EA021105B1 - Working element to remove snow and ice slippery coat from surface of roads and aerodromes - Google Patents

Abstract

The invention relates to machines for removing snow and ice slippery coat from surface of roads and aerodromes in winter time, in particular, to a working member therefor. The working element comprises a frame, where levers are fixed hingedly with the possibility of rotation in the vertical plane and carry axes on free ends in the plan like a wedge, every of which is installed on the axis with the possibility with cutting discs with a continuous single-sided wedge rim arranged as freely rotating around it and at the angle α to the longitudinal axis of the working element, with a larger base outside, two front cutting discs are installed on the common lever and face each other with their larger bases with an angle β between them and a distance h between cutting edges in the place of their convergence. The frame equipped with two royal wheels in its rear part is installed capable of rotation in the vertical plane. The working member also comprises a hydraulic system comprising a hydraulic reservoir, a pump connected to 3-positioned, 4-linear hydraulic distributor, providing communication of the pump in one of positions with a pressure regulator, and in another position with a hydraulic accumulator, a pressure gage and blind cavities of one-way hydraulic cylinders connected to the frame and a corresponding lever. The technical effect provides to reduce energy intensity and to increase efficiency of a process of mechanical destruction of strong ice and snow slippery coat.

Description

The invention relates to machines for cleaning the surface of roads and airfields in the winter, in particular, is a working body for cleaning compacted snow, snow-ice formations and ice.

Known machine for chipping ice from the bridge [USSR AS No. 55609, EH 5/12, publ. 08/31/1939], containing a metal frame with circular knives mounted on it in front of it; scraper conveyor located in the transverse direction behind the knives; blade and additional circular knives, located in steps, located behind the conveyor; and several scraper conveyors.

The disadvantages of the working body are the presence of a large number of active executive bodies, the drive of which requires a significant expenditure of energy, circular knives of various geometric shapes are oriented perpendicular to the surface of the massif to be destroyed, which provides frontal cutting - more energy-intensive than tangential.

The closest technical solution, selected as a prototype, is the working body of the ice-cutting machine [USSR AS No. 1404572, Е01Н 5/12, publ. 06/23/1988], including a frame mounted for rotation in the vertical and horizontal planes, on which levers are mounted pivotally mounted to rotate in the vertical plane, carrying levers at the free ends of the axis with cutting discs located in the plan wedge. The working body is equipped with a hydraulic system.

The disadvantages of the working body are as follows.

1. Elements of the hydraulic system of the working body, providing the impact of the cutting tool on the destructible mass and lifting (separation) of the cutting discs from the surface of the coating to be cleaned: the main and additional control valves, the main and additional time relays and control electromagnets significantly complicate the design of the working body and require significant costs energy.

2. The design used cutting discs with a continuous two-sided symmetrical wedge rim, structurally designed to be located only at right angles to the destructible array, which provides frontal cutting - more energy-intensive than tangential.

3. The cutting discs move on the surface without turning. The cutting mode in this case requires a more significant energy expenditure, compared with the cutting mode with rotating disks, and contributes to uneven and accelerated wear of the cutting edges of the tool.

4. The design of the working body does not exclude contact of the cutting edge of the disk with the coating being cleaned, which can lead to damage to the latter.

The technical result of the invention is to reduce energy intensity and increase the efficiency of the process of mechanical destruction of durable snow-ice roll.

The technical result is achieved by the fact that in the working body for removing snow-ice roll-off from the surface of roads and airfields, containing a frame on which the levers carrying axles with cutting discs and the hydraulic system are pivotally mounted in the vertical plane are new the fact that the frame, equipped with two piano wheels located in its rear part, is mounted with the possibility of rotation only in a vertical plane, cutting discs with continuous with an external wedge rim, each of which is mounted on an axis with the possibility of free rotation around it and at an angle α to the longitudinal axis of the working body, with a large base out, two front cutting discs are placed on a common lever and face each other with large bases with an angle β between them and the distance 1ι between the cutting edges at the point of convergence, and the hydraulic system includes single-acting hydraulic cylinders.

The invention is illustrated by drawings. In FIG. 1 shows a tool for removing snow and ice, side view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a top view; in FIG. 4 is a hydraulic diagram.

