RU193711U1 - Subsoiler working body - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to tillage implements for deep loosening of the soil. The working body of the deep-ripper, including a stand with a set of elastic strips oriented in the direction of movement of the unit, cutting knives and a bit fixed to it with its shanks, characterized in that the bit has two lateral sides, covering the strip rack without interference, and fixed to the rack with bolts passing through the sides and strips, and in the strips the bolts have a wide-pass DKU and the ends of the bolts are protected from abrasion broadened bit working surface; the cutting knives are fixed with studs passing through the shanks and strips, and in the stud strips they have a wide-pass fit and are made with stops for the nuts in the form of a stepped diameter, preventing the bands from completely clamping, and the ends of the studs with nuts are protected from abrasion by the bent parts of the shanks. This provides an improvement quality of work and lower traction resistance. 2 ill.

Description

The utility model relates to agricultural machinery, in particular to tillage tools for deep loosening of the soil.

A well-known ripper containing a shoe, a chisel, a damping device in the form of a spring and a parallelogram four-link suspension of a shoe with a chisel (patent No. 2335870 RF A01B 35/20, A01B 35/24) is fixed at one end to the frame. Such a constructive implementation makes it possible to increase the operational and technological parameters of the machine and tractor unit with deep loosening of the soil, and this relates, first of all, to a decrease in the pulling force and better crushing of the soil.

A disadvantage of the known subsoiler is that the parallelogram suspension of the working bodies is cumbersome in design and requires periodic lubrication of four joints, two of which work in the soil. In addition, the direction of spontaneous vibration of the bit coincides with the direction of its movement. Since free vibrations without an additional drive have a low frequency (of the order of 5-8 Hz) and an amplitude of up to 10 mm, the vibration speed is less than the speed of the unit, and the tool will not break away for a moment from the medium being processed. The tool will not have an impact on this medium. Therefore, longitudinal spontaneous vibration is less effective than transverse or vertical.

Known plow body, including a curved rack, shoe, ploughshare, blade, vertical knife and field board (utility model patent No. 144741 of the Russian Federation А01В 15/00). The rack of this plow body is made in the form of a package of strips of spring steel, the ends fixed in clamps and oriented in the direction of movement of the plow. The strips bend in the transverse direction from the influence of variable lateral forces of resistance of the plow body, spontaneous vibrations occur at right angles to the direction of movement of the unit, resulting in a vibration-shock effect that contributes to shaking off overhanging weeds and adhering soil, the appearance of leading cracks in the soil, and reduction in traction resistance and better crumbling blocks.

The disadvantage of this design is that the strips in the rack are pressed by clamps to each other, and this makes it difficult for them to slide together, as is characteristic of springs, as a result of which vibration occurs with a smaller amplitude and quickly damps after the next side push.

Closest to the claimed one is the working body of the soil cultivating implement PSK-ChG, including a support rack, removable cutting knives and an overhead chisel installed in its lower part (utility model patent No. 176153 of the Russian Federation А01В 35/20, А01В 15/02, А01В 35/28 ) This working body is intended for deep subsurface tillage by loosening the subsoil horizon with a chisel and treating the root layer with cutting knives.

The disadvantage of the PSK-ChG gun is the increased traction resistance and clumpiness of loosened soil.

The technical result of the utility model is to improve the quality of work and reduce traction resistance.

The technical result is achieved in that the working body of the deep ripper, including a stand with a set of elastic strips oriented in the direction of movement of the unit, trimming knives and a chisel fixed to it with its shanks, is characterized in that the chisel has two lateral sides covering the strip stand without interference , and is fixed on the rack by bolts passing through the sides and strips, and in the strips the bolts have a wide-pass fit, and the ends of the bolts are protected from abrasion by the broadened working surface of the bit; the cutting knives are fixed with studs passing through the shanks and strips, and in the stud strips they have a wide-pass fit and are made with stops for nuts in the form of a stepped diameter, preventing full clamping of the strips, and the ends of the studs with nuts are protected from abrasion by the bent parts of the shanks.

