WO2013012359A2

WO2013012359A2 - Hot water radiator section

Info

Publication number: WO2013012359A2
Application number: PCT/RU2012/000665
Authority: WO
Inventors: Павел Эдуардович МЕЛЬНИКОВ
Original assignee: Mel Nikov Pavel Eduardovich
Priority date: 2011-07-21
Filing date: 2012-08-10
Publication date: 2013-01-24
Also published as: UA86090U; WO2013012359A3; EA022330B1; EA201300636A1; UA106171C2

Abstract

The technical result of the invention is an increase in the design variants of hot water radiator sections manufactured entirely from aluminium alloy, which are characterized by increased heat output and a highly reliable strengthened design. The body of the radiator section is manufactured from aluminium alloy with a glossy paint coat and has two transverse portions (1, 2) situated parallel to one another at opposite ends, each having a straight channel that extends between collared ducts which are situated on opposite sides of each transverse portion (1, 2), as well as a longitudinal portion (6) which connects the transverse portions (1, 2), abutting same in the middle regions thereof, and has a longitudinal channel that communicates at opposite ends with the straight channels of the transverse portions (1, 2). Two intermediate straight internal ribs (9, 10) extend from the longitudinal portion (6) in opposite directions perpendicular to the transverse portions (1, 2). A front straight external rib (11) and a rear straight external rib (12) extend in two directions from the first intermediate straight internal rib (9) and from the second intermediate straight internal rib (10) respectively, said external ribs abutting the corresponding ribs (9, 10) along the middle portions of the inside surface and forming, by means of their outside surfaces, a front and a rear flat face. The section has two central internal ribs (17), each of which has a straight portion (19) and a bent portion (20). The straight portions (19) of the central internal ribs (17) extend from the longitudinal portion (6) in opposite directions parallel to the position of the geometric axes of the transverse portions (1, 2). The straight portions (19) are at an acute angle to the corresponding portions of the front straight external rib (11), the size of which lies in a range of from 1 to 5 degrees. The bent portions (20) of the central internal ribs (17) pass along a portion of the rib (9) and end in the region of the front flat face of the rib (11).

Description

Section of a radiator of water heating

The technical solution relates to the construction, and in particular to a section of a water heating radiator, designed to assemble water heating radiators from several of these sections, connected in series with each other.

State of the art

A known section of a water heating radiator, comprising an aluminum alloy housing, which contains two transverse sections parallel to each other on opposite sides of the housing and having each straight channel extending between coupling pipes located on opposite sides of each transverse section and having each section with internal thread, as well as a longitudinal section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel communicating from opposite thoron with straight channels transverse portions (RU 2127854 C1, IPC F24H 3/06, 1999).

To ensure convection heat transfer, the radiator section housing includes:

- two intermediate straight inner ribs extending from the longitudinal section in opposite directions perpendicular to the location of the transverse sections;

- front and rear straight outer ribs, one of which extends on two sides from one intermediate straight inner rib, and the other from the second intermediate straight inner rib, and the front and rear straight outer ribs mate with the corresponding intermediate inner ribs on the middle sections of the inner surface and form the outer surfaces of the front and rear face flat surfaces of the radiator section;

- two central inner straight ribs extending from the longitudinal section of the body in opposite directions, parallel to the location of the geometric axes of the transverse sections, and not extending beyond the respective cavities between the opposite and facing sections of the front and rear straight outer ribs;

- four additional inner ribs extending from the intermediate straight inner ribs in pairs in opposite directions parallel to the location of the geometric axes of the transverse sections, and not extending beyond the corresponding cavities between the opposite and facing sections of the front and rear straight outer ribs.

In this case, two additional inner ribs adjacent to the front straight outer rib have each straight section and a bent section of shorter length. The bent sections of the additional inner ribs extending the straight sections extend along the corresponding intermediate straight inner rib and end in the area of the front front flat surface of the radiator section between the adjacent transverse section of the body and the edges of the adjacent front straight outer rib.

The water heating radiator section of this known construction has insufficient heat exchange efficiency, since it has, with the exception of the bent sections of the two additional inner ribs, only vertical ribs that do not stimulate convective heat exchange with the air flowing around the radiator. At the same time, two central inner straight ribs extending from the longitudinal section of the casing provide an increase in the loading capacity of the longitudinal section of the casing, making it possible to optimize its design taking into account the water pressure in the longitudinal channel made in it.

