SU879061A1 - Constant-speed mechanical drive - Google Patents

Description

The invention relates to the agricultural machinery industry, mainly to the hydraulic drive-m; working argals-machine, and can be used in hydraulic drives, where (it is necessary to work at a speed; to obtain a constant speed.

A constant-speed hydraulic drive is known: growth 1, comprising a pump in communication with additional motors, whose shaft is connected via a centrifugal regulator to a distributor valve spool, whose input is connected to the pump support hydroline, and the output to the drive gear ratio control mechanism 1.

A disadvantage of the known drive is that it has a complex structure.

The aim of the invention is to simplify the construction of 1 and a different constant speed drive.

The slot is achieved by operating the control mechanism in Hades with two pairs of gears and hydraulic clutches with control cavities mounted on the pump shaft, the hydraulic clutch control cavities connected to the output of the spool and the pump shaft connected to the centrifugal regulator through the scissors gear of the control mechanism.

The drawing shows a diagram of a constant-speed hydraulic drive.

The drive includes a pump 1 in communication with the executive motors 2, 3, the pump shaft 4. Kinematically connected via a centrifugal regulator 5 to the plunger 6 of the distribution valve 7, the output of the latter communicating with the drive-gear ratio control mechanism. Mechanism

10 control gear ratio is made in the form of two pairs of gears 8, 9 and 10, and hydraulic couplings 12, 13 with cavities 14, 15 control mounted on the shaft 4 of the pump, and to the outlet of the distribution

The spool 7 is connected to the cavities 14, 15 of the control of the hydraulic couplings 12, 13. The shaft 4 of the pump 1 is connected to the centrifugal regulator 5 via gears 8, 9 and 10, 11 of the control mechanism. The drive also contains a motor 16, an additional pump 17 and an adjustable choke 18.

The constant speed hydraulic drive operates as follows.

The frequency of rotation of the centrifugal regulator 5 is proportional to the frequency of rotation of the engine 16. At an angular speed corresponding to the rated power of the engine 16, the centrifugal regulator 5 moves the plunger 6 of the distributor

Claims (1)

30 spool 7. At the same time, the working fluid from the additional axle 17 goes to the hydraulic coupling 13 (And turns it on. The torque from the engine 16 is through (Gears 8, 9 is transmitted to the pump 1 with a given frequency V | rasch. With decreasing angular close The motor 16, the centrifugal regulator 5, moves the valve barrel 6 to the distributor valve 9, to the other side, as a result of which the hydraulic clutch 13 is turned off and the torque of the engine 16 is transmitted through gears 10, 1.1, while the gear ratio of gears 1: 0, 11 less gear ratio gears 8, 9, Therefore, the frequency of rotation of the shaft 4 of the pump 1 is increased.It is controlled by an adjustable throttle 18 — the flow of working fluid supplied to the executive IMOTOR, m 2, 3 is regulated. Invention Hydraulic dc of water constant RC1crr containing a self-communicating motor connected : mI, whose shaft is kinematically connected through a centrifugal regulator with a plunger of a distribution valve, the inlet of which is connected to the head of the pump, and the output to the mechanism of transmission of the drive ratio, characterized in that It simplifies the control mechanism in the form of two sliding gears and hydraulic couplings with control cavities installed on the pump shaft, the solenoids of the hydraulic couplings are connected to the output of the spool, and the pump shaft is connected to the centrifugal regulator via gears management Source of information, orienting into consideration during the examination: 1. T. M. Bashta. Engineering hydraulics. M., “Mashinostroenie, 1974, p. 294, fig. 164.