RU92941U1 - RADIATOR SECTION FOR WATER HEATING SYSTEM - Google Patents

Abstract

 1. Section of a radiator for a water heating system, comprising at least one collector for passage of a heat carrier, a heat exchange element having side panels located along the longitudinal axis of the collector, and at least one row of ribs located between the side panels on both sides of the collector, adjacent to the collector, characterized in that for each collector the sides adjacent to the rows of ribs are made flat, and each row of ribs is made in a wavy shape with straightened vertices of aluminum foil adjoining straightened vertices to the collector and to the side panels. ! 2. The radiator section according to claim 1, characterized in that the side panels, the manifold and the rows of ribs are fastened together.

Description

The utility model relates to the field of heating technology, in particular to horizontal floor heating radiators used in water central heating systems of residential, public and industrial buildings.

Known sectional radiator, consisting of sections including vertical pipelines for the passage of coolant through the section of the radiator and horizontal pipelines for the passage of coolant between the sections of the radiator, a heat exchange element made integrally with these channels from an aluminum alloy by injection molding and equipped with means to increase the heat transfer area in in the form of ribs (RF patent No. 2127854, IPC F24H 3/06, publ. March 20, 1999).

The well-known radiator has low mechanical strength due to the use of cast aluminum alloys, as well as large overall dimensions.

Known section of the radiator for water central heating systems, including at least one pipe for passage of the heat carrier through the section of the radiator, at least two pipes for passage of the heat carrier between the sections of the radiator, at least one heat-exchange element made of aluminum alloy with means for increasing the heat transfer area, and includes two main ribs located symmetrically relative to the pipeline for the passage of the coolant through the radiator section in the plane, perpendi the plain plane of the arrangement of pipelines for the passage of coolant between the sections of the radiator, two side ribs of the same height located on one side relative to the plane of the main ribs on the edges of these ribs and perpendicular to them, two central ribs of the same height located on one side relative to the plane of the main ribs parallel to each other friend and symmetrically with respect to the longitudinal axis of the radiator section, and three rows of studs having a hyperbolic, cylindrical or conical shape (RF patent No. 21 80423, MGZH F24H 3/06, publ. 03/10/2002).

The known section of the radiator has large overall dimensions and a complex structure, and also does not provide a high heat transfer rate.

Closest to the technical nature of the claimed technical solution is a section of a radiator for a water heating system, comprising a collector for passage of the heat carrier through the section and a heat exchange element having side panels located along the longitudinal axis of the collector, passing into the shelves perpendicular to them inside the section with the formation of a longitudinal gap , and ribs located between the side panels to increase the heat transfer area, including two rows of main ribs and an additional rib, located e along the collector along its axis, having a T-shaped profile, the horizontal component of which extends along the longitudinal slit with a gap relative to the inner surfaces of the shelves perpendicular to the side panels, with each row of main ribs located along the side panels between their inner walls and the vertical component of the additional ribs symmetrical to the longitudinal axis of the collector, and made in the form of corrugations with a trapezoidal cross section, large bases facing the vertical component of the T-image profile (certificate for utility model No. 86710, IPC F24H 1/00, October 10, 2009).

A disadvantage of the known section of the radiator is the design complexity, material consumption, as well as the complexity of its periodic maintenance when washing branched channels.

The task to which the proposed utility model is directed is to simplify the design, increase the heat transfer intensity, and also reduce the overall dimensions.

The technical result is achieved in that the radiator section for a water heating system, comprising at least one collector for passage of a heat carrier, a heat exchange element having side panels located along the longitudinal axis of the collector, and located between the side panels on both sides of the collector at least one row of ribs adjacent to the collector, according to the claimed utility model, for each collector, the sides adjacent to the rows of ribs are made flat, and each row of ribs is made of a wave shaped with straightened tops of aluminum foil, adjacent straightened tops to the collector and to the side panels.

In addition, the side panels, rows of ribs and the manifold are fastened together.

Due to the implementation of the rows of ribs made of aluminum foil, the mass of the radiator section and its overall dimensions are reduced. In addition, the execution of the collector sides flat on the contact area with the rows of ribs, as well as the shape of the ribs in a wavy shape with straightened vertices, increases the heat transfer area and reduces the overall dimensions of the radiator. Rows of ribs of this configuration, adjacent to each other with straightened vertices, form a honeycomb structure, which is characterized by a significantly increased heat transfer area. Using simple parts and technological blanks, such as a pipe with straight sides at the point of contact with the rows of fins for manufacturing a collector and aluminum foil for manufacturing rows of fins, instead of casting, instead of casting, it is possible to simplify the design and reduce its cost. Bonding together side panels, rows of ribs and a collector improves their contact with each other, helping to improve heat transfer.

The presence of significant features distinctive from the prototype allows us to recognize the claimed utility model as new.

Figure 1 shows a section of a radiator having one collector, General view; figure 2 is a section aa in figure 1; figure 3 is a section of a radiator with two collectors.

The radiator section for a water heating system contains a collector 1 for passing the coolant through the section, front 2 and rear 3 panels located along the longitudinal axis of the collector 1, and located on both sides of the collector 1 in four rows of ribs 4, having a wavy shape with straightened vertices and made made of aluminum foil located along the axis of the collector 1. The collector 1 at the point of contact with the rows of ribs 4 has flat walls to which the rows of ribs 4 are adjacent with their straightened vertices, as well as to the front 2 and rear 3 pa firs. In order to prevent people from burning on the front surface 2, there is a gasket 5, for example, of cardboard. If there is one collector 1 in the section of the radiator to prevent deformation of the rows of ribs 4 of aluminum foil, there are stiffeners 6 (Fig. 1). If there are two collectors 1 in the radiator section, stiffeners 6 are not required (figure 3). Between adjacent rows of ribs 4 there are gaskets 7 made in the form of flat strips of aluminum foil to facilitate the assembly of the radiator section. Panels 2 and 3, gasket 5, gaskets 7, rows of ribs 4 and manifold 1 are fastened together using bolts 9 and nuts 8.

A hot coolant - water, enters the collector 1, heating the heat exchange element. Due to convection, the air entering the heat exchange element and passing through the honeycomb structure of aluminum foil formed by rows of ribs 3 having a significantly increased heat transfer area is heated and goes out through the cells outside the heatsink section, i.e. increases the efficiency of heat transfer while reducing the overall dimensions of the radiator section.

The high heat transfer rate due to the use of the claimed configuration of the heat exchange element is confirmed experimentally.

The inventive product can be used for heating various enclosed spaces (residential buildings, offices, trade and exhibition areas, etc.) and is intended for use in water heating systems with a coolant temperature of up to + 105 ° C.

Due to the small overall dimensions of the claimed design can be used as a plinth radiator.

Claims (2)

1. Section of a radiator for a water heating system, comprising at least one collector for passage of a heat carrier, a heat exchange element having side panels located along the longitudinal axis of the collector, and at least one row of ribs located between the side panels on both sides of the collector, adjacent to the collector, characterized in that for each collector the sides adjacent to the rows of ribs are made flat, and each row of ribs is made in a wavy shape with straightened vertices of aluminum foil adjoining straightened vertices to the collector and to the side panels. 2. The radiator section according to claim 1, characterized in that the side panels, the manifold and the rows of ribs are fastened together.