RU2473440C2 - Absorbing apparatus - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to friction absorbing units of freight car automatic couplers. Absorbing apparatus comprises barrel-like casing with boss on bottom inner side, pressure cone, two friction wedges with bearing plate, pairs of moving and fixed plates, all arranged in said casing symmetrically with its inner walls. Besides, absorbing apparatus comprises retaining-return device composed of a stack of polymer resilient elements arranged together with bearing plate and wedges between pressure cone and casing bottom and tightened up by bolt passed through central hole. Every said polymer resilient element represents variable-cross-section body of revolution with stepped hole along axis of revolution. Section with maximum OD is located between two different-size end of said body to divide outer lateral surface of the latter into two adjacent parts. Distance from said section to smaller end makes 0.30-0.55 of that to larger end.

EFFECT: absorption capacity increased for classes T2, T3.

8 cl, 8 dwg

Description

The invention relates to railway transport, and in particular to friction absorbing devices of couplers of freight cars.

Known friction absorbing devices in which the function of the retaining and returning device is performed by springs (Nikolsky L.N., Keglin B.G. Shock absorbers of rolling stock. M., Engineering, 1986, p. 53, Fig. 27), and also devices in the form of a package of elastic elements made of polymers (patents RU 61669 U1, B61G 9/08, 03/10/2007; RU 2128301 C1, F16F 7/08, B61G 9/02, 07/27/1999; RU 2145558 C1, B61G 9/06 , 02.20.2000; RU 2173273 C2, B61G 9/06, F16F 1/40, F16F 3/00, 09/10/2001; RU 2283791 C1, B61G 9/10, B61G 9/18, 09/20/2006; RU 2380257 C2, B61G 9/18, 05/20/2009; US 6478173 B2, B61G 9/18, 12/12/2002). The use of resilient elements made of polymers made it possible to increase the power characteristics of the retaining and returning device and thereby absorbing apparatuses in general, and with the additional introduction of shims according to patent RU 2380257 C2, B61G 9/18, January 27, 2010, stabilizing the values of the energy intensity of absorbing apparatuses at a level corresponding to class T1. However, the concave appearance of the obtained power characteristics, due to the shape of the applied elastic elements made of polymers, did not allow achieving higher values of energy intensity indicators corresponding to classes T2 and T3, which is the main disadvantage of such absorbing devices.

The friction-polymer absorbing device PMKP-110 (see Vestnik VNIIZhT magazine, 2005, No. 4, UDC 629.4.028.86), containing a casing in the form of a cup with a boss on the inside of the bottom along the longitudinal axis of the casing, placed in the casing, was adopted as a prototype symmetrically to its inner walls, a pressure cone, a pair of friction wedges with a base plate, a pair of movable and fixed plates, and a retaining and returning device in the form of a package of elastic elements made of polymer (thermoplastic elastomer), located together with the base plate and the wedges between the pressure m cone and the bottom of the housing and tightened a bolt through both their central holes.

The disadvantage of this technical solution is the concave form of the power characteristics of the retaining and returning device and the absorbing apparatus as a whole, due to the imperfect shape of the applied elastic elements, which limits the values of the energy intensity of the absorbing apparatus at a level corresponding to class T1.

The technical result to which the invention is directed is to increase the energy intensity of the absorbing apparatus to a higher level corresponding to classes T2, T3.

The specified technical result is achieved by the fact that in the absorbing apparatus containing the housing in the form of a cup with a boss on the inside of the bottom along the longitudinal axis of the housing, a pressure cone is placed in the housing symmetrically to its internal walls, a pair of friction wedges with a support plate, a pair of movable and stationary friction plates, as well as a retaining and returning device in the form of a package of polymer elastic elements located together with the base plate and wedges between the pressure cone and the bottom of the body and strapped along the length With the help of the bolt axis through the central holes that are available in them, each of the polymer elastic elements represents a body of revolution of variable cross section with a step hole along the axis of rotation, while a section with a maximum outer radius is located between two different ends of the specified body and divides the outer side surface of the latter into two adjacent parts, and the distance from the specified section to the smaller end is 0.3 ... 0.55 from the distance to the larger end.

Both adjacent parts of the lateral surface of each elastic element of the retaining-returning device are concave.

The ends of each elastic element are truncated conical surfaces with angles between the generatrix and the base equal to 8 ... 11 °, and the peaks facing the element at the larger end and inward at the smaller.

