RU2754231C1 - Electrohydraulic system for controlling turning of a track-type vehicle - Google Patents

Abstract

FIELD: controlling.

SUBSTANCE: invention relates to apparatuses for controlling dry friction clutch couplings and dry friction belt steering clutch brakes of track-type vehicles. The track-type vehicle is comprised of an electronic turn control handle, an electronic turn control unit, proportional electrohydraulic pressure feedback valves, hydraulic cylinders of the turning mechanism. Inductive rotation speed feedback sensors are installed in the final drives. A remote control radio signal receiver is connected to the electronic control unit.

EFFECT: precise control of the turning radius of the machine, a provided possibility of remote control of turning of the machine are achieved.

3 cl, 1 dwg

Description

The invention relates to the field of mechanical engineering, in particular to control devices for dry friction clutches and tape side brakes of dry friction of tracked vehicles.

Known electro-hydraulic steering control systems of a tracked vehicle, side brakes and friction clutches of which are structurally made by a set of discs, closed by hydraulic boosters and operating in an oil bath. The steering is controlled by changing the pressure in the hydraulic boosters. For example, a Komatsu D375A-6 bulldozer made in Japan (Komatsu D375A-6 CRU00223-02 bulldozer brochure page 4, available at https://www.komek.ru/upload/iblock/1e4/d375a_6_rus.pdf)

The disadvantages of these systems include the impossibility of their use on machines equipped with dry friction clutches and dry friction tape side brakes due to the absence of the latest hydraulic boosters in the design.

The closest to the proposed invention in terms of the technical essence and function performed is a hydraulic steering system of a tracked vehicle containing a power source with a safety valve, a three-position hydraulic valve, hydraulically connected to a power source, with a hydraulic tank, with drain cavities of hydraulic cylinders for controlling the brakes of two sides and by means of a hydraulic line with a metering pump, kinematically connected with the control body, hydraulic cylinders for controlling the clutches of two sides with annular grooves made in their bodies, four check valves (USSR author's certificate No. 1134455, class B62D 11/08, 1983)

However, the known device does not provide the ability to adjust the smoothness of the steering, moreover, it does not provide the ability to turn the machine along a predetermined radius, as well as remote control of the machine turns.

The technical results of the invention are:

1 Providing the possibility of adjustments of smoothness of steering control in a wide range in the operating conditions of the machine

2 Providing precise control of the turning radius of the machine

3 Enabling remote control of machine turns

The technical results of the invention are achieved:

1 The use of an electronic steering control unit with the ability to change the control law of the executive hydraulic cylinders of the machine turning mechanism;

2 The use of proportional electro-hydraulic valves with pressure feedback in the hydraulic lines of the executive hydraulic cylinders of the machine swing mechanism and inductive sensors for the speed feedback installed in the final drives;

3 By using a radio remote control receiver connected to the electronic cornering control unit.

Comparative analysis of the claimed technical solution with the prototype shows that the proposed device differs in that the steering control system of the tracked vehicle is electro-hydraulic, reconfigurable during operation, with feedback on the speed of rotation of the final drives and designed to control the steering mechanism of the tracked vehicle, consisting of two frictional dry friction clutches and two belt side dry friction brakes by means of four hydraulic cylinders.

Thus, the claimed technical solution meets the "novelty" criterion.

When comparing the proposed technical solution with other technical solutions, it shows that electro-hydraulic steering control systems of the tracked vehicle with proportional electro-hydraulic valves with pressure feedback in the hydraulic lines of the hydraulic cylinders of the machine turning mechanism, consisting of two dry friction clutches and two tape side dry friction brakes, the authors are not aware. In addition, a set of essential features consisting of an electronic steering handle, an electronic steering control unit, hydraulic cylinders of a steering mechanism, inductive feedback sensors for the speed of the final drives, a remote control radio signal receiver, makes it possible to detect other devices in the proposed device, in contrast to known solutions properties, which include:

- providing the possibility of adjusting the smoothness of steering control in a wide range in the operating conditions of the machine

- ensuring precise control of the turning radius of the machine

- providing the possibility of remote control of the turns of the car

Thus, the claimed technical solution meets the criterion of "significant differences".

