RU136776U1 - ABSORBING APPARATUS WITH POLYMERIC ELASTIC ELEMENTS FOR COUPLING DEVICES BSU-TM PASSENGER MOBILE COMPOSITION - Google Patents

Abstract

1. An absorbing device with polymer elastic elements for BSU-TM coupling devices for passenger rolling stock, comprising a rectangular plate, a coupling bolt passing through a central hole in the plate, the head of the coupling bolt entering a recess on the plate, mounted on the coupling bolt and tightened with a castellated nut with an initial tightening force of the damper, a pressure cup with two windows located opposite each other, and the glass is oriented relative to the plate so that each of the windows is facing len toward the short side of the plate, six polymer elastic elements made of Heitrel thermoplastic elastomer, made with the possibility of dissipating energy due to internal friction during elastic deformation of polymer elastic elements, each of the polymer elastic elements has a toroidal shape, spacers are installed between them, each of which has a central hole with which the spacer is mounted on the coupling bolt with the ability to move along its axis, at the edges of the block of polymer elastic elements installed about one spacer, the castellated nut is locked from rotation relative to the coupling bolt with a cotter pin, characterized in that a push disk is installed between the castellated nut and the damper, washer plates are installed between the damper and the push cup, adjusting washers are installed between the push cup and the spacer, spacers are made in the form a flat disk having punching holes with protrusions directed in opposite directions from the planes of the disk, the protrusions embedded in polymer elastic elements, spacers, installed

Description

The utility model relates to railway transport and relates to devices designed to absorb the energy of the dynamic interaction of passenger rolling stock units using BSU-TM automatic couplers.

Known spring-friction absorbing apparatus TsNII-N6, which contains series-connected spring and spring-friction parts. The spring-friction part consists of a hexagonal neck, three friction wedges located in it, a pressure cone, a washer, and external and internal springs. The energy of dynamic effects is dissipated due to the frictional interaction of the friction surfaces. The full stroke of the apparatus is 70 mm, the energy intensity is 16-24 kJ, the initial tightening force is about 25 kN, the mass of the apparatus is 169 kg. (p. 77-79 in the book: V.V. Kolomiychenko, V.I. Belyaev, I. B. Feoktistov, N. A. Kostina. Automatic couplers of rolling stock of railways. M .: Transport, 2002).

Disadvantages of the apparatus: wear of friction parts, the need for their running-in and periodic replacement, insufficient noise and vibration damping ability, significant weight. Currently, such devices are not manufactured, but old-fashioned devices are approved for use.

Known rubber-metal absorbing apparatus R-2P, consisting of a housing, pressure and intermediate plates, as well as a set of nine rubber-metal elements. Each element consists of two steel plates between which the rubber part is located, made of frost-resistant rubber and is rigidly connected by vulcanization to reinforcing plates (pp. 79-81 in the book: V.V. Kolomiychenko, V.I. Belyaev, I. B. Feoktistov , N.A. Kostina, Auto-coupled devices of rolling stock of railways, Moscow: Transport, 2002). This absorbing apparatus has the following disadvantages: the spread in hardness of rubber and thickness of rubber-metal elements, which leads to various power characteristics of the apparatus; a significant increase in rubber hardness at low temperatures; limited service life of rubber elements due to rubber aging.

Known absorbing apparatus according to patent for invention No. 2350501, in which energy is absorbed by friction of friction steel surfaces, as well as by friction of seven polymer elastic elements against a tightening metal bolt on which polymer elastic elements are mounted with an interference fit. Thanks to this combination of energy absorption methods, not only the energy intensity of the apparatus is increased, but its performance is stabilized at the stage of running-in of friction surfaces. The disadvantage of this analogue: a significant complication of the design, which is justified only for applications requiring high power consumption devices, not suitable for passenger rolling stock.

As a prototype, an absorbing apparatus was selected, described on pages 176-178 in the book: V.I. Belyaev, D.A. Stupin. Couplings and couplings of railway rolling stock. M .: TRANSINFO, 2012, 416 pp. The study of the description and graphic materials given in the specified source, allowed to highlight the following essential features of the prototype:

An absorbing device with polymer elastic elements for couplers of passenger rolling stock, comprising a rectangular plate, a coupling bolt passing through a central hole in the plate, the head of the coupling bolt entering a recess on the plate, and a castellated nut mounted and tightened with a castellated nut the initial tightening force of the damper, the pressure cup with two windows located opposite each other, and the glass is oriented relative to the plate so that each of the windows is directed o towards the short side of the plate, six polymer elastic elements made of Heitrel thermoplastic elastomer, made with the possibility of energy dissipation due to internal friction during elastic deformation of polymer elastic elements, each of the polymer elastic elements has a toroidal shape, spacers are installed between them, each of which has a central hole with which the spacer is mounted on the coupling bolt with the ability to move along its axis, at the edges of the block of polymer elastic elements installed about one spacer, Tighten castle nut from rotation relative to the clamping bolt cotter pin, the height of the draft gear after its assembly is not changed before installing hitch.

