RU217004U1 - tillage implement - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to tillage implements. SUBSTANCE: proposed tillage implement contains: a box-shaped frame, working bodies fixed in its lower part and a spring-loaded percussion element placed inside the box-shaped frame with the possibility of its movement in the direction of the unit movement and spring-loaded from the ends. On the end surfaces of the impact element and the inner parts of the box-shaped frame, hemispherical strikers are located in pairs, and a liquid lubricant is placed inside the box-shaped frame. A spring and a rod are attached to the front of the frame, through which the tool is aggregated. The result of using the proposed design is to reduce the traction resistance of the tillage tool through the use of a spring-loaded percussion element that provides periodic shock and vibration effects on the frame and working bodies. 2 ill.

Description

The utility model relates to agricultural engineering, in particular to tillage implements.

The closest in technical essence to the proposed solution is a tillage tool [UA, utility model patent No. 21465, A01B 39/00. Soil-cultivating tool // L.F. Babitsky, V.I. Tarasenko, V.A. Kuklin. Declared 10/03/2006, published 03/15/2007], containing a box-shaped frame, working bodies fixed in its lower part and a tubular movable element. The tubular element is placed inside the box-shaped frame and is spring-loaded by two springs installed between the ends of the tubular element and the covers of the box-shaped frame. The tubular element is located inside the box-shaped frame with the possibility of its movement in the direction of movement of the unit, and rods are attached to its ends, through which the tool is aggregated. This design, due to the variable resistance of the soil, ensures the occurrence of oscillations of the working bodies, which improves the quality of processing and reduces the traction resistance of the tool.

The disadvantage of the design is the low intensity of the excited oscillations, which is due to the significant inertia of the viscous fluid in the tubular element and the low impact speeds of additional spherical loads due to the braking action of the hydraulic resistance forces when they move in a viscous fluid. Also, during the operation of the structure, friction forces arise between the tubular element and the box-shaped frame, which, due to the high oscillation frequency of the less inert spring-loaded tubular element and the lower oscillation frequency of the more inert frame with the working bodies buried in the soil, periodically become directed opposite to the movement of the tool and thus thus lead to an increase in energy consumption for tillage. The rigid fastening of the tubular element with a rod that transmits the traction force from the tractor leads to a rapid damping of the vibration that occurs during collisions of additional spherical loads.

The utility model is based on the technical task of improving the design of a soil-cultivating tool with the achievement of a technical result - reducing traction resistance through the use of a spring-loaded percussion element that has a periodic shock and vibration effect on the frame and working bodies.

The technical problem is solved by the fact that in a tillage tool containing a box-shaped frame, working bodies fixed in its lower part and a spring-loaded percussion element placed inside the box-shaped frame with the possibility of its movement in the direction of the movement of the unit and spring-loaded from the ends, on the end surfaces of the percussion element and the inner parts of the box-shaped frame, hemispherical drummers are located in pairs, and liquid lubricant is placed inside the box-shaped frame, while a spring and a rod are attached to the front of the frame, through which the tool is aggregated.

The device is illustrated by a drawing.

In FIG. 1 is a schematic side view of a tillage implement.

In FIG. 2 - tillage tool, top view.

The soil-cultivating tool (Fig. 1) contains: a box-shaped frame 1, working bodies 2 fixed in its lower part and a spring-loaded percussion element 3, placed inside the box-shaped frame with the possibility of its movement in the direction of the movement of the unit and spring-loaded from the ends. On the end surfaces of the impact element 3 and the inner parts of the box-shaped frame 1, hemispherical strikers 5 are located in pairs, and liquid lubricant 6 is placed inside the box-shaped frame 1. A spring 7 and a rod 8 are attached to the front of the frame, through which the tool is aggregated.

The tillage tool works as follows. When the unit moves, the traction force from the tractor is transmitted through the link 8 and the spring 7 to the box-shaped frame 1, and through it to the working bodies 2. Due to the heterogeneity of the soil structure and the alternating phases of deformation and shearing, the traction resistance periodically changes, as a result of which periodic tension and compression occur springs 7, and low-frequency oscillations of the frame 1 with working bodies 2 buried in the soil occur. vibrations, through hemispherical strikers 5, has a shock effect on the box-shaped frame 1. The resulting shock impulse and vibration (high-frequency vibrations) enter the working bodies 2. The presence of liquid lubricant 6 reduces friction losses during tool operation.

The result of using the proposed design is to reduce the traction resistance of the tillage tool through the use of a spring-loaded percussion element that provides periodic shock and vibration effects on the frame and working bodies.

Claims (1)

A soil-cultivating tool containing a box-shaped frame, working bodies fixed in its lower part and a spring-loaded percussion element placed inside the box-shaped frame with the possibility of its movement in the direction of the movement of the unit and spring-loaded from the ends, characterized in that on the end surfaces of the percussion element and the internal parts of the box-shaped hemispherical drummers are located in pairs of the frame, and liquid lubricant is placed inside the box-shaped frame, while a spring and a rod are attached to the front of the frame, through which the tool is aggregated.

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