RU199443U1 - CONE OF PUSHING ABSORBER DEVICE - Google Patents

Abstract

The utility model relates to structural elements of friction draft gears of automatic couplers of railway transport. A cone of a pressure draft gear is offered, which is a glass-shaped all-metal part with a through hole in the center. The pressure cone is made by casting in a sandy-clay mold. The technical result to be achieved by the proposed utility model is to reduce material consumption and manufacturing cost.

Description

The utility model relates to structural elements of friction draft gears of automatic couplers of railway transport.

An integral part of the friction draft gear is the pressure cone. The pressure cone takes the load from the traction clamp and interacts with the friction wedges of the draft gear.

Known friction draft gears according to patents RU112881 B61G 9/18, F16F 7/08; RU149492 B61G 9/02, B61G 9/18, F16F 7/08; RU161005 B61G 9/06; RU161005 B61G 9/06, B61G 9/14; RU169138 B61G 9/00; RU169528 B61G 9/00; RU177828 B61G 9/10, B61G 9/18; RU2380257 B61G 9/18; RU2473440 B61G 9/18, B61G 11/14; RU2591471 B61G 9/06, B61G 9/08, B61G 9/10. These devices have a fundamentally similar design and consist of a body in the form of a glass, in which a truncated cone is placed symmetrically to its inner walls, a pair of friction wedges with a base plate, a pair of movable and fixed plates, as well as a back-and-forth device in the form of a package of elastic elements (springs or polymer).

In these patents, the design and manufacturing method of the pressure cone are not specified.

As a prototype, a cone of the pressure draft gear PMKP-110 according to TU 3183.002.02068031-2004, which has a glass-like shape, is taken. The pressure cone is made by stamping, and, therefore, has stamping slopes and radii.

The disadvantages of this pressure cone are due to the method of its manufacture. Stamping a cone means making it one-piece with stamping slopes and radii. Such design features increase the material consumption of the cone. Also, during the manufacturing process, an additional operation is required to remove burrs formed along the parting line of the dies. This complicates the production process and reduces the manufacturability of the cone.

The technical result to be achieved by the proposed utility model is to simplify production, increase manufacturability and eliminate unnecessary operations. This reduces the consumption of materials and the cost of manufacturing.

The specified technical result is achieved in that the cone of the push draft device is an all-metal glass-shaped part with a through hole in the center and is distinguished by the fact that it is made by casting into a sandy-clay mold.

In addition, the pressure cone can be made of steel 38HSL according to TU 087020-001-38743637-2015.

The proposed utility model is illustrated by the following drawings, which show a particular case of the utility model:

FIG. 1 - pressure cone, side view;

FIG. 2 - pressure cone, lateral section;

FIG. 3 - pressure cone, top view;

FIG. 4 - pressure cone, perspective view.

The cone of the push draft device (Fig. 1, 2) is an all-metal piece 1 of a glass shape with a through hole 2 in the center, protrusions 3 and bevels 4 The push cone is used in friction draft gears of automatic couplers of railway vehicles and works as follows. When acting on the automatic coupler device (not shown in the figure) of the compressive force, its shank through the stop plate presses on the cone of the pressure absorber. The pressure cone transmits the force to the friction wedges, and they, in turn, press on the support plate, which compresses the package of elastic elements.

Manufacturing a pressure cone according to a utility model by casting into a sandy-clay mold reduces the cost of its manufacture, since the use of special expensive dies that require regular maintenance and have a limited service life is not required.

The proposed design of the pressure cone has a lower material consumption in comparison with the analogue while maintaining the design strength of the product. The mass of the pressure cone for the utility model is 11 kg, and the mass of the prototype is 12.1 kg.

The proposed design of the pressure cone is universal for various types of draft gears, and can be installed in draft gears with both a set of polymer elements and a set of springs.

The design parameters of the loads of the cast structure of the pressure cone repeatedly satisfy the operating conditions of the draft gears.

Thus, the solutions used in the utility model make it possible to reduce the consumption of materials and the cost of manufacturing the pressure cone, which ensures the achievement of a technical result.

Claims (2)

1. The cone of the thrust draft gear, which is an all-metal glass-shaped piece with a through hole in the center, characterized in that the cone is cast into a sandy-clay mold. 2. Press cone according to claim 1, characterized in that it is made of steel 38HSL.

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