TH68600B - Hydraulic control valves are used to control the pressure level. - Google Patents

Abstract

DC60 This invention provides a method and device that uses a combination of the pressure output to address. Underneath the valve is controlled by hydraulic force used to reduce the pressure. that responds to needs flow that goes up and down all the time By the way, it will consist of Pressure adjustable pilot valve mechanism with actuator protruding from the control valve. The driver will be able to move. to respond to flow capacity that flows through the valve In this invention is also provided with adjustable pressure level pilot shut-off valves. It works with a control pipe that connects the pressure chamber above it and the pressure chamber below it. This adjustable pressure pilot valve works in conjunction with the driver in such a way that The adjustable setting of the adjustable pressure pilot flap responds to the actuation movement of the actuator.

Claims (8)

Disclaimer (all) which will not appear on the advertisement page. : ------ 19/10/2017 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Pilot valve mechanism Adjustable pressure level for use with valves. Flow control An adjustable pressure level pilot valve mechanism includes: (a) Flap position pointer extending a long distance from the valve, controlled by such valve position pointer. Will move at a long distance In response to the capacity of the flow That runs through the valve; (b) active cam on And move that is compatible with Such valve position pointer; (c) Pilot valve, adjustable pressure level in conjunction with such valve position indicator. And the cam With a pilot valve, such adjustable pressure level Will be used with pipes A regulator that connects the upper pressure chamber to the lower pressure chamber; (d) pressure lever, and (e) roller protruding from the pressure lever. To work together with the shoulder of Such cam In such a way that During the moving thereof Of the cam will vary the position of the least part of the pressure lever; Where one adjustable setting is at least Of the pilot valve, pressure level That can be adjusted Will be the value that responds to the displacement of the cam And respond to Such variations Of the said position 2. The pilot valve mechanism, the adjustable pressure level, as described in Clause 1, is also included. Spring together with pilot valve, adjustable pressure level In such a way that Such variations Of the said position Of the least part of the lever, the pressure will cause variations in the spring load. And the aforementioned adjustable setting of the pilot valve. As a response to the aforementioned burden 3. The pilot valve mechanism, the adjustable pressure level specified in Clause 1, where the shoulder Page 2 of 3 Page 4. Pilot flap mechanism, adjustable pressure level, can be adjusted to achieve variations in the slope of the said cam. As set out in claim 3, where the cam will be morphed into a longitudinal cylindrical part on the pointing stick in such a way that Such a pointer It is located along the center axis of the part. Such a cylinder With the aforementioned slopes having a radial end face In such a way that The angle of the slope of the aforementioned end face will vary according to the loop of the said end face. Of such applications Of the said cam On the said valve position pointer 6. The pilot valve mechanism, the adjustable pressure level specified in Clause 5, where the position of the roller is On the beam to control the pressure Will vary in a long way to respond to such positions The thing was distorted On the aforementioned valve position pointer 7. Pilot valve mechanism, the adjustable pressure level specified in Clause 1, where at least one of the adjustment characteristics is For the aforementioned adjustable setting of the pilot valve, the said adjustable pressure level. It is determined from the shoulder slope of the said cam. 8. Method of mixing the pressure output under the control valve. Hydraulic pressure reducing To respond to the fluctuation of flow requirements Assembly methods include: (a) Provision of a pilot valve mechanism, adjustable pressure levels. Consisting of: (i) a driver extending from the control valve The aforementioned drivers will be able to be moved in response to the quality of the flow. That flow through the valve, hydraulically controlled; And (ii) pilot valve, adjustable pressure level. That are compatible with the control tubes Connect the pressure outlet above. With the pressure chamber underneath With level pilot valve Such adjustable pressure Will work with the aforementioned drivers In such a way that Adjustable settings of the tongue. The pilot switch is switched off. Will respond to the displacement of the driver; (iii) active cam on And moved with Such valve position pointer; (iv) The pressure lever, and page 3 of the three pages (v), are rolled over from the lever to work together with the shoulders. Slope of the said cam In such a way that During the such move, the item was distorted. Will vary the position of the least part of the lever; Where the aforementioned adjustable setting Of the pilot valve, the adjustable pressure level Will be