SU1100399A2 - Slinging apparatus for rotary snow plough - Google Patents

Description

The invention relates to machines for winter maintenance of roads and airfields, an advantage of the type of snowplough.

According to the main author. St. No. 988954 a rotor snow thrower is known, comprising a housing in which a rotor blade is attached to the shaft and connected to the discharge nozzle housing, on the inner surface of which channels are made oriented along its axis and communicated with a source of compressed fluid which is a generator superheated water vapor 1.

However, in the known apparatus, the heat of superheated water vapor is not efficiently used, since the longitudinal exhaust pipes are located around the perimeter of the discharge port, and a considerable part of the heat is lost due to convective heat exchange with the air medium.

The purpose of the invention is to increase the efficiency of the superheated water vapor generator.

The goal is achieved by the fact that in the rotor snow thrower, there is a casing in which a vane rotor is fixed on the shaft and connected to the casing of the discharge nozzle, on the inner surface of which there are channels oriented along its axis and communicated with a source of compressed fluid environment, which is a generator of superheated water vapor, in the discharge pipe along its longitudinal axis, an additional pipeline connected to the source of superheated steam and equipped with exhaust pipes corners directed at acute angles to the indicated axis toward the emission of snow.

FIG. 1 shows the thrower, a general view; in fig. 2 shows section A-A in FIG. one.

The snow thrower throwing apparatus contains a blade rotor 1 mounted rotatably in a stationary casing 2, on which the discharge port 3c is fixed with longitudinal exhaust pipes 4 for supplying superheated water vapor to the inside of the exhaust port. The pipelines 4 are directed to the sides of snow ejection from the propelling apparatus and are located along the perimeter of the exhaust nozzle 3. Pipeline 5 connects longitudinal exhaust pipes 4 to source 6 of superheated water vapor, which is made, for example, in the form of a steam boiler 7 with a steam superheater 8. Inside an exhaust pipe 3 along its longitudinal axis is mounted an additional pipe 9, equipped with outlet openings 10, which are directed radially at acute angles L. to the longitudinal axis of the discharge pipe 3 in the direction of On the snow release, shown by arrow B. The additional pipeline 9 is connected by pipeline 11 to a source of superheated water vapor 6.

Throwing apparatus operates as follows.

As the plow motion moves, the blade rotor 1 is rotated by means of a drive station (not shown). The snow enters the interior of the fixed casing 2 in the axial direction, is captured by the vane rotor 1, is accelerated and ejected under the action of centrifugal forces through the v} drop pipe 3 in the direction of the arrow K tangentially to

Circumference of rotation of a bladed rotor. In the same direction along arrow B, through the longitudinal exhaust pipes 4, superheated steam is supplied from the source 6, which is formed in the steam boiler 7 and is heated in the steam superheater 8 to

required temperature. At the same time, overheated water vapor flows in the direction indicated by sterols G into the discharge port 3 through the outlets 10 of the additional pipeline 9, 4Td, which promotes the turbulization of the internal part of the snow flow ejected from the propelling device and increase the heat exchange rate between the water vapor and the surface of the fragments of snow. At the same time, a significant part of

the heat of superheated water vapor is consumed to heat the surface of the snow fragments from –5 to 0 ° С, and the humidity of the surface layer of the snow fragments increases simultaneously. Due to the soaring of the fragments in the turbulent flow of ejected snow and the additional mixing effect of the water vapor jets entering through the outlets 10, intensive adhesion and enlargement of the snow fragments occurs, which reduces the total cross-sectional area and, accordingly, reduces the force of aerodynamic drag and increases the snow throwing distance .

The use of the invention allows a 50-60% increase in the range of snow transport by the throwing apparatus, while at the same time increasing the productivity and reducing the material consumption of the working equipment of the snowplow. The supply of superheated steam directly into the stream of snow fragments ejected by the propelling apparatus reduces unproductive heat losses to the environment, increases the heat transfer to snow fragments, improves turbulization and sticking of these fragments and thereby increases the efficiency and efficiency of the source of superheated water vapor.

Claims (1)

57) THROWING UNIT OF ROTOR SNOW-CLEANER 'according to ed. St. No. 988954, characterized in that, in order to increase the efficiency of the source of superheated water vapor, an additional pipe is mounted in the exhaust pipe along its longitudinal axis, connected to the source of superheated steam and provided with outlet openings directed at sharp angles to the specified axis in the direction of snow discharge.