distance determined by the requirement on the part of the equipment used for supplying and discharging the coolant.

The specified technical result is implemented in a bimetallic heating radiator with a lower connection, comprising at least two sections, each with an aluminum alloy shell obtained by injection molding, and an embedded element - a steel manifold, and two fittings, respectively, for supply and exhaust coolant, each fitting is connected by butt contact welding with the edge of the hole in the part of the lower horizontal pipe made without an aluminum alloy shell and connected by butt contact welding with the edge of the hole in the lower horizontal pipe of the steel manifold of one of the two sections joined to each other, while the lower horizontal channel formed by lower horizontal pipes and connecting the vertical tubes of steel collectors of two sections, is divided by a partition.

The execution without the aluminum alloy shell of a part of the lower horizontal pipe of the steel manifold for connecting the butt butt welding of the fitting to the edge of the hole in this pipe can be provided when the shell is produced by injection molding or by drilling a hole in the shell.

Each fitting can be made with an external (external) chamfer and connected by contact welding with the edge of the hole made on a flat section of the outer surface of the lower horizontal pipe of the steel manifold.

Radiator sections can be connected with nipples screwed into horizontal pipes of steel collectors, while the nipple connecting the lower horizontal pipes of two sections can be made blind.

Horizontal branch pipes of steel section collectors can be joined by butt contact welding.

Brief Description of the Drawings

In FIG. 1 shows the appearance of two docked sections of the claimed bimetal heating radiator with a lower connection.

In FIG. 2 shows a fragment of two docked sections of the claimed bimetal heating radiator with a section showing the design features of the lower connection.

Utility Model Implementation

The bimetal heating radiator shown in FIG. 1, consists of two sections 1 and 2, shown without plugs, and two fittings 3 and 4, respectively, for supplying and discharging coolant inserted into openings made in sections of aluminum alloy shells 1 and 2 and connected by contact welding with steel embedded elements (not shown) of sections 1 and 2. For connecting plumbing fittings, pipes for supplying and discharging the heat transfer pipe, fittings 3 and 4 are made, for example, with an external pipe cylindrical thread or are designed for threaded connection of the Euro cone.

In FIG. 2 shows that the fittings 3 and 4 are made with external chamfers, which are joined to the edges of the holes in the lower horizontal pipes 5 and 6 of the steel manifolds and connected by butt contact welding. The edges of the holes in the lower horizontal nozzles 5 and 6 are located on the flat sections of the outer surfaces of these horizontal nozzles obtained by a cylindrical end drill. Finding the edge and edge of the hole in one plane provides tight contact of the nozzle with the pipe during butt contact welding.

The nipple 7 connecting the sections 1 and 2 and screwed into the lower horizontal pipes 5 and 6 of the steel manifolds is made with a blind wall 8. This ensures that the coolant supplied to the radiator flows through one of the fittings into the steel manifold of the corresponding section and the coolant is removed through the other fitting from steel manifold of another section.

Since the position of the fittings 3 and 4 at the bottom of the horizontal pipes of the embedded elements is limited only by the nipple 7, the distance between the axes of the fittings can be selected and correspond to the distance provided in the used equipment of the heating system. For example, to match modern equipment, the distance between the axes of the fittings can be 50 or 80 mm.

Claims (7)

1. A bimetallic heating radiator with a lower connection, comprising at least two sections, each with an aluminum alloy shell obtained by injection molding, and an embedded element - a steel manifold, and two fittings, respectively, for supplying and discharging the coolant, each the nozzle is connected by butt contact welding with the edge of the hole in the part of the lower horizontal pipe of the steel manifold of one of the two sections joined to each other without an aluminum alloy shell, while the lower horizontal channel formed by the lower horizontal pipes and connecting the vertical tubes of the steel manifolds of the two sections is divided septum. 2. The radiator according to claim 1, characterized in that each fitting is made with an external chamfer and is connected by contact welding with the edge of the hole made on a flat section of the outer surface of the lower horizontal pipe of the steel manifold. 3. The radiator according to claim 1, characterized in that each fitting is inserted into a hole made in an aluminum alloy shell. 4. The radiator according to claim 3, characterized in that the hole in the shell of an aluminum alloy is made by drilling. 5. A radiator according to claim 3, characterized in that the aluminum alloy shells are obtained by injection molding with an opening for a fitting connected by butt contact welding to a steel manifold. 6. The radiator according to claim 1, characterized in that the sections are connected by nipples screwed into the horizontal pipes of the steel manifolds, while the nipple connecting the lower horizontal pipes of the two sections is blind. 7. The radiator according to claim 1, characterized in that the horizontal pipes of the steel section collectors are connected by butt contact welding.

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