SU1198141A1 - Working member of sweeping and refuse-collecting machine - Google Patents

Abstract

1. The WORKING BODY of the SUBMITTING MACHINE containing a cylindrical brush mounted on the frame, which includes face discs with articulated pivotally circumferential pads and spring-loaded pads with a pile, characterized in that, in order to improve the efficiency and quality of road cleaning coating by forcing the pads with a pile ъ radially relative to the axis of rotation of the brush, the position is directly before the pile coming out of contact with the road surface, it is provided with a fix tori mounted on each block in guides with the possibility of movement in the axial direction and spring-loaded in this direction, the pushers rigidly connected to the retainers I and two reflectors for interacting with the pushers rigidly fixed on the frame from its inner side around the circumference of the pushers relative to the horizontal axis of the brush in the upper and lower parts of this circle, while on one of the end disks of the brush, on the inner side, there are restrictive stops for interfacing with; locking pad located pa circumference of each pad. Regarding the hinges of its mounting. 2. The working body according to claim 1, wherein the reflector is mounted in the upper part of the circle of rotation of the pushers, is made with a wedge surface located in the radial plane of rotation of the brush, and the reflector fixed in the lower part of the circle of rotation of the pushers is made with a wedge surface located in the axial plane of the brush, both of which are indicated (L wedge surfaces located at the intersection with the circle of rotation of the pushers at an angle to this circle, respectively, in the radial and axial plane Tx. 3. Working body according to claims 1 and 2, characterized in that this is the outermost point of the wedge surface of the upper reflector located inside the circle of rotation of the pushers relative to the ball-in pads of the mounting pad, and extreme to the direction of rotation of the brush is the point of the wedge surface of the lower reflector is offset in the same direction relative to the vertical axis of the brush by a central angle less than the central angle from the vertical axis of the brush to the point of tearing the pile from the road surface. 4. The operating member as claimed in claim 1, wherein the latches are mounted on the pads by means of a spline joint.

Description

1 The invention relates to sweepers for the cleaning of city streets and highways. The aim of the invention is to increase the efficiency and quality of cleaning the pavement by forcibly rotating the pads with a nap. The position is directly in relation to the axis of rotation of the brush just before the exit of the bristle with the road surface. . , {. Fig. 1 schematically shows a sweeper; side view; figure 2 - worker, section aa in figure 1; on fig.Z - the same, section bb in figure 2; in fig. 4 is the same section BB in FIG. 3; FIG. 5 - the same, section G-D on fig.Z; Fig.6 is the same, section dd in fig.Z. The working body of the sweeper contains a frame 2 mounted on the base car 1 with a cylindrical brush 3. The cylindrical brush 3 includes a shaft 5 mounted in bearings 4, fixed to it with the help of bolts 6, end disks 7 and 8, around which pads 9 are mounted with the pile 10 embedded in them. A sprocket 11 is mounted on the shaft 5 of the cylindrical brush 3. The pads 9 are connected to the pole 12, in which the free ends are pressed from opposite ends with one end fixed in p 14, mounted in the end discs 7 and 8. The pads 9 are spring-loaded relative to the end discs 7 and 8 by means of torsion springs 15 covering the fingers 13 and fixed with one end with clamps 16 on the end discs 7 and 8, and the other end is inserted The supports 18 and 18 are filled in the grooves 17 made in the finger 13. On the pads 9 and the hollow axles x 12, the Bi support of 18 forms a direction toward the cylindrical hole, and of the support 19 as a slotted aperture. In the supports 18 and 19, a latch 20 in the form of a cylindrical rod equipped with splines at one end is installed with the possibility of axial movement. The latch 20 of the yoke 21 is rigidly connected with the pusher 22. The yoke 21 is fixed to the latch 20 by a pin 23. 12 The axes of each of the latch 20 and the pusher 22, as well as the hollow axles 12, are located in the radial plane (FIG. 3) on one straight line oriented under an acute angle ot relative to the shoe 9. The locks 20 are spring-loaded in the axial direction by means of compression springs 24. The pushers 22 are installed with a gap a (FIGS. 3 and 6) relative to the inner surface of the frame 2. On the frontal disk 7, the brushes are formed on the inner side of the limiting stops 25 and 26 under the clamps 20, and the stops 25 secure the pads 9 in the radial position and the stops 26 in the non-radial positions. The stops 25 and 26 are located around the circumference of the rotation of each pad 9 relative to the hollow axis 12 of its hinge (line B-B in FIG. 3). Reflectors 27 and 28 are also formed on the inner side of the brush frame 2 from the inside along the circumference of the pushers 22 relative to the horizontal axis of the brush. The reflector 27 is formed in the upper part of the circle of rotation of the pushers 22 and is provided with a wedge surface located in the radial plane of rotation of the brush (Fig. 3). The reflector 28 is formed in the lower part of the circle of rotation of the pushers 22 and provided with a wedge surface. Located in the axial plane of the brush (Fig. 3 and 6). Both said wedge portions of reflectors-27 and 28 are located at the intersection with the circle of rotation of the pushers 22 at an angle to this circle; accordingly, the reflector 27 is at an angle IJL (FIG. 3) in the radial, and the reflector 28 is at an angle E. (FIG. b) in the axial planes of the brush 3. The outermost point of the wedge surface of the upper reflector 27 is located inside the pivot circle 22 with respect to the hinge fastenings of the blocks I, 9 on hollow axles x 12, as shown by the dash-dotted line in FIG. Extreme in the direction of rotation of the brush 3 (along arrow H of FIG. 3), the point of the wedge surface of the lower reflector 28 is shifted in the indicated direction relative to the vertical axis of the brush by the central angle t smaller than the central angle TP from the specified vertical axis of the brush to the point H of separation of the pile from the road surface 29.

