DE2350920A1 - HYDRAULIC PRESSURE RELIEF VALVE - Google Patents

Description

The invention relates to a hydraulic relief valve .

When starting an internal combustion engine, for example a gasoline or diesel engine, it is desirable to relieve the engine of the load caused by auxiliary devices to be driven by it, so that the engine can achieve its performance
can take advantage of a certain running speed.

As soon as the engine has reached normal operating status, the auxiliary devices to be driven are reconnected to the engine. However, certain mechanical auxiliaries are directly coupled to the engine so that they
cannot be disengaged mechanically «These auxiliary devices include the high-pressure hydraulic pump for feeding
a pressurized fluid to the steering device, the brakes, the three-point linkage and external hydraulic devices ₀ This pump is driven as soon as the engine is started
the hydraulic pump consists in preventing the

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Pump delivers liquid.

The high pressure hydraulic pump is fed with the hydraulic medium by a filling or feed pump. In the pipeline leading from the filling pump to the high pressure pump, a valve is switched on, which enables the pumped
Keep the medium away from the high pressure pump. This too
using relief valve according to the invention closes
automatically as soon as the engine reaches its normal operating speed, regardless of whether that
hydraulic medium is hot or cold.

The invention has for its object to provide a relief valve of the type mentioned, which when starting the
associated motor remains open, and which closes automatically as soon as the motor reaches normal operating speed, and in particular to provide such a relief valve which can be used within the entire range of the viscosity of the hydraulic medium in question.

The invention and advantageous details of the invention are described below with reference to a schematic drawing explained in more detail using an exemplary embodiment.

The drawing shows an embodiment of a relief valve in longitudinal section.

The hydraulic relief valve can be used with various types of engines. In the case of a tractor, the hydraulic device includes a filling or feed pump 2
and a main pump 4. The filling or feed pump 2 sucks in the liquid to be conveyed from the lower part of a housing which serves as a sump, as is shown schematically in the drawing at 6, and it conveys the hydraulic
Medium via a pipeline 8 to a load 10 operated with low pressure and to the high pressure pump 4. In addition, the filling or feed pump 2 also serves as a supply source for the high pressure hydraulic medium that is fed to a load 12, as already described.

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The automatic relief valve 14 has an inlet channel 16, which is connected to the pipeline 8 between the The delivery side of the filling pump 2 and the suction side of the high pressure or main pump are connected. The valve also has an outlet channel 16 which is in communication with the sump 6. The inlet channel 16 serves to control the flow of pressure medium to divert from the pipeline 8 when the valve body or piston slide 20 can be seen in the drawing Position. Here, the conveyed medium flows through the hollow piston valve 20 and the outlet channel 18 to the sump 6 from. If the piston valve 20 is in its upper position, it holds the Inlet channel 16 closed, so that the pressure medium of the main pump 4- from the filling pump 2 via the pipeline is fed.

A housing 22 belongs to the valve. The inlet channel 16 and the outlet channel 18 are both cylindrical Shape and intersect in such a way that they delimit a chamber 24-. A bore 28 with which the housing 22 is provided is, forms a cylindrical recess. The chamber 24- lies between the recess 26 and the inlet channel 16. To enable the valve to work, the recess 26 and the bore 28 have a larger diameter than the outlet channel 18. The bore 28 is closed by a threaded plug 30 which is inserted into the housing 22 is screwed in and forms part of the housing. A is used to seal the threaded plug 30 O-ring 32. The piston slide 20 is actuated by a main spring 34 arranged in the recess 26 in its drawing reproduced open position held. The main spring 34- is between the top of the piston valve 20 and the threaded plug 30 arranged. Kit the threaded plug 30 is an auxiliary spring 36 by means of a cap screw 4-0 and a spring plate 38 connected. According to the Drawing comes the piston valve 20 at the end of its upward movement in the direction of its closed position Abutment on the spring plate 38, wherein he the auxiliary spring 36

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compresses so that it is biased downward in its upper position, so that the cash inertia of the piston valve s can be overcome when the piston slide can be returned to its open position target. If the piston valve 20 is not in contact with the spring plate 38, the spring plate is supported under the Effect of the auxiliary spring 36 on the head 42 of the screw 4-0 from ..