The working body for removing snow-ice roll from the surface of roads and airfields consists of a frame 1 (Fig. 1) connected by two pairs of hydraulic cylinders 2 and 3, a fork 4, an arm 5 and a pin 6 with a traction frame of the base machine with the possibility of rotation in vertical the plane relative to the axis of the finger 6. To the frame 1 are pivotally mounted pivotally in a vertical plane levers 7 connected to single-acting hydraulic cylinders 8 having rods 9. At the free ends of the levers 7 (Fig. 2) are placed cutting disks 10 with a continuous one-sided a single wedge rim, each of which contains a sleeve 11 and mounted on the axis 12 with the possibility of free rotation around it in a vertical plane with a large base outward and an angle α between the plane of the larger base and the longitudinal axis of the working body. Axes 12 are fixed from axial movement by nuts 13. Two front cutting discs 14 and 15 (Fig. 3), having a smaller angle of sharpening, are placed on a common lever 16 and face each other with large bases with an angle β between them and a distance 1ι between the cutting edges in the place of their convergence. The cutting discs 10, 14 and 15 are mounted on the frame 1 in the plan by the wedge, symmetrically with respect to the longitudinal axis of the working body. IN

- 1 021105 of the rear of the frame 1 (Fig. 1, 3), two piano wheels 17 are installed on its rear side, each of which is attached to the frame 1 by means of an arm 18, a rack 19, an axle 20 and a fork 21, consisting of two parallel vertically mounted plates 22 with holes for mounting the axis 23. The axis 20 and the fork 21 (Fig. 1) are pivotally connected by means of a finger 24. To adjust the immersion depth of the cutting discs in the array to be developed, a bolt 26 with nuts 27 is mounted in it with the possibility of longitudinal movement in it; and 28, the lower end of the ball nirno mounted on the free end of the lever 29 of the fork 21 through the axis 30. The crosspiece 25 is mounted on the free end of the lever 31 of the axis 20 with the possibility of rotation in a vertical plane relative to the axis 32. The hydraulic pump 33 (Fig. 4) is connected via a pressure line 34 to a three-position four-way valve 35, ensuring its communication in one position with a pressure regulator 36, and in another with a pressure gauge 37, a hydraulic accumulator 38 and rodless cavities of single-acting hydraulic cylinders 39, each of which Yazan one end to the frame 1 (Fig. 1), and the other with the bracket of the corresponding lever 7 and the common lever 16. The drain line 40 (Fig. 4) connects the control valve 35 to the hydraulic tank 41.

According to the invention, the working element is installed on the coating to be cleaned from the transport position to the working one using the hydraulic cylinders 2 and 3 of the base machine. Adjustment of the immersion depth of the cutting discs in the developed array is carried out by changing the position of the frame 1 relative to the traction frame of the base machine. The front part of the frame 1 with the removed finger 6 is moved by the hydraulic cylinders 3 up or down to a position where a gap is provided between the cutting edges of the disks 14 and 15 and the surface to be cleaned. In this case, the holes in the fork 4 are aligned with one of the nearest holes in the bracket 5, and the connection is fixed with a finger 6. The position of the rear part of the frame 1, which excludes the contact of the cutting edges of the disks 10 with the coating to be cleaned, is established by adjusting the piano wheels 17. When the nuts are turned sequentially 27 and 28 to the left, the bolt 26 inside the guide of the crosspiece 25 moves upward, acting on the free end of the lever 29, rigidly fixed with a fork 21, which as a result rotates about the axis 24 to the left together with the clamp ennym thereon piano wheel 17. In the rear part of the frame 1 is lowered. With the sequential rotation of the nuts 28 and 27 to the right, the bolt 26 inside the guide cross 25 moves down. The fork 21, bearing the piano wheel 17, rotates on the axis 24 to the right, as a result of which the frame 1 resting on it rises. Then, from the pump 33 by the hydrodistributor 35, the accumulator 38 is fed to the pressure necessary for the strength of the snow-ice to be removed, the value of which is controlled by the pressure gauge 37.

The working body is moved by the base machine in the V direction and the cutting discs 10, 14, 15, crashing into the snow-ice roll, destroy it. At the same time, the cutting disks 14 and 15 mounted on the common lever 16 interact with the solid array closed on all sides, realizing a blocked cutting scheme.

