CS233244B1 - Wiring prevents critical oil leaks from the open circuit system - Google Patents

Abstract

The invention relates to a hydraulic connection that prevents the leakage of oil from an open circuit system in the event of destruction of a hydraulic line or a hydraulic element. The connection is made from the hydrogen generator connected to the tank and to the distributor, which is connected by the first line to the tank and the second line to the working hydraulic circuits. The essence of the solution is that a pressure switch is connected to the line by which the distributor is connected to the working circuits, the electrical part of which is connected to the electromagnetic coil of the distributor. A level sensor located in the tank is also connected to the electromagnetic coil of the distributor. The distributor and the level sensor are further connected to electrical signaling.

Description

(54) Wiring to prevent critical oil leaks from the open circuit system

The invention relates to a hydraulic circuit which prevents the leakage of oil from the open circuit system in case of destruction of the hydraulic line or hydraulic element. The wiring is formed from a pump connected to the tank and to a distributor which is connected by a first line to the tank and a second line to the working hydraulic circuits. The principle of the solution consists in that a pressure switch is connected to the line through which the switchgear is connected to the working circuits, the electrical part of which is connected to the switchgear solenoid coil. A level sensor located in the tank is also connected to the solenoid coil of the distributor. The switchboard and level sensor are connected to the electrical signaling system.

BACKGROUND OF THE INVENTION The invention relates to a circuit that prevents critical oil leakage from an open circuit system,

In known hydrotreated machines, oil leaks from the hydraulic system and the reservoir occur in the event of a failure caused, for example, by the spreading of the hydraulic line or by the destruction of the hydraulic element. The amount of oil spilled in this case depends on how quickly the operator can stop the drive motor. Leaked oil results in a deterioration in the economic balance of machine operation and can cause serious soil and water contamination from an environmental point of view.

These disadvantages are substantially eliminated by a circuit preventing critical oil leakage from an open circuit system formed of a tank connected to a tank and a spreader which is connected by a first line to the tank and a second line to the working hydraulic circuits, characterized in that the second line is pressurized switch, the electrical part of which is connected to the electromagnetic spool of the switchgear, which is connected both to the electrical part of the level switch located in the tank and to the electrical source connected to the electrical signal connected to the pressure switch and to the presence switch level.

The advantage of such an open circuit connection is that in the case of a failure caused by e.g. by rupture of the hydraulic line or by destruction of the hydraulic element, the pressure switch sends an electrical pulse to the control circuit of the distributor, which discharges the pressure fluid to the tank and thus prevents further oil leakage from the hydraulic circuit.

It is also advantageous that the level switch does not allow the machine to operate in the absence of oil in the tank, and when there is less oil leakage when the level in the tank falls below the minimum level, the distributor switches to the position where the pump is connected to the tank.

In the accompanying drawing, an example of an embodiment for preventing critical oil leakage from the open circuit system of the present invention is shown. is a functional wiring diagram.

The involvement podi'a invention is formed of a hydraulic pump J, ktoráho input is connected to the tank 6 and its output, fusing pressure valve 2 ^e j connected to the distributor 4 · Rozvédzač ^fe dvqjpolohový, No / erceztný and connects the output of the hydraulic pump 1 in a first position via a first conduit 6 with working hydraulic circuits, wherein in a second position, the second conduit 1 is directly in a non-holding position

The distributor can also be designed as a part of the hydraulic generator χ. Depending on the complexity of the system, one or more pressure switches J are connected to the first conduit χ. The electrical part of the pressure switch J is connected to the electromagnetic coil 31 of the distributor 4, but to the electrical signaling 11.

Also connected to the electromagnetic coil 11 is the electrical part of the level switch 6 located in the tank g and connected to the electric signaling device 11, which is connected to a power source J. The source J is further connected via a push-button switch JJJ, connected to an electromagnetic lug JJ,

During fault-free operation, the distributor J is in the position where the pump J is connected to the working hydraulic circuits. In the event of a failure of the hydraulic line or hydraulic element, the pressure switch J registers a pressure drop and sends an electrical pulse to the electromagnetic coil J, which switches the distributor J so that the hydrogen generator J is connected from the second line J to the tank. the electrical signaling unit JJ, which informs the operator of the machine, is also illuminated. Similarly, when the oil level in the tank g falls below the permissible level, the switch 6 sends an electrical signal to the electromagnetic coil 31, which switches the distributor to a position where the pump 9 is directly connected to the tank 8, preventing operation of the machine. As in the previous case, the 1Ί electrical alarm is now on. A pushbutton switch 10 connected in parallel to the electrical circuit with the pressure switch J and the level switch 6 serves to turn on the circuit for starting the machine.

OBJECT OF THE INVENTION

Claims (1)

Wiring to prevent critical oil leakage from an open circuit system made up of a tank connected to a tank and a distributor that is connected by a first line to the tank and a second line to the working hydraulic circuits, characterized in that a pressure switch (5) is connected to the second line (4) ), the electrical part of which is connected to an electromagnetic lug (31), which is connected both to the electrical part of the level switch (6) located in the tank (8) and to the power source (9) via a push button (10); which is also connected to an electrical signaling device (11) connected to a pressure switch (5) and a level switch (6). 1 drawing