The piston slide 20 has a cylindrical wall 44 which delimits an axial, cylindrical bore 46 through it. The outlet channel 18, the bore 28 and the bore 46 are arranged coaxially. The top of the wall of the piston valve 20 has several passages 48, of which only one can be seen in the drawing, which one the bore 46 can connect to the inlet channel 16. The wall 44 of the piston valve 20 is cylindrical, and its outer peripheral surface has a smaller diameter than the chamber 24, so that there is little to allow the hydraulic medium to pass from the inlet port 16 from to flow around the wall 44 of the piston valve and through the passages 48 into the cylindrical Enter bore 46 of the piston valve. The bore extends along the entire axis of the piston valve, it is open at the lower end so that the liquid can be delivered to the sump 6, and its upper end is also open, so that the pressure drop in the bore caused by the flowing liquid becomes effective comes.

The piston valve 28 has near its upper end a flange ": 52, which from the wall 44 radially outwards protrudes and has such a thickness in the axial direction that it has a sealing effect with the wall of the bore 28 can work together. The flange 52 stays in Contact with the wall of the bore 28 to effect a seal at this point. At the lower end of the piston valve 20, a further flange 56 is formed which has a sealing effect with the other of the outlet channel 18

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cooperates. Through these two constantly effective seals the outlet channel 18 is separated from the inlet channel 16 in such a way that there is a connection between them can only be produced via the passages 48 and the bore 46 of the piston valve. Between the splash 52 and The piston slide 20 has a third to the splash 56 Plansch 5 ^ on, the opposite of the wall 44 radially outward protrudes and has the same diameter as the plan 52 and the bore 28. The passages 48 lie between the puddles 52 and 54. The piston slide 20 moves into its In the closed position, the middle splash 54 works with sealing Cooperates with the wall of the bore 28 to shut off the passages 48 from the inlet channel! and so prevent the flow of liquid. Finally, the piston valve 20 has an annular shoulder 58, with which it is supported on an annular shoulder 60 of the housing 22 in its open position.

An important feature of the invention is the pressure changes created through the passages 48 and through the bore 46. The liquid flows from the inlet channel 16 via the annular groove 50 on the circumference of the piston valve 20 and via the passages 48 into the bore 46 of the piston valve and through this bore down to the outlet channel 18. There is no overpressure whatsoever in the outlet channel 18, since the liquid flows into the housing 22 or the sump 6. When the liquid flows through the passages 48 and the bore 46, a pressure difference arises as a result of the flow resistance between the inlet channel 16 and the outlet channel 18. This results in a pressure _s in the chamber 24 which acts on the difference between the surfaces of the puddles 52 and 56 and brings the piston valve 20 upwards into its closed position as soon as this pressure reaches a value that exceeds the compressive force exerted by the main spring 34 and, if necessary, is applied by associated paddling surfaces.

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This resulting force is given as the difference between the pressure due to the pressure drop occurring in the bore and to the upper part of the Piston valve including the top of the flange 52 ■ acts, and the pressure, which corresponds to the sum of the pressure drops across the passages and the bore, and that on a surface acts, which corresponds to the difference between the diameter of the recess 26 and the diameter of the outlet channel 18 These pressure drops will vary depending on the particular viscosity of the fluid. The higher the viscosity of the liquid is, the higher the pressure drop becomes and it decreases as the viscosity decreases. This is where the pressure drop goes in bore 46 to a greater extent than the pressure drop across the passages. The resulting Power is based on the flow of fluid, which is related to the speed of the motor. With the normal Idle speed, this force is sufficient to withstand the pressure of the To overcome spring 34 and so close the valve. These Closing force occurs within the entire viscosity range of the liquid. One can see the relationship between the pressure drop adjust the ports '48 and the bore 46 so that the movement of the piston valve is in its closed position depends on the delivery rate of the filling pump 2 driven by the motor, so that a relationship between the liquid flow rate and the engine speed. As soon as the motor and the filling pump reach the required operating speed, the flow of liquid creates a resulting force, which is sufficient to move the piston valve 20 into its closed position to bring, in which the pressure medium of the main pump 4 is supplied.

All information and features disclosed in the documents, in particular the disclosed spatial design, are as long as they are individually or in combination with the state of the Technology are new, claimed as essential to the invention.

