RU204382U1 - Removable V-belt variator to regulate the speed of movement of small-scale mechanization equipment - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to devices for stepless speed control of small-scale mechanization equipment (walk-behind tractors, motor-cultivators, self-propelled implements) driven by an internal combustion engine or an electric motor when performing various agrotechnical operations with mounted or trailed traction, drive or traction driven implements in households, farms and communal services. A removable V-belt variator for controlling the speed of movement of small-scale mechanization equipment contains a drive shaft with a drive pulley mounted on it, consisting of a movable and stationary discs and a manual control mechanism for a V-belt variator in the form of a cage with a threaded shank connected by means of a radial bearing with a drive shaft and with an installed movably on its threaded shank by a flywheel with an axial bearing, and a driven shaft with a driven pulley installed on it, consisting of a fixed and movable discs, as well as a spring interacting with a movable disc and with a thrust glass fixed on the driven shaft and kinematically connected by a variator belt with a drive pulley. The V-belt variator has a housing in which the drive and driven shafts are mounted on bearing supports with replaceable couplings fixed to them, while the driven shaft is hollow, the movable and stationary disks of the drive pulley are installed directly on the drive shaft, the threaded shank of the manual control mechanism cage is rigidly fixed on the case of the V-belt variator, and its flywheel interacts with the movable disk through an axial bearing. The utility model makes it possible to expand the functionality of a removable V-belt variator for controlling the speed of movement of small-scale mechanization equipment due to its removable modular design and the use of various types of motoblocks, motor-cultivators and self-propelled tools in the drives of the drive wheels. 1 ill.

Description

The utility model relates to agricultural engineering, in particular to devices for stepless speed control of small-scale mechanization equipment (walk-behind tractors, motor-cultivators, self-propelled implements) driven by an internal combustion engine or an electric motor when performing various agrotechnical operations with mounted or trailed traction, drive or traction driving implements in households, farms and communal services.

Known V-belt variator drive travel (driving) wheels of a self-propelled tillage cutter, containing installed on the electric motor shaft a drive pulley with an adjustment mechanism (manual control mechanism) variator and on the hollow drive shaft of the driving (driving) wheels driven pulley, kinematically connected by a V-belt (variator) belt with drive pulley. The driving and driven pulleys include rigidly fixed fixed and moving parts (disks) and springs interacting with the moving parts (disks), respectively, on the electric motor shaft and on the hollow shaft of the drive (driving) wheels of the self-propelled tillage cutter. The adjustment mechanism (manual control mechanism) of the V-belt variator contains an intermediate shaft with a threaded section, pivotally connected at one end by means of a radial bearing to an electric motor shaft, and at the other end - rigidly with a semi-frame of a self-propelled tillage cutter. On the threaded section of the intermediate shaft, a flywheel is movably mounted and pushers located in the axial holes of the stationary part of the drive pulley interact on one side with the moving part, and on the other through a thrust bearing with a flywheel (RU 144732, IPC А01В 33/02, publ. 27.08.2014 ).

The disadvantage of the known solution is the non-removable design of the V-belt variator and, as a consequence, the inability to use it with other means of small-scale mechanization.

The closest in technical essence is the V-belt variator of the drive (driving) wheels of the walk-behind tractor, containing the first intermediate (drive) shaft rigidly fixed to the engine shaft with the drive pulley and mechanisms for automatic and manual control of the variator installed on it and on the second intermediate (driven) V-belt shaft transmission of a gearbox drive with driving (driving) wheels; driven pulley, kinematically connected by a variator belt with a driving pulley. The drive pulley includes a central sleeve freely fitted on the first intermediate (drive) shaft with support bearings and with fixed and movable disks mounted on it. The automatic control mechanism of the variator consists of a spring installed on the first intermediate (drive) shaft, contacting on one side with a thrust cup fixed on the first intermediate (drive) shaft, and on the other with a movable disk of the drive pulley, a movable sleeve with a helical groove connected to it with the help of a radial pin rigidly fixed on the first intermediate (drive) shaft, entering the groove of the screw groove and a thrust fork freely installed in the axial holes of the stationary disk of the drive pulley and rigidly fixed on one side with its movable disk, and on the other with a movable sleeve. The manual control mechanism of the variator includes a cage with a threaded shank, connected by means of a radial bearing with the first intermediate (drive) shaft, and the threaded shank - rigidly with the frame of the walk-behind tractor and a flywheel movably mounted on it interacting with an axial bearing with a movable sleeve of the automatic control mechanism. The driven pulley of the V-belt variator includes fixed and movable disks installed on the second intermediate (driven) shaft, as well as a spring interacting on one side with a movable disk, and on the other with a thrust cup fixed on the second intermediate (driving) shaft (RU 2602438, IPC А01В 33/08, B62D 51/04, publ. 20.11.2016).

