SU796303A1 - Working member of gas-jet snow-removing device - Google Patents

Description

The invention relates to the working equipment of a machine for cleaning airborne and similar coatings from snow and other objects. A working body of a gas-jet snowplow is known, which contains a blade of a semi-circular mold in cross section from the front and rear walls of a kami, an engine with an air screw and mounted on the rear wall of a rubber knife 1 mounted at the end of the blade. A disadvantage of the known snow blower is that the air flow interacts with the snow in open space, resulting in a disordered movement of a part of the snow and the loss of jet energy due to turbulence. In addition, in a sleep, a dumped mass arrives at the dump, which also reduces the efficiency of its throwing by the air jet. The purpose of the invention is to increase efficiency. This goal is achieved by the fact that the working body is equipped with profiled blades fixed in the lower part of the front wall and arranged in a horizontal plane at an angle to the longitudinal axis of the blade. With this, the distance between the front ends of the adjacent vanes is greater than the distance between their rear ends. In addition, in order to reduce the weight of the working body, the blade contains a frame of transverse and longitudinal metal profiles, covered from the inside with a fabric cloth, and C-shaped profiles and strips attached to the frame of the blade. FIG. 1 is a side view of the snow blower; in fig. 2 - the same plan view; in fig. 3 - the same, front view; in fig. 4 - side skimmer; in fig. 5 shows section A-A in FIG. four; in fig. b - section bb in fig. 4. A gas jet snow plow tool for cleaning coatings 1 is mounted on a self-propelled chassis 2, contains a half-ring-shaped blade 3 and can be fixed by means of hinges 4 and hydraulic cylinders 5 to the front part 6 of the self-propelled chassis 2. The blade 3 in front from the bottom has specially shaped blades along the entire length 7, fixed in a certain place by a screw 8, and a rubber knife 9. In the face part of the blade 3 on two crossbars beams -10 and 11, the engine 13 having the propellers 14.i is hemmed in by means of t 12 a frame of the blade 3 tz 15 transverse and 16 longitudinal metal profiles of light alloys, covered on the inner side with a fabric web 17, attached to transverse frameworks 15 of the frame by means of special C-shaped profiles 18 and strips 19 Torsion part of the blade with the aim of preventing foreign objects from entering in the tract of the bypass chickpea with a mesh 20. The profile vanes 7 are raised above the coating 1 to the height of the machine, ensuring unhindered patency, regardless of the unevenness of the carriageway.

Mounted snow jet snow plow works as follows. The self-propelled chassis 2 moves along the surface of the coating with the blade 3 lowered into the lower position, inside which the rotating propeller 14 creates a high-speed stream of cold air. The snow is scooped using the blades 7, flows along their surfaces onto the main carrying stream and is thrown last through the free end of the blade 3j, while the high-speed flow creates some vacuum in the region of the rear edges of the blades 7, causing the snow to be sucked into the dump 3 ejected through cross sections of interscapular channels with air jets, thereby increasing the speed of snow movement along the surface of the blades 7.: Due to the coincidence of the direction of snow movement at the rear edges of the blades 7 s the direction of the ejecting, carrying stream makes it possible to significantly improve the spray of snow when it is thrown to the side. The amount of energy consumed by the propellers 14 is adjusted accordingly depending on the changing conditions at the aerodrome where the machine is operating. For example, if the snow removed from the surfaces 1 is relatively deep or wet and heavy, the TJO engine 13 operates in the highest power mode relative to that.

which is needed for efficient spraying of dry and light snow. At the end of the snow removal from the coatings 1, the blade 3 is installed by means of hydraulic cylinders 5 in the upper transport position.

Thus, the proposed device allows increasing the range of the nyTQvi working jet to isolate it from the influence of the surrounding environment by using a heap of a half-ring shape, which significantly reduces the intensity of the fall of the working jet head in its feed direction. In addition, the use of the ejection effect created by the carrier stream at the rear curved blades accelerates the movement of snow along the surface of the blades and allows for increased snow sputtering at the exit of the collector interscapular channels.

Claims (3)

Invention Formula one . The working body of a gas-jet snowplow containing a half-ring mold blade in cross section with front and rear walls mounted in the end of the blade. An air screw engine and a rubber knife fixed to the rear wall, characterized in that, to increase the efficiency of CiH, profiled blades located in a horizontal plane at an angle to the longitudinal axis of the blade. 2. The body according to claim 1, which is also distinguished by the fact that the distance between the front ends of the adjacent vanes is greater than the distance between their rear ends. 3.Organ on PP. 1 and 2, in order to reduce weight, the blade contains a frame of transverse and longitudinal metal profiles, covered with a fabric cloth on the inner side, and C-shaped profiles and strips attached to the frame of the blade. Sources of information taken into account in the examination 1. US patent No. 3999316, CL 37-43, 12.28.76. P G5 THEM/ R -11 -w -J iiiUi llllllllllinnilllllurillllllllltll.Ull.lllinitllllllllllUiniin: ig.2 /five / GB I g, "- /:.   H, ..- ...., / 2 796303 7, rw. - / i