WO2012166075A1 - 73zw shock absorber for railway transport - Google Patents

Abstract

Use: in the railway transport sector for the production of elastomeric shock absorbers. Essence: the shock absorber consists of a cylindrical body which is closed at one end by a bottom and is compressed by a thrust plate of a flexible support unit. The support unit is partially arranged within the cylindrical body of the shock absorber so as to be movable relative thereto. The support unit is in the form of an elastomeric buffer consisting of a cylindrical body, which is filled with an elastomer, and a rod. The rod is supported at one end on the bottom of the body of the shock absorber and comprises a piston at the other end. The piston divides a working chamber of the buffer into two cavities such that an elastomeric compound can flow from one chamber into the other via a calibration gap between the lateral cylindrical surface of the piston and the internal surface of the body. The thrust plate is connected with the aid of bolts and mounting strips to the body of the shock absorber so as to be movable relative thereto. Technical advantages: improving the power characteristics, simplifying the construction, improving the repairability and increasing the service life.

Description

 732W ABSORPTION UNIT

 FOR RAILWAY TRANSPORT

The technical field to which the utility model relates.

 The utility model relates to the railway engineering industry, namely, to devices for depreciating railway rolling stock, and can be used in modern designs of elastomeric absorbing devices used to protect cars from excessive shock and traction loads.

State of the art

Known is an absorbing apparatus comprising a housing in which a support assembly is installed between the pressure plate and the support plate, consisting of a tubular rubber element and two springs, one of which covers the rubber element and the other is mounted in its central hole, after which preliminary compression of the support unit, the pressure plate and base plate are connected by a central clamping bolt [see but. from. USSR NQ 1615003 according to class B61G 9/06, published on December 23, 1990]. A disadvantage of the known absorbing apparatus is its low strength characteristics and unreliable construction. In this technical solution, while the load increases, the elastic rubber element fills the inter-turn space of the springs, as a result of which large local stresses arise in these places, which, under cyclic loads, leads to the destruction of the rubber element, and therefore to premature - a new failure of a known absorbing apparatus. In addition, due to the low elastic modulus of rubber, the support unit has a low energy intensity (only 40-50 kJ), which does not meet the current requirements for absorbing devices. It should also be noted that the use of metal springs of different sizes in the known technical solution complicates and increases the cost of the design of the absorbing apparatus.

An absorbing apparatus is also known, comprising a housing, a pressure plate interacting with a pre-compressed elastic element made of an elastomer in the form of a monolithic block, at the ends of which washers with flanges covering the monolithic block around the perimeter are fixed and installed in the housing with a gap between its side walls, while at least a pair of opposite faces of the indicated monolithic block has a concave surface with the smallest transverse reading in the middle [see US Pat. Ukraine Ns 82142 in class B61G9 / 00, published on March 11, 2008].

 This technical solution provides for the use of a monolithic block of elastomer as the elastic element, which allows to increase the energy consumption of the absorbing apparatus by 15-20% and the service life by 5 times, since the specific allowable loads in elastomers are 5-10 times higher than that of rubber . However, a disadvantage of the known absorbing apparatus is the imperfection of the design of its elastic monolithic block. This disadvantage is explained by the rapid wear of the elastomeric block (in particular, its lateral working surface, which contacts the housing walls) as a result of the lack of protection of its construction from excessive lateral deformations, which inevitably arise when the device absorbs high shock loads.

The closest in essence and the effect achieved, taken as a prototype, is an absorber for railway transport, containing a cylindrical body, closed on one side by a bottom, in which an elastic supporting unit in the form of a sleeve made of elastomer and hollow is mounted plunger [see US Pat. Russia N ° 2373092 according to class B61G 9/06, published on November 20, 2009 in Bull. N ^Q 32]. s The main disadvantage of the known technical solution is that the impact energy is absorbed not only due to the accumulation of internal energy during compression of the elastic elastomeric sleeve, but also due to the friction of the outer cylindrical surface of the latter against the walls of the housing. This leads to premature wear of the contacting work surfaces, therefore, to a reduction in the service life of the known absorbing apparatus for railway transport.

