RU57295U1 - MACHINE FOR CLEANING THE CURRENT ZONE OF ROADS - Google Patents

Abstract

The invention relates to a technique for cleaning roads and can be used to clean the dirt zone of roads from dirt, soil sediments and snow. The objective of the utility model is to simplify the design, reduce its metal consumption and reduce the energy intensity of the cleaning process of the instrument-based zone of roads. The machine for cleaning the instrument zone of roads, contains a base chassis, on the frame of which there is a screw, a working body for destroying soil sediment and an estimate conveyor with a drive, an estimate conveyor is connected with the screw, an additional frame that is installed in front of the base chassis on the frame with the possibility of raising and lowering in the vertical plane by means of the hydraulic cylinder, a drive wheel is installed on an additional frame, a working body, inside which a screw is mounted, a working body and auger are installed coaxially with the driving wheel, p the side member is made in the form of radial disks, on the inner sides of which blades are rigidly fixed with cutting edges on the periphery, while the working member and the drive wheel are provided with a casing fixed to an additional frame, the rotary drive of the screw and the working member is made in the form of a planetary gear from the drive wheel , the planetary gear is made in the form of a gear rigidly mounted on the shaft of the drive wheel, three satellites located in the plane perpendicular to the axis of rotation at an angle of 120 ° relative to each other Two lower satellite located in a plane parallel to the road plane, the gear is rigidly mounted on the screw shaft and the gear ring attached by bolts to the working body, wherein the working body rotation opposite to the rotation of the drive wheel and the screw rotation coincides with the drive wheel rotation, wherein

the estimate conveyor is mounted to rotate in a vertical plane parallel to the axis of movement of the machine, and in the cross section of the working body, each subsequent cutting edge of the blades relative to the previous one is located at an angle of 45 °, and the cutting edges of the blades of the working body located near each inner disk are offset relative to each other at an angle of 22.5 °, and the blades are made in cross section in the form of a logarithmic spiral r = r ₀ · e ^{k · φ} so that the initial radius r _{0 of} each first blade is equal to the inner radius sou of disks, and each second blade r ₀ 'is greater than the internal radius of the disks, that is, r ₀ '> r ₀ , and the estimate conveyor in the discharge part is equipped with a flexible sleeve. 4 s item formulas, 5 ill.

Description

The invention relates to a technique for cleaning roads and can be used to clean the dirt zone of roads from dirt, soil sediments and snow.

A device for cleaning the side of the roads, comprising a base chassis with a frame mounted on the frame mounted tool in the form of a horizontal cutter, end cutting discs and drive [A. No. 1090791, IPC E 01 H 5/12, 09/28/82].

A disadvantage of the known device is the complexity and significant metal consumption of the structure, as well as the increased energy intensity of the cleaning process of the instrument zone of roads.

Closest to the claimed machine for cleaning the instrument zone of roads is a machine containing a base chassis, on the frame of which there is a drive auger, a working body in the form of a drive cutter for the destruction of soil sediment and a conveyor estimate with a drive associated with the auger [A.S. No. 1557239 IPC E 01 H 1/10, 07/11/88].

A disadvantage of the known device is the complexity and significant metal consumption of the structure, as well as the increased energy intensity of the cleaning process of the instrument zone of roads.

The objective of the utility model is to simplify the design, reduce its metal consumption and reduce the energy intensity of the cleaning process of the instrument-based zone of roads.

This is achieved by the fact that the machine for cleaning the instrument zone of roads, containing a base chassis, on the frame of which a screw is installed, a working body for destroying soil sediment and a cost estimate conveyor with a drive connected with the screw, according to a utility model, is equipped with an additional frame located in front of the base chassis, which is

mounted on the frame of the base chassis with the possibility of lifting and lowering in a vertical plane by means of a drive, a drive wheel is installed on an additional frame, a working body, inside which the screw is mounted, and the working body and auger are installed coaxially with the drive wheel, the working body is made in the form of radial disks, on the inner sides of which the blades are rigidly fixed with cutting edges on the periphery, while the working body and the drive wheel are equipped with a casing mounted on an additional frame, and the drive The auger and working body are made in the form of a planetary gear from the drive wheel, while the planetary gear is made in the form of a gear rigidly mounted on the shaft of the drive wheel, three satellites located in the plane perpendicular to the axis of rotation at an angle of 120 ° relative to each other, the two lower the satellites are located in a plane parallel to the road plane, the gear wheel rigidly mounted on the shaft of the screw and the ring gear, bolted to the working body, and the transmission is made in this way Moreover, the rotation of the working body is opposite to the rotation of the drive wheel, and the rotation of the screw coincides with the rotation of the drive wheel, while the estimate conveyor is mounted with the possibility of rotation in a vertical plane parallel to the axis of movement of the machine, and the drive for raising the lowering of the additional frame is made in the form of a hydraulic cylinder, while each subsequent edge of the blades in cross section with respect to the previous one is located at an angle of 45 °, and the cutting edges of the blades of the working body located near each inner disk, offset from each other by an angle of 22.5 °, and the blades are made in cross section in the form of a logarithmic spiral r = r ₀ · e ^{k · φ} so that the initial radius r _{0 of} each first blade is equal to the inner radius of the discs, and each second blade r ₀ 'is greater than the internal radius of the discs, i.e. r ₀ '> r ₀ , and the estimate conveyor in the unloading part is equipped with a flexible sleeve.

