DE1450499A1 - Valve - Google Patents

Description

VEIZT--, L The invention relates to a valve, which is also responsive to both the difference of the pressures in the inlet and outlet than to the temperature.

There are valves of the type mentioned by the US-Patentechrift.2 868,460 known which open when eiti .bentimter pressure or temperature vorbeatimmte surplu # is rode the lift with increasing pressure and with zunebimender temperature continues to rise.

Purpose of the present invention is in contrast to provide a valve, which not only responds when the pressure or the temperature exceeds a predetermined bubble, but depending on, even if they * w a vorbestinnten nose below Achieved # Lrd used in weaentlichen by the following Merkraale: a) the pressure difference acts on a stepped piston against any force of a spring in the sense that the passage cross-section is exposed with increasing pressure on the inlet side; b) a temperature sensor influences a throttle and shut-off part. which cooperates with a passage in the mare piston. The invention is explained in more detail below with reference to the drawing, which shows an exemplary embodiment of a valve according to the invention in axial section.

The valve shown comprises in a cylindrical housing space of a housing 24 a hollow stepped piston 35, whose front end 36 , which has a larger diameter, is prestressed by means of a spring 37 designed as a helical compression spring in the sense that the passage cross section of the valve is between an inlet grille 25 and a pressure outlet passage 27 on the one hand and an Auelana passage 26 on the other hand is exposed with increasing pressure on the e-niaßside. In addition, a temperature sensor 31 influences a control piston 33, which represents a throttle and shut-off part and is guided within the hollow stepped piston 35 and which interacts with a radial passage 39 in the stepped piston 35 . The control piston 33 is biased towards the temperature sensor 31 by means of a helical compression spring 34 - rain upwards.

The control piston 33 has at least one "-, ialdurchtritt, in the present case two Axialdurchtritte 41, up an end-side circumferential edge of the control piston 33 forms a spool for exposing and closing the Durchtrittea 39. The Axialdurchtritte 41 of the control piston 33 patronize on the other, of which passage 39 remote side of the control piston 33 in a closed cylindrical housing space, in which the larger-diameter Si .- irnende 36 of the stepped piston 35 fluid-tightly is performed. the stepped piston 35 is biased by the spring 37 in a direction of a shift The front end 36 of the stepped piston 35 away from the control piston 33 corresponds to the cylindrical building space, which receives the front end 36 of the stepped piston 35 having the larger diameter, additionally surrounds a section of the part of the stepped piston 35 having the smaller diameter and forms an annular space with it, in which the passage t 39 flows. In the area of these annular spaces, the building 24 weeps the AuBlana passage 26 . The spring 37 is arranged in the ring space and at one end wears against an inner shoulder 38 of the housing 24 and at the other end against the larger diameter end 36 against the step collars 35.

At one covered by the control piston 33 in any occurring Tonperatur site is upstream of the (German Patent No. 1,025 * 676) Through-Ivritt 39 in the mare piston 35 a opens into the annular space, known per se throttle passage 40 with a opposit the passage 39 -lower cross-section provided.

As long as the fluid pressure present at the inlet passage 25 and the pressure outlet passage 27 , which is transmitted via the axial passages 41 to the front end 36 of the stepped piston 35 having the larger diameter, exerts a lower force on the front end 36 of the stepped piston 35 than the spring 37, 39 is closed in a the position shown of the control piston 33, which corresponds to a low * tur Pluiddrucktempere, the passage. As a result, the fluid pressure present at the inlet passage 25 is maintained.

If the rise in fluid pressure at the Einlanadurchtritt 25 or Druckauelanadurchtritt 27 as far as to, daso a force is exercised on d96 front end 36 of the stepped piston 35, which that of the spring 37 übersteigtv in its expanded state so a displacement of the stepped piston 35 upwardly takes place ne-bet partial compression of the spring 37, as shown in the drawing. If the fluid temperature remains low and the control piston 33 'is in the position shown, the passage 39 remains blocked afterwards. This in turn means that the fluid pressure present at the inlet passage 25 or pressure <outlet passage " 27 is maintained.

If the fluid pressure rises to such a high VItrt that the stepped piston 35 is deflected even further upwards compared to the position shown with practically complete compression of the spring Y ', then the penetration is prone. occurs 39 through the control piston 33, so that fluid can exit from the outlet passage 26 , bl E; the pressure at the inlet passage 25 or pressure outlet passage tt 27 has fallen to a sufficiently low value.

