RU93954U1 - CHAIN FOR HEAT EXCHANGE CHAIN WEIGHT OF ROTATING BURNING FURNACES (OPTIONS) - Google Patents

Abstract

The utility model relates to intra-furnace technical devices to intensify the firing process in rotary kilns, in particular to the design of chains for regenerative heat-exchange chain curtains, and can be used mainly in the industry of building materials and non-ferrous metallurgy in the production of clinker, lime and other materials.

The chain for these heat exchange curtains contains round or oval links with an internal curved surface of their joint, with differences in the options of the utility model:

1. Each link is made of inner and outer rings joined by a jumper, the inner ring has flat lateral surfaces with a hemispherical transition to the jumper, the outer ring is toroidal with a smooth radius transition to the jumper, with the total height in the section of the combined rings and the width of the connecting jumper of the rings, respectively are 1.5..2.5 and 0.4..0.7 the width of the link in the projection of its cross section onto the plane.

2. Cross sections of the links have the form of a plane bounded by a closed line formed by large and small radii, with a large radius equal to half the internal size of the link, and the wall thickness of the link is 0.3..0.5 the width of the link in the projection of its cross section onto the plane .

3. The cross sections of the links are in the form of a truncated circle with a radially located flat annular stiffener along the outer surface of the links, the intersections of the planes of which are made at right angles without external angular radii, the internal radii of the transition to the end surface of the link are 3..6 mm, and the thickness of the rib and the total body height of a link with an edge is 0.2..0.5 and 1..2 respectively of the width of the link in the projection of its cross section onto the plane.

4. The cross section of the link has the appearance of a rectangle, on the outer end surface of the link along the axis of its perimeter an annular groove is made, the inner radii of the transition of which to the end surface of the link are 3..6 mm, the intersection of the planes of the side and outer surfaces of the link are made at right angles without external angular radii, the width of the depression and the total height of the link body are 0.2..0.5 and 1..2, respectively, of the link width in the projection of its cross section onto the plane.

5. On the external lateral and external end surfaces of the link, annular cavities are made, the inner radii of which in the cross section of the link are 3..8 mm, the intersections of the planes of the lateral and external surfaces of the link are made at right angles without external angular radii, the height of the link body is 1- 2 width of the link in the projection of its cross section onto the plane.

6. Each link on the outer lateral surfaces has annular depressions, the inner radii of which in the cross section of the link and the body of the link wall are 0.4..0.6 and 0.3..0.5 respectively of the width of the link, in the depressions are round hemispherical ridges-spikes, intersections of the planes of the side and outer surfaces of the link are made at right angles without external angular radii, the height of the link body is 1..2 the width of the link in the projection of its cross section onto the plane.

The utility model allows you to promote the chain curtain in the heat-stressed sections of the hot end of the furnace with gas flow temperatures up to 1200 ° C, increase the productivity of rotary kilns and save energy. The use of chain designs according to a utility model makes it possible to increase clinker yield by 3.0–5.0% with constant energy consumption, and reduce dust removal from the furnace by 15–20%.

Description

The utility model relates to intra-furnace technical devices to intensify the firing process in rotary kilns, in particular to the design of chains for regenerative heat exchangers of chain curtains, and can be used mainly in the building materials industry and non-ferrous metallurgy in the production of clinker, lime and other materials.

Chain curtains as the main internal devices for transferring heat from the gas stream to the raw sludge in wet rotary kilns, along with the thermal and thermochemical characteristics of the kilns and the composition of the processed charge, play an important role in creating firing conditions and optimizing specific energy consumption, as well as ensuring high-quality firing product characteristics. Clinker burning is the main and most energy-intensive redistribution in cement production, consuming up to 80% of the energy spent on cement. Due to the fact that the wet method of cement production is more energy-intensive, as well as due to the development of clean quarry raw materials and the increasing use of various additives and environmental wastes in the calcined material, the physicochemical and thermotechnological processes in the furnaces deteriorate so much that the role of the chains increases significantly.

