RU2077635C1 - Paver - Google Patents

Abstract

FIELD: road paving. SUBSTANCE: paver has base chassis with a receiving hopper installed on the frame of it, feeder, distributing screw conveyors and compacting effector. Compacting effector is connected to the base chassis 1 through pull bars provided with movable hinge. The hinge is moved by a hydraulic cylinder. The support for lifting the compacting effector may be made in the form of hydraulic cylinder secured to the hydraulic cylinder rod through the hinge of the pull bars. The support includes a case secured to the frame, movable axle connected to drive. The axles engage holes in the pull bars. The holes are of longitudinal shape. EFFECT: higher efficiency. 2 cl, 3 dwg

Description

 The invention relates to the field of road-building equipment, in particular, to equipment for laying and sealing road materials.

In known solutions of pavers, for example, the paver contains a base chassis, on the frame of which there is a receiving hopper, feeders and distribution screws, a sealing working body connected to the chassis with traction bars and hydraulic cylinders for raising the hinges of the trailing bars, and supports for lifting the sealing working body [1, 2]
A disadvantage of the known pavers is the overload of the rear drive axle in the transport mode of operation due to the fact that the supports for lifting the working body are located outside the base of the paver.

 In addition, this arrangement of supports for lifting the working body unloads the front steered axle of the machine, affects the controllability of the machine, increases the slippage of the front wheels and contributes to their wear.

 The invention is directed to the redistribution of load on the axis of the paver in transport mode, to improve the controllability of the machine and reduce tire wear on the front wheels.

 The specified technical result is achieved due to the fact that in the paver containing the base chassis, on the frame of which there is a receiving hopper, feeder and distribution screws, a sealing working body connected to the chassis by traction supports for lifting the sealing working body, supports for lifting the working placed in the base the chassis, while the supports for lifting the working body are made with an axis that is movable in a plane perpendicular to the plane of movement of the traction bars.

 The placement of the lifting support legs of the sealing tool in the base of the machine L redistributes the force of gravity of the tool between the front and rear wheels of the machine in the transport mode of the paver, creating an additional load on the front axle of the machine, which reduces the slipping of the front wheels on the surface and improves the handling of the machine.

 In Fig.1 shows an asphalt paver with support lifting the sealing working body, located in the base of the machine.

 Figure 2 presents the second embodiment of the design of the lifting support of the working body.

 In Fig.3, section aa from Fig.2.

 The paver contains a base chassis 1, on the frame 2 of which there is a receiving hopper 3, a feeder 4, distribution augers 5 and a sealing working body 6.

 The sealing body 6 is connected to the base chassis 1 by means of traction bars 7 having a movable hinge 8 moved by the hydraulic cylinder 9, and supports 10 for lifting the working body. Each support for lifting the sealing working body can be made (see Fig. 1) in the form of a hydraulic cylinder 11, fixed by a hinge 12 of the traction bars 7 with the rod of the hydraulic cylinder 11 and the hinge 13 on the frame 2 of the chassis 1, connected to the body of the hydraulic cylinder 11.

 Another embodiment of the support for lifting the working body is shown in figure 2 and 3.

 The support includes a housing 14 mounted on the frame 2, a movable axis 15 connected to the drive 16 of its movement.

 As the drive 16, the axis 15 can be, for example, a hydraulic cylinder or a linkage of a known design (not shown in the drawing).

 The axis 15 is included in the holes 17 of the traction bars 7. The holes 17 have an oblong shape. In this embodiment, the lifting support of the traction bars 7 has an additional hydraulic cylinder 18, which is used to fix the working body in the working position. In the transport position of the sealing working body, the hydraulic cylinder 18 is in a floating position.

 The paver works as follows.

 Stacked material, mainly bitumen-mineral mixtures, are loaded from a dump truck (not shown) in a known manner, loaded into a hopper 3, transported by a feeder 4 to the distribution screws 5 and then to the sealing working member 6, which forms a coating in a known manner.

 In the first embodiment, the placement of the support for lifting the working body in the base of the machine L, the gravity of the working body is transmitted to the wheels 19 and 20 through hinges 12, 8, 13 and their vertical components lying in the base of the machine, load the wheels 19 and 20 in a certain ratio.

 In the second embodiment, to raise the working body in the transport position, the hinge 8 is moved upward by the hydraulic cylinders 9 until the axes coincide: the axles 15 and the holes 17, turn on the drive 16 of the axis 15 and move it until it enters the hole 17, as shown in FIG. 3. The hydraulic cylinder 9 is turned on in a known manner and the hinge 8 is moved downward, raising the working element above the coating, while the traction bars 7 rotate around the axis 15 and move along the groove 17, and the hydraulic cylinder 18 is in the “floating” position and does not transfer the load to the asphalt paver frame 2.

 To translate the working body into the working position, the hydraulic cylinders 9 move the hinge 8 up, lower the working body 6 to the base and drive the axis 15 out of the hole 17, as shown by the dotted line in figure 3 (outside the contact zone with the traction bars 7).

 With increasing requirements for the degree of compaction of the asphalt concrete pavement and ensuring a high compaction coefficient by the compacting working body of the paver, the mass of the compacting working body increases significantly.

 The existing arrangement of the working body and the support for its lifting outside the base of the machine in transport mode creates an overload of the rear axle of the machine and unloads the front steered bridge, impairing the controllability of the machine.

 The implementation of the support lifting the working body in the base of the machine allows you to redistribute the loads created by the mass of the working body between the axes of the paver. This improves the controllability of the machine, reduces the sliding of the front steered wheels and their wear.

Claims (1)

1 1. An asphalt paver containing a base chassis, on the frame of which there is a receiving hopper, a feeder and distribution screws, a sealing working element located at one end of the traction bars, the other end of which is pivotally connected to the chassis, hydraulic cylinders for moving the hinges of the traction bars, and located on the chassis and on the traction bars, supports for lifting the latter with a working body, characterized in that the supports for lifting the traction bars with a working body are located in the chassis base. 2. An asphalt paver according to claim 1, characterized in that The holes for lifting the traction bars with the working body are made with a movable axis in a plane perpendicular to the plane of movement of the traction bars.

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