RU61397U1 - CONVECTOR FOR WATER HEATING SYSTEM AND CONVECTOR SECTION - Google Patents

Abstract

The utility model relates to the field of heating equipment, in particular to horizontal floor heating radiators. The convector 1 consists, for example, of two sections 2, mounted on the mounting elements 3. The convector section contains a heat exchange element 6 having longitudinal side panels 7 and ribs located between them to increase the area of heat transfer. The section has two collectors 4 for the passage of the coolant through the section, which are connected to the collectors 5 for the supply and, accordingly, the removal of the coolant. The installation elements are made in the form of hollow legs 3 having a diamond shape. The collectors 5 are located along the longitudinal axis of the legs 3 in the wide part of the legs, while their longitudinal axes are perpendicular to the longitudinal axes of the collectors 4 for the coolant to pass through the section. One side of the leg 3 is adjacent to the end side of the convector and attached to it, and at the bottom of the top of the leg 3 there is a flange 16 with holes 17 for attaching the convector, for example, to the floor. The heat exchange element 6 has longitudinal side panels 7 on the upper side turning into perpendicular shelves 11 to the inside of the section with the formation of a longitudinal gap. and ribs located between the side panels to increase the heat transfer area, including the main 8 and additional rib having a T-shaped profile, the horizontal component 10 of which runs along the longitudinal slit with a gap relative to the inner surfaces of the shelves 11, perpendicular to the side panels 7, the Section has two collectors 4 for the passage of the coolant through the section located at the lower base of the side panels 7 on their inner side and associated with them. The main rib 8 is located along the longitudinal axes of the collectors 4, connects them and mates with them, while along the entire length of the main rib

8 through holes 12 are made. The vertical component 9 of the T-shaped profile of the additional rib is connected to the main rib 8 along its longitudinal axis, and its horizontal component 10 is parallel to it. The collectors 5 have two openings with nozzles 15 for tight connection to two collectors 4 for the passage of coolant through the section. The presence of at least two collectors 4 for the passage of the coolant through one or more sections of the convector and the parallel direction of the coolant along them allows you to more evenly distribute the heat in the section, to increase the heat transfer intensity. Due to the implementation of the heat exchange element 6 in the form of a system of branched ribs of a certain configuration and size, the heat transfer efficiency is increased while the overall dimensions are reduced. 2 n.p.f.p.m., 6 z.p.f.p.m., 3 fig.

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 heating radiator-convector (application No. 2002114003, IPC F 24 H 3/00, publ. 05/30/2002) containing a pipe for a heat carrier with heat-exchange elements mounted on it, made in the form of autonomous, finned heat pipes operating in a closed evaporative condensation cycle, the base of the heat pipes are located inside the pipe for the coolant, and the inner region of the pipe for the coolant in the place of fastening of the heat exchange elements has fins and structural elements to create a vortex coolant flow.

Known sectional radiator (patent RU No. 2127854, IPC F 24 H 3/06, publ. 20.03.1999), consisting of sections including vertical pipelines for the passage of coolant through the radiator section and horizontal pipelines for the passage of coolant between the radiator sections, heat exchange element, made at the same time with the indicated channels of aluminum alloy by injection molding and equipped with means for increasing the heat transfer area in the form of ribs. The radiator has low mechanical strength due to the use of cast aluminum alloys, while hydraulic shocks associated with filling and draining the coolant in the heating system during commissioning, repair and seasonal maintenance work quickly disable individual radiator elements.

Known section of the radiator for water central heating systems (patent RU No. 2180423, IPC F 24 H 3/06, publ. 10.03.2002), comprising at least one pipe for the passage of the coolant through the radiator section, at least two pipes for passage of the coolant between the sections of the radiator, at least one heat exchange element made of aluminum alloy with means for increasing the heat transfer area, which may include at least one fin. The heat exchange element includes two main ribs located symmetrically relative to the pipeline for the passage of the coolant through the radiator section in a plane perpendicular to the plane of the pipelines for the passage of the coolant between the radiator sections, two side ribs of the same height located on one side relative to the plane of the main ribs at 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 one another and symmetrically relative to the longitudinal axis of the section of the radiator, while between the side edges and central, symmetrically relative to the longitudinal axis of the radiator sections arranged three rows of spikes. The radiator does not provide a high heat transfer rate and has large dimensions and a complex structure.