3

The cleaning of pavements by the working body of the sweeper is carried out as follows.

During the forward movement of the sweeper along the line (Fig. 1), the cylindrical brush 3 rotates in the usual manner in the direction indicated by the arrow E. Located in the upper part of the circle of rotation, the pads 9 with the pile 10 are mounted radially relative to the shaft and the latches 20 are placed between the stops 25 and 26 of the face disc 7. When the pusher 22 interacts with the wedge surface of the upper reflector 27, the pusher 22 slides along this wedge surface, moves along an arc in the direction of the arrow 3 (FIG. 3) and turns The rocker arm 21 block 9 is in a non-radial position when the boat 9 is turned against the direction of rotation of the brush 3 by an angle d relative to the radius of rotation of the brush. Simultaneously with the rotation of the yoke. 21 and pads 9, the retainer 20 also slides along the wedge surface of the stop 26 in the direction of the arrow 3 (FIG. 4) moving in the axial direction by a distance equal to the height C of the stop 26, and compressing the spring 24, and after moving the stop 26 holds the block 9 in a non-radial direction. After that, the pusher 22 bends around the upper reflector 27 of height hj from the outside, along the dash-dotted line (FIG. 3). Since the latch 20 and the pusher 22 are rigidly interconnected, the pusher 22 together with the latch is raised to a height h, and a necessary condition for the operation of the device. is the ratio h J h (Fig. 3). The rotation of the pad 9 to a non-radial position is accompanied by the twisting of the spring 15 under the action of a torque from the force of interaction. pusher 22 with a wedge surface of the upper reflector 27.

The roadway 29 piles 10, rotated into a non-radial position, interact under conditions of low contact pressure and reduced wear for approximately the contact line.

FL bounded central angle fJ- fJ. At the end of the movement of the pile 10 along the indicated line associated with the rotation of the brush 3 along

41

arrow E, the pusher 22 interacts with the wedge surface of the lower reflector 28 (FIGS. 3 and 6). As a result of this interaction, the pusher 22 and the latch 20 rigidly connected with it move axially along the arrow C (Fig. 6) by a distance equal to the high distance. those hj of the lower reflector 28. Since the height h, h, the clamp 20 leaves the engagement with the stop 26 and together with the pusher 22, the rocker 21 and the pile 9 with the nap 10 rotates under the action of the torsion spring 15 in the direction of the arrow k (FIG. .3) coinciding with the direction of rotation E of the brush. Thus, the pile 10 immediately before separation from the pavement 29 at the point H is set to a radial position, separates the estimates from the pavement most efficiently and throws it in the direction of the arrow L at an angle ft to the horizon

(fig.Z.) for example in the direction of the pick-up estimate (not shown). The latter pads 9c nap 10 are moved around the circumference in a radial position until the pushers 22 interact with the upper reflector 27, with the latches 20 mounted between the stops 25 and 26, after which the cycle of operation is repeated.

The rotation of the pile 10 under the action of the spring 15 occurs along the line CLt

the length of which depends on the twisting force of the indicated spring and the moment of inertia of the block 9 with the pile 10. The distance CiH (Fig. 3) is determined by the size of the central angle oi

between the radius of the circle of rotation of the brush and the direction of the radial installation of the pile 10.

The use of the proposed working body of the sweeper allows a significant increase in the efficiency and quality of sweeping while reducing the wear of the pile by 20-40%. The improvement in the quality of sweeping is due to an increase in the efficiency of the separation of contaminants from the road surface due to an increase in the rate of slip of the pile and, consequently, an increase in the energy of the impact on the contaminants in the segment

tM Reducing the wear of the pile is ensured by the radial position of the pads 9 with the pile 10 during the passage of the last section: FL.

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Claims (4)

1. THE WORKING BODY OF THE SWEEPER-CLEANING MACHINE, containing a cylindrical brush mounted on the frame, including end disks with pivotally mounted pads pivotally mounted on them in a tangential direction, characterized in that, in order to improve the efficiency and quality of road cleaning coating by forcing the pads with the pile to rotate radially relative to the axis of rotation of the brush, immediately before the pile comes out of contact with the road surface, it is equipped with clamps, mounted on each block in rails with the possibility of axial movement and spring-loaded in this direction, pushers rigidly connected to the clamps, and two reflectors for interacting with pushers rigidly mounted on the frame from its inner side along the circumference of rotation of the pushers relative to the horizontal axis of the brush in the upper and lower parts of this circle, while on one of the end disks of the brush on its inner side there are restrictive stops for interacting with pads disposed on the circumference of rotation of each block The relatively hinges its fastening. 2. The working body according to claim 1, wherein the reflector mounted in the upper part of the circumference of the rotation of the pushers is made with a wedge surface located in the radial plane of rotation of the brush, and the reflector mounted in the lower part of the circumference of the rotation of the pushers a wedge surface located in the axial plane of the brush, and both of these wedge surfaces are located at the intersection with the circumference of rotation of the pushers at an angle to this circle, respectively, in the radial and axial planes. 3. The working body for PP. 1 and 2, characterized in that the extreme outer point of the wedge surface of the upper reflector is located inside the circumference of the rotation of the pushers relative to the ball. nirov mounting pads, and the extreme point in the direction of rotation of the brush the wedge surface of the lower reflector is shifted in the same direction relative to the vertical axis of the brush by a central angle smaller than the central angle from the vertical axis of the brush to the point of separation of the pile from the road surface. 4. The working body according to claim 1, characterized in that the latches are mounted on the blocks by means of a spline connection. 1 11