RU2139476C1 - Heating radiator - Google Patents

Abstract

FIELD: heating systems for dwellings and industrial buildings. SUBSTANCE: radiator is made in form of steel sections including heads connected by means of tubes. End surface of heads is located in one horizontal plane with connecting branch pipes and has beveled front side of edge, thus excluding formation of air pockets. EFFECT: enhanced efficiency of heat transfer; increased strength; improved design of radiator. 2 cl, 5 dwg

Description

 The invention relates to heat engineering and can be used for water heating of residential and industrial buildings.

 Known heating appliances containing sections including vertical finned tubes made of aluminum profile connected to the upper and lower manifolds also made of aluminum profile (US Pat. RF N 2059933, 1996, F 24 D 3/12).

 The disadvantage of this device is the low corrosion resistance of aluminum walls in relation to the coolant (hot water) due to the high concentration of dissolved chlorine, oxygen and other aggressive impurities in it.

 Also known are heating appliances containing sections, each of which is made of steel sheets connected to each other with the formation of upper and lower collectors communicated with each other through channels made in these places (DE, 2215491, 1973, class F 24 H 3/06).

 The disadvantage of such devices is the low reliability of the device during operation with a low-quality coolant and the restriction on the pressure of the coolant in the heating system.

 Closest to the proposed radiator is a radiator containing sections, each of which includes upper and lower heads, formed by end, side and front surfaces and interconnected by vertical tubes fixed to the heads (US Pat. Swiss N 565358, 1975).

 In the known device, all parts in contact with air are made of light metals or alloys, and the heads and tubes are lined with steel inside.

 The disadvantage of such devices is the difficulty of manufacturing and the inefficient use of thermal radiation due to the large amount of intercostal enclosed space, as well as the need to use very expensive foundry equipment.

 The aim of the invention is to increase the heat transfer efficiency of the radiator, ease of manufacture, operational reliability and the provision of modern design.

 This goal is achieved in that in a heating radiator containing sections, including each lower and upper heads, formed by end, side and front surfaces and interconnected by vertical tubes fixed to the heads, the latter are made of steel by stamping with the formation on the side surfaces connecting pipes, the upper and lower parts of which are formed on the upper and lower heads, respectively, are placed in the same horizontal plane with their end face surface, the latter is made with the bevels edged towards the front surface, and said vertical tubes are made of steel.

 The edges of the end surfaces of the heads can be beveled 1-2 degrees. Each section can have two, three, four vertical steel tubes.

 The number of tubes is due to the heat demand of the device. The tubes are connected to the holes of the heads and fixed by butt welding.

 To ensure the durability of the radiator, the wall thickness of the heads exceeds the wall thickness of the tubes.

 In FIG. 1 shows a general view of the radiator (longitudinal section).

 In FIG. 2 is a side view of 2 vertical tubes.

 In FIG. 3 is a side view when performing 4 vertical tubes.

 In FIG. 4 - head (side view) with three columns.

 In FIG. 5 - head, section AA in FIG. 4.

 1. The heating radiator contains sections, including each lower (1) and upper (2) heads, formed by end, side and front surfaces of 3.4, and 5, respectively, and interconnected by vertical tubes fixed in the holes (7) of the heads.

 The heads are made of steel by stamping with the formation on the side surfaces (4) of the connecting pipes (8), the upper and lower parts of the generators of which on the upper (2) and lower (1) heads are placed in the same horizontal plane with their end surface (3 ), the latter is made with edges beveled towards the front surface, and the said vertical tubes (6) are made of steel.

 The heating radiator operates as follows. The heating coolant enters the radiator sections through the inlet pipe (9), passes into the upper heads (2) and descends through the vertical tubes (6) into the lower heads (1), transferring heat to the outside air and cooling.

 The execution of the upper generatrix of the nozzles at the same level with the end surface (3) of the head and the execution of the end surfaces beveled allows you to avoid air bags in the upper part of the radiator, and the design of the radiator made of steel allows you to get a reliable design that is not subjected to corrosion when using a coolant with a high concentration of dissolved chlorine, oxygen and other aggressive impurities.

 The use of heads fastened with tubes allows you to get a radiator with a design that meets modern requirements.

 The absence of fins on the outer surface of the radiator and the associated enclosed space provides the most efficient heat removal from the tubular radiator due to convection and radiation.

Claims (2)

 1. A heating radiator comprising sections comprising each of the lower and upper heads, formed by end, side and front surfaces and interconnected by vertical tubes fixed to the heads, characterized in that the heads are made of steel by stamping with the formation on the side surfaces of the connecting pipes, the upper and lower parts of the generators of which on the corresponding upper and lower heads are placed in the same horizontal plane with their end surface, the last I formed with bevelled towards the front surface edges, and the said vertical tube is made of steel. 2. The heating radiator according to claim 1, characterized in that the edges of the end surfaces of the heads are beveled at 1 - 2 ^o .

Images