The disadvantage of the known solution is the more complex and non-removable design of the V-belt variator and, as a consequence, the inability to use it with other means of small-scale mechanization.

The technical result consists in expanding the functionality of the V-belt variator for controlling the speed of movement of small-scale mechanization means through the use of its removable modular structure in the drives of the driving wheels of various types of motor-blocks, motor-cultivators and self-propelled tools.

The technical result is achieved by the fact that a removable V-belt variator for regulating the speed of movement of small-scale mechanization devices contains a drive shaft with a drive pulley installed on it, consisting of a movable and stationary disks and a manual control mechanism for a V-belt variator in the form of a cage with a threaded shank connected by a radial bearing with a drive shaft and with a flywheel with an axial bearing mounted movably on its threaded shank, and a driven shaft with a driven pulley installed on it, consisting of a fixed and movable disks, as well as a spring interacting with a movable disk and with a thrust cup fixed on the driven shaft and kinematically connected by a variator belt with a driving pulley. The V-belt variator has a housing in which the drive and driven shafts are mounted on bearing supports with replaceable couplings fixed to them, while the driven shaft is hollow, the movable and stationary disks of the drive pulley are mounted directly on the drive shaft, the threaded shank of the manual control mechanism cage is rigidly fixed on the case of the V-belt variator, and its flywheel interacts with the movable disk through an axial bearing.

The drawing shows the design of a removable V-belt variator for controlling the speed of movement of small-scale mechanization means.

The V-belt variator contains, located in the housing 1 on bearing supports 2 and 3, respectively, a drive shaft 4 with a drive pulley 5 and a manual control mechanism 6 installed on it and a driven hollow shaft 7 with a driven pulley 8 of a V-belt variator 9 attached to it. Drive 5 and driven 8 the pulleys are kinematically connected by a variator belt 10. Also on the drive shaft 4 and the driven hollow shaft 7, respectively, replaceable couplings 11 and 12. The drive pulley 5 of the V-belt variator 9 consists of fixed 13 and movable 14 disks installed on the drive shaft 4. The manual control mechanism 6 of the V-belt variator 9 consists of a cage 15 with a threaded shank 16 connected by means of a radial bearing 17 with a drive shaft 4, and a threaded shank 16 - rigidly with the housing 1 and movably with a flywheel 18 mounted on it, which interacts directly with the axial bearing 19 with a movable disk 14 of the drive pulley 5. The driven pulley 8 of the V-belt variator 9 includes fixed 20 and movable 21 disks installed on the driven hollow shaft 7, as well as a spring 22 interacting with the movable disk 21 and with the driven hollow shaft 8 thrust nozzle 23. Leading 4 and driven hollow 7 shafts using a set of replaceable couplings 11 and 12, respectively, are connected to the shaft 24 of the engine 25 and the drive pulley 26 of the V-belt transmission 27 of the gearbox 28 of the drive wheel drive (not shown in the drawing) of a walk-behind tractor, a motor-cultivator or a self-propelled tools. In some specific cases, the hollow design of the driven shaft 7 allows it to be installed directly on the input shaft 29 of the gearbox 28 of the drive wheel drive (not shown in the drawing) of a walk-behind tractor, a motor-cultivator or a self-propelled tool.

