RU2014113136A - CHAIN DRIVE TENSION SPRING EFFORT REGULATION MECHANISM - Google Patents

Abstract

1. A tensioner for a passive tensioner system for tensioning a chain having a chain span or belt, comprising: a housing having a cylindrical hole; a hollow piston comprising a housing having an open end and a closed end, and a hollow inner portion having an inner diameter; a hollow movable a sleeve comprising a hollow body having an inner part with an inner diameter having a first part located in a cylindrical hole of the body and a second part and an inner flange at the end of the second part, the inner flange having an upper surface and lower surface; moreover, the hollow piston and the hollow movable sleeve are located coaxially in the cylindrical bore of the housing so that one of the hollow piston or hollow movable sleeve is located in the hole of the other from the hollow piston or hollow movable sleeve; piston spring entering the hollow interior of the piston for displacing the piston outward from a sleeve having a first end touching the inner surface of the closed end of the piston and a second end touching the upper surface of the flange of the movable sleeve; bias spring flowing in the bore of the housing and the hollow inner part of the movable sleeve to move the bushing out of the housing with the first end in contact with the lower surface of the inner flange of the sleeve and the second end; the first hydraulic chamber formed by the hollow inner part of the housing of the movable sleeve, the hollow inner part of the piston and the hole a housing having a first fluid inlet; a second hydraulic chamber formed by a cylindrical bore of the housing and a movable sleeve, with an inwardly directed force acting to

Claims (20)