The essence of the claimed utility model consists in the fact that the entire combined working body performs spontaneous vibration from variable soil resistance with self-oscillations in the transverse direction with respect to the direction of movement of the unit. To this end, the elastic plates forming the strut are oriented in their set in the direction of movement, and this gives them increased stiffness with respect to the main (frontal) resistance and lower stiffness to the same random, but less lateral forces. Self-oscillations, that is, vibration without a drive, in tillage tools has small values of frequency and amplitude, and its speed is less than the speed of the unit. Therefore, it is ineffective in the longitudinal direction, since it does not provide short-term tearing of the bit from the soil with subsequent impacts like a jackhammer. Another thing is the transverse or vertical vibrations, in which short-term detachments occur regardless of the speed of the unit. To increase the frequency and amplitude of vibration, the strips are assembled with only one clamp in the upper part of the rack, where the rack is pressed against the frame by fixing bolts. All other bolt or stud fasteners that hold the components of the combined working body on it are made with the nuts not in the strip, but in the thickening of the diameter of the stud or bolt connection pulls together one single fastener. The holes for these bolts or studs have a larger diameter as a wide-pass fit. This design of the fasteners provides the bands with mutual sliding during bending, which is a necessary condition for flat composite springs. To fix the bit, the traditional location of the bolts on its working side is lured to the lateral location. Bolts pass through two sides welded to the bit, covering a strip stand. The working surface of the bit is made wider than the length of the bolts located at the back, so as to prevent their abrasive wear from the action of the soil with a kind of screen. Shanks of flat blades are equipped with the same screens to protect the ends of their studs from wear.

In FIG. 1 shows the working body of the deep-ripper in two projections; in FIG. 2 is a rear view thereof.

The working body of the deep-ripper contains a stand 1, consisting of a set of elastic strips, two cutting knives 2 with their shanks 3 and fixing pins 4 and a chisel 5 with two sides 6, covering the stand 1. The chisel is attached to the stand with two bolts 7. The bit leaves its width outside their sides 6 and outside the mounting bolts 7. The ends of the mounting studs 4 and their nuts also have protection against abrasive wear by the bent parts 8 of the shanks 3. The mounting studs 4 are made special, with two diameters for each of them. The nuts are screwed onto a smaller diameter and through the washers, as well as through the shanks 3, abut against a ledge of a larger diameter. Between the shanks 3 and the nearest strip, the smallest possible gap 9 remains. The holes in the strips are 1.5-2 mm larger than the diameter of the studs. Bolts 7 ordinary with one diameter. For them, the emphasis is on the sides 6, which are the mounting part of the bit 5.

During the operation of the declared working body of the deep-ripper, the chisel 5 crumbles the soil in the subsurface horizon, and the cutting knives 2 process the root layer. Since clumpy formations in the form of rhizomes of sunflower, corn and other structural heterogeneities are found in the soil, the resistance of the working body is variable, and this causes the strut to vibrate in the transverse direction. This direction of vibration is accompanied by the impact of the bit and cutting knives, the adhering soil and weeds are shaken off, leading cracks are formed in the soil. The soil crumbles better, and traction resistance decreases. With bends of the strip strut, its strips are bent at different radii, and their mutual sliding occurs. In this case, it is necessary that the package of strips at least one end was not clamped by bolts. Therefore, at the lower end of the strip, 6 bits 5 are placed between the sides of the chisel 5 without interference, the cutting knives 2 are fixed with special studs with stops, and all the fixing bolts and studs pass through the holes of the strips with a widened gap.

Thus, the claimed utility model provides a technical result - improving the quality of work and reducing traction resistance.

Claims (1)

The working body of the deep-ripper, including a rack with a set of elastic strips oriented in the direction of movement of the unit, cutting knives and a chisel fixed to it with its shanks, characterized in that the chisel has two side sides covering the strip stand without interference, and is fixed to the stand with bolts passing through the sides and strips, and in the strips the bolts have a wide-pass fit, and the ends of the bolts are protected from abrasion by the broadened working surface of the bit; the cutting knives are fixed with studs passing through the shanks and strips, and in the stud strips they have a wide-pass fit and are made with stops for nuts in the form of a stepped diameter, preventing full clamping of the strips, and the ends of the studs with nuts are protected from abrasion by the bent parts of the shanks.

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