the value that responds to that variation. Of the said position Of the least part Of the beam forcing such pressure; (vi) the pilot valve joint spring, such adjustable pressure level in such a way that such variation Of such position of the least part of the lever, the pressure will cause variations in the load of the spring. And the aforementioned adjustable setting of the pilot valve. As a response to the aforementioned burden (B) the start of the flow through the hydraulically controlled valve; And (c) automatic displacement at the driver In response to the capacity of the flow That flow through the valve, controlled by hydraulic In order to adjust the aforementioned adjustable setting of the aforementioned adjustable pressure valve, 9. Method as stated in Clause 8 where the driver is Will be used as a body Point the valve. That extends longitudinally from the valve, hydraulically controlled by the valve position pointer Will move at a long distance In response to the capacity of the flow Throughout the valve 1 0. Method as described in Clause 8, which is comprised of: (a) the operation of such cam In such a way that The shoulder slope is adjustable to allow variation in the slope of the shoulder; And (b) the adjustment of the slope of the said shoulder 1 1. The method specified in Clause 10, where such cam is used in the figure Of a cylindrical part In such a way that Shoulder slopes have a radial end face. And in that manner The slope angle of the face at the end of such slope 1 2. The method specified in Clause 8, which consists of at least the determination of the characteristic value of the adjustment. For the aforementioned adjustable setting Of the pilot valve, the adjustable pressure level By relying on the slope of the shoulder Of the said cam ------------ ------ 19/10/2017 ------ (OCR) Page 1 of 3 pages. Disclaimer 1. Valve mechanism. Pilot opening Adjustable pressure level for use with flow control valve Adjustable pressure level pilot valve mechanism includes: (a) Flap position pointer extending lengthwise from The valve is controlled by the valve position pointer. Will move at a long distance In response to the capacity of the flow That runs through the valve; (b) active cam on And move that is compatible with Such valve position pointer; (c) Pilot valve, adjustable pressure level in conjunction with such valve position indicator. And the cam With a pilot valve, such adjustable pressure level Will be used with pipes A regulator that connects the upper pressure chamber to the lower pressure chamber; (d) pressure lever, and (e) roller protruding from the pressure lever. To work together with the shoulder of Such cam In such a way that During the moving thereof Of the cam will vary the position of the least part of the pressure lever; Where one adjustable setting is at least Of the pilot valve, pressure level That can be adjusted Will be the value that responds to the displacement of the cam And respond to Such variations Of the said position 2. The pilot valve mechanism, the adjustable pressure level, as described in Clause 1, is also included. Spring together with pilot valve, adjustable pressure level In such a way that Such variations Of the said position Of the least part of the lever, the pressure will cause variations in the spring load. And the aforementioned adjustable setting of the pilot valve. As a response to the aforementioned burden 3. The pilot valve mechanism, the adjustable pressure level specified in Clause 1, where the shoulder Page 2 of 3 Page 4. Pilot flap mechanism, adjustable pressure level, can be adjusted to achieve variations in the slope of the said cam. As set out in claim 3, where the cam will be morphed into a longitudinal cylindrical part on the pointing stick in such a way that Such a pointer It is located along the center axis of the part. Such a cylinder With the aforementioned slopes having a radial end face In such a way that The angle of the slope of the aforementioned end face will vary according to the loop of the said end face. Of such applications Of the said cam On the said valve position pointer 6. The pilot valve mechanism, the adjustable pressure level specified in Clause 5, where the position of the roller is On the beam to control the pressure Will vary in a long way to respond to such positions The thing was distorted On the aforementioned valve position pointer 7. Pilot valve mechanism, the adjustable pressure level specified in Clause 1, where at least one of the adjustment characteristics is For the aforementioned adjustable setting of the pilot valve, the said adjustable pressure level. It is determined from the shoulder slope of the said cam. 8. Method of mixing the pressure output under the control valve. Hydraulic pressure reducing To respond to the fluctuation of flow requirements Assembly methods include: (a) Provision of a pilot valve mechanism, adjustable pressure levels. Consisting of: (i) a driver extending from the control valve The aforementioned drivers will be able to be moved in response to the quality of the flow. That flow through the valve, hydraulically controlled; And (ii) pilot valve, adjustable pressure level. That are compatible with the control