RU2010133702A - DEVICE FOR ROTARY DOMESTIC RIPPING - Google Patents

Abstract

 1. A device for rotational subsurface loosening, comprising a frame, two rotational crevasses mounted on a frame arranged vertically symmetrically along the direction of movement of the device and mechanically connected to a common drive and located below the drive by an intra-soil milling machine, which have shafts arranged horizontally and perpendicular to the direction of movement of the cultivator the rotational shelieres is equipped with a sheliere disk and annular shelieres, along the inner surface of which are alternately left and Ava of the depression of gearing, and the sclerosis disk contains driven, supporting and centering gears of the drive, the gearing teeth of which are made alternately left and right along the outer cylindrical surface of each gear complementary to the cavities of engagement on the inner surface of the ring crevice, and on the driven, supporting, centering gears and inside the ring the slit has a cylindrical supporting surface, the diameter of the circle of which is equal to the diameter of the corresponding circle of engagement, while the ring slit equipped with cutting bodies made along its outer cylindrical surface alternately left and right in the direction of rotation of the annular shelherez, in front of the cutting body on the lateral surface of the annular slitherery, a receptacle for receiving soil is made, open towards the lateral and outer cylindrical surfaces of the annular slitherese, the milling shaft is made with consoles characterized in that the gearing troughs of the gear drive are made on the lateral surface of the annular shelherez and oriented towards the outside

Claims (6)

1. A device for rotational subsurface loosening, comprising a frame, two rotational crevasses mounted on a frame arranged vertically symmetrically along the direction of movement of the device and mechanically connected to a common drive and located below the drive by an intra-soil milling machine, which have shafts arranged horizontally and perpendicular to the direction of movement of the cultivator the rotational shelieres is equipped with a sheliere disk and annular shelieres, along the inner surface of which are alternately left and Ava of the depression of gearing, and the sclerosis disk contains driven, supporting and centering gears of the drive, the gearing teeth of which are made alternately left and right along the outer cylindrical surface of each gear complementary to the cavities of engagement on the inner surface of the ring crevice, and on the driven, supporting, centering gears and inside the ring the slit has a cylindrical supporting surface, the diameter of the circle of which is equal to the diameter of the corresponding circle of engagement, while the ring slit equipped with cutting bodies made along its outer cylindrical surface alternately left and right in the direction of rotation of the annular shelherez, in front of the cutting body on the lateral surface of the annular slitherery, a receptacle for receiving soil is made, open towards the lateral and outer cylindrical surfaces of the annular slitherese, the milling shaft is made with consoles characterized in that the gearing troughs of the gear drive are made on the lateral surface of the annular shelherez and oriented towards the outside ring shear, the lateral plane of the depression groove is made on the same lateral side of the ring shear as the tank for receiving soil of ring shear relative to the corresponding side surface of the ring shear to a depth of 15-20% more than the side plane of the tank for receiving soil ring shear. 2. The device according to claim 1, characterized in that the front in the direction of rotation of the ring shear surface of the cavity of the engagement is made in one surface with the front in the direction of rotation of the ring shear surface of the tank for receiving soil ring shear with their common generatrix curve on the side surface (plane) ring shear, the lateral surface of the depression groove is made relative to the corresponding lateral surface of the ring shear to a depth of 15-20% more than the side plane of the tank for Soil ring annulus. 3. The device according to claim 1, characterized in that the rear support surface of the engagement of the cavity of the engagement is made perpendicular to the lateral plane of the glieres inside the tank for receiving soil of annular glière along a generatrix located in the plane of the lateral surface of the annular glième in the direction of rotation of the annular glière before being located in the plane the lateral surface of the annular cheresez of the generatrix of the rear curve along the rotation of the annular creephere, equipped with a cutting organ of the surface of the container for receiving soil cerebral clergy. 4. The device according to claim 1, characterized in that the surface of the bottom of the engagement depression is perpendicular to the lateral plane of the glieres on the lateral surface of the annular glieres along a generatrix located in the plane of the lateral surface of the annular glières spaced apart from the cylindrical generatrix surface in the direction of the inner cylindrical surface of the annulus the cutting edges of the outer cutting organs of annular shelherez by the sum of the height of the outer tooth of the engagement of the ring gear congestion and clearance to exit the soil from the engagement depression between the top of the outer tooth of the engagement gear of the ring shear drive gear and the surface of the bottom of the engagement cavity of the annular shear engagement. 5. The device according to claim 1, characterized in that the tank for receiving soil of annular cherez is made in the plane of the side surface of the annular cherez, expanding in depth in the direction of the inner cylindrical surface of the annular cherez. 6. The device according to claim 1, characterized in that the drive gear of the ring shear drive is located on the frame above the rotational shear and is equipped with gear elements of the gear drive, alternately left and right in the direction of rotation of the drive gear complementary to gear elements of the gear drive, made on the outer surface rotational cherese.