Claims :

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Claims (1)

EXPECTATIONS Hydraulic relief valve, in particular for relieving an internal combustion engine from auxiliary units to be driven when starting, by means of which a flow of hydraulic pressure medium is deflected depending on the increase in the flow rate, characterized by a chamber (24) present in a housing (22), which is in connection with an inlet channel (16) and an outlet channel (18), wherein the side of the chamber facing away from the outlet channel has a recess (26) and a valve body (20) is slidably guided in the chamber, which between an open position for forwarding the pressure medium from inlet channel to the outlet channel and a closing position to shut off of the pressure medium flow displaceable and means (34) is provided for biasing the valve body in its open position, and which comprises valve body means (46, 48, 52) which serve to ₉ on the Let the valve body act a resultant force in order to make it inside To move lb of a predetermined range of viscosity values of the pressure medium automatically into its closed position when a predetermined flow rate is reached. 2 ο relief valve according to claim I _5, characterized in that the devices for generating a resulting force include passages (48), an axial bore (46) connected in series with them and devices (52, 58) having surfaces. 3. Relief valve according to claim 2, characterized in that the passages (48) between the bore (46) and the inlet channel (16) are when the valve body (20) is in its open position and that the devices to generate the 409816/0925
^ßAD resulting force within a predetermined range of the viscosity values of the pressure medium on the valve body resulting forces through which the valve body is brought into its closed position. 4. Relief valve according to claim 2, characterized in "that it is the biasing device is an elastic device (24) which serves to exert a force on the valve body (20) in order to bias it towards its open position. 5. Relief valve according to claim 4, characterized in that the elastic device (34) is arranged in the recess (26) and is used to initially move the valve body (20) out of its closed position to move into its open position. 6. Relief valve according to claim 2, characterized in that the valve body (20) has a in the recess (26) arranged first gapless sealing device (52), furthermore one in the Outlet channel (18) arranged second gapless sealing device (56) and one between the first and the Second sealing device arranged third sealing device (54 ·) j which in the opening position of the Valve body is in flow connection with the inlet channel H6) and in the closed position of the valve body with a sealing effect with the recess stands to the flow of the pressure medium from the inlet channel to the outlet channel to prevent, and that the passages (48) -between the first and the third sealing means are arranged to receive the supplied pressure medium in the open position of the valve body, but at the closed position of the valve body with respect to the inlet channel to be shut off. 7. relief valve according to claim 2, characterized in that the valve body '(20) a 409816/0925 _ 9 - Wall (44) aufwe'ist having an axial bore (46) for Discharge of the supplied fluid and passages (48) in this wall for passing the fluid through for discharge the same via the outlet channel (18) that the means for generating a pressure which tends is to move the valve body into its open position, a spring (34) arranged in the recess (26) is, that the valve body has a first sealing device (52) which constantly cooperates with the wall (28) of the recess to the prevailing in the inlet channel To keep pressure away from the top of the valve body, the valve body has a second sealing device (56), which is constantly connected to the wall of the outlet channel cooperates that the valve body a third sealing means (54) between the first and the second sealing device which has a Creates a sealing effect as soon as the valve body moves into its closed position that the passages (48) between the bore (46) and the inlet channel (16) and between the first and third sealing means are arranged so that the flowing pressure medium causes a pressure drop in the open position of the valve body, to move the valve body in the direction of its closed position that the bore (46) when flowing through of the fluid causes a pressure drop, which tends to move the valve body into its open position move that these pressure drops create a resultant force that is the combination of the sum same multiplied by an area which is the difference between the cross-sectional area of the recess and the cross-sectional area of the outlet channel is multiplied by an area comparable to that minus the pressure drop in the bore with the cross-sectional area at the upper end of the valve body, acts that the valve body is in its Moves closed position when the said resulting force exceeds the pressure of the spring, and that the third sealing device (54) moved so that they cooperate with the recess with a sealing effect 409816/0925 works to open the passages opposite the inlet channel (16) shut off, to interrupt the flow of the fluid to the outlet channel and the valve body taking advantage of the To hold fluid pressure in the inlet channel in its closed position. 8. Relief valve according to claim 5j, characterized in that the elastic device a spring (4), which comes into effect only initially, to move the valve body (20) into its open position to move. 409816/0925