tubes Connect the pressure outlet above. With the pressure chamber underneath With level pilot valve Such adjustable pressure Will work with the aforementioned drivers In such a way that Adjustable settings of the tongue. The pilot switch is switched off. Will respond to the displacement of the driver; (iii) active cam on And moved with Such valve position pointer; (iv) The pressure lever, and page 3 of the three pages (v), are rolled over from the lever to work together with the shoulders. Slope of the said cam In such a way that During the such move, the item was distorted. Will vary the position of the least part of the lever; Where the aforementioned adjustable setting Of the pilot valve, the adjustable pressure level Will be the value that responds to that variation. Of the said position Of the least part Of the beam forcing such pressure; (vi) the pilot valve joint spring, such adjustable pressure level in such a way that such variation Of such position of the least part of the lever, the pressure will cause variations in the load of the spring. And the aforementioned adjustable setting of the pilot valve. As a response to the aforementioned burden (B) the start of the flow through the hydraulically controlled valve; And (c) automatic displacement at the driver In response to the capacity of the flow That flow through the valve, controlled by hydraulic In order to adjust the aforementioned adjustable setting of the aforementioned adjustable pressure valve, 9. Method as stated in Clause 8 where the driver is Will be used as a body Point the valve. That extends longitudinally from the valve, hydraulically controlled by the valve position pointer Will move at a long distance In response to the capacity of the flow Throughout the valve 1 0. Method as described in Clause 8, which is comprised of: (a) the operation of such cam In such a way that The shoulder slope is adjustable to allow variation in the slope of the shoulder; And (b) the adjustment of the slope of the said shoulder 1 1. The method specified in Clause 10, where such cam is used in the figure Of a cylindrical part In such a way that Shoulder slopes have a radial end face. And in that manner The slope angle of the face at the end of such slope 1 2. The method specified in Clause 8, which consists of at least the determination of the characteristic value of the adjustment. For the aforementioned adjustable setting Of the pilot valve, the adjustable pressure level By relying on the slope of the shoulder Of the cam ------------ 1. Pilot valve mechanism, adjustable pressure level. For use with flow control valves where the adjustable pressure level pilot valve mechanism consists of (a) the valve position pointer extending a long distance from the valve controlled by the position pointer. Such a valve Will move at a long distance In response to the capacity of the flow Flows through the valve, (b) the active cam on And (c) the adjustable pressure level pilot valve works in conjunction with the said valve position pointer and the cam. With a pilot valve, such adjustable pressure level Will be used with A control tube connecting the upper pressure chamber to the lower pressure chamber, where at least one adjustable setting is possible. Of the pilot valve, the pressure level at Such adjustable 2. The pilot valve mechanism, the adjustable pressure level specified in claim 1, which follows (a) the control lever. Push and (b) the cam protrudes from the pressure lever. In order to work together with that shoulder The slope of such awkwardness in such a way that During the aforementioned displacement of the aforementioned cam, the position of at least one part. Of the pressure lever is variable, where the aforementioned adjustable setting Of the pilot valve, the adjustable pressure level responds to such changes. At least part of the aforementioned position is the aforementioned pressure lever 3. The adjustable pressure-level pilot valve mechanism, as described in Clause 2, which follows: The spring works together with the aforementioned adjustable pressure flaps in such a way that such variations Of the said position Of the least part of The beam to control the pressure. Will change the load of such spring And the aforementioned adjustable setting of the pilot valve. 4. Pilot valve mechanism, adjustable pressure level as specified in Clause 2, where the cam Will be morphed into an adjustable shoulder In order to be able to provide a variation of 5. The pilot valve mechanism, adjustable pressure level as specified in Clause 4, where the cam Will be morphed into a cylinder To be installed along a long way on The indication of the position In such a way that This pointer Will be the center axis of the part Such a cylinder The cylindrical part has a slanted end surface along a circle. In such a way that The angle of the slope of the end surface to the said slope Will be varied along 6. The pilot valve mechanism, adjustable pressure level as specified in claim 1, where the location of such application Of the said cam On the indicator, the valve position can vary over a long way. 7. Pilot valve mechanism, adjustable pressure level as specified in Clause 6, where the position of such