SU1131965A1 - Snow plough for railways - Google Patents

Abstract

1. SNOW CLEANER OF RAILWAY TRAINS, containing a platform on which a working device is installed, connected between themselves snowballs, a tank for draining the liquid and a tank with a level sensor and a booster pump installed in it, an injection pump and a heater, and the tank is connected by means of Pumps A piping system with a snowball, which is characterized by the fact that, for the purpose of suction capacity, it is equipped with a diverging tank installed on the aforementioned capacity, connected to the injection a pump dispensing device located on the indicated tank and including a dispenser with a mixing chamber in which the heater is placed, with this booster pump, is connected to the communicating valve and the tank through check valves. 2. The snow plow according to claim I, clause (L that the injection pump is connected to the snow by means of a pipeline with openings.

Description

..: 2if s3 412 The invention relates to devices removing snow from expensive road surfaces. A snowplow is known: a railroad track, comprising a platform on which a working member is installed, connected to each other a snow cart, a tank for draining the liquid and a tank with a liquid level sensor and with a booster pump installed in it, a booster pump and a heater, The reservoir is connected by means of the indicated pumps through the pipe-fitting system from the snow pipe 1. A disadvantage of the known devices is high energy consumption, which is necessary for heating water that provides snow melting. The purpose of the invention is to reduce energy consumption. The goal is achieved by the fact that the snowplow of railway tracks, containing platforms on which a working snowboard is placed, communicates between each other, a tank for draining the fluid and a tank with a fluid level sensor and a booster pump installed in it, a booster pump and a heater, and the tank is connected by means of the indicated pumps, through a piping system with a snow cell, supplied with a supply tank installed on the said tank, connected to a pressure pump, metering devices located on said tank and including a dispenser with a mixing chamber in which the heater is placed, while the booster pump is connected to the chamber and the tank communicated to each other through check valves. In addition, the injection pump is connected to the snow by means of a pipe with openings. FIG. 1 shows the device, a general view; in fig. 2 — node 1 in FIG. I; in fig. 3 - node II in FIG. one; in fig. 4 — node III in FIG. t. The snow plow contains a platform 1 on which it is installed after; and the inlet device 2, snow pins 3, the tank 4 for draining the liquid and the water storage tank 5 are connected. 5 A cleaner is made up of a plate-shaped mold 1 on which the intake device 2 is mounted, connected by a guide pipe 6 to a snow hole 3 connected by an overflow pipe 7 with a capacity of 4 to drain the formed liquid. In the upper part of the snow pit, the pipes 3 are rigidly fixed to a pipe line 8 with holes, connected by a pipe 9 to a pump 10, installed on the feed tank 11 for saline. The supply tank 11 is mounted on the tank 4. On the supply tank 1G, the dispenser 12 is installed to maintain a constant concentration of the brine, in the supply tank 1 1. The dispenser 12 consists of a mixing chamber 13 JH of the bunker 14 for salt with the metering valve 15 with the drive 16. In the mixing chamber 13 of the dispenser 12, a heating element 17dl is installed. To accelerate the process of the formation of a saline solution of the necessary concentration and the bubbling nozzles 18dl to ensure the mixing of the salt with the formed liquid. The barbo-nozzles 18 of the dispenser 12 are connected by pipeline 19 to the bubbling nozzles 20 of the supply tank 11, which serve to continuously mix the concentrated brine with the resulting liquid. The bubbling pipes 20 of the supply tank 11 are connected by pipe 21 through valve 22 to a compressed air tank 23 connected to a compressor 24. The supply tank and the metering device 12 are connected to a booster pump 26 installed on the tank 4 to drain the formed liquid through the non-return valve 25 from snowballs 3 and feeding the supply tank 11. In the supply tank 11, to monitor the constant required concentration of the salt solution, a sensor-indicator 27 of the concentration of the solution is installed, which controls By means of an electrical signal, the shutter 15 of the metering device 12 through its actuator 16 and the float 28 with the limit switch 29, for disconnecting the priming pump 26 in the event of an overflow of the supply tank 1I. Inside the container 4 for draining the formed liquid, an opening 30 is made to allow the formed liquid to enter the reservoir 5, in which a flexible hose 31 is installed to supply liquid to the booster pump 26. The flexible hose 31 is suspended on blocks 32 and 33 with a counterweight 34 and is connected to the booster pump 26 The flexible hose 31 is rigidly fixed, with one end on the float 35 with keel 36 located on the surface of the liquid inside the reservoir 5. On the base 37 above the reservoir 5 a limit switch 38 is installed, giving a signal to the control cabin as it is Neny fluid container 4. Bubbling nozzles 40 are rigidly fixed along the bottom of the tank 4 on the brackets 39, which serve to soak up the formed liquid and to clean the tank 4 from dirt if necessary. Bubble nozzles 18 through the valve 41 are connected by a pipe 42 with a reservoir 23 of compressed air. To drain the formed LIQUID into the sewage wells, the tank 4 has a drain pipe 43 with a valve 44. The snow plow is controlled from the control cabin 45, on which the outdoor temperature thermometer 46 is installed, which controls the dispenser 15 of the valve 15 by an electric signal. The snow plow is running in the following way. In the initial position, the tank 5 is filled with water up to the level of the opening 30. The hopper 14 of the dispenser 12 is filled with sodium chloride, and the tank 23 is filled with compressed air. During the preparation of the snow plow, a booster pump 26 is turned on, which starts pumping water from the tank 5 through check valves 25 to the mixing chamber I3 of the dispenser 12 and into the supply tank 11. At the same time, the drive 16 is turned on and opens the dispensing gate 15 of the dispenser 12, from which the mixing chamber 13 receives salt in an amount dependent on the indicator of the thermometer 46. After: the metering valve 15 is opened, the electromagnetic valve 22 is turned on and the compressed air from the tank 23 through the pipeline 21 and the ISi enters the bubbling nozzle 18 and the dispenser 12 and blended to provide the salt with flowing liquid simultaneously incorporated heating element 17, an accelerating process of formation brine desired concentration. After filling the mixing chamber 13 of the dispenser 12 with a concentrated brine to the level of draining, the brine enters the supply tank 1I, where it is mixed with water simultaneously flowing through the check valve 25 through bubbling nozzles 20. The indicator indicator 27 adjusts the required concentration of the brine by sending a signal to the actuator 16 of the metering valve 15 of the dispenser 12. After filling with the saline solution of the supply tank 1, the end switch 29 of the float 28 is activated and turns off the iodine pump A common pump 26. The system is filled with brine and ready to go. The snow plow is moving along the track and, when it reaches the snow plow, a snow pick-up device 2 is turned on, which takes snow from the tracks and in the direction of the nozzle 6 feeds it into the snow pit LK 3, which is a pallet with a slope of the optimal value in the direction of the tank 4, ensuring unhindered The actual runoff of the formed tank is, but at the same time, prevents snow from slipping into the tank 4. The cross with the snow intake device 2 turns on the forcing pump 10, which supplies saline to the pipeline 8. When exposed to with an ice solution on the snow entering the snow section 3, the latter thaws, and the liquid that forms with it (the bone enters through the overflow pipe 7 into the container 4 to drain the formed liquid. In the container 4, the liquid formed accumulates and partially enters through the 30 tank 5. The first cycle is completed and the subsequent cycles are repeated. As the tank 5 is filled with water, the float 35 rises, which creates conditions for drawing the upper, warmest layer of the liquid formed through the flexible hose 31 to the booster pump 26, which new causes the liquid to circulate in the system. When the reservoir 4 for the formed fluid is completely filled, the end switch is triggered, the switch 38, which is affected by the moving system of the float 35, the flexible hose 31 and the blocks 32 and 33 with the projecter 34. The level

