SU1781112A1 - Locomotive sander - Google Patents

Description

The invention relates to railway transport and can be used on locomotives equipped with devices for feeding sand under their wheels to increase the coefficient of adhesion of wheels to rails.

The sandbox of the ONZ64 locomotive is known, which contains a body with integrated fittings for supplying compressed air for loosening and transporting sand.

A significant drawback is the instability of productivity in the sand and the inability to control the supply of sand, which leads to a significant consumption when the locomotive moves. A sandbox of a locomotive is also known, including a housing, to the upper wheel of which a feed pipe is connected from the sand hopper, and to the lower one - a sand supply pipe with a tip containing a chamber for loosening sand and a nozzle chamber, a fitting for supplying compressed air and a nozzle with an elongated pipe .

The disadvantage of this design is the inability to control the sand supply under the wheels of the locomotive, which entails its inefficient consumption, and also requires constant visual monitoring of the sandbox.

The aim of the invention is to provide control of the supply of sand under the wheels of a locomotive.

This goal is achieved in that the proposed technical solution has significant features: the nozzle includes a pipe connected to it coaxially with a rubber outlet tube, in which a metal sleeve with an inner diameter equal to the inner diameter of the rubber tube is installed coaxially with it, the sleeve and the pipe being plates of a capacitive sensor included in one of the shoulders of the measuring bridge connected to a high-frequency source and an indication unit.

Analysis of the known technical solutions did not reveal in them significant features that coincide with the foregoing. This as well as that. that in the presence of the above characteristics, the stated goal of the invention is achieved, gives the authors reason to consider that they meet significant differences according to the criterion.

In FIG. 1 shows the proposed device. figure 2 - circuit diagram.

The sandbox contains pipe ΐ. which is one of the plates of the capacitor C1. sleeve 2 isolated from it.

which is the second lining of the capacitor C1. a rubber tip 3, a high-frequency alternating voltage power supply, a measuring bridge 6, and a capacitor C1 is included in one of its arms. representing a capacitive sensor. The display unit 5 is included in the diagonal of the measuring bridge 6.

The device operates as follows. The measuring bridge 6 is powered by a high frequency sinusoidal voltage and is balanced by capacitors C2, C3, C4. The capacity of a capacitor of arbitrary shape can be determined based on the expression:

where q is the charge of the plates;

φ · \. (pi are the potentials of charges, defined as where ε is the relative permittivity of the medium:

Co is the electric constant;

S is the surface area of the charged body;

g is the distance between charges;

σ is the surface density of a charged body.

From expressions (1) and (2) we find that ^{c =} 1 ⁽³⁾ 4πεε ₀ ⁷ r 7 r ⁷

Sand, carried away by the air flow, passes in the cavity of the pipe 1 and sleeve 2. In this case, the relative dielectric constant of the medium ε changes, and it changes in proportion to the density of the air mixture, i.e. in proportion to the amount of sand supplied under the locomotive wheel per unit volume of blown air. With a change in the relative permittivity ε of the medium, the capacitance of the capacitor C1 changes, which leads to an imbalance of the bridge. The signal arriving at the display unit will be proportional to the magnitude of the change in the relative permittivity ε, and, consequently, to the amount of sand in the blown air, i.e. sandbox performance.

If sand freezes at the tip, the relative permittivity ε of frozen ground will be much higher than the sand-air mixture, and the signal fed to display unit 5. will have a maximum value. The magnitude of this signal will correspond to the formation of plugs in tip 3.

Thus, the application of the proposed device will make it possible to control the supply of sand during the movement of the locomotive, as well as determine the performance of the sandbox.

Claims (1)

Claim Sandbox of a locomotive containing 10 hopper with bulk material, a nozzle connected by a pipe with a nozzle for supplying bulk material with air to the rail, characterized in that. in order to control the flow of sand and determine the performance. the nozzle includes a nozzle connected to a rubber outlet tube coaxial to it, in which a sleeve is installed coaxially with an inner diameter equal to the inner diameter of the rubber tube, the sleeve and nozzle being plates of a capacitive sensor included in one of the arms of the measuring bridge connected by its diagonals respectively with a high-frequency source and with an indication unit. Compiled by A. Kashur Editor Tehred M. Morgenthal Corrector N. Tupitsa Order 4247 Circulation Subscription VNIIIPI State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35. Raushskaya nab., 4/5 Production and Publishing Plant Patent ”, Uzhgorod, Gagarin St. 101