An exposure of the passage 39 also prevents the stepped piston 35 from entering at medium pluid pressures corresponding to the gekeigtan position if the temperature d, * a pluid between the inlet passages 25 and det Druckausl * laandurobtrltt 97 tends to speak too high and t'emgemäi39 'the valve piston 33 is pushed down as a result of a damming of the temperature sensor 31 against the pressure of the pedal 34.

A Preilegung of the through Trittee 39 cnan alen entweler at too high DrUoken, time-gleich. at excessively high temperatures or in the presence of a bri itself aiedriger Tempn! Done yet portable fluid Druckee and at low Pluiddruck yet portable temperature temperature.

CY The temperature sensor 31 is located exactly on the valley passage of the fluid between the inlet passage 25 and the Durekauslas passage 27 when the fluid flows continuously in a pressurized circle.

A special area of application "" 0 according to the invention arises in a hydraulic power drive for running the derivation of part of the water to a cooler while maintaining the prevailing liquid temperature. uckes. closed at the beginning of operations Igt in this case, the erfindungegemäaae valve due to the #orliegens a low fluid temperature, as is fully maintained dEAS the fluid pressure in the motor drive, and no fluid is delivered to the Uhler. heats up in the course of the operations, the Pluid Uber a certain temperature (although provisionally assuming that the positive pressure does not reach any inadmissible values), a certain part of the excessively heated fluid is released to the cooler via the volume passage 26 , whereupon a certain temperature equilibrium is established in the pressure fluid circuit. If the fluid pressure assumes permissible values, ', # f also a pressure reduction succeeds ng by delivering Pluid Ubor through the outlet passage 26 to Len cooler. Shortly you know this white. stable operation of the hydraulic power drive under all occuring conditions can be achieved.

Claims (2)

P A T E N T A N-3 P 11 UC H 2 t 1) valve, the inlet and outlet ale'auch responsive to both the difference of the pressures on die.Texperatur, Ge characterized by the following features: a) the pressure difference acts on a stepped piston (35) against the force of a spring (37) in the sense that the passage cross section is exposed with increasing pressure on the insert side; b) a temperature sensor (31) stimulates a throttle and shut-off part (control piston 33) which interacts with a passage (39) in the Stu-pen piston (35) . 2) Vent-Li according to claim 1, characterized in that the throttle and shut-off part is designed as a control piston (33) guided in the stepped piston (35) with at least one axial passage (41 ') one of the circumferential edge on the side of the valve forms a control slide for setting and closing the passage (39) so that the axial passage (41) of the control piston (33) on the other end face of the passage (39) opens into a closed cylindrical housing space, in the front end (36) of the stepped piston (35) having the larger diameter is guided in a fluid-tight manner, and that the stepped piston (35) is pretensioned by the spring (37) in a direction which allows for a displacement of the 3tirnendea (36 . 35) corresponds to) of the stepped piston-a (by the control piston 1, "33) away 3, valve according to one of claims 1 Eder 2, dadurcb overall features as: 30 to Irish zylin-the housing space, wherein the the Gröer ( * 'ren D urchmtsser exhibiting end (36) of the stepped piston Z35), additionally a section surrounding the smaller diameter exhibiting part of the stepped piston (35 #) and with this forms an annular space into which the passage (7-09%) opens, and that the housing (24) in the area of this annular space a has an outlet passage (26) . 4) valve naeb one of claims 1 to, characterized in that the annulus designed as a helical compression spring (37) is arranged, which calibrate at one end against an inner shoulder (38) of the housing (24) and at the other end against the Front end (36) of the stepped piston (35) having a larger diameter. 5) Valve still one of claims 1 to 4, characterized then at a point covered by the control piston (33) at no temperature occurring in the straightening direction in front of the passage (59) in the stepped piston (35 # opening into the annular space, per se known D-rossel passage (40) (39) gerilgen cross-section is provided with a respect to the passageway. 6) applying a Ventilo according to one of claims 1 to 5 zirlaufenden in a hydraulic power drive derivation of a portion of the fluid to a cooler entepre6hend the prevailing Pluldtemperatur at Maintenance of a given Minilestflulddrucir # ea.