Comparative analysis with the prototype shows that the inventive machine for cleaning the instrument zone of roads is equipped with an additional frame located in front of the base chassis, which is mounted on the frame of the base chassis with the possibility of lifting and lowering in a vertical plane by means of a drive, a drive wheel, an operating element are installed on the additional frame, inside which the screw is mounted, and the working body and the screw are installed coaxially with the drive wheel, the working body is made in the form of radial disks, on the inner sides which blades are rigidly fixed with cutting edges on the periphery, while the working body and the drive wheel are provided with a casing fixed to an additional frame, and the rotary drive of the screw and the working body is made in the form of a planetary gear from the drive wheel, while the planetary gear is made in the form of a gear rigidly mounted on the shaft of the drive wheel, three satellites located in the plane perpendicular to the axis of rotation at an angle of 120 ° relative to each other, and the two lower satellites are located in the plane parallel to the road plane, the gear wheel, rigidly mounted on the shaft of the screw and the ring gear, bolted to the working body, and the transmission is made in such a way that the rotation of the working body is opposite to the rotation of the drive wheel, and the rotation of the screw coincides with the rotation of the drive wheel, while the conveyor estimates installed with the possibility of rotation in a vertical plane parallel to the axis of movement of the machine, and the drive for raising the lowering of the additional frame is made in the form of a hydraulic cylinder, with each last the blowing edge of the blades in cross section relative to the previous one is located at an angle of 45 °, and the cutting edges of the blades of the working body located near each inner disk are offset relative to each other by an angle of 22.5 °, and the blades are made in cross section in the form of a logarithmic spiral r = r ₀ · е ^{k · φ} so that the initial radius r _{0 of} each first blade is equal to the inner radius

disks, and each second blade r ₀ 'is greater than the internal radius of the disks, i.e. r ₀ '> r ₀ , and the estimate conveyor in the unloading part is equipped with a flexible sleeve. Thus, the claimed technical solution meets the criterion of "NOVELTY."

Comparison of the claimed machine for cleaning the instrument zone of roads with other technical solutions shows that it is known a device for cleaning the side of the roads, containing a base chassis with a frame mounted on the frame of the mounted working body in the form of a horizontal mill, end cutting discs and drive [A.S. No. 1090791, IPC E 01 H 5/12, 09/28/82].

However, such a device is complex and has significant metal consumption, and also has an increased energy intensity of the process of cleaning the instrument zone of roads, while the inventive machine provides a new property - simplifying the design, reducing its metal intensity and reducing the energy of the process of cleaning the instrument zone of roads. This allows us to conclude that the technical solution meets the criterion of "INVENTIVE LEVEL".

Figure 1 shows a machine for cleaning the instrument zone of roads, side view; figure 2 is a view of figure 1; figure 3 is a section bB in figure 1; figure 4 - section bb in figure 2; in Fig.5 is a section GG in Fig.2 a dashed line shows the blade located between the next two disks.

The machine for cleaning the instrument zone of roads, contains a base chassis 1, on the frame 2 of which there is a screw 3, a working body 4 for breaking soil sediments and a conveyor belt estimate 5 with drive 6, a conveyor belt estimate 5 connected to the screw 3, an additional frame 7, which is installed in front the base chassis 1 on the frame 2 with the possibility of lifting and lowering in a vertical plane by means of a hydraulic cylinder 8; on an additional frame 7, a drive wheel 9, a working body 4, inside which a screw 3 is mounted, a working body 4 and a screw 3 are mounted coaxially with a drive wheel 9, the working body 4 is made in