 This problem was partially solved due to the presence of grooves with solid lubricant on the surfaces of the elastomeric sleeve and plunger, but this solution significantly complicates the design and maintenance of the absorbing apparatus, which is the second disadvantage of the known technical solution.

 A third disadvantage of the known absorbing apparatus is the imperfection of the design of the elastic support unit, which consists, in particular, in the absence of sufficient rigidity of the elastomeric sleeve, which does not allow increasing the amount of absorbed and scattered energy.

A fourth disadvantage of the known absorbing apparatus for railway transport is the need for mandatory compliance with the installation of the plunger and the elastomeric sleeve of a certain landing clearance (mainly but within 0.05-0.2 mm) to ensure reliable operation of the device. The specified limiting condition complicates the assembly of the absorbing apparatus and reduces its maintainability, since compliance with the specified gap between partially worn and new parts can be problematic.

 The utility model is based on the task of increasing the power characteristics of an absorbing apparatus while simplifying its design and increasing its service life by introducing new elements into the design and modifying those already known by means of corresponding structural improvements.

Utility Model Essence

The solution to this problem is achieved by the fact that in the absorbing apparatus for railway transport, consisting of a cylindrical body closed on one side by a bottom and pressed by a thrust plate of the elastic support assembly, according to the proposal, the support assembly is partially located inside the cylindrical housing of the apparatus with the possibility of movement relative to it and made in the form of an elastomeric shock absorber, consisting of a cylindrical body filled with an elastomer, and a rod, which at one end rests on the bottom of the body sa apparatus, and the other contains a piston that separates the shock chamber of the shock absorber into two cavities with the possibility of the elastomeric mass flowing from one chamber to another through a calibration gap between the lateral cylindrical surface of the piston and the inner surface of the housing, while the thrust plate is connected to bolts and mounting plates with the casing of the device with the ability to move relative to it.

Due to a change in the design of the elastic support block, in particular, in the form of an elastomeric shock absorber, the full power characteristics of the proposed absorbing apparatus are achieved without reducing its service life, since during shock compression of this shock absorber, energy absorption occurs solely due to throttling of the elastomeric material , that is, without involving the work of the friction forces that cause wear. In addition, the proposed shock absorber, thanks to the metal casing, has the necessary rigidity, has a simple design, which is technologically advanced in manufacture and maintenance, which makes it possible to simplify the assembly of the absorbing apparatus and significantly increase its maintainability. In this case, the structural modification of the thrust plate necessary for the implementation of the proposed technical solution as part of an absorbing apparatus for railway transport, in this way does not reduce the functionality of the device or complicate its design.

 Thus, the entire set of essential features of the proposed solution regarding the absorbing apparatus of a modified design ensures the achievement of a technical result.

The list of figures illustrative materials

Figure 1 is a General view of the proposed absorbing apparatus with a partial longitudinal section;

 Figure 2 is a side view of the proposed absorption apparatus with a partial longitudinal section.

Description of the preferred embodiment of the utility model

The proposed absorber apparatus comprises a hollow cylindrical body 1 closed on one side by a bottom 2. An elastomeric shock absorber 3, consisting of a cylindrical body 4 filled with an elastomer and a rod 5, is partially located inside the cylindrical body 1 and can be moved relative to it. At one end of the rod 5, a piston b is made, dividing the working chamber of the cylindrical body 4 into two chambers 7 and 8 with the possibility of flowing of the elastomeric mass from one chamber to another through a calibration gap 9 between the lateral surface of the piston 6 and the inner surface of the cylindrical housing 4. At the other end, the rod 5 rests on the bottom 2 of the cylindrical housing 1. The elastomeric shock absorber 3 is pressed by a thrust plate 10, which, using bolts 11 and mounting plates 12 are connected to the apparatus body with the possibility of movement relative to it.

 The proposed absorbing apparatus operates as follows.

 Under the action of a compressive load, which is transmitted through the thrust plate 10 to the elastomeric shock absorber 3, the rod 5 enters the cavity of the cylindrical body 4 and compresses the elastomeric mass, creating high internal pressure, due to which energy is absorbed. During shock (dynamic) compression of the shock absorber, energy absorption occurs due to overflow (throttling) of the elastomeric mass through the calibration gap 9 between the side surface of the piston 6 and the inner surface of the cylindrical body 4.

