RU2089703C1 - Working member of rotor snow plough - Google Patents

Abstract

FIELD: municipal engineering. SUBSTANCE: working member of rotor snow plough has housing with charging port. Housing accommodates feeder made in form of augers with opposite hand-of-helix screw blades with teeth on cutting edge, divider secured in middle part of feeder, two cutting ring disks with teeth arranged before charging port, blades secured on ring disks at side of augers and divider placed between disks. Blades are secured between inner and outer generating surfaces of disk ring at angle to disk radius. Each second tooth of auger blades is bent through acute angle relative to blade surface in direction of snow mass movement along feeder. Teeth of ring disks are bent alternately in different sides through acute angles relative to disk planes. Divider is made in form of fixed hexagonal pyramid with vertex pointed in direction of movement of working member and limited by inner generatrix of disk ring. Vertex of divider pyramid is pointed at angle relative to road bed surface, and vertical axis of divider pyramid base exceeds its horizontal axis. EFFECT: improved quality of rod cleaning. 6 cl, 7 dwg

Description

 The invention relates to public utilities, in particular, to snow removal equipment having a rotary working body.

 Known working body of the snow blower, consisting of counter-helical helical milling cutters, composed of sections of blades separated by cutting disks, rigidly attached to these disks, while the blades and disks are made with teeth located on their periphery.

 The disadvantage of this design is the lack of blades for ejecting snow mass, which reduces the efficiency of its feed to the thrower.

 A rotor type working member is known, formed by a harvesting drum located perpendicular to the direction of movement, on the surface of which a certain number of blades for ejecting snow are fixed, turning into cutting blades inclined to the axis of the drum, and additional blades are mounted between them, connected to shortened sections of the cutting blades.

 The disadvantage of this design is the formation of a compacted snow ring in the gap between the drums, which makes it difficult to supply snow to the loading window.

 Closest to the claimed technical solution is the working body of the rotary snow blower, in which in front of the loading window there are radial throwing blades mounted on the outer side of two rings covering the shaft and connected to it by means of screw spokes fixed on the inner side of the rings.

 The disadvantage of this design is the formation of a rotating snow ring inside the drum formed by the blades and rings, which reduces the efficiency and increases the energy consumption of the snow blower.

 The objective of the invention is to remedy these disadvantages, which is achieved by the fact that the working body of the rotary snow blower comprises a housing with a loading window and a feeder mounted in the housing, made in the form of counter-winding helical milling blades having teeth on the cutting edge, a divider mounted in the middle part of the feeder , two cutting annular disks with teeth located in front of the loading window, and blades mounted on the annular disks on the sides of the mills, while the divider is located between the disks, and the blades are fixed between the inner and outer forming rings of the disk at an angle to the radius of the disk. Each second tooth of the blades of helical mills is bent at an acute angle with respect to the surface of the blades in the direction of movement of the snow mass along the feeder, and the teeth of the ring disks are bent alternately in different directions at sharp angles with respect to the planes of the disk. The divider is made in the form of a fixed hexagonal pyramid with a vertex directed in the direction of movement of the working body and a limited internal generatrix of the disk ring, while the height of the pyramid is directed at an angle to the surface of the roadway, and the vertical axis of the base of the pyramid is larger than its horizontal axis.

 This design ensures the effective development of snow mass in the middle part of the feeder with a divider and cutting discs located on both sides of the divider, excluding the formation of compaction, and accelerated supply of snow mass, sandwiched between the disks and the divider, into the loading window. Moreover, the disks are simultaneously the basis for the formation of blades, the location of which allows you to effectively feed snow from the mill blades into the loading window.

 The installation of the blades at an angle prevents the ingress of snow on the end face of the thrower hub, and sends it directly to its conical surface, which ensures rapid movement and ejection of snow.

 Bending every second tooth of helical mills to an acute angle in the direction of movement of the snow mass along the feeder provides the double function of the milling cutter blades cutting and garbage, while the impact effect of the milling blades on the snow surface is enhanced by increasing the working width of the milling blades.

 A similar effect is also achieved by bending the teeth of the ring disks to sharp angles with respect to the plane of rotation of the disks, while the possibility of transporting snow mass into the loading window on both sides of the disk improves the cutting and rejection efficiency by alternately bending the teeth of the disk in different directions, and the width the impact of disks on snow increases several times.

