CS264186B1 - Hydro-generator flow control - Google Patents
Hydro-generator flow control Download PDFInfo
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- CS264186B1 CS264186B1 CS877032A CS703287A CS264186B1 CS 264186 B1 CS264186 B1 CS 264186B1 CS 877032 A CS877032 A CS 877032A CS 703287 A CS703287 A CS 703287A CS 264186 B1 CS264186 B1 CS 264186B1
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- hydro
- servo valve
- throttle element
- flow control
- hydraulically operated
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Abstract
Regulácia prietoku hydrogenerátora, ktorý má vo výstupnom vedení umiestnený škrtiaci prvok a jeho servovalce sú napojené na hydraulicky ovládaný servoventil bez spatnej vazby od výkyvinej došky hydrogenerátora. Podstata riešenia je v tom, že v časti před škrtiacim prvkom je na výstupné vedenie hydrogenerátora napojená jedna komora hydraulicky ovládaného servoventila a v časti za škrtiacim prvkom je na výstupné vedenie napojená druhá komora hydraulicky ovládaného servoventila.Flow control of a hydrogenerator, which has a throttling element located in the output line and its servo cylinders are connected to a hydraulically controlled servo valve without feedback from the swing plate of the hydrogenerator. The essence of the solution is that in the part before the throttling element, one chamber of the hydraulically controlled servo valve is connected to the output line of the hydrogenerator, and in the part after the throttling element, the second chamber of the hydraulically controlled servo valve is connected to the output line.
Description
Vynález rieši reguláciu prietoku hydrogenerátora s využitím hydraulicky ovládaného servoventila.The invention solves the regulation of the hydro-pump flow using a hydraulically controlled servo valve.
Regulácia prietoku hydrogenerátora sa v sáčasnej době zabezpečuje pomocou špeciálneho regulátora prietoku, ktorý pozostáva zo snímacej clony umiestnenej vo vnútri posúvača a z pružiny, ktorá posobí proti sile od tlakového spádu na snímacej clome. Známy je tiež regulátor prietoku, pozostávajúci z posúvača o ktorý sa z jednej strany opiera predpátá pružina, pričom snímacia clona je umiestnená oddelene v obvode hydrogenerátora a tlakový spád na cloně je přivedený na čelá posúvača. Nevýhodou prvej regulácie je, že žiadanú hodnotu regulovanej veličiny nie je možné počas prevádzky meniť. Společnou nevýhodou obidvoch známých regulácií je, že sú zabezpečované jednoúčelovými prvkami použitelnými Iba na reguláciuThe pump flow control is currently provided by a special flow controller consisting of a sensing orifice located inside the slide and a spring that moves against the pressure drop on the sensing cell. Also known is a flow regulator, comprising a slide that is supported by a biasing spring on one side, the sensing orifice being located separately in the perimeter of the pump and the pressure drop at the diaphragm being applied to the slide face. The disadvantage of the first regulation is that the desired value of the controlled variable cannot be changed during operation. A common disadvantage of both known regulations is that they are provided by dedicated elements usable only for regulation
Uvedené nevýhody odstraňuje regulácia prietoku hydrogenerátora, ktorého servovalce sú napojené na hydraulicky ovládaný servoventil bez spatnej vazby od výkyvnej došky hydrogenerátora a vo výstupnom vedení, ktorého je umiestnený škrtiaci prvok podía vynálezu, ktorého podstata spočívá v tom, že v časti před škrtiacim prvkom je na výstupné vedenie hydrogenerátora napojená jedna komora hydraulicky ovládaného servoventila a v časti za škrtiacim prvkom je na výstupné vedenie napojená druhá komora hydraulicky ovládaného servoventila. Výhodou takto vytvorenej regulácie prietoku je, že nahrádza špeciálny regulátor prietoku sériovo vyrábaným hydraulicky ovládaným servoventilom. Ďalšou výhodou je, že žiadaná hodnota regulovanej veličiny sa dá plynulo meniť změnou prietočnej plochy škrtiaceho prvku umiestneného v obvode hydrogenerátora. 186 2The above-mentioned drawbacks are eliminated by the regulation of the hydro-pump flow, whose servo valves are connected to a hydraulically operated servo-valve without poor linkage from the oscillating pile of the hydro-generator and in the outlet line of which the throttling element according to the invention is located. the hydraulic pump line is connected to one chamber of the hydraulically controlled servo valve and the second chamber of the hydraulically operated servo valve is connected to the output line in the part behind the throttle element. The advantage of this flow control is that it replaces a special flow controller with a series-produced hydraulically actuated valve. A further advantage is that the setpoint of the controlled variable can be varied continuously by changing the flow area of the throttle element located in the periphery of the hydrogenerator. 186 2
Na pripojenom výkrese je schématicky znázorněný příklad prevedenia regulácie prietoku hydrogenerátora podía vynálezu.In the accompanying drawing, there is shown schematically an example of an embodiment of the flow control of the pump according to the invention.