Significant disadvantages of the described prototype are:

1) a gentle power characteristic at a larger stroke, which increases steeply at the end of the stroke, which does not provide an unstressed mode of operation of the absorbing apparatus;

2) selective selection of polymer elastic elements in height is required since the prototype does not provide for the adjustment of the height of the absorbing apparatus;

3) the flange, which performs the function of a pressure part, does not have the necessary rigidity.

4) there is no provision for reducing the height of the absorbing apparatus before installing it in the coupling device with subsequent restoration of height after installation in the coupling device.

The objective of the utility model is to improve the design of the prototype in order to eliminate these shortcomings.

The solution to the problem is achieved in that in the claimed utility model, an absorbing apparatus with polymer elastic elements for BSU-TM coupling devices of a passenger rolling stock comprises a rectangular plate, a coupling bolt passing through a central hole in the plate, the head of the coupling bolt entering the recess, available on the plate, on the coupling bolt are installed and tightened with a castellated nut with an initial tightening force of a damper, a pressure cup with two windows located opposite each other, and a glass of landmarks relative to the slab in such a way that each of the windows is directed towards the short side of the slab, six polymer elastic elements made of Heitrel thermoplastic elastomer, made with the possibility of energy dissipation due to internal friction during elastic deformation of polymer elastic elements, each of the polymer elastic elements has a toroidal shape the shape, between them spacers are installed, each of which has a central hole with which the spacer is mounted on the coupling bolt with the ability to move along of the axis, one spacer is installed on the edges of the block of polymer elastic elements, the castellated nut is prevented from turning relative to the coupling bolt with a cotter pin; moreover, a push disk is installed between the crown nut and the damper; adjusting washers, spacers are made in the form of a flat disk having punching holes with protrusions directed in opposite directions from the disk planes, the protrusions are embedded in poly dimensional elastic elements, spacers mounted on the edges of the block of polymer elastic elements, are made with protrusions directed towards the extreme polymer elastic element, while spacers with protrusions embedded in the polymer elastic elements are configured to reduce the elastic deformation of the polymer elastic elements under load on the absorbing apparatus, each of the polymer elastic elements has in the axial section a recess located symmetrically between the planes of the polymer elastic element, We take into account the optimal dimensions of the protrusions on the spacers, their optimal number, as well as the optimal size of the recess in the axial direction and its diameter, are determined experimentally depending on the parameters of the given power characteristics of the absorbing apparatus for given values of the working stroke, the energy intensity of the absorbing apparatus and the compression force at the full stroke of the absorbing apparatus moreover, the absorbing apparatus is made with the possibility of reducing its height to the size specified by the coupling device, while between the disk press m and the lower edges of the windows of the pressure cup are clamped two embedded elements made with the possibility of their dismantling after installing the absorbing device in the coupling device, the height of the embedded elements is set depending on the required value of reducing the height of the absorbing device.

The application of the proposed combination of essential features allows to obtain a new technical result: to improve the absorbing apparatus and eliminate the disadvantages of the prototype. Firstly, the use of spacers with protrusions embedded in polymer elastic elements allows to improve the power characteristic of the absorbing apparatus due to the fact that such a combination of spacers and polymer elastic elements restrains the elastic deformation of polymer elastic elements in the radial direction. Secondly, replacing the flange with a pressure plate allows, while maintaining the size of the absorbing apparatus in height, to increase the rigidity of the part to the desired value. Thirdly, the installation of adjusting washers between the pressure cup and other parts allows you to adjust the height of the absorbing apparatus to the desired value without selective selection of polymer elastic elements according to their height. Fourthly, the installation of two embedded elements during the assembly of the absorbing apparatus makes it possible to reduce the height of the absorbing apparatus by a predetermined amount, which simplifies the process of installing the apparatus in a coupling device.

The analysis of the prior art showed that the proposed set of essential features is new, does not explicitly follow from the prior art and thus, the proposed utility model is new and has an inventive step.

The essence of the utility model is illustrated in the drawing. In FIG. 1 shows the proposed absorbent apparatus, which contains: a rectangular plate 1, a coupling bolt 2 passing through a central hole in the plate, the head 3 of the coupling bolt entering a recess 4 on the plate, and secured with a castellated nut 5 s on the coupling bolt the initial tightening force of the damper 6, the pressure glass 7 with two windows 8 located opposite each other, and the glass is oriented relative to the plate so that each of the windows is directed towards the short side of the plate 1, six polymer elastomers They are made of Heitrel thermoplastic elastomeric elements 9, each of the polymer elastic elements 9 has a toroidal shape, spacers 10 are installed between them, each of which has a central hole 11 with which the spacer is mounted on the coupling bolt 2 with the ability to move along its axis, a castellated nut 5 is prevented from turning relative to the coupling bolt 2 by cotter pin 12, between the castellated nut 5 and the damper 6, the pressure disk 13 is installed, between the damper 6 and the pressure glass 7 washers 14 are installed, between the glass pressure 7 and adjusting washers 15 are installed; spacers are made in the form of a flat disk having punching holes with projections 16 directed to opposite sides of the disk planes; projections 16 are embedded in polymer elastic elements 9, spacers 10 mounted on the edges of the block of polymer elastic elements 9 are made with protrusions directed towards the extreme polymer elastic element, each of the polymer elastic elements 9 has an axial section of a recess 17 located symmetrically between the poly planes molecular weight elastic member. Between the pressure disk 13 and the lower edge of the holes in the pressure glass, two embedded elements 18 are clamped during assembly.

