RU2205531C1 - Working tool for digging machine - Google Patents

Abstract

FIELD: agricultural and forestry engineering. SUBSTANCE: working tool has share connected through suspension to frame of digging machine and through connecting rod to eccentric drive. Double-armed lever is mounted through pivot joint on frame. One arm of lever is coupled through tie rod to connecting rod. Pivot hinge mounted on grid provides for connection of grid through intermediate link to lever second arm. Turnbuckle is built into intermediate link. Pivot joints are mounted for longitudinal repositioning thereof. Root layer dug by active share is scattered on grid and vertical vibratory motions are transmitted to grid. For changing grid vibration amplitude, pivot joints are moved to other position. Length of link is adjusted by turnbuckle. Working tool of such construction allows lever and link to be aligned after amplitude has been adjusted to provide for keeping grid vibration amplitude. Working tool may be used for digging out planting material in seedling nursery. EFFECT: increased efficiency in soil tillage and simplified construction. 1 dwg

Description

 The invention relates to agricultural and forestry engineering and can be used, in particular, for digging planting material in forest nurseries.

 Known working body of a digging machine, containing a ploughshare connected by a suspension bracket to a machine frame, connected by a connecting rod with an eccentric drive, and a lattice pivotally mounted on the ploughshare, connected by an intermediate link with a two-arm lever mounted on the frame [1].

 The well-known working body is characterized by insufficient intensity of destruction of the soil root-containing formation and separation of the soil from the roots of seedlings due to the low frequency of lattice vibrations.

 The closest in technical essence and the achieved result to the invention is a working body of a digging machine, comprising a ploughshare connected by a suspension to the machine frame, connected by a connecting rod with an eccentric drive, a grating pivotally mounted on the ploughshare, a two-arm lever mounted on the frame by the middle part, one end of which is through the rod is pivotally connected to the connecting rod, and the intermediate link, one end pivotally connected to the second end of the two shoulders of the lever, and the other to the hinge mounted on the grill, at ohm rod is adjustable in length by a built therein a screw mechanism, and mounted on the frame and lattice hinges secured to them without having to move to another position possibilities [2].

 This working body provides a higher frequency of lattice vibrations, however, the intensity of the destruction of the soil formation and separation of the soil from the roots of seedlings during its use is also insufficient. This is explained as follows. When changing working conditions, such as soil composition or moisture, the amplitude of the lattice vibrations is changed, increasing or decreasing the length of the thrust using a screw mechanism. This leads to the fact that the two-arm lever and the intermediate link in the lower position of the lattice are installed at an angle to each other, while they should be in the same straight line. The noted drawback causes deviations in the mode of lattice vibrations during operation: one oscillation will occur with an increased amplitude, the other with a decreased one. Violation of the regime, in turn, negatively affects the quality of shaking of the soil formation.

 The objective of the invention is to ensure uniformity of the amplitude of the oscillations of the lattice of the working body of the digging machine after setting it to the operating mode in accordance with the change in soil conditions.

 The technical result in the working body of a digging machine, containing a ploughshare connected by a suspension bracket to the machine frame, connected by a connecting rod with an eccentric drive, a lattice pivotally mounted on the ploughshare, a two-arm lever mounted on the frame by the middle part through a hinge, one end of which is pivotally connected to the connecting rod through the link, an intermediate link , one end pivotally connected to the second end of the two shoulders of the lever, and the other with a hinge mounted on the grill, and a screw mechanism, is achieved by the fact that the rod is made unregulated, intovoy mechanism built into the intermediate, and mounted on the frame and lattice joints are mounted on them with the possibility of changes in the longitudinal direction, wherein each hinge is provided with a clamp to secure it in position.

 The drawing schematically shows the working body of a digging machine.

 The working body of the digging machine contains a ploughshare 3 connected by a suspension 1 to a frame 2 of the machine, connected by a connecting rod 4 to an eccentric drive 5. A grill 7 is attached to the rear of the ploughshare 3 by means of a hinge 6. A two-arm lever 9 is mounted on its frame 2 by a hinge 8, one end of which through the rod 10 is pivotally connected to the connecting rod 4. A hinge 11 is mounted on the grill 7. An intermediate link 12 is located between the two-arm lever 9 and the grill 7, the upper end (according to the drawing) of which is pivotally connected to the second end of the two-shouldered lever 9, and the lower niy - with a hinge 11. In the intermediate link 12 is a screw mechanism 13, made, for example, in the form of a lanyard. The hinge 8 is installed with the possibility of moving along the frame 2, for example, along the guides (not shown) and is equipped with a threaded lock 14, the hinge 11 is with the possibility of moving along the grating 7 and is equipped with a similar latch 15.

 The working body of the digging machine works as follows.

 When the machine is moving eccentric, the drive 5 informs the connecting rod 4 of the reciprocating movement, due to which the suspension 1, and therefore the ploughshare 3 with the grill 7 oscillate in the direction of movement of the machine. At the same time, the thrust 10 reports oscillatory movements to the two-arm lever 9, which transfers them to the lattice through the intermediate link 12. During one revolution of the shaft of the eccentric drive 5, the share 3 performs one oscillation, at the same time, the connecting rod 4 through the two-arm lever 9 and the intermediate link articulated with it 12 gives the lattice 7 twice as much as the share 3, the number of oscillations. Due to the increased oscillation frequency of the lattice 7, intensive destruction of the soil layer dug by a share 3 and an effective separation of the soil from the roots of tree seedlings occurs.

 When changing soil conditions, the amplitude of the oscillations of the lattice 7 is regulated. If, for example, it is necessary to increase the amplitude, the hinge 11 is rearranged along the grating 7 closer to the hinge 6, after loosening the latch 15, which, after installing the hinge 11 in a new place, is tightened again. The need for a change in the length of the intermediate link 12 is provided by the turnbuckle 13. In the process of regulation, the hinge 8 is rearranged in the same way along the frame 2, ensuring that the two shoulders of the lever 9 and the intermediate link 12 are located on the same line when the lattice 7 is in the lower position. The turnbuckle 13 is also used to change if necessary, the angle of inclination of the lattice 7 to the soil surface.

 This design of the working body of the digging machine ensures uniformity of the lattice vibrations after amplitude regulation, which contributes to the effective destruction of the soil formation and separation of the soil from the roots of seedlings when changing working conditions.

Sources of information
1. A.S. USSR 452299, class A 01 D 15/04, 1973.

 2. A.S. USSR 701564, class A 01 D 15/04, 1977 (prototype).

Claims (1)

 The working body of the digging machine, containing a coulter connected by a suspension bracket to the machine frame, connected by a connecting rod with an eccentric drive, a lattice pivotally mounted on the ploughshare, a two-arm lever mounted on the frame with the middle part through a hinge, one end of which is pivotally connected to the connecting rod through the link, an intermediate link, one end pivotally connected to the second end of the two shoulders of the lever, and the other with a hinge mounted on the grill, and a screw mechanism, characterized in that the rod is made unregulated, the screw mechanism is inbuilt n in the intermediate link, and the hinges mounted on the frame and grill are mounted on them with the possibility of rearrangement in the longitudinal direction, while each hinge is equipped with a latch for fixing it in a given position.