At the same time, it is known that clinker burning kilns are the main source of dust emission. The amount of dust emitted into the atmosphere with gases from the furnaces is up to 80% of all emissions in the process of cement production. The removal of dust from the furnace in relation to the weight of the original dry material is usually 5-8%. Chain curtains, in addition to their main purpose of regenerative heat transfer, are a kind of device for trapping dust from the furnace with gases. Trapped dust should be returned to the technological process, it is a valuable raw material for obtaining building materials, and more efficient utilization of dust is one of the conditions for creating a non-waste environmentally friendly production, environmental management.

The creation and implementation of efficient circuits for heat exchange curtains that provide a rational mode in the technological system “gas flow-chain heat exchanger-material” is one of the important directions for improving the operation of rotary kilns. The task of making fuller use of the heat-exchange qualities of chain curtains and saving energy consumption requires expanding the chain curtain to a temperature in the furnace of 1200 ° C.

The complexity of solving this problem lies in the variety of requirements for circuits. In addition to the high-quality performance of the heat transfer function, the transporting ability, they must have resistance to abrasion, the effects of high temperatures, alkaline chlorides, chlorine ions, sulfur and other chemical compounds, manufacturability of heat-resistant and wear-resistant alloys, and prevent the formation of slurry rings and layers. It is also necessary to take into account the adhesive-cohesive properties of the sludge used, that is, its possible adhesion to the chain and critical viscosity.

Modern studies show that in the process of regenerative heat transfer in the hot part of the chain curtain of a rotary kiln only surface layers of chain links are involved, that is, from the point of view of pure heat transfer, it is most rational to theoretically make chains for this section of the furnace from rods 10 mm thick, while maintaining the total area surface chains. From this it follows the appropriateness of using chains consisting of links with various cross-sectional shapes: to produce chains with an increased surface area of the links with their mass constant or with a reduced mass with the same surface area, which optimizes the specific heat consumption in the furnace per unit product. At the same time, the chain links should not have significant thickness fluctuations along the perimeter of the link and the cross section, which would put them in a number of low-tech for production.

An analysis from these positions of the building materials traditionally used in the industry of welded (GOST 13237-67) and cast chains, consisting of oval or round sections and having round or D-shaped cross sections, shows their disadvantageous ratio of working areas in comparison with this utility model surfaces to mass (E.I. Khodorov, Furnaces of the cement industry, Stroyizdat, Leningrad, 1968, pp. 59-61, Table 10, 87; O.A. Nesvizhsky, Durability of wearing parts of cement equipment, Engineering, Moscow, 1968, p. 178-193; Yu.I. Desh o et al., Adjustment and thermotechnical testing of rotary kilns in cement plants, Publishing house of construction literature, M .. 1966, p. 37-39; F.G. Banit et al., Mechanical equipment, Engineering, M ., 1975, p.162; V.I.Satarin et al. Cement industry abroad, Gosstroyizdat, M., p.113). Also known are chains of oval and round links with symbol sections in the form of ovals, eights, triangles, polygons: US 3,427,801, 02/18/1969; GB 1,100,831; 01/24/1968; US 3,544,092; 12/01/1970; US 3,281,134, 10.25.1966; US 3,442,497, 05/06/1969; US 5,934,062, 08/02/1999; EAPO 010710, 03/31/2008; EAPO 010711, 03/31/2008; EAPO 010711, 03/31/2008; SU 450947, 03/12/1973.

Known chains of welded links of a round or oval shape with a round or oval section of the links are not effective enough, they are destroyed in the environment of the sludge due to abrasive wear of the links and in the places of welding and oxidation of the material, unsustainable for self-cleaning of the sludge and preventing the formation of slurry rings. Cast chains are slightly superior to welded ones in terms of heat and mass transfer in the process of changes in the rheology of raw materials in the furnace zones of drying, heating and decarbonization. The heat transfer by the mass of links from their surface determines the minimum heat transfer at the sections of the links in the form of a circle or oval, which forces to increase the calculated density of the chain curtain. Known chain designs do not allow sufficient intensification of heat and mass transfer processes to advance the chain curtain to the hot end of the furnace.

The objective of the utility model is to develop a new technologically advanced circuit design with improved thermal performance with the optimal ratio of “heat transfer surface - mass of the chain link” for each of the chain links.

In its technical essence, the prototype analogue closest to the utility model 1 is a cast chain containing round links having a figure eight in cross section (US 3,427,801, 02/18/1969). It also has the main disadvantage of the known chains: the inability to increase the heat transfer coefficient without a significant increase in the size and mass of the links.