Absorbing apparatus with polymer elastic elements works as follows. For installation in the BSU-TM clearance-free coupling device, the absorbing apparatus is supplied in a “charged” state, which is ensured by the installation of two embedded elements in the absorbing apparatus. After the absorption device is installed in the coupling device, the mortgage elements are dismantled, while the height of the absorption device increases and it is clamped in the coupling device due to the initial tightening of the absorption device. During shunting operations and during the movement of rolling stock, the absorbing device perceives dynamic influences through the pressure glass 7 and plate 1. The pressure glass 7 and plate 1 compress the polymer elastic elements 9, while the full structural stroke can reach 80 + 5 mm. The deformation of polymer elastic elements by such a significant amount and their subsequent unloading leads to a significant dispersion of the energy of the dynamic effect due to the high coefficient of internal friction in the Heitrel polymer. With the reverse stroke, the damper 6 softens the dynamic interaction of the pressure glass 7 and pressure disk 13.

The proposed absorbing apparatus with polymer elastic elements solved the problem of a utility model. A design is proposed that eliminates the disadvantages of the prototype. The power characteristic of the absorbing apparatus is improved due to the use of spacers with protrusions embedded in the polymer elastic elements, restraining the elastic deformation of the polymer elastic elements in the radial direction. In addition, the presence in the axial section of each of the polymer elastic elements of the recess further improves the power characteristic of the absorbing apparatus under dynamic and quasistatic loading. Replacing the flange with a pressure disk made it possible, while maintaining the height of the absorbing apparatus, to increase the rigidity of the part to the required value. The introduction of adjusting washers into the design of the absorbing apparatus made it possible to adjust the height of the absorbing apparatus during its assembly to a predetermined value and to exclude selective selection of polymer elastic elements in height. The installation of two embedded elements in the absorbing apparatus made it possible to reduce its height during assembly of the apparatus, which greatly simplified the process of installing the absorbing apparatus in the coupling device.

Design documentation has been developed for the proposed design of an absorbing apparatus with polymer elastic elements, according to which prototypes have been made and undergo comprehensive tests.

Thus, the proposed utility model is industrially applicable.

Claims (1)

1. An absorbing device with polymer elastic elements for BSU-TM coupling devices for passenger rolling stock, comprising a rectangular plate, a coupling bolt passing through a central hole in the plate, the head of the coupling bolt entering a recess on the plate, mounted on the coupling bolt and tightened with a castellated nut with an initial tightening force of the damper, a pressure cup with two windows located opposite each other, and the glass is oriented relative to the plate so that each of the windows is facing len toward the short side of the plate, six polymer elastic elements made of Heitrel thermoplastic elastomer, made with the possibility of dissipating energy due to internal friction during elastic deformation of polymer elastic elements, each of the polymer elastic elements has a toroidal shape, spacers are installed between them, each of which has a central hole with which the spacer is mounted on the coupling bolt with the ability to move along its axis, at the edges of the block of polymer elastic elements installed about one spacer, Tighten castellated nut from rotation relative to the clamping cotter bolt, wherein that a pressure disk is installed between the crown nut and the damper, washers are installed between the damper and the pressure glass, adjusting washers are installed between the pressure glass and the spacer, the spacers are made in the form of a flat disk having punching holes with protrusions directed to opposite sides of the disk planes, protrusions embedded in polymer elastic elements, spacers mounted on the edges of the block of polymer elastic elements are made with protrusions directed towards the extreme polymer elastic element, while spacers with protrusions embedded in the polymer elastic elements are configured to reduce the elastic deformation of the polymer elastic elements when the load is applied to the absorbing apparatus, each of the polymer elastic elements has in the axial section a recess located symmetrically between the planes of the polymer elastic element, and the optimal size The protrusions on the spacers, their optimal number, as well as the optimal size of the groove in the axial direction and its diameter, are determined experimentally depending on the parameters of the given power characteristics of the absorbing apparatus for given values of the working stroke, the energy intensity of the absorbing apparatus and the compression force at the full stroke of the absorbing apparatus, absorbing the apparatus is configured to reduce its height to the size specified by the frame of the carriage, while between the disk press and the lower edges of the glass windows press two elements of mortgages are clamped, made with the possibility of their dismantling after installing the coupling device and the absorbing device in the carriage frame, the height of the mortgage elements is selected depending on the required value for reducing the height of the absorbing device, while the absorbing device is configured to install mortgage elements when dismantling it from carriage frames for repair.

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