RU160625U1 - WATER HEATING RADIATOR SECTION - Google Patents

Abstract

1. Section of a water heating radiator, comprising a housing made of aluminum alloy and comprising two transverse sections parallel to each other on opposite sides of the housing and having each direct channel extending between the coupling nozzles located on opposite sides of each transverse section and having each section with an inner threaded, a longitudinal section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel communicating from opposite sides n with direct channels of the transverse sections, as well as heat-dissipating ribs extending from the longitudinal section and from at least one transverse section, while the longitudinal channel is made with an inner surface having longitudinal ribs protruding into the cavity of the longitudinal channel. 2. Section according to claim 1, characterized in that each of the longitudinal ribs is described in cross section by the geometric shape of the trapezoid, facing a smaller base to the geometric center of the section of the longitudinal channel. Section according to any one of paragraphs. 1 or 2, characterized in that the longitudinal ribs are evenly spaced around the circumference at distances commensurate with the distance between the side surfaces of each transverse rib, while in the cross section of the longitudinal channel, the height of the longitudinal rib section is less than the radius of the geometric circle inscribed in the cross section of the longitudinal channel with touching the vertices of the longitudinal ribs. 4. Section according to any one of paragraphs. 1 or 2, characterized in that one of the transverse sections is made with a technological hole located opposite the longitudinal channel of the longitudinal section

Description

Area of use

The utility model relates to water heating systems of buildings and structures, and in particular to a section of a water heating radiator designed to assemble water heating radiators from several such sections connected in series with each other.

State of the art

The water heating radiator section comprises a housing made of aluminum alloy and comprising two transverse sections parallel to each other on opposite sides of the housing and having each straight channel extending between coupling nozzles located on opposite sides of each transverse section and having each longitudinally threaded portion a section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel communicating from opposite sides with p direct channels of the transverse sections, as well as straight and / or branched heat-dissipating ribs extending from the longitudinal section and from at least one transverse section. The longitudinal channel in the cross section can have a different shape: oval, ellipse, rhombus, rectangle, polygon, circle, polygon, square (WO 2015/080615 A1, IPC F28F 19/00, 06/04/2015).

The longitudinal channel has smooth walls that do not have any means to increase the heat transfer of the coolant flowing through the longitudinal channel, which can be achieved by increasing the area of the inner surface of the longitudinal channel washed by the flowing heated coolant.

The essence of the technical solution

The technical result of this utility model is to expand the options for the implementation of sections of a radiator of water heating, made entirely of aluminum alloy, as well as to increase the efficiency of the heating device.

This technical result is achieved by a section of a water heating radiator, which contains a housing made of aluminum alloy and includes:

- two transverse sections parallel to each other on the opposite sides of the housing and having each straight channel extending between the coupling nozzles located on opposite sides of each transverse section and having each section with an internal thread;

- a longitudinal section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel communicating from opposite sides with straight channels of the transverse sections;

- straight and / or branched heat dissipating ribs extending from the longitudinal section and from at least one transverse section.

In this case, the longitudinal channel is made with an inner surface having longitudinal ribs protruding into the cavity of the longitudinal channel.

In the best embodiment, each of the longitudinal ribs is described in cross section by the geometric shape of the trapezoid, facing a smaller base to the geometric center of the section of the longitudinal channel.

Preferably, when the longitudinal ribs are evenly spaced around the circumference at distances commensurate with the distance between the side surfaces of each transverse rib. Moreover, in the cross section of the longitudinal channel, the height of the cross section of the longitudinal rib is less than the radius of the geometric circle inscribed in the cross section of the longitudinal channel with touching the vertices of the longitudinal ribs.

As a rule, one of the transverse sections is made with a technological hole located opposite the longitudinal channel of the longitudinal section, in which the plug is hermetically fixed, while the longitudinal channel is made with a decreasing cross-sectional area in the direction from the transverse section with the technological hole.

An example implementation of a technical solution

The feasibility of a utility model is confirmed by a specific example of a section of a water heating radiator, the cross-section of which is shown in FIG. one.

Section of a radiator for water heating contains a housing made of aluminum alloy and includes:

- two transverse sections (not shown in the drawing) located in parallel from opposite sides of the housing and having each straight channel passing between the coupling nozzles located on opposite sides of each transverse section and having each section with internal thread;

- a longitudinal section 1 connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel 2, communicating from opposite sides with direct channels of the transverse sections;

- straight 3 and branched 4 heat-dissipating ribs extending from the longitudinal section 1 and from at least one transverse section.

