RU2096169C1 - Hydraulic drive for feeding saw frame - Google Patents

Abstract

FIELD: wood working industry. SUBSTANCE: between the delivery pipe line and oil chamber of the drive is batcher 9 which has housing 22 and floating cylindrical valve 23 with cone 24 on the end face. At the cylindrical generatrix of the valve are passageways 25. The conical generatrix is provided with slots 26. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to the forestry and woodworking industries and can be used in sawmill.

 A control device for a sawmill frame (USSR AS N 471192, B 27 B 5/34, 1975 analog) is known, including a hydraulic motor, a speed regulator made in the form of an air chamber, and a braking mechanism comprising a safety valve with an overflow valve, controlled distributor kinematically connected with the cutting mechanism.

 There is also a control device for a sawmill frame (USSR AS N 574323, B 27 B 3/18, 1977 analog), including a hydraulic motor, a speed controller with an elastic diaphragm, oil and gas chambers having a cone shape, and a braking mechanism in the form a safety valve with a changeable slide valve controlled by a locking device associated with the cutting mechanism using a spring-loaded lever and a cam mounted on the crankshaft of the sawmill frame.

 In the process of testing these devices, insufficient operational reliability and increased wear of the mechanical links of the kinematic connection with the cutting mechanism were determined.

 A device is also known for controlling the operation of a sawmill frame (USSR AS N 265409, B 27 B, prototype 1969), including a hydraulic motor and an adjusting device in the hydraulic motor power supply system in the form of a plunger compensator with a check valve and throttle, as well as a pressure spool at the drain pipe.

 The disadvantages of this device include a certain design complexity, inertia, the inevitable wear of the plunger pair.

 The invention is aimed at eliminating the above disadvantages.

 The drawbacks noted in the hydraulic drive of the pulsator feed of the sawmill frame are eliminated by replacing the plunger compensator with a hydraulic pulsator with a diaphragm, between which the oil chamber and the pressure pipe of the hydraulic motor a dispenser is installed, including a housing and a floating cylindrical valve with a cone at the end. Channels are provided on the cylindrical generatrix of the valve, providing free passage of oil into the pulsator chamber. For dosing the return flow of oil from the pulsator into the pressure pipe, slots of limited cross section are provided on the conical generatrix of the valve.

 Figure 1 shows the hydraulic circuit, figure 2 dispenser.

 The hydraulic drive of the pulsator feed of the sawmill frame includes a hydraulic motor 1 connected to pipelines 2 and 3, a hydraulic pulsator 4 with a diaphragm 5, an oil chamber 6, an air chamber 7, an air valve 8, a dispenser 9, a distributor 10, a throttle 11, a pressure pipe 12, a pressure head spool 13, drain pipe 14, pump 15, pressure spool 16, pipe 17, filter 18, hydraulic tank 19, pipelines 20 and 21.

 The dispenser 9 (see figure 2) includes a housing 22 and a floating cylinder 23 with a cone 24 at the end. Channels 25 are made on the cylindrical generatrix of the valve, and slots 26 of limited cross section are provided on the conical generatrix.

 The hydraulic pulsator feed system operates as follows. With the onset of idle saws after stopping the feed at the lower position of the saw frame, the hydraulic motor 1 operates in acceleration mode. Under the action of inertia forces, the loads and, accordingly, the pressure in the pressure pipe 2 increase. The oil flow from the pump 15 is divided between the cylinders of the hydraulic motor and the pulsator 4, at the upper position of the valve in the dispenser 9, part of the oil freely passes through the channels 25 into the chamber 6. At the moment when the pressure in the pipeline 2 reaches a peak value, the pulsator is fully charged. In the subsequent stage of acceleration, the loads on the hydraulic motor are reduced and the pressure in the pipeline 2 decreases, the dispenser valve 9 moves to the lower position, slots 26 restrict the return flow of oil from the chamber 6 to the hydraulic motor, which continues to operate in acceleration mode until the pulsator is completely discharged in the maximum speed zone feed in the middle of the working stroke of the saws. Subsequently, under the action of cutting forces, the load on the hydraulic motor and pressure in the pressure pipe 2 increase, the dispenser valve moves to the upper position, opening the free passage of oil into the chamber 6 of the pulsator. It charges until the feed stops at the end of the saw travel.

 With the onset of idle saws, the hydraulic drive operates in acceleration mode, the cycle repeats.

 The air valve 8 is used to periodically pump air into the chamber 7. The pressure spool 16 maintains a predetermined pressure in the pipe 12, through the pipes 17 and 14, excess oil is drained through the magnetic filter 18 into the hydraulic tank 19, the pipelines 20 and 21 provide for parallel connection of sawmill hydraulic drives to the pump station adjacent thread frames.

 Thus, the variable components of the cutting forces on the saw teeth during sawing through the beam and the feeding mechanism, as well as the inertia forces during acceleration, cause peak loads on the hydraulic motor, which is associated with significant pressure fluctuations in the pressure pipe 2, as a result of which pulsator 4. In combination with braking at the drain of the hydraulic motor, the process of polyharmonic changes in the feed rate for each sawing cycle occurs, thereby improving the conditions for the frame sawing process, which ensures the possibility of increasing the feed rate and improving the quality of sawing.

Claims (1)

 The hydraulic drive of the pulsatory feed of the sawmill frame, including a hydraulic motor, a hydraulic pulsator with an air and oil chambers separated by a diaphragm, a distributor, a throttle, a pressure spool, a pump station with a pump, a pressure spool, a filter and a hydraulic tank with pipelines, characterized in that between the pressure pipe of the hydraulic motor and a dispenser is installed in the oil chamber of the pulsator, including a housing and a floating cylindrical valve with a cone at the end, and on the cylindrical generatrix of the valve channels, and forming a conical valve gap provided a limited section.

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