Also known is a section of a water heating radiator of a similar design, in which two central inner ribs have each straight section and a curved section of a shorter length, along with the same two additional inner ribs described above adjacent to the front straight outer rib having each straight plot and bent section of lesser extent. The bent sections of the central inner ribs extending the straight sections extend along the portion of the intermediate straight inner rib that is mated to the front straight outer rib and ends in the area of the front front flat surface of the radiator section between the adjacent transverse section of the body and the corresponding bent sections of the additional inner ribs (RU 75014 U 1, IPC F24H 3/02, 2008).

This known solution also has the disadvantages noted in relation to the above-described section of a water heating radiator made of a solid aluminum alloy. At the same time, in this solution, in order to optimize the heat distribution over the volume of the casing material, the longitudinal channel of the longitudinal section of the casing has an elliptical cross section elongated in the direction of the intermediate straight inner ribs, and here, two central inner ribs extending from the longitudinal section of the casing increase the load capacity a longitudinal section of the housing with a longitudinal channel made in it with a cross section in the form of an ellipse.

Known bimetallic section of a water heating radiator, including a housing with two transverse sections located parallel to opposite sides of the housing and having each direct channel passing between the coupling nozzles located on opposite sides of each transverse section, as well as a longitudinal section connecting the transverse sections and paired with them in their middle zones, which has a longitudinal channel communicating from opposite sides with straight channels of the transverse sections, while contains two intermediate straight inner ribs similar to those described above, extending from the longitudinal portion in opposite directions, front and rear straight outer ribs forming the front and rear face flat surfaces of the radiator section with outer surfaces, and central inner straight ribs extending in opposite directions within the cavities corresponding to them between opposite facing sections of the front and rear straight outer ribs, which (central inner straight ribs) are located at an acute angle to the front straight outer rib (RU 2351858 C2 , MP F24H 3/06, 2007).

In this known solution, the direct channels of the transverse sections and the longitudinal channel in the longitudinal section are defined by the cavities of steel pipes forming the steel frame of the body of the bimetallic section of the water heating radiator. The frame pipe has a circular cross section, which is not optimal for transferring heat to the aluminum alloy of the casing, which defines the shape of the casing of the radiator section with the inner steel frame. The heat transfer from heated water to the aluminum alloy of the casing is also not facilitated by the presence of a steel frame, since the thermal conductivity of steel is significantly inferior to the thermal conductivity of the aluminum alloy.

In addition, dust is collected on the inclined central inner straight ribs, despite the glossy paint used nowadays, which is usually used nowadays for sections of water heating radiators, which prevents the transfer of heat from the section of the radiator to the air flowing around it.

Inclined central inner straight ribs intersect the longitudinal section of the housing, without providing an increase in its rigidity in the longitudinal direction, which is not required in this case, since the longitudinal section of the housing is reinforced with a steel frame of the housing.

The essence of the technical solution

The technical result of this technical solution is to expand the options for the implementation of sections of a water heating radiator, made entirely of aluminum alloy, which is characterized by increased heat transfer, as well as high reliability of the reinforced structure, including with respect to the manufacture of sections of water heating radiators with a height of up to 1200 mm. This technical result is achieved by a section of a water heating radiator, which has an aluminum alloy body with a glossy paint coating, containing:

- 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;

- two central inner ribs, each of which has a straight section and a geometrically conjugated bent section of a lesser extent.

Straight sections of the central inner ribs extend from the longitudinal section of the housing in opposite directions parallel to the location of the geometric axes of the transverse sections, and not extending beyond the corresponding cavities between the opposite and facing sections of the front and rear straight outer ribs. In this case, the straight sections of the central inner ribs are located at an acute angle to the corresponding sections of the front a direct outer rib, the value of which lies in the range from 1 to 5 degrees.

The bent sections of the central inner ribs, extending straight sections from the minimum location relative to the front straight outer rib, extend along the portion of the intermediate straight inner rib that is interfaced with the front straight outer rib and ends in the area of the front front flat surface of the radiator section between the adjacent transverse section of the body and the edge of the front straight outer rib.

In the best embodiment, the housing may be provided with an additional two inner ribs, each of which also has a straight section and a bent section of lesser extent.

The straight sections of the additional inner ribs extend from the intermediate straight inner rib mating with the rear straight outer rib, in opposite directions parallel to the location of the geometric axes of the transverse sections, and not extending beyond their respective cavities between the opposite and front straight outer ribs .