The problem is solved in that in the chain for the heat exchange curtain of a rotary kiln, containing round or oval links with an internal curved surface of their joint, each link is made of a jumper of the inner and outer rings, the inner ring has side flat surfaces with a hemispherical transition to the jumper , the outer ring is toroidal with a smooth radius transition to the jumper, while the total height in the section of the combined rings H and the width b of the connecting jumper are respectively and 1.5..2.5 0,4..0,7 link width in a projection onto its cross-sectional plane.

In the known technical solutions are not found these distinctive features in their entirety.

The utility model is illustrated by drawings, where in Fig.1 schematically shows a fragment of a chain with round links; figure 2 is a fragment of a chain with oval links; figure 3 is a section aa in figure 1; figure 4 is a section bB in figure 1; figure 5 is a view In section aa in figure 3.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The link is made of a jumper connected by an internal 4 and external 5 rings. The inner ring has flat lateral surfaces with a hemispherical transition to the jumper, the outer ring is toroidal with a smooth radius transition to the jumper. In this case, the total height in the cross section of the combined rings H and the width b of the connecting bridge of the rings are respectively 1.5..2.5 and 0.4..0.7 the width of the link in the projection of its cross section onto the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R, b, r1) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D (L) B H R b r1 2..6B one 1.5..2.5B 0,5D 0.4..0.7B 0.2..0.5B

The selected geometric shape and design of the section of the link, the presence of the inner and outer rings joined by the jumper, where the inner ring has flat lateral surfaces with a hemispherical transition to the jumper, and the outer ring is toroidal with a smooth transition in radius to the jumper, is essential (not less than 25% ) increase the heat exchange surface of the chain, which intensifies the heat transfer from the gas stream to the material, optimizes the firing process, and reduces the heat consumption in the furnace.

In its technical essence, the closest prototype analogue to the utility model of option 2 is a chain containing round links having an oval cross-section, the major axis of which is in the plane of the link projection (US 3,544,092, 12/01/1970). It also has the main disadvantage of the known chains: the inability to increase the heat transfer coefficient without a significant increase in the size and mass of the links.

The problem is solved in that in a chain for a chain heat exchange curtain of a rotary kiln containing round or oval links with an internal curved surface of their joint, the cross sections of the links have the form of a plane bounded by a closed line formed by large and small radii, with a large radius equal to half the internal size of the link, and the wall thickness of the link is 0.3 ... 0.5 of the width of the link in the projection of its cross section onto the plane. This form of the link significantly increases the area of the outer surface of the circuit, which receives heat from the gas stream transmitted by convection and radiation.

The utility model is illustrated by drawings, where Fig.6 schematically shows a fragment of a chain with round links; Fig.7 is a fragment of a chain with oval links; Fig.8 is a section aa in Fig.6; Fig.9 is a section bB in Fig.6; figure 10 is a view In section aa in figure 8.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The cross sections of the links look like a plane bounded by a closed line formed by large and small radii, with a large radius equal to half the internal size of the link, the wall thickness H of the link is 0.3 ... 0.5 of the width B of the link in the projection of its cross section onto the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R, r) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D L AT H R r 2 ... 3 V 2 ... 5 V one 0.3 ... 0.5 V 0.5 D 0.1 ... 0.3 V

The section of the link closed by an ellipsoid line creates a more developed surface compared to the circle section, increasing the relative heat exchange surface of the chain, which intensifies the heat transfer from the gas flow to the material, optimizes the firing process and reduces the heat consumption in the furnace.

In its technical essence, the closest prototype analogue to the utility model 3 is a chain containing round links having a pear-shaped cross section with a truncated inner joint belt (US 5,934,062, 08/02/1999). With this design, it is also impossible to increase the heat transfer coefficient without a significant increase in the size and mass of the links, in addition, the design of the chain links is difficult to manufacture.

The problem is solved in that in a chain for a chain heat exchange curtain of a rotary kiln containing round or oval links with an internal curved surface of their joint, the cross sections of the links look like a truncated circle with a radially spaced flat annular stiffener along the outer surface of the links, the intersection of which made at right angles without external angular radii, the internal radii of the transition to the end surface of the link are 3 ... 6 mm, and the thickness of the ribs and the total height The bodies of a link with an edge are 0.2 ... 0.5 and 1 ... 2, respectively, of the width of the link in the projection of its cross section onto the plane.