The proposed technical solution is tested in practice. The proposed absorbing apparatus, manufactured, for example, according to drawing N ^Q 73ZW110102-5-00 SB "Elastomeric Absorbing Apparatus 73ZW" does not contain any elements or materials, which could not be reproduced at the present stage of development of science and technology, in particular, in the production of elastomeric absorbing devices, therefore, is acceptable for industrial use, has technical and other advantages over the known analogues due to the proposed design improvements, which confirms the possibility of achieving a technical result of the claimed object. In known sources of scientific, technical and other information, absorbing devices with the set of essential features specified in the proposal were not found, therefore, the proposed technical solution is considered such that it can receive legal protection.

A significant difference between the proposed absorbing apparatus and the previously known ones is that its support unit is made in the form of an elastomeric shock absorber, consisting of a cylindrical body filled with an elastomer, and a rod that rests on the bottom of the body of the apparatus at one end and contains a piston dividing the shock chamber of the shock absorber into two cavities with the possibility of flow of the elastomeric mass from one chamber to another through a calibration gap between the lateral cylindrical surface of the piston and the inner the surface of the housing, while the thrust plate using bolts and mounting straps connected to the casing of the device with the possibility of movement relative to it. These differences, in the aggregate, ensure the completeness of the energy-power characteristics of the proposed absorbing apparatus and contribute to an increase in the resource of its operation. None of the known absorbing devices can simultaneously possess all of the listed properties, since they do not provide for the entire set of essential features stated in the proposal in their designs.

Utility Model Technical Advantages

The technical advantages of the proposed absorbing apparatus, in comparison with the prototype, include:

 - improvement of power characteristics due to improvement of the design of its support unit;

 - simplification of the design and improvement of maintainability for the same reason;

 - increased service life due to the absence of wear of the contacting working surfaces of the parts.

After the description of the proposed technical solution to specialists in this field of knowledge, it should be obvious that all of the above is only illustrative and not restrictive, as presented by this example. Numerous possible options for the implementation of the proposed absorbing apparatus, in particular, the height and diameter of the components of the elastomeric shock absorber, its location inside the housing of the absorbing apparatus can vary depending on the piston stroke and the value of the device’s preliminary tightening force, and, of course, are within the scope of one of the usual and natural approaches in this field of knowledge, and are considered such that they are within the scope of the proposed technical solution.

The quintessence of the proposed technical solution is that in the design of the absorbing apparatus there is an elastomeric shock absorber, consisting of a cylindrical body filled with an elastomer, and a rod, which at one end rests on the bottom of the apparatus body, and on the other contains a piston, dividing the shock chamber of the shock absorber into two cavities with the possibility of flow of the elastomeric mass from one chamber to another through the calibration gap between the lateral cylindrical surface of the piston and the inner surface housing and persistent pli- that with bolts and mounting plates connected to the housing unit can be moved relative to it, Owing to what is achieved and the technical result. Change and use of only individual structural elements from the whole of the claimed ones naturally limits the range of advantages listed above and cannot be considered a new technical solution in this field of knowledge, since other similar designs will no longer require any creative approach from design engineers, and will not can be considered the results of their creative activity or new objects of intellectual property corresponding to the protection of security documents.

Claims

USEFUL MODEL FORMULA An absorbing device for railway transport, consisting of a cylindrical body closed on one side by a bottom and pressed by a thrust plate of an elastic support assembly, with the condition that the support assembly is partially located inside the cylindrical the device’s body can be moved relative to it and is made in the form of an elastomeric shock absorber, consisting of a cylindrical body filled with an elastomer, and a rod, which at one end rests on the bottom of the device’s body, and on the other contains a piston, section dividing the shock chamber of the shock absorber into two cavities with the possibility of the elastomeric mass flowing from one chamber to another through a calibration gap between the lateral cylinder surface of the piston and the inner surface of the housing, while the thrust plate is connected to the apparatus body using bolts and mounting plates with the ability to move relative to it.