The straight sections of the additional inner ribs are also located at an acute angle to the corresponding sections of the front straight outer rib, the value of which lies in the range from 1 to 5 degrees. The bent sections of the additional inner ribs, extending straight sections from the minimum location relative to the front straight outer rib, extend along the longitudinal section of the body, the portion of the intermediate straight inner rib that is interfaced with the front straight outer rib, and end in the area of the front front flat surface of the radiator section between adjacent to them the transverse section of the body and the edges of the bent sections of the Central inner ribs.

The location of the bent sections and the Central, and additional internal ribs at an angle lying in the specified range, eliminates the accumulation of dust on their surfaces, which are coated with a glossy paintwork, which ensures reliable heat transfer from the section of the radiator for water heating flowing around its air. This ensures that the direct section of the central inner rib is located on the longitudinal section of the casing, which gives high reliability and long service life of the section of the water heating radiator made of solid aluminum alloy, since cracking and destruction of the longitudinal section of the casing under the influence of water pressure in the longitudinal channel along the longitudinal section are excluded corps. These results can be realized for sections of a water heating radiator with a distance between the axes of the coupling nozzles of the transverse sections from 300 to 900 mm.

It is possible that the straight sections of the additional inner ribs are located at an acute angle to the corresponding sections of the front straight outer rib, the value of which exceeds the value of the same angle of inclination of the straight sections of the central inner ribs. However, this is one of the options that differs from the case of parallel arrangement of these straight sections, as well as from the possible case when the straight sections of additional inner ribs are at an acute angle to the corresponding sections of the front straight outer rib, the value of which is less than the same angle of inclination of the straight sections of the central inner ribs.

In the best embodiment, the longitudinal channel of the longitudinal section of the housing has a cross section elongated in the direction of the intermediate straight inner ribs. The longitudinal channel of the longitudinal section of the housing may have a cross section in the form of an oval or in the form of an ellipse. In this case, the above-mentioned technical results can be realized for sections of a water heating radiator with a distance between the axes of the coupling nozzles of the upper and lower transverse sections up to 1200 mm. In this case, it is easy to achieve the greatest strength of the water radiator section heating, when the ends of the straight sections located opposite the side of their interface with the corresponding bent sections lie in the transverse direction in the center of the longitudinal section of the housing. As noted above, the achievement of technical results can be achieved for radiators with a distance between the axes of the coupling nozzles of the upper and lower transverse sections in the range from 300 to 1200 mm. Moreover, technical results can be provided for the most common sizes of water heating radiators, when the distance between the axes of the coupling nozzles of the transverse sections lies in the range from 450 to 900 mm. An embodiment can be easily selected for the case of the width of the longitudinal channel of the longitudinal section of the housing in the direction of the arrangement of the intermediate straight inner ribs.

In all of the above cases, when implementing the technical solution, the transverse section of the housing located on the side opposite to the location of the transverse section of the housing adjacent to the bent sections of the central inner ribs can be made with a lower sleeve pipe having a section with an internal thread and lying on the axis of the longitudinal channel of the longitudinal body section. The longitudinal channel in the area of interface with the direct channel of the transverse section of the housing having the lower coupling pipe is made with an annular groove with a cylindrical lateral surface facing the axis. This option allows you to install the bottom of the elongated foot for supplying heated water from below and directly into the longitudinal channel of the longitudinal section of the casing and further to the upper transverse section of the casing, thereby maximally heating the section of the water heating radiator, transferring the hottest water to the heat transfer section to the inclined sections of the central and additional inner ribs. Implementation of a technical solution

The feasibility of a technical solution is confirmed by a specific example of a radiator section water heating, which is illustrated with graphic materials.

Figure 1 shows a section of a radiator of water heating, front view; figure 2 is a side view; Fig. 3 is a rear view; figure 4 is a longitudinal section in side view.

Figure 5 shows a cross section of the upper part of the radiator section.

Figures 6, 7 and 8 show local sections of a part of a section of a water heating radiator in the zone of location of the lower coupling pipe, in which are installed a blind plug, a through plug and an elongated foot, a longitudinal section of which is shown in Fig. 9.

As illustrated by the graphic materials, the section of the water heating radiator has an aluminum alloy body with a glossy paint coating (not indicated in the drawings), made on the entire outer surface of the body, which has two transverse sections 1 and 2 located parallel to opposite sides of the body and each a direct channel 3 (figure 4) passing between the coupling pipes 4 located on opposite sides of each transverse section 1, 2 and having each section 5 with an internal thread, and akzhe longitudinal portion 6 connecting transverse sections 1 and 2 and conjugated with them in their middle zones 7 which has a longitudinal channel 8 communicating with opposite sides of straight channels 3 with transverse sections 1, 2.