In the known technical solutions are not found these distinctive features in their entirety.

The utility model is illustrated by drawings, where in Fig.11 schematically shows a fragment of a chain with round links; in Fig.12 is a fragment of a chain with oval links; in Fig.13 is a section aa in Fig.11; Fig.14 is a section bB in Fig.11; on Fig - view In section aa in Fig.13.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The cross sections of the links are in the form of a truncated circle with a radially spaced flat annular stiffener along the outer surface of the links. The intersections of the planes of the stiffener are made at right angles without external angular radii, the internal radii of the transition to the end surface of the link are 3-6 mm, and the thickness of the rib b and the total height of the body of the link H with the rib are 0.2 ... 0.5 and 1 ... 2 width of the link in the projection of its cross section onto the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R, b) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D (L) AT N R b 2 ... 6 V one 1 ... 2 V 0.5 D 0.2 ... 0.5 V

The geometric shape and design of the section of the link in the form of a truncated circle with a radially located flat annular stiffener along the outer surface of the links, the intersections of the planes of which are made at right angles without external angular radii significantly (not less than 20%) increase the heat exchange surface of the chain, which intensifies heat transfer from the gas stream to the material, optimizes the firing process, reduces heat consumption in the furnace. Due to the design of the link, there are multidirectional forces of breaking and separating the sludge film adhering to the chain in the zones of its drying and heating, which contributes to self-cleaning of the chains in front of the decarbonization zone, reducing the possibility of ring formation in the furnace and excessive deformation of the material granules.

The closest to the utility model of embodiment 4, the prototype analogue is a chain consisting of links having a rectangular shape in cross section (US 3,442,497, 05/06/1969). With such a chain, it is impossible to increase the heat transfer coefficient without a significant increase in the size and mass of the links; their design is also difficult to manufacture.

The problem is solved in that in the chain for the heat exchange curtain of a rotary kiln containing round and oval links with an internal curved joint surface in cross section, the section of the link has the appearance of a rectangle, an annular groove is made on the outer end surface of the link along the axis of its perimeter, the internal radii of the transition of which to the end surface of the link are 3..6 mm, the intersection of the planes of the side and outer surfaces of the link are made at right angles without external angles radii, the width of the depression and the total height of the link body are 0.2..0.5 and 1..2, respectively, of the link width in the projection of its cross section onto the plane.

In the known technical solutions are not found these distinctive features in their entirety.

The utility model is illustrated by drawings, where in Fig.16 schematically shows a fragment of a chain with round links; on Fig is a fragment of a chain with oval links; on Fig - section aa in Fig.16; in Fig.19 is a section bB in Fig.16; in Fig.20 is a view In section aa in Fig.18.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The section in the section has the form of a rectangle, on the outer end surface of which an annular groove is made along the axis of its perimeter, whose inner radii r of transition to the end surface of the link are 3..6 mm, the intersections of the planes of the side and outer surfaces of the link are made at right angles without external angles radii, the width of the trench b and the total height of the torsion N are 0.2 ... 0.5 and 1 ... 2, respectively, of the link width in the projection of its cross section onto the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R, h, b) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D (L) AT H R b h 2 ... 5 V one 1 ... 2 V 0.5 D 0.2 ... 0.5 V 0.4 ... 0.6 V

The geometric shape and the design of the section of the link in the form of a rectangle, on the outer end surface of which an annular groove is made along the axis of its perimeter, intersected at right angles without the external angular radii of the plane of the side and external surfaces of the link significantly (not less than by 30%) increase the heat exchange surface chain, which intensifies the heat transfer from the gas stream to the material, optimizes the entire firing process, reduces heat consumption in the furnace. Due to the design of the link, there are multidirectional forces of breaking and separating the sludge film adhering to the chain in the zones of its drying and heating, which contributes to self-cleaning of the chains in front of the decarbonization zone, reducing the possibility of ring formation in the furnace and excessive deformation of the material granules.

