SU683652A1 - Rotary soil-working implement - Google Patents

Description

(54) ROTARY SOIL PROCESSING TOOLS

pa power (BOM) of the chassis 3 through the cardan transmission 4, the tapered engagement 5, the drive shaft 6, the permanently closed safety clutch 7 and the chain transmission 8.

The safety clutch 7 consists of the leading part 9, rigidly on the shaft 6, the driven part 10 connected through a chain gear 8 with the working body 2, a squeeze disk 11 and a spring 12.

The machine is equipped with the main 13 and additional 14 hydraulic pumps, which through pipes 15 through distributors 16 and 17 are connected to the hydraulic motor 18 and the drive of the chassis spacing 3. The main hydraulic pump 13 is driven from the driven part 10 of the safety clutch 7 by means of a hydraulic-controlled variable 19. the variator 19 is provided with a single-acting hydrocylindrome 20, the working cavity of which is connected to the injection pipe 21 of the main hydraulic pump -IB. The hydraulic rod 20 is podprulsinen and is connected to the variator 19 by means of a bearing 22.

The additional hydraulic pump 14 is driven by the drive shaft 6 toothed gear 23.

The safety clutch 7 is equipped with an automatic on and off mechanism. This mechanism is made in a single-acting hydraulic cylinder 24, which is connected by means of a double-arm lever 25 to a squeeze disk // safety clutch 7, and the piston cavity of hydraulic cylinder 24 is connected to the discharge pipe 21 of the main hydraulic pump 13 via an adjustable reversible valve 26. With drain pipe 27, the piston cavity of the hydrocylpond 24 is connected via the choke 28 and the hydraulic crane 29. The hydrocrane 29 is switched by means of the hydrocylpindra 30, the cavities of which are connected to the injection pipes with gadgets 21 and 31 of the main hydraulic pump 13 and the additional hydraulic pump 14.

The suction pipe 32, the oil tank 33 with the filter 34 and the adjustable choke 55 are included in the hydraulic circuit.

Rotary tillage tool works as follows.

The PTO chassis 3 is turned on, and rotation through the driveline 4, conical gearing 5, driving shaft 6, safety clutch 7 and chain transmission 5 is transmitted to the working member 2. Rotation from the driven part 10 of the protection coupling is transmitted to the main hydraulic pump at the same time J3, and from the drive shaft 6, via gearing 23, to the additional hydraulic pump 14. At this, the oil enters the hydraulic pumps 13 and 14 through the suction pipe 32 from the oil tank 33 and delivers

into the pressure lines 2.1 and 31, passes through the valves 16 and 17 and through the drain line 27, the filter 34 returns to the oil tank 33 again.

When the distributor 16 is turned on, the oil through the pipeline 15 is supplied to the hydraulic motor / 5, which drives the undercarriage of the chassis 3. Worker Orgai 2 loosens the ground and shifts it to the side, forming this terrace.

With an increase in the loading of the MACHINE, the pressure of oil in the hydraulic system increases. At the same time, the iodine action m. Of the oil pressure. The piston rod of the hydraulic cylinder 20 is extended and, through the bearing 22, compresses the drive pulley of the variator 19, thus reducing its gear ratio. Since the hydraulic pump 13 is driven by the variator 19, the number of revolutions is reduced and the amount of oil supplied to the hydraulic motor 18 decreases. The hydraulic motor 18 reduces the number of revolutions, thereby automatically reducing the most progressive speed of movement of the chassis 3. hydraulic system falls. The rod of the hydraulic cylinder 20 under the action of the spring is removed, increasing the transmission NUMBER of the variator 19 and, accordingly, the number of revolutions of the hydraulic pump 13. The hydraulic pump 13 increases the amount of oil supplied to the hydraulic motor 18, which is the translational speed of the chassis 3.