The housing is made with two intermediate straight inner ribs 9, 10 (Fig. 5), extending from the longitudinal section 6 in opposite directions, perpendicular to the arrangement of the transverse sections 1, 2. On both sides of one intermediate straight inner rib 9, and similarly from the second intermediate direct inner ribs 10 depart, respectively, the front 1 1 and rear 12 straight outer ribs. The front 1 1 and rear 12 straight outer ribs mate with the corresponding intermediate inner ribs 9, 10 in the middle sections 13 of the inner surfaces and form the outer surfaces, respectively, of the front 14 and rear 15 front flat surfaces of the radiator section, and the front front flat surface 14 is narrower than the rear front flat surface 15 (different widths of the front 1 1 and rear 12 straight outer ribs).

The housing has two central inner ribs 17, 18 (FIGS. 2, 5), each of which has a straight section 19 (FIG. 2) and a bent section 20 of a shorter length geometrically conjugated with it.

Straight sections 19 of the central inner ribs 17, 18 extend from the longitudinal section 6 of the body in opposite directions parallel to the location of the geometric axes of the transverse sections 1, 2, and not extending beyond the respective cavities 21, 22 (Fig. 5) between facing towards each other sections 23, 24 of the front 1 1 and rear 12 straight outer ribs. The straight sections 19 of the central inner ribs 17, 18 are located at an acute angle to the corresponding sections 23, 25 (Fig. 5) of the front straight outer rib 1 1, the magnitude of which in this example is 3.5 degrees, but can, as noted above, lie in the range of 1 to 5 degrees.

The bent sections 20 of the central inner ribs 17, 18, continuing the straight sections 19 from the minimum location relative to the front straight outer rib 1 1, pass along the portion of the intermediate straight inner rib 9, which is interfaced with the front straight outer rib 1 1, and ends in the front front flat surface 14 between adjacent transverse section 2 of the housing and the edge 26 (figure 2) of the front straight outer rib 1 1.

The housing has two additional inner ribs 27, 28 (FIGS. 2, 5), each of which also has a straight section 29 and a curved section 30 of shorter length. The straight sections 29 of the additional inner ribs 27, 28 extend from the intermediate straight inner rib 10 mating with the rear straight outer rib 15 in opposite directions parallel to the arrangement geometric axes of the transverse sections 1, 2, and not extending beyond the corresponding cavities 21, 22 between the opposite facing sections 23, 24 of the front 1 1 and rear 12 straight outer ribs. The straight sections 29 of the additional inner ribs 27, 28 are also located at an acute angle to the corresponding sections 23, 25 of the front straight outer rib 1 1, the value of which in this example is 5 degrees, but can, as noted above, lie in the range from 1 to 5 degrees.

The bent sections 30 of the additional inner ribs 27, 28, extending the straight sections 29 from the minimum location relative to the front straight outer rib 1 1, pass along the longitudinal section 6, section 31 (figure 2) of the intermediate straight inner rib 9, which is paired with the front straight the outer edge 1 1, and end in the area of the front front flat surface 14 between adjacent transverse section 2 and the edges 32 (figure 2) of the bent sections 20 of the Central inner ribs 17, 18.

The longitudinal channel 8 of the longitudinal section 6 has an elliptical cross section elongated in the direction of the intermediate straight inner ribs 9, 10 (FIG. 5). Other shapes of the cross section of the longitudinal channel 8 are possible, including in the form of the oval mentioned above.

The transverse section 1 of the housing is made with a lower coupling pipe 32 (FIGS. 2, 6, 7, 8) having a section 33 with internal thread and lying on the axis of the longitudinal channel 8 of the longitudinal section 6. A blind plug 34 can be screwed into the lower coupling pipe 32 (Fig.6), a through plug 35 (Fig.7), allowing for a lower water supply.

On Fig shows a variant when the longitudinal channel 8 in the area of interface with the direct channel 36 of the transverse section 1 is made with an annular groove 37 with the lateral cylindrical surface facing the axis. In this case, an elongated foot 38 is installed in the lower coupling pipe 32 (Fig. 8).

The elongated foot 38 is made with a through hole 39 (Fig. 9), a portion of the external thread 40 and an annular groove 41, in which there is an o-ring 42 (Fig. 8), mating with the lateral cylindrical surface of the annular groove 37. In this case, water is supplied from the bottom of the radiator section, first directly into the longitudinal channel 8.