Regulácia prietoku pozostáva z hydraulicky ovládaného servoventila 1 napojeného na servovalce hydrogenerátora 4. V případe ak sa použije hydraulicky ovládaný servoventil 1 s mechanickou spatnou vazbou od výkyvnej došky hydrogenerátora 4 je potřebné túto vazbu odpojit a nahradit pevnou vazbou 2 tak, ako je to schématicky znázorněné na pripojenom obrázku. Vo výstupnom vedení 3 hydrogenerátora 4 je umiestnený škrtiaci prvok 5, pričom v časti před škrtiacim prvkom 5 je pomocou prvého vedenia 6 napojená na výstupné vedenie 3 jedna komora hydraulicky ovládaného servoventila 1, ktorého druhá komora je na výstupné vedenie 3 napojená pomocou druhého vedenia 7 v časti za škrtiacim prvkom 5.The flow control consists of a hydraulically operated servo valve 1 connected to the servo motor of the pump 4. In case a hydraulically operated servo valve 1 with a mechanical poor coupling from the pivot shaft of the pump 4 is used, it is necessary to disconnect this link and replace it with a fixed link 2 as shown schematically at attached picture. A throttle element 5 is disposed in the outlet line 3 of the hydro-generator 4, and in the part upstream of the throttle element 5 a chamber of a hydraulically actuated valve 1 is connected to the outlet line 3 by means of a first line 6, the second chamber of which is connected to the outlet line 3 by a second line 7 in the part behind the throttle element 5.
Počas prevádzky prúdi pracovná kvapalina dodávaná hydrogenerátorom 4 cez výstupné vedenie 3. Na škrtiacom prvku 5 vzniká tlakový spád, ktorý sa privádza prvým a druhým vedením 6, 7 do komor hydraulicky ovládaného servoventila 1. Tlakový spád na škrtiacom prvku 5 sa takto stává žiadanou hodnotou pre hydraulicky ovládaný servoventil 1. Pretože hydraulicky ovládaný servoventil 1 má odpojenú polohovú spatinú vazbu od výkyvnej došky hydrogenerátora, sposobí malá odchýlka tlakového spádu na škrtiacom prvku 5 prestavenie hydrogenerátora 4 v celom jeho regulačnom rozsahu. Takto zapojený hydraulicky ovládaný servoventil 1 pracuje ako regulátor tlakového· spádu na škrtiacom prvku 5, čo je súčasne aj regulátor prietoku hydrogenerátora 4. Ak chce obsluha změnit žiadanú hodnotu prietoku hydrogenerátora 4 změní iba prietočnú plochu škrtiaceho prvku 5.During operation, the working fluid supplied by the hydraulic pump 4 flows through the output line 3. The throttle element 5 is subjected to a pressure drop which is supplied by the first and second lines 6, 7 to the chambers of the hydraulically operated servo valve 1. The pressure drop at the throttle element 5 thus becomes the desired value for hydraulically operated servo valve 1. Since the hydraulically operated servo valve 1 has a disconnected positional coupling from the pendulum dump of the pump, the small deviation of the pressure drop across the throttle element 5 causes the pump 4 to be adjusted over its entire control range. The hydraulically operated servo valve 1 thus operated operates as a pressure drop regulator on the throttle element 5, which is also the pump generator flow regulator 4. If the operator wants to change the desired flow rate of the pump 4, it only changes the flow area of the throttle element 5.
Claims (1)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CS877032A CS264186B1 (en) | 1987-09-30 | 1987-09-30 | Hydro-generator flow control |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CS877032A CS264186B1 (en) | 1987-09-30 | 1987-09-30 | Hydro-generator flow control |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CS703287A1 CS703287A1 (en) | 1988-10-14 |
| CS264186B1 true CS264186B1 (en) | 1989-06-13 |
Family
ID=5418673
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CS877032A CS264186B1 (en) | 1987-09-30 | 1987-09-30 | Hydro-generator flow control |
Country Status (1)
| Country | Link |
|---|---|
| CS (1) | CS264186B1 (en) |
-
1987
- 1987-09-30 CS CS877032A patent/CS264186B1/en unknown
Also Published As
| Publication number | Publication date |
|---|---|
| CS703287A1 (en) | 1988-10-14 |
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