Alternatively, a section of a water heating radiator may not have straight fins 3, but may only have them. As a rule, the ribs pass along the upper transverse section, while the lower one, from where the heated room air comes in, is free from heat-dissipating ribs.

The longitudinal channel 2 is made with an inner surface having longitudinal ribs 5 protruding into the cavity of the longitudinal channel 2. Each of the longitudinal ribs 5 is described in cross section by the geometric shape of the trapezoid, facing a smaller center to the geometric center of the section of the longitudinal channel 2.

The longitudinal ribs 5 are evenly spaced around the circumference at distances commensurate with the distance between the side surfaces of each longitudinal rib 5. In the cross section of the longitudinal channel 2, the height of the cross section of the longitudinal rib 5 is less than the radius of the geometric circle inscribed in the cross section of the longitudinal channel 2 with the vertices 6 of the longitudinal ribs touching 5.

One of the transverse sections (not shown in the drawing) is made with a technological hole located opposite the longitudinal channel 2 of the longitudinal section 1, in which a plug is sealed (not shown). Typically, the process hole has a transverse section located at the bottom. The longitudinal channel 2 is made with a decreasing cross-sectional area in the direction from the transverse section with the technological hole. The longitudinal channel 2 is formed during injection molding due to the use of a void former (“sword”) having a corresponding cross section. The shape of the longitudinal channel 2 described above allows the efficient use of this technology, ensuring stable quality of the manufactured cases. The longitudinal ribs 5 are solid and do not interrupt in the longitudinal direction.

The longitudinal ribs 5 on the inner surface of the longitudinal channel 2 increase the area of the inner wall of the longitudinal channel 2, washed by the heated liquid heat carrier flowing through the section of the water heating radiator, which transfers heat to the material of the casing made of silumin having high thermal conductivity. The thickening of the walls of the longitudinal channel 2 at the locations of the longitudinal ribs 5 does not significantly affect the specific heat flux due to the high order of smallness. The increase in the inner surface of the walls of the longitudinal channel 2 has a significant effect on the increase in the specific heat flux passing through the outer surface of the longitudinal section 1, which ultimately leads to an increase in the efficiency of the water heating radiator as a whole.

The section of a water heating radiator made in accordance with patent claims (water heating should be understood as the use of a liquid heat carrier in heating systems in the form of an aqueous solution with various additives known for such solutions) is made of an acceptable aluminum alloy (silumin) using known technologies. The example of the implementation of the technical solution is not exhaustive. Other embodiments are possible corresponding to the scope of patent claims.

Claims (5)

1. Section of a water heating radiator, comprising a housing made of aluminum alloy and comprising two transverse sections parallel to each other on opposite sides of the housing and having each direct channel extending between the coupling nozzles located on opposite sides of each transverse section and having each section with an inner threaded, a longitudinal section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel communicating from opposite sides n with direct channels of the transverse sections, as well as heat-dissipating ribs extending from the longitudinal section and from at least one transverse section, while the longitudinal channel is made with an inner surface having longitudinal ribs protruding into the cavity of the longitudinal channel. 2. Section according to claim 1, characterized in that each of the longitudinal ribs is described in cross section by the geometric shape of the trapezoid, facing a smaller base to the geometric center of the section of the longitudinal channel. 3. Section according to any one of paragraphs. 1 or 2, characterized in that the longitudinal ribs are evenly spaced around the circumference at distances commensurate with the distance between the side surfaces of each transverse rib, while in the cross section of the longitudinal channel, the height of the longitudinal rib section is less than the radius of the geometric circle inscribed in the cross section of the longitudinal channel with touching the vertices of the longitudinal ribs. 4. Section according to any one of paragraphs. 1 or 2, characterized in that one of the transverse sections is made with a technological hole located opposite the longitudinal channel of the longitudinal section, in which the plug is hermetically fixed, while the longitudinal channel is made with a decreasing cross-sectional area in the direction from the transverse section with the technological hole. 5. Section according to claim 3, characterized in that one of the transverse sections is made with a technological hole located opposite the longitudinal channel of the longitudinal section, in which the plug is hermetically fixed, while the longitudinal channel is made with a decreasing cross-sectional area in the direction from the transverse section with technological hole.

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