The water heating radiator section, made in accordance with patent claims, is made of an acceptable aluminum alloy (silumin) using known casting technologies. The example of the implementation of the technical solution is not exhaustive. Other embodiments are possible corresponding to the scope of patent claims, the possibility of which is mentioned above when describing the essence of this technical solution.

Claims

Claim

1. Section of a radiator for water heating, comprising a housing made of aluminum alloy with a glossy paint and varnish coating, containing two transverse sections located parallel to opposite sides of the body and having each direct channel passing between the coupling pipes located on opposite sides of each transverse section and having each section with internal thread, a longitudinal section connecting the transverse sections and mating with them in their middle zones, which has a longitudinal channel in communication with opposite sides with straight channels of the transverse sections, two intermediate straight inner ribs extending from the longitudinal section in opposite directions, perpendicular to the location of the transverse sections, the front and rear straight outer ribs, one of which extends from two sides from one intermediate straight inner rib - from the second intermediate straight inner rib, the front and rear straight outer ribs mating with the corresponding intermediate inner ribs in the middle sections of the inner surface and form the outer surfaces of the front and rear face flat surfaces of the radiator section, two central inner ribs, each of which has a straight section and a geometrically conjugated bent section of shorter length, straight sections extend from the longitudinal section of the body in opposite directions parallel to the location the geometric axes of the transverse sections, and not extending beyond the corresponding cavities between the sections facing each other the front and rear straight outer ribs, while the straight sections of the central inner ribs are at an acute angle to the corresponding sections of the front straight outer rib, the value of which lies in the range from 1 to 5 degrees, and the bent sections of the central inner ribs, continuing straight sections from the side minimum location relative to the front straight outer rib, pass along the site intermediate straight inner rib, which is associated with the front straight outer rib, and end in the area of the front front flat surface of the radiator section between adjacent transverse section of the body and the edge of the front straight outer rib.

2. The section according to claim 1, characterized in that the casing is equipped with two additional inner ribs, each of which has a straight section and a bent section of shorter length, straight sections depart from the intermediate direct inner rib connected to the rear straight outer rib in opposite directions parallel to the location of the geometric axes of the transverse sections, and not extending beyond the corresponding cavities between the opposite facing sections of the front and rear straight outer ribs, p In this case, the straight sections of the additional inner ribs are located at an acute angle to the corresponding sections of the front straight outer rib, the value of which lies in the range from 1 to 5 degrees and exceeds the same angle of inclination of the straight sections of the central inner ribs, and the bent sections of the additional inner ribs, continuing straight sections from the side of the minimum location relative to the front straight outer rib, pass along the longitudinal section of the housing, the section of the intermediate straight in morning rib which is associated with the front right outer edge and end in the front zone of the front flat surface of the radiator sections between adjacent thereto transverse edges of the body portion and the bent central portions of internal edges.

3. The section according to claim 2, characterized in that the straight sections of the additional inner ribs are located at an acute angle to the corresponding sections of the front straight outer rib, the value of which exceeds the value of the same angle of inclination of the straight sections of the central inner ribs.

4. Section according to claim 1, characterized in that the longitudinal channel of the longitudinal section of the housing has a cross section elongated in the direction of the intermediate straight inner ribs.

5. The section according to claim 4, characterized in that the longitudinal channel of the longitudinal section of the housing has a cross section in the form of an oval or ellipse.

6. Section according to claims 4 or 5, characterized in that the ends of the straight sections located opposite the side of their interface with the corresponding bent sections lie in the transverse direction in the center of the longitudinal section of the body.

7. Section according to claims 4 or 5, characterized in that the distance between the axes of the coupling nozzles of the transverse section lies in the range from 300 to 1200 mm.

8. Section according to claims 4 or 5, characterized in that the distance between the axes of the coupling nozzles of the transverse section lies in the range from 450 to 900 mm.

9. Section according to claims 1, 2, 3, 4 or 5, characterized in that the transverse section of the housing located on the side opposite to the location of the transverse section of the housing adjacent to the bent sections of the central inner ribs is made with a lower coupling pipe having a section with internal thread and lying on the axis of the longitudinal channel of the longitudinal section of the housing, while the longitudinal channel in the area of interface with the direct channel of the transverse section of the housing having a lower coupling pipe is made with an annular groove facing the axis of the sides second cylindrical surface.