SU905107A1 - Hydraulic drive of stone-working machine - Google Patents

Description

The latter is made in the form of a serially connected dispenser and throttles installed between the pressure line and the communication line of the three-position slide valve with each power cylinder.

The drawing shows the principle hydraulic circuit of the drive. . /

Pump station 1 is connected through a distributor 2, made in the form of a three-position reversing valve with actuators, for example, with plunger power cylinders 3 and A of a carriage movement actuator with a tool. The plunger of the power cylinder k is provided with an additional connection to the dispenser 5 via the throttle 6, and the plunger of the hydraulic cylinder 3 is provided with an additional connection to the dispenser 7 via the throttle 8. The dispensers 5 and 7 are made in the form of hydraulic cylinders with one-way rods, the rod cavities of which are connected directly to the pump station. The plunger rods of the power cylinders 3 are fixed by the stationary frame of the machine, and the sleeves are connected pivotally to the carriage of the stone processing machine (not shown in the drawing).

The operation of the hydraulic drive of the stone processing machine is as follows.

The oil from the pumping station 1 is directed along the pressure line through the three-position spool 2 to the plunger of the power cylinders 3 and 4. When the oil is supplied to the plunger k, the plunger sleeve extends, moving the tool carriage (not shown) at high speed dispenser 5 also extends. When the carriage with the tool, after processing the plate, is encountered with a limit switch, a signal is received in the control system. The spool 2 takes up a neutral polle (cutting off the supply of oil to the plunger k. However, the plunger sleeve k does not stop due to the inertial force that arises and the pressure in the stock cavity of the metering device 5. The metering rod 5 is retracted and delivers a certain, calculated batch of oil through the choke 6 to the plunger k, which provides a slow motion of the sleeve with the carriage for a predetermined stroke (by the volume of the hydraulic cylinder 5) divided by the area of the plunger 4). From the sleeve of the plunger 3, the oil is supplied to the hydraulic cylinder-meter 7. When the oil is supplied to the plunger 3, the sleeve of the plunger in turn advances, moving the tool carriage at high speed in the opposite direction. After the slab is machined in the opposite direction, the tool carriage meets with other limit switches, and the control system again receives a signal. The spool 2 is again in a neutral position, shutting off the oil supply to the plunger. However, the sleeve of the plunger 3 does not stop due to the resulting inertial force and the presence of pressure in the rod end of the dispenser 7. The dispenser rod 7 is retracted and delivers a certain calculated oil flow through the throttle 8 to the plunger 3, which provides a slow motion of the sleeve of the plunger 3 from the carriage to specified stroke. And since the sleeves of the plungers 3 and A are pivotally connected to the carriage with the tool, simultaneously with the indicated movement of the sleeves of the plunger 3, a portion of the oil is pushed out of the plunger, causing the metering rod 5 to extend. During further processing of the plate, the described process repeats.

The implementation of the proposed drive of the hydraulic stone processing machine greatly improves the productivity, since it ensures the operation of the stone processing machines at higher speeds.

Claims (2)

Invention Formula Hydraulic drive stone processing machine, including two 50 apositally mounted single-acting power cylinders, pumping station, three-position rever-. massive spool and damping device, different 55 by the fact that, in order to reduce dynamic loads during stops and reversal of movement on any segment of the actuator movement path, the damping devices are made in the form of a metering device connected in series and throttles installed between the discharge line and the three-position spool link with each actuator. 7 Sources of information taken into account in the examination 1, USSR Author's Certificate No. 315762, cl. At 28 d, 19b9. 2. Halperin M.I. and others. Stone cutting machines; M., Mashgiz, 1964, p. 284-285 (prototype).