An analogue of the prototype of the utility model of embodiment 5 is a chain for a chain heat exchange curtain of a rotary kiln, containing round or oval links with an internal curved surface in cross section and a stiffener on the outer end surface along its perimeter (US 3,281,134, 10.25.1966). Although this chain, as shown by the practice of operating in the heating and decarbonization zones of large-diameter furnaces, is more durable, it also has the main disadvantage of known chains: such a chain cannot increase the heat transfer coefficient without a significant increase in the size and mass of the links.

The problem is solved in that in a chain for a heat exchange curtain of a rotary kiln, containing round or oval links with an internal curved articulation surface in cross section, on the outer lateral and external end surfaces of which annular cavities are made, the inner radii of which in the cross section of the link are equal 3..8 mm, the intersection of the planes of the lateral and external surfaces of the link is made at right angles without external angular radii, the height of the link body is 1-2 link widths in the projection of its cross section onto the plane.

In the known technical solutions are not found these distinctive features in their entirety.

The utility model is illustrated by drawings, where in Fig.21 schematically shows a fragment of a chain with round links; in Fig.22 is a fragment of a chain with oval links; on Fig - section aa in Fig.21; in Fig.24 is a section bB in Fig.21; on Fig - view In section aa in Fig.23.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The link on the outer lateral and outer end surfaces has annular depressions located along the axis of the section of the link, the inner radii of which in the cross section of the link are 3..8 mm, the intersection of the planes of the lateral and outer surfaces of the link are made at right angles without external angular radii, body height of the link H is 1-2 width of the link In the projection of its cross section on the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D (L) AT H R 2 ... 6 V one 1 ... 2 V 0.5 D

The geometric shape and design of the section of the link, in which annular depressions are made along the outer lateral and external end surfaces, the inner radii of which in the cross section of the link are 3..8 mm, and the intersections of the planes of the lateral and outer surfaces of the link are made at right angles without external angles of radii, significantly (not less than 30%) increase the heat exchange surface of the chain, which intensifies the heat transfer from the gas stream to the material, optimizes the firing process, reduces the heat gathering in the oven. Due to the design of the link, there are multidirectional forces of breaking and separating the sludge film adhering to the chain in the zones of its drying and heating, which contributes to self-cleaning of the chains in front of the decarbonization zone, reducing the possibility of ring formation in the furnace and excessive deformation of the material granules.

For the analogue prototype of the utility model of embodiment 6, a cast chain is adopted containing round links having a figure eight in cross section (US 3,427,801, 02/18/1969). It is inherent in the main disadvantage of the known impossibility of increasing the heat transfer coefficient without a significant increase in the size and mass of the links.

The problem is solved in that in the chain for the heat exchange curtain of a rotary kiln, containing round or oval links with an internal curved surface of their joint, each link on the outer side surfaces has ring depressions, the inner radii of which in the cross section of the link and the body of the link wall are respectively 0.4 ... 0.6 and 0.3 ... 0.5 of the width of the link, round hemispherical ridges-spikes are located in the hollows, the intersection of the planes of the side and outer surfaces of the link are made under ryamymi angles without outer corner radii link body height is 1..2 link width in a projection onto its cross-sectional plane.

In the known technical solutions are not found these distinctive features in their entirety.

The utility model is illustrated by drawings, where in Fig.26 schematically shows a fragment of a chain with round links; Fig.27 is a fragment of a chain with oval links; on Fig - section aa in Fig.26; in Fig.29 is a section bB in Fig.26; on Fig - view In section aa in Fig.28.

The chain consists of links of a round 1 or oval 2 shape, the inner surfaces 3 of which are made curved. The link along the outer lateral surfaces has annular depressions, the inner radii r of which in the cross section of the link and the body of the link wall t are 0.4 ... 0.6 and 0.3 ... 0.5 of the width, respectively, In the link, round hemispherical protrusions are located in the depressions -shapes 3, intersections of the planes of the side and outer surfaces of the link are made at right angles without external angular radii, the height of the link body is 1 ... 2 of the width of the link in the projection of its cross section onto the plane.

The aspect ratios of the elements of round or oval links (D, L, B, H, R, b, t, r) are given in the table, respectively. In the indicated intervals of relations, the sizes of the links for the chains of the corresponding technological zones of the furnaces are selected.