The distance b between the cutting edges of the disks 14 and 15 should not be small. Its value should be selected experimentally, from the condition of the greatest efficiency of destruction of the ledge of the face remaining in the interval between disks 14 and 15. This ensures a blocked cutting of the destroyed array with two separate disks with a one-sided continuous wedge rim, much less energy-intensive than cutting with minimum values of b, when the adjacent disks 14 and 15 actually represent one whole cutting disc with a double-sided symmetrical wedge rim.

Each of the cutting disks 14 and 15, rolling along the bottom and interacting with the destructible medium at the point of contact of the cutting edge with it, creates stresses. When the stresses reach their limit values, material cracking occurs, chips and separation of fracture fragments of various sizes occur, which are displaced from the face under the influence of the lateral conical surface of the cutting disc. The ledge of the face in the interval between the disks 14 and 15 is cracked and destroyed as a result of the influence of the lines of force of the horizontal, vertical and lateral components of the cutting force arising at the contact of the cutting edges of the disks with the medium being destroyed. The installation of the cutting disks 14 and 15 with an angle β between their large bases provides a reduction in the friction of the surface of these bases on the material of the destructible array. As a result of the simultaneous impact of the cutting disks 14 and 15 on the destructible solid mass, a furrow is formed containing fragments of the destroyed material of various sizes. The furrow depth is determined by the specified cutting depth, and the width is determined by the working area of the pair of cutting disks 14 and 15, as well as the angles of the longitudinal and transverse chips of the material being destroyed.

The mechanism of interaction with the destructible medium of the cutting discs 10, 14 and 15 is similar. However, the first following the disks 14 and 15 a pair of disks 10 located symmetrically relative to the main axis of the working body, cutting is already partially destroyed array. Chipping and separation of fragments of destruction occurs at lower energy costs and is accompanied by their shift towards the previously obtained furrow. Thus, there is a semi-blocked cutting scheme, much less energy-intensive than blocked. This scheme is also implemented by each subsequent pair of cutting discs 10 located symmetrically with respect to the main axis of the working body, which performs cutting of an array partially destroyed by the previous pair. The installation of each of the cutting disks 10 at an angle α to the longitudinal axis of the working body provides a reduction in the friction of the surface of the larger base of the disk on the material of the destructible array. The working areas of the cutting discs are mutually overlapping, which ensures the destruction of snow-ice roll along the entire working tool working width, which is determined by the distance α between the points of the cutting edges of the rear symmetric pair of cutting discs 10 farthest from the axis of the working body. The number of symmetrical pairs of cutting discs 10 can vary depending on the design and power of the base machine carrying the working body.

When any of the cutting disks 10 or a pair of disks 14, 15 meets an obstacle, the strength of which is higher than the tensile strength of the collapse, the disks rise, overcoming the pressure created by the hydraulic accumulator 38, and rolling over the obstacle surface, return to their original position. This prevents breakage of the cutting discs.

In this invention, the design of the working body is simplified, including the hydraulic circuit. The destruction of a strong snow-ice roll is carried out in tangential mode by cutting discs with a continuous one-sided wedge rim that rotate freely on the respective axes, which ensures destruction with less energy with uniform wear on the cutting edges of the tool. By adjusting the immersion depth of the cutting discs in the array under development, contact of the cutting edge of the disk with the surface to be cleaned is excluded.

Thus, the proposed technical solution can significantly reduce energy intensity and increase the efficiency of the process of mechanical destruction of durable snow-ice roll from the surface of roads and airfields.

Claims (1)

CLAIM A working body for removing snow-ice rolls from the surface of roads and airfields, containing a frame (1), on which levers (7) are mounted pivotally mounted to rotate in a vertical plane, carrying axles (12) at the free ends with cutting discs (10), and a hydraulic system, characterized in that the frame (1), equipped with two piano wheels (17) located in its rear part, is mounted with the possibility of rotation only in the vertical plane, the cutting disks are made with a continuous one-sided wedge rim, each of which is mounted on an os (12) with the possibility of free rotation around it and at an angle α to the longitudinal axis of the working body, with a large base out, two front cutting discs (14, 15) are placed on a common lever (16) and face each other with their large bases with an angle β between them and the distance b between the cutting edges at their convergence, and the hydraulic system includes single-acting hydraulic cylinders.