The device works as follows. Before starting to use a removable V-belt variator to control the speed of movement, it is necessary to install it in the kinematic chain of the drive of the drive wheels of a walk-behind tractor, a motor-cultivator or a self-propelled tool. To do this, its driving 4 and driven hollow 7 shafts are connected using a set of replaceable couplings 11 and 12, respectively, with the shaft 24 of the engine 25 and the driving pulley 26 of the V-belt transmission 27 of the gearbox drive 28 with driving wheels (not shown in the drawing). In some specific cases, the driven hollow shaft 7 can be installed directly on the input shaft 29 of the gearbox 28 with driving wheels (not shown in the drawing) of a walk-behind tractor, a motor-cultivator or a self-propelled tool. After installing the V-belt variator, before performing the technological operation, the engine is started and the V-belt variator 9 is pre-set using the manual control mechanism 6 to the required gear ratio, which provides a certain required forward speed of the walk-behind tractor, motor-cultivator or self-propelled tool. When starting the engine 25, rotation from its shaft 24 through the replaceable coupling 11 is transmitted to the drive shaft 4 and the pulley 5 of the V-belt variator 9, and then using the variator belt 10 to its driven pulley 8. Then the rotation is transmitted to the driven hollow shaft 7, from where through replaceable coupling 12 on the drive pulley 26 of the V-belt transmission 27 of the gearbox drive 28 with drive wheels (not shown in the drawing) of a walk-behind tractor, a motor-cultivator or a self-propelled tool. If the driven hollow shaft 7 is installed on the input shaft 29 of the gearbox 28, then the rotation will be directly transmitted from the driven hollow shaft 7 to the input shaft 29 of the gearbox 28.

Adjustment of the V-belt variator 9 to the required gear ratio characteristic for a certain forward speed is carried out by rotating the handwheel 18 on the threaded shank 16 of the manual control mechanism 6. To increase the forward speed of the walk-behind tractor, motor-cultivator or self-propelled tool, it is necessary to reduce the gear ratio of the V-belt variator 9 by screwing on the threaded shank 16 handwheel 18. When the handwheel 18 is screwed in, the axial force is transmitted through the axial bearing 19 to the movable disk 14, which, under the action of axial force, will move along the drive shaft 4 towards the stationary disk 13. This will lead to an increase in the working diameter of the drive pulley 5, displacement and additional tension variator belt 10, which will begin to penetrate between the stationary 20 and the movable 21 disks of the driven pulley 8, causing the axial movement of the movable disk 21 relative to the driven hollow shaft 7 away from the stationary disk 20 and compression spring 22, which will lead to a decrease in the working diameter of the driven pulley 8. In this case, the compressed spring 22 will provide pretensioning of the variator belt 10 and normal operating conditions of the V-belt variator. To reduce the forward speed of a walk-behind tractor, a motor-cultivator or a self-propelled tool, it is necessary to increase the gear ratio of the V-belt variator 9 by unscrewing the flywheel 18 on the threaded shank 16. In this case, the movable disk 14 of the drive pulley 5 due to the pretensioning of the variator belt 10 provided by the compressed spring 22 will begin to move along the drive shaft 4 away from the stationary disc 13, which will lead to the introduction of the variator belt 10 between the stationary 13 and the movable 14 discs of the drive pulley 5 and a decrease in its working diameter. The introduction of the variator belt 10 will lead to its weakening, as a result of which the compressed spring 22 will cause axial movement of the movable disk 21 relative to the driven hollow shaft 7 towards the stationary disk 20, which will lead to the displacement of the variator belt 10 from the driven pulley 8 and increase its working diameter.

Compared with the known solution, the proposed device allows you to expand the functionality of the removable V-belt variator to regulate the speed of movement of small-scale mechanization equipment due to its removable modular design and the use of various types of motoblocks, motor-cultivators and self-propelled tools in the drives of the drive wheels.

Claims (1)

A removable V-belt variator for controlling the speed of movement of small-scale mechanization equipment, containing a drive shaft with a drive pulley installed on it, consisting of a movable and stationary discs and a manual control mechanism for a V-belt variator in the form of a cage with a threaded shank connected by a radial bearing to the drive shaft and to a flywheel with an axial bearing mounted movably on its threaded shank, and a driven shaft with a driven pulley installed on it, consisting of a fixed and movable discs, as well as a spring interacting with a moving disk and with a thrust glass fixed on the driven shaft and kinematically connected by a variator belt with a driving pulley, characterized in that the V-belt variator has a housing in which the driving and driven shafts are mounted on the bearing supports with replaceable couplings fixed to them, while the driven shaft is hollow, the movable and stationary disks of the driving pulley are installed immediately Only on the drive shaft, the threaded shank of the cage of the manual control mechanism is rigidly fixed to the case of the V-belt variator, and its handwheel interacts with the movable disk through an axial bearing.

Images