RU74360U1 - ABSORBING APPARATUS - Google Patents

Abstract

The utility model relates to absorbing devices of couplers of freight cars. A pressure cone, a pair of friction wedges with a base plate, a pair of movable and fixed friction plates, and a reciprocating device in the form of a package of polymer elastic elements separated by washers, located together with the base plate and placed in the form of a cup, are placed wedges between the pressure cone and the bottom of the housing and tightened by a bolt through the holes available in them. The total length of the polymer elastic elements in a state corresponding to the initial tightening of the apparatus as part of the automatic coupler, without taking into account the separation washers, exceeds the full working stroke of the apparatus by no more than 3 times and with adverse tolerances in the mating parts is ensured by adjusting shims of a certain thickness, while the static power characteristic of the retaining block after its multiple loading is in a predetermined interval. The solution provides a stable value of the energy intensity of the absorbing apparatus, allows to reduce impact on cars and increase the time of their failure-free operation. 2 s.p. f-ly, 1 ill.

Description

The utility model relates to railway transport, namely to friction absorbing devices of automatic couplers of freight cars.

Known friction absorbing devices in which the function of the spring-retaining device is performed by springs (see Nikolsky L.I., Keglin B.G. Shock-absorbers of rolling stock, M., Engineering, 1986, p. 53, Fig. 27) as well as devices in the form of a package of elastic elements made of polymers (see patents RU No. 2145558 C1, B61G 9/06, 02/20/2000; RU 2173273 C2, B61G 9/06, F16F 1/40, F16F 3/00, 10.09. 2001; RU No.2128301 C1, F16F 7/08, B61G 9/02, 07.27.1999; RU No.61669, U1, B61G 9/08, 03/10/2007; RU No.2283791 C1, B61G 9/10, B61G 9/18 , September 20, 2006; US No. 6478173 B2, B61G 9/18, November 12, 2002). The most common way to create pressure on the friction surfaces of friction absorbing devices is a wedge strut. The main disadvantages of such devices are the instability of energy intensity indicators, due to adverse tolerances on the dimensions of the mating parts in the longitudinal and transverse directions, and the inability to achieve it due to the lack of adjustment.

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 glass in which a truncated pressure cone is placed symmetrically to its inner walls, is used as a prototype. wedges with a base plate, a pair of movable and fixed plates, as well as

a retaining device in the form of a package of elastic elements made of polymer (thermoplastic), separated by washers, located together with the base plate and wedges between the pressure cone and the bottom of the body and pulled together by a bolt through the central holes that are available in them.

The disadvantage of this technical solution is the lack of adjustment during assembly of the apparatus, which does not allow to compensate for the adverse tolerance runs on the dimensions of the mating parts, which determine the length and force of the initial tightening of the reciprocating device and, as a result, leads to instability of the power characteristics and energy consumption indicators of the absorbing apparatus as a whole .

The technical result, the achievement of which the utility model is aimed at, is to achieve stable indicators of the energy intensity of the absorbing apparatus.

The specified technical result is achieved by the fact that in the absorbing apparatus containing the case in the form of a glass in which a pressure cone, a pair of friction wedges with a support plate, a pair of movable and fixed friction plates, and a back-retaining device in the form of are placed symmetrically to its inner walls a package of polymer elastic elements separated by washers, located together with the base plate and wedges between the pressure cone and the bottom of the body and pulled together by a bolt through the central holes, the total length of the polymer elastic elements in a state corresponding to the initial tightening of the apparatus as part of the coupler, excluding the separation washers, exceeds the full working stroke of the apparatus by no more than 3 times and with adverse tolerances of mating parts is ensured by adjusting shims of a certain thickness, while the static power characteristic of the retaining block after its multiple loading is in a predetermined interval.

The separating washers installed between the elastic elements are made in several thicknesses and are used in a certain

quantitatively, depending on the tolerance run of mating parts, combining the function of adjusting gaskets.