roller. On the beam to control the pressure Can be varied along the length to match the position Of the said cam 8. An adjustable pressure level pilot valve mechanism as specified in Clause 1, where one of the adjustment characteristics is at least. For such adjustable setting Of the pilot valve, the pressure level is as above Is determined from the slope of the shoulder cam. 9. How to use the combination of the pressure output under the control valve is controlled. Hydraulics are used to reduce pressure. Can respond to the need for constant fluctuation Where the method consists of (a) provision of a pilot valve mechanism, adjustable pressure levels. Where it consists of (i) the body extends from the control valve. The driver will be moved in response to the flow capacity. That flow through the hydraulic control valve and (ii) the pilot valve, adjustable pressure level. That are compatible with the control tubes Connect the pressure outlet above. The pressure channel underneath With level pilot valve Such adjustable pressure Will work with the aforementioned drivers In such a way that Adjustable settings of the tongue. Turn off the depletion of the adjustable pressure level. (B) the start of the flow through the hydraulic control valve and (c) the displacement of the driver automatically in response to the Flow capacity That flows through the valve, controlled by hydraulic In order to adjust the aforementioned adjustable setting of the aforementioned adjustable pressure flaps 1 0. The method specified in Clause 9, where the drive Will be used as a pointer Valve position Which extends longitudinally from the valve, hydraulically controlled by the valve position pointer Will move at a long distance In response to the capacity of the flow Flows through valve 1 1. Methods set out in Clause 10, which consists of: To provide the following: (iii) an active cam on And movable compatible with the tongue position pointer The cover, (iv) the pressure lever and (v) the roller protrude from the pressure lever. In order to work together With the sloping shoulders of the said cam In such a way that during the aforementioned movement of the aforementioned cam, the position of the part is at least The pressure lever is varied, where the adjustable setting of the pilot valve, the adjustable pressure level responds to such variation. Of the said position Of the least part of The pressure lever, (vi) the spring, works in conjunction with the pilot valve. In such a way that Such variations Of the said position Of the least part of the beam Force such pressure Will modify the load of the spring And the aforementioned adjustable setting of the pilot valve. Will respond to the such load of the aforementioned spring 1 2. Procedures set out in Clause 11, which comprise (a) the arrangement of such escalations. That works together with adjustable shoulders To achieve Variation of the slope of the shoulder at the said slope and (b) the adjustment of such slope. Of the sloping shoulders 1 3. Means set forth in Clause 12, where such aggravation Will be used in the form of Cylinder part With a sloping end surface along a circle In such a way that the angle of the slope of the end of the pew Will be adjusted along the circle of the skin At the end of the slope thereof 1 4. Methods specified in Clause 11, which further, at a minimum, determines the characteristics used in the adjustment of one characteristic. For the aforementioned adjustable setting of the pilot valve, the adjustable pressure level is By relying on the slope of the shoulder Cam 1 5. Adjustable slope cam For use with adjustable pressure level pilot valve, where the adjustable setting of the pilot valve, adjustable pressure level. Will respond to Move at of the cam By cam with adjustable slope It consists of a cam body that has been morphed into a cylinder. With a sloping end surface along a circle In such a way that the angle of the sloping end surface Will be adjusted along the line around the circle of The end surface is slanted. Where the rotation of one part is the least Of the body of the said cam rotating around the longitudinal axis of the said cylinder Will change the The slope of the end skin that slopes the circular eye. At the adjustable setting of the valve Pilot the aforementioned adjustable pressure levels. Responds to itself 1 6. The cam with adjustable slope as specified in Clause 15 where the cam body Will be morphed into When one that rotates around such a long axis And the second episode that cannot be rotated 1 7. Adjustable slope cam as specified in Clause 15 where such cam will be used on And move that together With the valve position pointer That protrudes along the length of the valve controls the flow. By such valve position pointer Will move the site over a long distance in response to the demand of the flow That flows through the valve 1 8. Adjustable slope cam as specified in Clause 15 where the adjustment characteristic is at least. For adjustable tongue settings Pilot switch, adjustable pressure level Will be determined by the said slope. Of the skin at the end Slope along the circle. Where the adjustable settings Of the pilot valve, the adjustable pressure level reacts to it