At the meeting of the working organization 2 with pre-predol, and; rz1m, the first oil pressure, the oil pressure in the hydrosphere line rises. Oil from the injection line 21, soybean iodoleva: stimulation of the adjustable non-return valve 26, enters the working cavity of the HPD 24. the safety clutch 7. Since the safety clutch 7 is turned off, the operating element 2 and the hydraulic pump 13 connected to the driven part 10 of the clutch 7 are stopped. The oil from the hydraulic pump 13 spawns to flow into the hydraulic motor 18, and the machine ABTOmatikecheKI stops. The pressure of the oil in the discharge pipe 21 drops. The oil in the piston cavity of the hydrocylinder 24 on the side of the pressure pipe 21 is locked with an adjustable check valve 26, and on the side of the drainage conduit 27 by a hydraulic crane 29. Since the oil in the hydraulic circuit 24 is locked, its rod cannot move iodine by the action of a spring 12, and the safety coupling 7 is then in the disabled state.

Claims (2)

As soon as the car stops, the operator switches the distributor 16 to the neutral position and turns on the distributor divider 17. At the same time, the oil from the tank 33 with an additional hydraulic pump 14 through the discharge pipe 31 through the distributor 17 is fed into the hydraulic motor 18, driven by the chassis 3, driving it back for withdrawal of the working device 2 from the closure position: At the same time, the oil enters the hydraulic cylinder 30 under pressure in the pipeline 31, the rod of which opens the hydraulic valve 29, thereby connecting the piston cavity of the hydraulic cylinder 24 with the drain pipe 27. At the same time, the spring 12 through the squeeze disk 11 and the double shoulders lever 25 moves the hydraulic cylinder rod 24 , displaced oil from its piston cavity through choke 28 into drain pipe 27, thereby ensuring smooth mixing of the hydraulic cylinder rod 24, and with it smooth activation of the safety clutch 7. After the coupling has been activated 7 due to the adherence of its leading part 9 with the driven part 10, rotation from the PTO chassis 3 is transmitted to the working body 2 and the main hydraulic pump 13. The operator turns off the distributor 17 and converts the drive gear of the chassis 3 to work from the main hydraulic pump 13 by turning on the distributor 16. At the same time the pressurized oil is simultaneously supplied to the hydraulic cylinder 30, which places the hydraulic crane 29 in the locked position, after which the machine switches back to the operation of the automatic regulation mode. Adjusting the speed of movement of the chassis 3 is carried out by an adjustable throttle 35. Claim 1. Rotary tillage implement, including a frame with a chassis and a hydraulic motor for its drive, a working body, a drive transmission for it, a fuse box containing a drive and a driven part, a PRESSURE disc with a spring , the main and additional hydraulic pumps connected by pipelines to the motor drive of the chassis of the chassis, which is so that, in order to ensure the automation of the choice of operating mode and increase The rotary soil tillage implement is equipped with a hydraulically controlled variator, through which the main hydraulic pump is connected to the driven part of the safety coupling, which in turn is equipped with an automatic switching on and off mechanism, made in the form of a single-acting hydrocyl core, whose stem is connected with a two-arm lever with a vyzhimny disk (m of the safety coupling, and the piston cavity - with the discharge pipeline of the main hydraulic pump through the regulator, a checkable check valve and with a drain pipe through a choke and a hydraulic crane, the latter being supplied with its control hydrodynamic interface, the cavities of which are connected to the discharge pipes of the main and additional hydraulic pumps. 2. The rotary tillage implement according to claim 1, characterized in that the hydraulically controlled variator is equipped with a single-acting hydraulic cylinder, the rod of which is podprachchinen and connected with the variator p and the bearing of the bearing, and the piston cavity is connected to the delivery pipe of the main hydraulic pump. Information sources taken into account in the examination: 1. Copyright certificate L 370882, cl. E 02 F 3/18, 1971. 2. Copyright certificate „V 367771, cl. A About B 9/00, 1971. i Liib, /, qi- O: / „-o; - I o  ; I J . - .- 41 P d pz: n.: 4 : ij i5 13