sn

The formed liquid in the tank 5 coincides with the level of the liquid in the tank 4. The limit switch 38 sends a signal to shut off the boost pump 26, the pressure pump 10 and the intake device 2. The snow plow with its working parts off follows the drain of the accumulated liquid from the tank 4 through the drain connection 43 with valve 44. After draining the fluid in the hatch

31965

sewer network snow plow again ready to go.

Thus, the proposed invention makes it possible to reduce the energy costs required to heat the snow to the melting temperature, transfer the snow from the solid to the liquid phase and heat the water formed to 10 times the required temperature and keep this temperature constant.

FiaZ

Claims (2)

1. SNOW REMOVER OF RAILWAYS, containing platform, ROAD on which a working body is installed, a snow melter connected to each other, a tank for draining the liquid, and a tank with a liquid level sensor and a booster pump installed in it, a pressure pump and heating the pipeline with a boiler, and the specified tank is connected via these pipelines to the snow melting tank , characterized in that, in order to reduce energy intensity, it is equipped with a flow tank mounted on the said tank, connected to a charge pump, a metering device, laid on the specified tank and including a dispenser with a mixing chamber in which the heater is placed, while the booster pump is connected to the interconnected chamber and the tank through the check valves. 2. Snow blower according to π. I, characterized in that the discharge pump is connected to the snow melter by means of openings.