Known convector for a water heating system and a convector section (patent RU No. 53759, IPC F 24 H 3/06, publ. 05.27.2006), closest to the claimed utility model and adopted as a prototype. A convector for water heating systems consists of at least two sections, each of which has a collector for the heat carrier to pass through the section and a heat exchange element having side panels and ribs located between them to increase the heat transfer area, installation elements. Side panels are located along the longitudinal axis of the collector for the passage of coolant through the section,

the collector output of each previous section is connected to the collector input of the next section by a connecting collector. The convector section has longitudinal side panels from the upper side turning into perpendicular shelves into the sections with the formation of a longitudinal slit, and ribs located between the side panels to increase the heat transfer area, including a main and additional rib having a T-shaped profile, the horizontal component of which runs along a longitudinal slit with a gap relative to the inner surfaces of the shelves perpendicular to the side panels. The installation elements located on the end sides of the section are made in the form of legs, in the upper part of which there are holes for installing them on collectors interconnected by a connecting manifold. In each section, one collector is used to pass the coolant through the section, which does not ensure uniform distribution of heat. To ensure high heat transfer, it is necessary to use at least two sections simultaneously, which leads to large dimensions of the entire convector.

The technical result, the achievement of which is proposed by the proposed utility model, is to increase the intensity of heat transfer, reducing the mass and dimensions of the convector.

The technical result is achieved in that in the convector for water heating systems, consisting of at least one section containing a heat exchange element having longitudinal side panels and ribs located between them to increase the heat transfer area, installation elements, the section is new has at least two collectors for the passage of the coolant through the section, which are connected to the collector of the coolant supply on the one side of the convector, and to the collector of the coolant discharge on the other hand.

The installation elements are located at the inlet and outlet of the convector, made in the form of hollow legs, inside of which there are collectors, respectively, of the inlet and outlet of the coolant, the longitudinal axes of which are perpendicular to the longitudinal axes of the collectors for the coolant to pass through the section. The legs are diamond-shaped, adjacent to the end side of the convector with one face and attached to it, and at their lower peaks there are flanges with holes for attaching the convector, supply headers and, accordingly, heat transfer pipes are located in the wide part of the legs.

In a convector section containing a heat exchange element having longitudinal side panels on the upper side turning into perpendicular shelves inside the section with the formation of a longitudinal slit and ribs located between the side panels to increase the heat transfer area, including the main and additional rib having a T-shaped profile, the horizontal component of which runs along the longitudinal slit with a gap relative to the inner surfaces of the shelves perpendicular to the side panels, new is that the section has at least two collectors for the passage of the coolant through the section, located at the lower base of the side panels on their inner side and mated with them, the main rib is located along the longitudinal axes of the collectors, connects them and mates with them, while along the entire length the main rib has through holes, the vertical component of the T-shaped profile of the additional rib is connected to the main rib along its longitudinal axis, and its horizontal component is parallel to it.

The width of the horizontal component of the T-shaped profile of the additional rib is greater than the width of the longitudinal slit formed by shelves perpendicular to the side panels.

The collectors, the inlet to the section and the removal of the coolant from it have at least two openings with nozzles for tight connection to at least two collectors for the passage of the coolant through the section.

In the convector section, the longitudinal side panels are conjugated with shelves perpendicular to them along a radius of 8 mm with the formation of a longitudinal slit 25 mm wide, the side panels and the main rib are coupled to the collectors for the coolant to pass through the section along the radii of 1.3 and 2.5 mm, respectively , the inner diameter of the collectors for the coolant to pass through the section is 13 mm, the thickness of their walls is 3.0 mm, the thickness of the main rib, the vertical and horizontal components of the T-shaped profile of the additional rib is 2.0 mm, 1.3, respectively m, and 1.0 mm, and the width of the horizontal component of the T-shaped profile of the additional rib is 30 mm, the size of the gap between it and the shelves perpendicular to the side panels is 10 mm, while the width, height of the section and the distance from the main rib to the horizontal component T -shaped profile of the additional rib equal, respectively, 64 mm, 70 mm and 59.7 mm.

The side panels at the points of interface with the collectors for the passage of the coolant through the section have technological thickenings.

The essence of the utility model is illustrated in figure 1 - figure 3, where:

Figure 1 - General view of a convector for water heating.

Figa - enlarged view A of Fig.1.

Figure 2 is a cross section of a heat exchange element of the section.

Figure 3 - installation element (leg).