D (L) AT N R t b r 2 ... 6 V one 1 ... 2 V 0.5 D 0.3 ... 0.5 V 0.4 ... 0.8 V 0.4 ... 0.6 V

The geometric shape and design of the section of the link, the presence on the outer lateral surfaces of the link of annular depressions located in the hollows of round hemispherical protrusions-spikes, intersections of the planes of the lateral and outer surfaces of the link at right angles without external angular radii increase (not less than 30%) the heat exchange surface of the chain, which intensifies the heat transfer from the gas stream to the material, optimizes the entire firing process, reduces heat consumption in the furnace. Due to the design of the link, there are multidirectional forces of breaking and separating the sludge film adhering to the chain in the zones of its drying and heating, which contributes to the quick self-cleaning of the chains in front of the decarbonization zone, reducing the possibility of ring formation in the furnace and excessive deformation of the material granules.

A more developed surface for the heat exchange of chains according to all variants of the utility model in the manufacture of them from alloys with high heat resistance allows you to advance the chain curtain in the heat-stressed sections of the hot end of the furnace with gas flow temperatures up to 1200 ° C, use these chains as universal in all technological zones of a rotary kiln . Taking into account the main role in the heat transfer process of the surface of the chains, the possibility of accelerating heat transfer and firing processes has been created, as a reserve for increasing the productivity of rotary kilns and saving energy by increasing their rotation speed, which generally meets the requirements of critical technology for creating energy-saving heat and electricity consumption systems (p .31 List of critical technologies of the Russian Federation. Approved by President of the Russian Federation V.V. Putin on May 21, 2006, Pr-843). The use of chain designs according to a utility model makes it possible to increase clinker yield by 3.0–5.0% with constant energy consumption, and reduce dust removal from the furnace by 15–20%.

Claims (6)

1. A chain for heat-exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that each link is made of a joint by a jumper of the inner and outer rings, the inner ring has side flat surfaces with a hemispherical transition to the jumper, the outer ring is toroidal with a smooth transition in radius to the jumper, with the total height in the section of the combined rings and the width of the connecting jumper of the rings, respectively, with set 1.5 ... 2.5 and 0.4 ... 0.7 of the width of the link in the projection of its cross section onto the plane. 2. A chain for heat-exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that the cross sections of the links have the form of a plane bounded by a closed line formed by large and small radii, with a large radius equal to half the inner the size of the link, and the wall thickness of the link is 0.3 ... 0.5 of the width of the link in the projection of its cross section onto the plane. 3. A chain for heat-exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that the cross sections of the links are in the form of a truncated circle with a radially spaced flat annular stiffener along the outer surface of the links, the intersection of which is made at right angles without external angular radii, the internal radii of the transition to the end surface of the link are 3 ... 6 mm, and the thickness of the ribs and the total height of the body of the link with p The edges comprise 0.2 ... 0.5 and 1 ... 2, respectively, of the link width in the projection of its cross section onto the plane. 4. A chain for heat-exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that the section of the link has the appearance of a rectangle, an annular groove is made on the outer end surface of the link along the axis of its perimeter, internal transition radii which to the end surface of the link are 3 ... 6 mm, the intersection of the planes of the side and outer surfaces of the link are made at right angles without external angular radii, the width of the cavity and the total the link body height is 0.2 ... 0.5 and 1 ... 2, respectively, of the link width in the projection of its cross section onto the plane. 5. A chain for heat-exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that annular depressions are made on the outer lateral and external end surfaces of the link, the inner radii of which in the cross section of the link are 3 ... 8 mm, the intersection of the planes of the lateral and external surfaces of the link is made at right angles without external angular radii, the height of the body of the link is 1 ... 2 of the width of the link in the projection of its cross section to the plane. 6. A chain for heat exchange chain curtains of rotary kilns, containing round or oval links with an internal curved surface of their joint, characterized in that each link on the outer side surfaces has annular depressions, the inner radii of which in the cross section of the link and the body of the link wall are respectively 0.4 ... 0.6 and 0.3 ... 0.5 of the width of the link, round hemispherical ridges-spikes are located in the hollows, the intersections of the planes of the side and outer surfaces of the link are made at right angles b of the outer corner radii link body height is 1 ... 2 link width in a projection onto its cross-sectional plane.