1. Tensioner for a passive tensioner system for tensioning a chain having a chain span or belt, comprising: a housing having a cylindrical hole; a hollow piston comprising a housing having an open end and a closed end, and a hollow interior having an inner diameter; a hollow movable sleeve comprising a hollow body having an inner part with an inner diameter having a first part located in a cylindrical hole of the body and a second part and an inner flange at the end of the second part, the inner flange having an upper surface and a lower surface; moreover, the hollow piston and the hollow movable sleeve are located coaxially in the cylindrical hole of the housing so that one of the hollow piston or hollow movable sleeve is located in the hole of the other from the hollow piston or hollow movable sleeve; a piston spring included in the hollow interior of the piston for displacing the piston outward from the sleeve, having a first end touching the inner surface of the closed end of the piston and a second end touching the upper surface of the flange of the movable sleeve; a bias spring located in the bore of the housing and the hollow inner part of the movable sleeve, for biasing the sleeve out of the housing with the first end in contact with the lower surface of the inner flange of the sleeve and the second end; a first hydraulic chamber formed by a hollow inner part of the housing of the movable sleeve, a hollow inner part of the piston and an opening of the housing, having a first fluid inlet; a second hydraulic chamber formed by a cylindrical bore of the housing and a movable sleeve, an inwardly directed force acting to push the piston into the housing creates a fluid pressure in the second hydraulic chamber, causing the movable sleeve to exert an outward force on the piston through an inwardly opposed piston spring power. 2. The tensioner according to claim 1, additionally containing a hollow stationary sleeve located inside the hole and the inner diameter of the movable sleeve. 3. The tensioner according to claim 1, characterized in that the cylindrical hole comprises a first part and a second part, the first part having a diameter less than the diameter of the second part. 4. The tensioner according to claim 1, characterized in that the first part of the hollow sleeve is located in the piston. 5. The tensioner according to claim 1, characterized in that the piston is located inside the first part of the hollow sleeve. 6. The tensioner according to claim 1, characterized in that the second hydraulic chamber is formed by the outer circumferential flange of the movable sleeve and a cylindrical bore of the housing. 7. The tensioner according to claim 6, characterized in that the second hydraulic chamber is in fluid communication with the supply source through a check valve. 8. The tensioner according to claim 6, characterized in that the second hydraulic chamber is in fluid communication with the supply source through a control valve containing a spool valve. 9. The tensioner according to claim 8, characterized in that the supply source is an accumulator having an inlet communicating in fluid with the first hydraulic chamber through a check valve. 10. The tensioner according to claim 6, characterized in that the outer circumferential flange is bounded by a first surface with a first area and a second surface with a second area, the first area being larger than the second area. 11. The tensioner according to claim 1, characterized in that the second hydraulic chamber is formed by a flange of a cylindrical hole and a cutout of the movable sleeve. 12. The tensioner according to claim 11, characterized in that the second hydraulic chamber is in fluid communication with the supply source through a check valve. 13. The tensioner according to claim 11, characterized in that the hole flange is bounded by a first surface with a first area and a second surface with a second area, the first area being larger than the second area. 14. A tensioner for a passive tensioner system for tensioning a chain having a chain span or belt, comprising: a housing having a cylindrical hole; a piston comprising a housing; a hollow movable sleeve comprising a hollow body having an inner part with an inner diameter having a first part located in a cylindrical hole of the body and a second part and an inner flange at the end of the second part, the inner flange having an upper surface and a lower surface; wherein the piston and the hollow movable sleeve are located coaxially in the cylindrical hole of the housing so that the piston is inside the hole of the hollow movable sleeve; a piston spring for displacing the piston outward from the sleeve, having a first end touching the end of the piston and a second end touching the upper surface of the flange of the movable sleeve; a bias spring located in the bore of the housing and the hollow inner part of the movable sleeve, for biasing the sleeve out of the housing with the first end in contact with the lower surface of the inner flange of the sleeve and the second end; a first hydraulic chamber formed by the hollow interior of the housing of the movable sleeve, the end of the piston and the bore of the housing, having a first fluid inlet; a second hydraulic chamber formed by a cylindrical bore of the housing and a movable sleeve, an inwardly directed force acting to push the piston into the housing creates a fluid pressure in the second hydraulic chamber, causing the movable sleeve to exert an outward force on the piston through an inwardly opposed piston spring power. 15. A tensioner for an active tensioner system for tensioning a chain having a chain span or belt, comprising: a housing having a cylindrical hole with a first part and a second part, the first part having a diameter less than the diameter of the second part; a hollow piston comprising a housing having an open end and a closed end, and a hollow interior having an inner diameter; a hollow movable sleeve comprising a hollow body having an inner part with an inner diameter having a first part located in a cylindrical hole of the body and a second part, a flange at the end of the second part, the flange having an upper surface and a lower surface, and an outer circumferential flange between the first a part and a second part located in a cylindrical hole of the housing having an upper surface and a lower surface; moreover, the hollow piston and the hollow movable sleeve are located coaxially in the cylindrical hole of the housing so that one of the hollow piston or hollow movable sleeve is located in the hole of the other from the hollow piston or hollow movable sleeve; a piston spring included in the hollow interior of the piston for displacing the piston outward from the sleeve, having a first end touching the inner surface of the closed end of the piston and a second end touching the upper surface of the flange of the movable sleeve; a bias spring located in the bore of the housing and the hollow inner part of the movable sleeve, for biasing the sleeve out of the housing with the first end in contact with the lower surface of the inner flange of the sleeve and the second end; a pressure chamber formed by the hollow interior of the piston and the bore of the housing, having a first fluid inlet; a first hydraulic chamber formed by a cylindrical bore of the housing and the upper surface of the outer circumferential flange of the movable sleeve, in fluid communication with the supply source; a second hydraulic chamber formed by a cylindrical bore of the housing and the lower surface of the outer circumferential flange of the movable sleeve, in fluid communication with the supply source; a control valve having an outlet connected to the first and second hydraulic chambers, and an inlet connected to a supply source; an actuator actuating a control valve controlled by a setpoint and a feedback signal on the position of the movable sleeve; characterized in that the actuator moves the control valve to direct the fluid from the supply source to the first hydraulic chamber or the second hydraulic chamber to move the movable sleeve to change the outward force on the piston through the piston spring. 16. The tensioner according to claim 15, characterized in that the actuator is a linear actuator. 17. The tensioner according to claim 15, characterized in that the actuator is a power actuator. 18. The tensioner according to claim 15, characterized in that the setpoint is determined by the engine parameters and the settings algorithm. 19. The tensioner according to claim 15, wherein the supply source is a battery having an inlet in fluid communication with the first hydraulic chamber. 20. A tensioner for an active tensioner system for tensioning a chain having a chain span or belt, comprising: a housing having a cylindrical hole with a first part and a second part, the first part having a diameter less than the diameter of the second part; a piston comprising a housing; a hollow movable sleeve comprising a hollow body having an inner part with an inner diameter having a first part located in a cylindrical hole of the body and a second part, a flange at the end of the second part, the flange having an upper surface and a lower surface, and an outer circumferential flange between the first a part and a second part located in a cylindrical hole of the housing having an upper surface and a lower surface; wherein the piston and the hollow movable sleeve are located coaxially in the cylindrical hole of the housing so that the piston is inside the hole of the hollow movable sleeve; a piston spring for displacing the piston outward from the sleeve, having a first end touching the end of the piston and a second end touching the upper surface of the flange of the movable sleeve; a bias spring located in the bore of the housing and the hollow inner part of the movable sleeve, for biasing the sleeve out of the housing with the first end in contact with the lower surface of the inner flange of the sleeve and the second end; a pressure chamber formed by a piston and a housing opening having a first fluid inlet; a first hydraulic chamber formed by a cylindrical bore of the housing and the upper surface of the outer circumferential flange of the movable sleeve, in fluid communication with the supply source; a second hydraulic chamber formed by a cylindrical bore of the housing and the lower surface of the outer circumferential flange of the movable sleeve, in fluid communication with the supply source; a control valve having an outlet connected to the first and second hydraulic chambers, and an inlet connected to a supply source; an actuator actuating a control valve controlled by a setpoint and a feedback signal on the position of the movable sleeve; characterized in that the actuator moves the control valve to direct the fluid from the supply source to the first hydraulic chamber or the second hydraulic chamber to move the movable sleeve to change the outward force on the piston through the piston spring.