RU165404U1 - BULLDOZER - Google Patents

Abstract

A bulldozer comprising a base machine with pushing beams, a blade made of pivotally connected sections located one above the other, the lower of which is pivotally connected to the pushing beams, and the upper one with its hydraulic cylinders, characterized in that the upper section of the blade is pivotally connected with it are two-arm levers with a base machine, the free shoulders of which are connected to the hydraulic cylinders of rotation of the upper section of the blade mounted on the base machine.

Description

The utility model relates to road construction machinery, in particular to bulldozer-type machines, and can be used in the design of earthmoving machines.

Known bulldozer for copyright certificate No. 781271 class. E02F 3/76, which includes the base machine, a blade pivotally connected to the pushing bars and two-arm levers that are mounted on the base machine and are connected to the power cylinders with free shoulders.

However, in this bulldozer, the blade is solid, which, when deepened into the soil, is located with a significant deviation from the vertical towards the base machine, which will lead to soil loss from the prism of the drawing through the upper edge of the blade. Do not exclude sticking with the soil of the blade.

The closest analogue to the claimed utility model is copyright certificate No. 1065552 class. E02F 3/76, in which the blade is made of pivotally connected sections located one above the other, the lower of which is pivotally connected to the pushing beams, and the upper one - with its hydraulic cylinders.

However, it solves the problems of ensuring the lateral skew of the blade and changing the profile of the blade, not related to ensuring the specified cutting angles when digging the soil and the location of the lower section of the blade close to vertical when lifting the blade into the transport position.

The inventive model solves the problem of increasing productivity and expanding technological capabilities.

To solve the problems, the claimed utility model has the following essential features distinguishing from the closest analogue: the upper blade section is hinged by means of two shoulders rigidly connected to it with the base machine, the free shoulders of which are connected to the hydraulic cylinders of rotation of the upper blade section mounted on the base machine.

Unlike the prototype, the claimed utility model allows to increase productivity and expand the technological capabilities of the bulldozer due to the fact that at the end of lowering and deepening the blade into the ground when digging, the required cutting angle is obtained at the lower section of the blade, and the required angle of inclination at the upper section forward to avoid pouring soil prism drawing through its upper edge. Thus, both when cutting the soil and moving it, the cutting angles required for each case and the installation of the upper section of the blade are achieved, which reduces the energy consumption of digging and increases the productivity of the bulldozer. When the blade is raised to the transport position, the hinges connecting its sections with each other and the upper section - with the base machine lead to the fact that the blade sections move sideways from the accumulated soil into the prism of drawing, which reduces the effort and accelerates the lifting of the blade. Finding the bottom section of the blade in a position close to the vertical when lifting it to the transport position makes it possible to effectively use the bulldozer blade when erecting embankments, backfilling the recesses with soil, and also as a pusher, which expands the technological capabilities of the bulldozer.

The essence of the claimed utility model is illustrated in the drawing, which shows a bulldozer with different positions of the blade during operation.

The bulldozer contains a base machine 1 with pushing beams 2, which are connected by hinges 3 to the lower blade section 4, which has a knife 5 in the lower part, and an articulation 6 to the upper blade section 7 in the upper part. The latter is rigidly connected to two shoulders levers 8, which are pivotally mounted on the base machine 1 by the axles 9, and are connected to the hydraulic cylinders 10 by the free shoulders, which are mounted on the base machine 1.

The bulldozer works as follows. When the rods of the hydraulic cylinders 10 rotate the upper section of the blade 8 are fully retracted, the blade occupies the highest transport position (dashed lines in the drawing - position "a"). The extension of the hydraulic cylinder rods 10 leads to a counterclockwise rotation relative to the base machine 1 of the two shoulders levers 8 together with the upper blade section 8, at which both the blade is lowered and the upper blade section 8 is rotated relative to the lower section 4. Due to this, at the moment of contact knife 5 of the lower section 4 of the blade with the surface of movement (solid lines in the drawing) the configuration of the blade and its location in space will correspond to the traditional design. Due to the fact that the swivel of 6 sections 4 and 8 of the blade moves with further rotation of the two-arm levers 8 both down and towards the base machine 1. Therefore, when lowering and deepening the blade into the ground when digging at the knife 5 of the lower section 4 of the blade, it turns out the necessary (specified) ground cutting angles, and at the upper blade section 8, the necessary forward tilt angles to prevent the prism of the drawing prism from spilling over the upper edge (dashed lines in the drawing - position “b”). Thus, both when cutting the soil and when moving it in the prism of the drawing, the cutting angles required for each case and the installation of the upper section 8 of the blade are achieved, which will reduce energy intensity and increase the productivity of the bulldozer. When lifting the blade into transport position, the swivel joint 6 of its sections 4 and 8 between themselves and the upper section 8 - with the base machine 1 leads to the fact that the lower section 8 at the beginning of the lifting is rotated relative to the pushing bars 2 counterclockwise, and the upper sections 8 - clockwise relative to the bottom section 4 of the blade. These movements move the sections away from the ground in the prism of the drawing, which reduces effort and accelerates the process of lifting the blade into the transport position. The mutual rotation of sections 4 and 8 of the blade when digging, moving soil in the prism of drawing and lifting the blade into the transport position reduces the flooding of soil on the blade, which increases the productivity of the bulldozer. Finding the lower section 4 of the blade in a position close to the vertical when lifting it to the transport position makes it possible to effectively use the bulldozer blade when erecting embankments, backfilling the recesses with soil, and also as a pusher, which expands the technological capabilities of the bulldozer.

Claims (1)

A bulldozer comprising a base machine with pushing beams, a blade made of pivotally connected sections located one above the other, the lower of which is pivotally connected to the pushing beams, and the upper one with its hydraulic cylinders, characterized in that the upper section of the blade is pivotally connected with it are two-arm levers with a base machine, the free shoulders of which are connected to the hydraulic cylinders of rotation of the upper section of the blade mounted on the base machine.

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