Here: 1 - convector; 2 - convector section; 3 - installation elements of the convector (legs); 4 - collectors for the passage of coolant through the convector section; 5 - collectors for the supply and, accordingly, the removal of coolant; 6 - heat exchange element; 7 - side panels; 8 - the main rib; 9 - vertical component of the additional ribs;

10 - horizontal component of the additional ribs; 11 - shelves perpendicular to the side ribs 7; 12 - through holes in the main rib; 13 - technological thickening; 14 - stiffening ribs legs 3; 15 - nozzles for tight connection with collectors 5; 16 - flanges for mounting the convector; 17 - holes for mounting the convector.

The convector 1 for water heating systems (Fig. 1) is made horizontal, floor-mounted, consists, for example, of two sections 2, mounted on mounting elements - legs 3.

The convector section contains a heat exchange element 6 (Fig. 2) having longitudinal side panels 7 and ribs located between them to increase the heat transfer area. The section has two collectors 4 for the passage of the coolant through the section, which are connected to the collectors 5 for the supply and, accordingly, the removal of the coolant.

Installation elements (figure 3), located at its entrance and exit, made in the form of hollow legs 3 diamond-shaped. The collectors 5 of the inlet and, accordingly, the removal of the coolant are located along the longitudinal axis of the legs 3 in the wide part of the legs. The longitudinal axes of the collectors 5 are perpendicular to the longitudinal axes of the collectors 4 for the coolant to pass through the section.

The leg 3 adjoins with one face to the end side of the convector and is attached to it, and at the lower top of the leg 3 there is a flange 16 with holes 17 for attaching the convector, for example, to the floor. To strengthen the structure at the bottom of each leg has a stiffener 14.

The heat exchange element 6 has longitudinal side panels 7 from the upper side turning into perpendicular shelves 11 into the section with the formation of a longitudinal slit and ribs located between the side panels to increase the heat transfer area, including the main 8 and additional rib having a T-shaped profile, horizontal component 10 which runs along

a longitudinal slit with a gap relative to the inner surfaces of the shelves 11, perpendicular to the side panels 7. The section has two collectors 4 for passage of the coolant through the section located at the lower base of the side panels 7 on their inner side and mating with them. The main rib 8 is located along the longitudinal axes of the collectors 4, connects them and mates with them, while through holes 12 are made along the entire length of the main rib 8. The vertical component 9 of the T-shaped profile of the additional rib is connected to the main rib 8 along its longitudinal axis, and its horizontal component 10 is parallel to it.

The width of the horizontal component 10 of the T-shaped profile of the additional rib is greater than the width of the longitudinal slit formed by the shelves 11, perpendicular to the side panels 7.

The collectors 5, the inlet to the section and the removal of coolant from it have two holes with nozzles 15 (figa) for a tight connection to two collectors 4 for the passage of coolant through the section.

In the convector section, the longitudinal side panels 7 are conjugated with flanges 11 perpendicular to them along a radius of 8 mm to form a longitudinal slit 25 mm wide, the side panels 7 and the main rib 8 are connected to the collectors 4 for the coolant to pass through the section along the radii, respectively, of 1.3 and 2.5 mm, the inner diameter of the collectors 4 for the passage of the coolant through the section is 13 mm, the thickness of their walls is 3.0 mm, the thickness of the main rib 8, vertical 9 and horizontal 10 components of the T-shaped profile of the additional rib is equal, respectively about, 2.0 mm, 1.3 mm, and 1.0 mm, and the width of the horizontal component of the 10 T-shaped profile of the additional rib is 30 mm, the size of the gap between it and the shelves 11 perpendicular to the side panels is 10 mm, while the width , section height and distance from the main rib 8 to the horizontal component 10 of the T-shaped

the profile of the additional rib is equal to 64 mm, 70 mm and 59.7 mm, respectively.

The side panels 7 at the interface with the collectors 4 for the passage of the coolant through the section have technological thickenings 13 to increase the structural strength.

The hot heat carrier - water enters the collectors 4, heating the heat exchange element 6. Due to convection, the air entering the heat exchange element 6 through the holes 12 in the main ribs 8 is heated and through the gap between the horizontal component 10 of the additional rib and the inner surfaces of the shelves 11 exits through the slot between these shelves. The presence of at least two collectors 4 for the passage of the coolant through one or more sections of the convector and the parallel direction of the coolant along them allows you to more evenly distribute the heat in the section, to increase the heat transfer intensity.

