RU2049869C1 - Working equipment of trenching machine - Google Patents

Abstract

FIELD: earth-moving machinery. SUBSTANCE: device has framed housing 1 mounted on base vehicle. Housing accommodates scraper conveyor with members 2,3,4,5. Conveyor is covered from front side by bottom plate 5. Framed housing has front and rear guides 14 engaging with rollers 13 of cutting carriage 8 moving along frame 1. Cutting carriage carries cutting member with radial arms 9 furnished with cutters whose peripheral parts are located on flat ovals displaced in cutters whose peripheral parts are located on flat overlapping of working central face zone. Drive arms 9 are located in plane parallel to bottom frame plate and are connected with drive shafts 10 perpendicular to drive arms, shafts being connected with mechanical opposite rotation synchronizer installed in rear portion of frame 1 and with shaft of engine 11. Frame of cutting carriage 8 is connected with frame 1 by means of hydraulic rams 7 providing vertical travel of carriage rotated by engine 11. As a result device has two independent feeds - conventional, from base vehicle and additional, from hydraulic rams 7. EFFECT: simplified design of device, reduced metal usage, enlarged operating capabilities. 3 dwg

Description

 The invention relates to earthmoving equipment and can be used as working equipment, mounted on the back and the base machine of translational movement and designed for digging trenches in various types of soils, including frozen soils.

Known working equipment of a trencher, made in the form of a scraper conveying organ and placed in front of it and controlled by hydraulic cylinders of a cutting attachment equipped with saw blades mounted on shafts perpendicular to the side support plates equipped with vertical cutting knives. Due to the fact that the front cutting tools give torsional vibrations from the installed vibrator, this device has increased soil breaking capabilities. However, there are also disadvantages manifested in the structural complexity and increased metal consumption of this device [1]
A device is also known in which there is a transporting scraper body and a cutting body located in front of it with the same side plates, scoring side knives and drive shafts perpendicular to them with rolls fixed to their oval shape, on the peripheral surface of which cutters are fixed. And the drawbacks here are the same structural complexity and increased metal consumption, manifested in multi-storey placement along the entire height of the torn oval shape of the drive rolls, the presence of side plates and knives attached to them. In addition, this device has its limited technical capabilities. So, soil cutting is carried out mainly by incisors located on large diameters of oval rolls, which, after half a turn, run onto the bottomhole soil they process. However, all this happens when the feed is determined by the translational speed of the base machine and selected in each case (depending on the height of the trench to be torn off) as much as possible, because this value directly determines the performance of the trencher. There are no other reserves for changing the amount of feed to the cutters [2]
The purpose of the invention is to simplify the design of the device and expand the technical capabilities of the equipment while reducing its metal consumption.

 Figure 1 shows a side view of the device; in Fig.2 a section along aa in Fig. 1; figure 3 view along arrow B in figure 1.

The device includes a scraper body suspended from the base machine, consisting of a scraper tape 2 installed in the frame casing 1, enveloped by the lower and predominantly tension drum 3 and supported by the rear support rollers 4 from the idle side, and onto the front bottom sheet 5 from the working side. In the lower part, the frame casing 1 is connected to a scoop equipped with a cutting knife 6. In the upper part of the frame casing 1 there are hydraulic cylinders 7, the rods of which are connected to the movable frame 8 of the cutting body made of radially mounted beams 9 equipped with cutters, the peripheral parts of which are placed on flat ovals are out of phase (i.e., 90 ^° ), shifted relative to each other and located with overlapping of the central bottomhole zone developed by them. In this case, the drive shafts 10 of the cutting beams 9 are perpendicular to the scraper belt 2, although the drive itself is made in the form of an engine 11 and a mechanical synchronizer-reducer 12. The frame 8 of the cutting body is equipped with rollers 13 in contact with the guides 14, fastened to the frame body 1 of the scraper body.

 The device operates as follows. The lowering of the frame casing 1 with all structural elements fastened to it relative to the base machine is carried out with the translational movement of the latter and the cutting body in the lowest part of the scraper body with a constant advance of the cutting beams 9 relative to the clean-up knives of the scoop 6, as shown in figure 2. In this case, the counter-rotation of the drive shafts 10 of the radially mounted cutting beams 9 from the engine 11 through the gearbox 12 will ensure the cutting of the soil and its collapse into the scoop 6 with the subsequent lifting of the soil with scraper tape 2 by pulling the soil with scrapers along the front bottom sheet 5. Unloading the soil in the upper part of the scraper organ occurs in a known manner. With the further deepening of the working equipment into the soil to a depth exceeding the largest diameter of the cutting rays of the ovals, it is necessary to additionally act on the rods of the hydraulic cylinders 7 and thereby move the cutting body (carriage) along the scraper body. The scope of such a reciprocating movement of the cutting body will increase as all the working equipment goes deeper into the ground. Moreover, the nature of these movements can be equal: smoother at a low speed and, accordingly, a small thickness of the cut soil (along the scraper body), or vice versa, more periodic when the cutting body works mainly due to its rotation and, thus, being lower, first “tunnel” cuts the "soil in the direction of movement of the base machine, and then after the formation of such a" tunnel "(within the distance from the cutting body to the scraper) begins to destroy this" tunnel ", opening it during rotation and moving zhenii cutting body along the scraper. The same cutting body can demonstrate when it is in the upper part of the face. In all these cases, radial cutting beams 9 with their oblique inclination in plan (FIG. 2) will cut the soil in an economical oblique cutting and discard it into the scoop 6.

Claims (1)

 WORKING EQUIPMENT OF THE TRUCK DRIVER, including a transporting scraper body with a pick-up scoop and connected to a transporting, cutting body having hydraulic cylinders in the form of a system of oval rolls, on the periphery of the ovals of which cutting elements are installed, and the drive shafts of the oval rolls are connected by a counter-rotation synchronizer, characterized in that In order to simplify the design and expand the technical capabilities of the equipment while reducing its metal consumption, the transporting body is equipped with a longitudinal and the guide in which is mounted for movement cutting organ, oval rollers which are made of radial beams with the cutting elements, wherein the drive shafts oval rolls mounted perpendicularly to the conveyor belt scraper body.

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