 The execution of the divider in the form of a fixed hexagonal pyramid with a vertex directed in the direction of movement of the working body and the limited internal generatrix of the disk ring, and a height directed at an angle to the surface of the roadway, reduces drag due to the presence of sharp angles cutting the snow mass, and the vertical axis of the base of the pyramid more than its horizontal axis provides a more effective joint effect on the snow mass of the divider and located on both sides of t him vertical cutting discs.

 Comparative analysis with the prototype shows that the execution of the working body of the rotary snow blower with cutting discs located opposite the boot opening of the casing with blades fixed on the sides of the milling cutters and the criterion of "novelty" installed between the disks by the divider. Analysis of the known technical solutions allows us to conclude that there are no signs in them that are similar to the essential features in the claimed working body, and to recognize the claimed solution in accordance with the criterion of "significant differences".

 Figure 1 shows the proposed working body, front view; figure 2 is the same, a section along the annular disk; figure 3 is the same, a section along the shoulder blade; figure 4 is the same, a cut along the blades of a helical mill; figure 5 is the same, side view is a section; in FIG. 6 the same, top view; Fig.7 is the same, view of the divider from the top.

 The working body of the rotary snow blower consists of a housing 1 with a loading window 2, behind which a thrower 3 with a conical hub 4 and an exhaust pipe 5 are located.

A feeder 6 is installed in the housing 1, on the shaft 7 of which, on the spokes 8, the blades 9 of the screws are fixed with the counter-winding of the blades with the teeth 10 on the cutting edge. Each second tooth 10 is bent at an acute angle α with respect to the screws in the direction of movement of the snow mass along the feeder 6. In the middle part of the shaft 7 opposite the loading window 2, a divider 11 is fixed, made in the form of a fixed hexagonal pyramid with a vertex "O" directed along the movement of the working body, and a height of "h", directed at an angle l to the surface of the roadway. The vertical axis "a" of the base of the pyramid is larger than its horizontal axis "b"
In front of the loading window 2, on each side of the divider 11, annular disks 12 with the teeth 13 located on the outer generatrix 14 are spaced around the shaft 14. The teeth 13 of the disks 12 are alternately bent at opposite angles b ₁ and β ₂ with respect to the planes of the disks 12. At annular disks 12 between the inner 15 and outer 14 forming disk rings from the side of the screws 9 and at an angle Φ to the radius of the disk 12, the blades 16 are fixed.

 The divider 11 is located between the disks 12 in such a way that its peak "o" does not protrude beyond the inner ring generators of the disks 12. The shaft 7 of the feeder 6 is rotated from the drive 17.

 The working body works as follows.

 While driving on the roadway, the drive 17 rotates the shaft 7 of the feeder 6, while the blades fixed on the shaft 7 begin to rotate using the needles 8 of the blade 9 counter-winding screws and the ring disks 12 with the blades mounted on them 16. The snow mass is developed by the teeth of 10 blades 9 and the teeth 13 of the ring disks 12 and is fed to the loading window 2, while the snow mass moved by the blades 9 of the screws is fed using the blades 16, and the snow mass sandwiched between the disks 12 is loosened by the divider 11 and sent to the boot a window flowing around the sharp edges of the divider 11 on both sides.

Claims (6)

 1. The working body of a rotary snow blower, comprising a housing with a loading window and a feeder installed in the housing, made in the form of a screw with counter-directed screws and teeth on the edge of the latter, a divider mounted in the middle of the screw, and two gear cutting discs located in front of the loading window with blades, characterized in that the said blades are mounted on the disks from the screws of the screw, and the divider is located between the disks.  2. The working body according to claim 1, characterized in that the blades are fixed between the inner and outer forming disks at an angle to their surface.  3. The working body according to claim 1 or 2, characterized in that every second tooth of the screw is bent at an acute angle from the cutting surface in the direction of the loading window.  4. The working body according to one of paragraphs. 1 to 3, characterized in that the teeth of the discs are bent alternately in different directions at acute angles with respect to the surface of the discs.  5. The working body according to one of paragraphs. 1 to 4, characterized in that the divider is made in the form of a hexagonal pyramid fixedly mounted on the shaft, and the top of the pyramid is directed towards movement and does not protrude beyond the generatrix of the disks.  6. The working body according to p. 5, characterized in that the height of the divider pyramid is directed at an angle to the surface of the roadway, and the vertical axis of the alignment of the divider pyramid is greater than its horizontal axis.

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