The supporting and returning device of the absorbing apparatus consists of an even number of elastic elements forming one or more pairs, with the adjacent elements of each pair facing each other with large ends.

The supporting and returning device of the absorbing apparatus consists of six elastic elements.

All the elastic elements of the retaining and returning device of the absorbing apparatus are made of the same material and have the same overall dimensions, while the first element from the bottom of the apparatus’s body is centered by its hole on the boss protruding inside the housing, and each of the remaining elements is equipped with a jumper with a hole for direct centering on a coupling bolt.

The larger end face of each elastic element of the retaining and returning device of the absorbing apparatus is provided with at least two pairs of uniformly spaced circular circumferences at the edge of the central hole and alternating blind cylindrical holes and protrusions of the same diameter for connecting the elements in pairs.

The diameter of the central hole from the side of the larger end of each elastic element of the retaining and returning device of the absorbing apparatus is 0.45 ... 0.65 of the outer diameter of the latter, and the length of the specified hole is 0.2 ... 0.3 of the total length of the element.

Comparison of the proposed technical solution with the prototype made it possible to establish the presence of distinctive features from the prototype, therefore, this technical solution meets the criterion of "novelty."

The invention is illustrated by drawings, where Fig. 1 shows an absorbing apparatus in longitudinal section, Fig. 2 is a main view of a polymer elastic element in a free state, combined with a longitudinal section, in Fig. 3 is a view of an elastic element from a larger end, figure 4 - execution of the polymer elastic element with a jumper in the hole from the side of the smaller end face, figure 5, 6, 7 - retaining and returning device consisting of three pairs of polymer elastic elements in a free, pre-preloaded and compressed for a full stroke yaniyah respectively 8 - quasistatic compression force characteristic of retaining-return device.

The absorbing apparatus (see Fig. 1) contains a housing 1 in the form of a cup with a boss 2 on the inner side of the bottom 3 along the longitudinal axis of the housing, a pressure cone 4, which is in contact with the friction wedges 5, supported on the base plate 6, symmetrically to its inner walls With their lateral surfaces 7, the friction wedges 5 are in contact with a pair of fixed plates 8, fixed in the windows 9 of the housing 1. Between the outer surfaces of the fixed plates 8 and the inner walls of the housing 1 is a pair of movable friction plates 10. Between the base plate 6 and the bottom 3 of the housing 1 is placed retaining and returning device 11 in the form of a package of six polymer elastic elements 12 with shims 13, which together with the base plate 6, the pressure cone 4 and the friction wedges 5 are tightened by a bolt 14, wound through the Central holes in the boss 2 of the housing 1, the elastic elements 12, the shims 13, the base plate 6 and the pressure cone 4.

Each of the elastic elements 12 (see FIGS. 2, 3, 4) represents a body of revolution of variable cross section with a stepped hole A along the axis of rotation, while a section with a maximum outer diameter D is located between two different ends B and C of the specified body and divides the outer lateral surface of the latter into two adjacent parts G and D, and the distance l ₂ from the specified section to the smaller end B is 0.30 ... 0.55 from the distance l ₁ to the larger end B. Both adjacent parts D and E of the side surface of each elastic element 10 i Xia concave.

The ends B and C of each elastic element are truncated conical surfaces with angles α and β between the generatrix and the base equal to 8 ... 11 °, and the vertices facing the element outward at the larger end face B and inward at the smaller end face B.

The supporting-returning device 11 is equipped with an even number of elastic elements 12 for the formation of one or more pairs. Figure 1, 5, 6, 7 shows a retaining and returning device of six elastic elements that form three pairs, with the adjacent elements of each pair facing each other with large ends B (see figure 5).

All elastic elements 12 of the reciprocating device are made of the same material, for example, from a mixture of high elastoplastic thermoelast grades 4556 and 5556 in a certain proportion corresponding to the required power characteristics, and have the same overall dimensions, while the first element from the bottom of the housing 1 of the apparatus is centered by its hole on the boss 2 protrudes into the housing, and each of the remaining elements is equipped on the smaller end with a jumper 15 with an opening for direct centering on the coupling bolt 14. Bytes end of each elastic member 12 is provided with two pairs of equally spaced circumferentially at the edge of the central opening and alternating blind cylindrical holes 16 and the projections 17 of the same diameter for connecting the elements in pairs.

Similarly, connections of smaller ends B of the elastic elements of adjacent pairs can be made.