Due to the implementation of the heat exchange element 6 in the form of a system of branched ribs of a certain configuration and size, the heat transfer efficiency is increased while the overall dimensions are reduced. The implementation of the horizontal component 10 of the T-shaped profile with a width greater than the width of the longitudinal slit increases the reliability and efficiency of the convector, by preventing contamination of its inner surface. The horizontal location of the convector allows you to conveniently position it depending on the overall dimensions of the room to be heated and the specified conditions for its heating

The location of the collectors 5 of the inlet and outlet of the coolant inside the installation elements - legs 3, as well as the configuration of the legs 3, make the convector more compact and convenient to use.

Due to the implementation of the heat exchange element 6 in the form of a system of branched ribs of a certain configuration and size, the heat exchange surface increases, which leads to an increase in heat

flow from it and increase the heat transfer intensity while reducing overall dimensions. In addition, a clear geometric configuration of the fins allows you to simplify the design of the heat exchange surface and, therefore, to simplify the manufacturing technology of the radiator, which will reduce the cost of manufacturing the radiator.

The configuration of the heat exchange element 6 and the dimensions of the ribs are determined by calculation and confirmed experimentally as a result of research work between Kazan State Technical University. A.N. Tupolev and LLC “Research and Production Firm“ Energy and Efficiency ”, Kazan, where production for the production of heating radiators for heating various enclosed spaces (residential buildings, offices, trade and exhibition areas, etc.) is prepared . This product is designed to work in water heating systems with a coolant temperature of up to + 105 ° C.

Claims (8)

1. Convector for a water heating system, consisting of at least one section containing a heat exchange element having longitudinal side panels and ribs located between them to increase the heat transfer area, installation elements, characterized in that the section has at least two collectors for the passage of the coolant through the section, which are connected to the collector of the coolant supply on the one side of the convector, and to the collector of the coolant drain on the other hand. 2. The convector according to claim 1, characterized in that the installation elements are located at its inlet and outlet, made in the form of hollow legs, collectors are located inside them, respectively, of the coolant inlet and outlet, the longitudinal axis of which is located along the longitudinal axis of the legs and perpendicular to the longitudinal the axes of the collectors for the passage of the coolant through the section. 3. The convector according to claim 1 or 2, characterized in that the legs are diamond-shaped, one face adjacent to the end side of the convector and attached to it, and at their lower vertices there are flanges with holes for mounting the convector, supply headers and, accordingly, heat transfer fluids are located in the wide part of the legs. 4. A convector section containing a heat exchange element having longitudinal side panels on the upper side turning into perpendicular shelves inside the section with the formation of a longitudinal slit and ribs located between the side panels to increase the heat transfer area, including the main and additional rib having a T-shaped profile, the horizontal component of which runs along the longitudinal slit with a gap relative to the inner surfaces of the shelves perpendicular to the side panels, characterized in that sec The section has at least two collectors for the coolant to pass through the section, located at the lower base of the side panels on their inner side and mated with them, the main rib is located along the longitudinal axes of the collectors, connects them and mates with them, while along the entire length the main rib has through holes, the vertical component of the T-shaped profile of the additional rib is connected to the main rib along its longitudinal axis, and the horizontal component is parallel to it. 5. The convector section according to claim 4, characterized in that the width of the horizontal component of the T-shaped profile of the additional rib is greater than the width of the longitudinal slit formed by shelves perpendicular to the side panels. 6. The convector section according to claim 4, characterized in that the collectors for supplying and removing coolant from the section have at least two openings with nozzles for tight connection to at least two collectors for the coolant to pass through the section. 7. The convector section according to claim 4 or 5, characterized in that the side panels are paired with shelves perpendicular to them along a radius of 8 mm with the formation of a longitudinal slit 25 mm wide, the side panels and the main rib are paired with collectors for passage of the coolant through the section along the radii 1.3 and 2.5 mm, respectively, the inner diameter of the collectors for the coolant to pass through the section is 13 mm, their wall thickness is 3.0 mm, the thickness of the main rib, vertical and horizontal components of the T-shaped profile of the additional rib is equal to accordingly, 2.0, 1.3 and 1.0 mm, and the width of the horizontal component of the T-shaped profile of the additional rib is 30 mm, the size of the gap between it and the shelves perpendicular to the side panels is 10 mm, while the width, height of the section and the distance from the main rib to the horizontal component of the T-shaped profile of the additional rib is 64, 70 and 59.7 mm, respectively. 8. The convector section according to claim 4, characterized in that the side panels at the interfaces with the collectors for the passage of the coolant through the section have technological thickenings.