The distance from the ends of the movable friction plates to the plane of the base of the pressure cone is 9 ... 13% of the full working stroke.

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

The essence of the utility model is illustrated in the drawing, where Fig. 1 shows an absorbing apparatus in longitudinal section.

The absorbing apparatus comprises a housing 1 in the form of a glass in which a pressure cone 2 is placed symmetrically to its inner walls and is in contact with the wedges 3, which are supported by the support plate 4. The wedges 3 are in contact with the fixed plates 6 fixed in the windows 7 of the housing 1 with their side surfaces 5. Between the outer surfaces of the fixed plates 6 and the inner walls of the casing, movable friction plates 8 are installed. Under the base plate 4, a back-retaining device 9 is placed in the form of a package of polymer elastic elements 10, separated by washers 11. The package of polymer elastic elements together with the base plate 4, the pressure cone 2 and the wedges 3 are pulled together by a bolt 12 inserted through the central holes in the housing, the elastic elements 10, the separating washers 11 and the base plate 4. A centering sleeve is mounted on the bolt 13, determining the joint position of the pressure cone 2 and the base plate 4.

The assembly of the absorbing apparatus is carried out taking into account the required length of the package of polymer elastic elements 10 in the pressed state, corresponding to the initial tightening of the apparatus as part of an automatic coupler. Moreover, the total length l of the polymer elastic elements 10 in this state, without taking into account the separation washers 11, exceeds the full working stroke l _{1 of the} absorbing apparatus by no more than 3

times and with adverse tolerance runs on the dimensions of the mating parts is ensured by adjusting shims 14 of a certain thickness. The static power characteristic of the reciprocating device 9 after its multiple loading is in a predetermined interval.

For a friction absorbing device with a full stroke of 120 mm and an angle α = 47 ° between the interface between the pressure cone 2 and the wedges 3 and the transverse plane A of the device’s cross section, the specified interval of the static power characteristic P (x) of the package of polymer elastic elements 10 is determined by the following values: P (0) = (25; 75), P (60) - (85; 135), P (90) = (160; 205), P (120) = (440; 470), where:

P is the compression force, kN;

x - displacement, mm.

Installed between the elastic elements 10, the separating washers 11 are made in several thicknesses and are used in a certain quantitative ratio, depending on the tolerance run of the mating parts, combining the function of the shims 14. The distance l ₂ from the ends 15 of the movable friction plates 8 to the plane B of the base 16 of the pressure cone 2 is 9 ... 13% of the total stroke l _{1 of the} absorbing apparatus.

Experimental studies of a batch of absorbing apparatuses of the proposed design confirmed the stability of their work and their compliance in terms of energy intensity with the requirements for class T1 apparatuses.

The use of the proposed absorbing apparatus of stable energy intensity will reduce impact on cars and increase their uptime before decommissioning.

Claims (3)

1. An absorbing apparatus comprising a cup-shaped housing in which a pressure cone, a pair of friction wedges with a base plate are arranged symmetrically to its inner walls, a pair of movable and stationary friction plates, and also a back-retaining device in the form of a package of polymer elastic elements separated between themselves by washers, located together with the base plate and wedges between the pressure cone and the bottom of the body and tightened by a bolt through the central holes available in them, characterized in that the total poly elastic elements in a state corresponding to the initial tightening of the apparatus as part of the automatic coupler, without taking into account the separation washers, exceeds the full working stroke of the apparatus by no more than 3 times and with adverse tolerances on the dimensions of the mating parts is ensured by adjusting shims of a certain thickness, while the static power characteristic of the specified package after its multiple loading is in the specified interval. 2. The absorbing apparatus according to claim 1, characterized in that the separating washers installed between the elastic elements are made in several thicknesses and are used in a certain quantitative ratio, depending on the actual run of tolerances on the dimensions of the mating parts, combining the function of adjusting gaskets. 3. The absorbing apparatus according to claim 1, characterized in that the distance from the ends of the movable friction plates to the plane of the base of the pressure cone is 9 ... 13% of the total working stroke.