The diameter of the Central hole D ₃ from the side of the larger end B of each elastic element is 0.45 ... 0.65 of the outer diameter D _{1 of the} latter, and the length l _{3 of the} specified hole is 0.2 ... 0.3 of the total length l of the element.

The improved shape and specific dimensions of the elastic element 12 in the free state are determined from the conditions of taking a pack of six elements under compression for a full working stroke of a shape close to a cylinder inscribed in the internal dimensions of the apparatus body 1, as well as preventing relative local compression deformations of elastic elements of more than 10 % during preliminary preload of the retaining-returning device in order to avoid large residual deformations of the elastic elements and reduce the force of the preliminary preload.

The desired technical result was obtained thanks to a series of analytical calculations of the strength characteristics of the static compression of elastic elements made of highlit thermoplastic elastomers of grades 4556 and 5556 with the shape and dimensions specified and specified in the calculation process and the dynamic compression of the absorbing apparatus, taking into account the specified dependence of the transfer coefficient (gain) on the stroke, performed by the method of successive approximation, and confirmed by the real force characteristics of compression of experimental samples of reduced physical models of the elastic element, reduced to a natural look using the theory of geometric similarity.

The assembly of the absorbing apparatus can be carried out without adjusting shims 13, since the expected completeness and level of dynamic power characteristics of the apparatus with elastic elements 12 provide sufficiently high values of energy intensity indicators, with a margin indicating the compliance of the apparatus with class T2. In the case of the use of adjusting gaskets 13, allowing to stabilize the values of the preliminary preload and close the apparatus at levels close to the maximum allowable, it is possible to achieve compliance with the class T3.

It also becomes feasible to modernize the PMK-110A, PMK-110-K-23 and APM-110-K-23 spring-friction apparatus of the production park with their transfer from T0 to T2 class by replacing the springs of the retaining and returning device with a package of six elastic elements 10.

The use of the proposed absorbing devices of classes T2 and T3 in automatic couplers of freight cars will significantly reduce shock impacts during the operation of cars and increase the period of their trouble-free operation.

Claims (8)

1. The absorbing apparatus, comprising a housing in the form of a glass with a boss on the inner side of the bottom along the longitudinal axis of the housing, a pressure cone placed in the housing symmetrically to its internal walls, a pair of friction wedges with a support plate, a pair of movable and fixed plates, as well as a retaining-return a device in the form of a package of polymer elastic elements located together with a base plate and wedges between the pressure cone and the bottom of the body and pulled along the longitudinal axis by a bolt through the central holes available in them, characterized in that each of the polymer elastic elements of the package is a body of revolution of variable cross section with a stepped hole along the axis of rotation, while the section with the maximum outer diameter is located between two different ends of the specified body and divides the outer side surface of the latter into two adjacent parts, and the distance from the specified section to the smaller end is 0.30 ... 0.55 from the distance to the larger end. 2. The absorbing apparatus according to claim 1, characterized in that both adjacent parts of the side surface of each elastic element are concave. 3. The absorbing apparatus according to claim 1, characterized in that the ends of each elastic element are truncated conical surfaces with angles between the generatrix and the base equal to 8 ... 11 ° and the vertices facing the outside of the element at the larger end and inward at the smaller. 4. The absorbing apparatus according to claim 1, characterized in that its retaining and returning device consists of an even number of elastic elements forming one or more pairs, with adjacent elements of each pair facing each other with large ends. 5. Absorbing apparatus according to any one of claims 1 and 4, characterized in that its retaining and returning device consists of six elastic elements. 6. The absorbing apparatus according to claim 1, characterized in that all its elastic elements are made of the same material and have the same overall dimensions, while the first element from the bottom of the apparatus body is centered by its hole on the boss protruding inside the housing, and each of the remaining elements is provided from the side of the smaller end with a jumper with a hole for direct centering on the coupling bolt. 7. An absorbing apparatus according to any one of claims 1, 4 and 5, characterized in that the larger end of each elastic element is provided with at least two gifts evenly spaced around the circumference at the edge of the central hole and alternating blind cylindrical holes and protrusions of the same diameter for connecting the elements in pairs. 8. The absorbing apparatus according to claim 1, characterized in that the diameter of the Central hole from the side of the larger end of the elastic element is 0.45 ... 0.65 of the outer diameter of the latter, and the length of the specified hole is 0.2 ... 0.3 of the total length item.

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