RU1770188C - Locomotive sander - Google Patents

Abstract

Usage: railway transport. SUBSTANCE: locomotive sandbox includes a capacitor 1, the electrodes of which are located at the outlet of the hopper 6 with a forest 8, a capacitor 2 located in the ripping cavity of the nozzle 5, and a capacitor 3 located in the nozzle of the outlet pipe 4. 2 h, p. f-ly, 1 ill.

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 ONZ-64 locomotive is known, comprising a body with integrated fittings for supplying compressed air for loosening and transporting sand.

The disadvantage of this design is the sand caking in the sandbox body, the inability to affect the size of the sand particles falling under the wheels of the locomotive.

A sandbox of a locomotive is also known, including a housing, to the upper elbow of which a supply pipe is connected from the sand hopper, and to the lower elbow is a sand supply pipe with a tip containing a chamber for loosening sand and a jet chamber, a nozzle for supplying compressed air and a nozzle with

elongated tube (1). We accept this design as a prototype.

A disadvantage of this sandbox is also sand caking in the sandbox body and the inability to influence the particle sizes of the bulk material fed under the wheels of the locomotive.

An object of the present invention is to improve performance.

The goal is achieved in that the proposed technical solution has significant features: a device for loosening bulk material includes a high-frequency generator and connected to it isolated from each other electrodes installed in the hopper. The specified device is equipped with additional electrodes connected to the high-frequency generator, made in the form of a sleeve half isolated from each other, and the nozzle is equipped with a dielectric holder in which

cl

with

VI

vj

About d

00

with

mentioned sleeve. The specified device is equipped with second electrodes connected to the high-frequency generator installed in the nozzle.

An analysis of the known technical solutions did not reveal in them significant features that coincide with the foregoing. This, as well as the fact that, in the presence of the above features, the object of the invention is achieved, gives the authors reason to consider that there are significant differences between them and the criteria.

The drawing shows a sandbox.

It includes a capacitor 1, representing electrodes isolated from each other, located at the outlet of a hopper b with bulk material (sand) 8, a capacitor 2, located in the ripping cavity of the nozzle 5, also representing isolated electrodes of a capacitor 3. located in the nozzle of the outlet pipe L, made in the form of a split sleeve with parts isolated from each other. Capacitors 1, 2 and 3 are powered by high frequency voltage from a high frequency source 7.

When operating a locomotive sandblasting system, one of the main disadvantages is the caking of bulk material as a result of wetting, vibration compaction, freezing, resinous substances entering the nozzle and other factors. This leads to disruption of the normal operation of the sandbox, reduces the propulsion properties of locomotives. Most often, compaction and caking of bulk material takes place at the outlet of the hopper of the tillering cavity of the nozzle 5. In the nozzle of the outlet pipe 4, solidification occurs due to the ingress of tar, oils, freezing of ice and snow.

The plates of capacitors 1, 2 and 3 are located in places where the solidification of bulk material most often occurs, and it is precisely between the electrodes, which are plates of capacitors 1, 2 and 3, that caking occurs. When the sandbox is turned on, the voltage from the high-frequency source 7 is applied to the plates of the capacitors, which create an intense electromagnetic field. It is this field that is used to weaken caked frozen sand. Under the influence of high-frequency electromagnetic energy, the material located between the electrodes and around them is intensively destroyed and disintegrated. In an electromagnetic field, particles of bulk material are polarized and tend to orient along the field lines of the field. As the field polarity changes, these particles tend to expand again along the lines of force. At a certain frequency of the floor (from a few to 1000 Hz), such particles oscillate. This phenomenon is used to weaken caked material. From hopper 6

0 loosened sand 8 enters the nozzle 5, where it is also exposed to the high-frequency electromagnetic field of the capacitor 2. From the nozzle 5, sand under the influence of the air from the pneumatic system of the locomotive 5 is fed to the outlet pipe 4. In the nozzle of the outlet pipe A, the remaining large coils are destroyed by the energy of the condenser 3 field. caked sand particles, if they were not destroyed in the nozzle 5 or at the outlet of the hopper 6.

0 As a result of the use of the proposed sandbox, the outflow of bulk material will be more uniform, the structure of sand supplied under the wheels will improve, i.e. there will be no large caked particles

5, which degrade the locomotive's driving qualities, it will be possible to destroy caked and frozen ground by electromagnetic field energy in hard-to-reach places without using the manual labor of the locomotive brigade.

Claims (3)

The claims 1. The sandbox of a locomotive containing nozzles with nozzles for supplying air and bulk material from the hopper and output 5 a sand-air mixture, a nozzle in communication with the last nozzle and a device for loosening bulk material, characterized in that, in order to improve performance, the device for loosening bulk material includes a high-frequency generator and connected to it electrodes isolated from each other, installed in the hopper. 5 2. The sandbox according to claim 1, with the exception that the specified device is equipped with additional electrodes connected to the high-frequency generator, made in the form of isolated one from 0 of the other half of the sleeve, and the nozzle is provided with a dielectric sleeve in which said sleeve is installed. 3. The sandbox according to claim 1, characterized in that said device is provided 5 second electrodes connected to the high-frequency generator installed in the nozzle. 4