The figure schematically shows the proposed device, where solid lines show hydraulic connections, and dash-dot lines show electrical connections.

1 - electronic control unit for turns

2 - electronic handle for turning control

3 - receiver of radio signals of remote control

4 - safety valve

5 - pump

6 - tank

7 - machine turning mechanism

8 - proportional electro-hydraulic valve with feedback on the pressure of the onboard brake control

9 - hydraulic cylinder for turning on the side brake

10 - side brake

11 - proportional electro-hydraulic valve with feedback on the pressure of the friction clutch control

12 - hydraulic cylinder for disengaging the friction clutch

13 - friction clutch

14 - inductive speed feedback sensor

15 - final drive

The electro-hydraulic steering system of the tracked vehicle works as follows. The electronic steering control unit 1 receives control signals from the electronic steering control handle 2, as well as when the remote control radio receiver 3 is connected and from it, while the control signals from the handle 2 have priority. When the operator does not deflect the electronic steering control handle 2 the machine moves in a straight line, and the working fluid pumped by the pump 5 from the tank 6 through the safety valve 4 is drained back into the tank. When the electronic handle 2 deviates from the neutral position to half the stroke, the electronic steering control unit 1 issues an electrical signal proportional to the deflection angle of the electronic handle 2 to a proportional electro-hydraulic valve with feedback on the pressure of the friction clutch 9. In this case, valve 9 opens by an amount proportional to the signal from the electronic unit 1, while the pressure at the outlet of the valve 11 rises to a value limited by the pressure feedback in the piston cavity of the hydraulic cylinder for disengaging the friction clutch 12, which is proportional to the movement of the stem. Thus, the extension of the rod of the hydraulic cylinder 12 by an amount proportional to the angle of deflection of the electronic handle 2. The rod of the hydraulic cylinder 12 acts on the friction clutch, turning it off, thereby breaking the power flow to the final drive 15 and providing a smooth turn of the tracked vehicle around the corresponding side. With a further deviation of the electronic handle 2 from half of the travel to the end of the travel, the electronic steering control unit 1 issues an electrical signal proportional to the angle of deflection of the electronic handle 2 to a proportional electro-hydraulic valve with feedback on the onboard brake engaging pressure 8, which works similarly to the clutch release valve 9 and acts on the side brake, stopping the corresponding track and allowing the machine to turn sharply. Since the turning radius of the machine is determined not only by the degree of disengagement of the friction clutch and the degree of engagement of the side brake, but also by the resistance on the track created by road conditions, in order to ensure a constant turning radius depending on the angle of deflection of the handle 1, the system additionally provides for the installation of two inductive feedback sensors speed communication installed on each of the two final drives 15. The electronic control unit 1 makes corrections to the control signal of the proportional valves 8 and 11, depending on the discrepancy between the signal from the sensor 14 and the reference value corresponding to the deflection angle of the electronic handle 2, thereby ensuring the rotation of the machine along a constant radius.

Claims (7)

1. A system of electro-hydraulic steering of a tracked vehicle, containing an electronic steering control unit associated with - electronic handle for turning control; - proportional electro-hydraulic valves with pressure feedback, which control dry friction clutches through on-off hydraulic cylinders; - proportional electro-hydraulic valves with pressure feedback, which control dry friction band side brakes through on-off hydraulic cylinders, in this case, dry friction clutches break the power flow to the final drive. 2. The system of electro-hydraulic steering control of the tracked vehicle according to claim 1, characterized in that inductive speed feedback sensors are installed in the final drives and connected to an electronic control unit. 3. The system of electro-hydraulic steering of the tracked vehicle according to claim 1, characterized in that a receiver of radio signals for remote control is connected to the electronic control unit.

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