in the form of radial disks 10, on the inner sides of which blades 11 are rigidly fixed with cutting edges 12 at the periphery, while the working element 4 and the drive wheel 9 are equipped with a casing 13 mounted on an additional frame 7, the rotation drive of the screw 3 and the working body 4 is made in the form planetary gear from the drive wheel 9, the planetary gear is made in the form of a gear 14, rigidly mounted on the shaft 15 of the drive wheel 9, three satellites 16 located in the plane perpendicular to the axis of rotation at an angle of 120 ° relative to each other, two the lower satellites 16 are located in a plane parallel to the road plane, the gear wheel 17 rigidly mounted on the shaft 18 of the screw 3 and the gear ring 19, bolted to the working body 4, while the rotation of the working body 4 is opposite to the rotation of the drive wheel 9, and the rotation of the screw 3 is the same with the rotation of the drive wheel 9, while the conveyor estimate 5 is mounted for rotation in a vertical plane parallel to the axis of movement of the machine, and in the cross section of the working body 4 each subsequent cutting edge 1 2 blades 11 with respect to the previous one is located at an angle of 45 °, and the cutting edges 12 of the blades 11 of the working body 4 located near each inner disk 10 are offset relative to each other by an angle of 22.5 °, and the blades 11 are made in cross section in the form of a logarithmic spiral r = r ₀ · e ^{k · φ} so that the initial radius r ₀ 'of each first blade 11 is equal to the inner radius of the disks 10, and each second blade r ₀ ' is greater than the internal radius of the disks 10, i.e. r ₀ '> r ₀ and the conveyor estimate 5 in the unloading part is equipped with a flexible sleeve 20.

Machine for cleaning the instrument zone of roads works as follows.

The machine is installed near the curb stone so that when lowering the additional frame 7 by means of the hydraulic cylinder 8, the extreme disk 10 of the working body 4 is in close proximity to

with a curb stone, while the screw 3 and the casing 13 is located above the curb stone.

Then carry out the preload of the hydraulic cylinder 8 of the drive wheel 9 to the roadbed. After that, the machine moves forward and when the drive wheel 9 is rotated and by means of a planetary gear from the drive wheel 9, the rotation is transmitted to the working body 4 and the screw 3, thus, the resistance to cutting and transporting the soil load by the screw 3 to the cost estimate conveyor 5 is overcome exclusively by the pulling force of the machine . The blades 11 of the working body 4, rotating in the opposite direction to the drive wheel 9, destroy the soil sediment by cutting edges 12, which, moving along the blades 11, is poured under the action of gravity into the casing of the screw 3, which moves the soil sediment to the conveyor of estimate 5, which transports the estimate to the cart . In the case of solid particles under the screw 3 or a collision of the working body 4 with an insurmountable obstacle, breakage will not occur, since in this case the drive wheel 9 will slip.

By reducing the number of drives and overcoming resistances by cutting soil sediment only by traction, the energy intensity of the process of cleaning the instrument zones of roads is reduced, the design is also simplified and its metal consumption is reduced. Thus, we can conclude that the claimed technical solution has ADVANTAGES before the prototype.

Claims (5)

1. Machine for cleaning the instrument zone, containing the base chassis, on the frame of which there is a screw, a working body for the destruction of soil sediment and a conveyor estimate with a drive connected with the screw, characterized in that the machine is equipped with an additional frame located in front of the base chassis, which is mounted on frame of the base chassis with the possibility of raising and lowering in a vertical plane by means of a hydraulic cylinder, a drive wheel, a working body, inside which a screw is mounted, is mounted on an additional frame the organ and the screw are mounted coaxially with the drive wheel, the working body is made in the form of radial disks, on the inner sides of which blades are rigidly fixed with cutting edges on the periphery, while the working body and the drive wheel are equipped with a casing fixed to an additional frame, and the screw rotation drive and the working body is made in the form of a planetary gear from the drive wheel, while the planetary gear is made in the form of a gear rigidly mounted on the shaft of the drive wheel, three satellites located in a plane speed perpendicular to the axis of rotation, at an angle of 120 ° relative to each other, and the two lower satellites are located in a plane parallel to the plane of the road, a gear wheel rigidly mounted on the shaft of the screw and gear ring, bolted to the working body, and the transmission is made in such a way that the rotation of the working body is opposite to the rotation of the drive wheel, and the rotation of the screw coincides with the rotation of the drive wheel, while the estimate conveyor is mounted to rotate in a vertical plane, steam llelnoy axis of movement of the machine. 2. The machine according to claim 1, characterized in that each subsequent edge of the blades in cross section with respect to the previous one is located at an angle of 45 °. 3. The machine according to claim 1, characterized in that the cutting edges of the blades of the working body located near each inner disk are offset relative to each other by an angle of 22.5 °. 4. The machine according to claim 1, characterized in that the blades are made in cross section in the form of a logarithmic spiral r = r ₀ · e ^{k · φ} so that the initial radius r _{0 of} each first blade is equal to the inner radius of the working body, and each second blade r ₀ 'is greater than the internal radius of the working body, that is, r ₀ '> r ₀ . 5. The machine according to claim 1, characterized in that the conveyor estimate in the unloading part is equipped with a flexible sleeve.