RU144179U1 - HYDRAUL TENSIONER FOR CHAIN TENSION - Google Patents

Abstract

The hydraulic tensioner of the chain tensioning device, comprising a hollow cylindrical body with bores and a groove on the inner surface, a cover with a ball check valve, making up a plunger pair with a body, a plunger with two grooves on the outer surface and an abutting end, pressed in the direction of chain tension by a spring, an assembly ring, placed when the tensioner is inoperative in the groove of the housing, and when operational, in the first groove of the plunger, a thrust ring constituting with the bores of the housing and the second groove the plunger has a step-by-step step mechanism, the lid and the body being connected to each other by means of a threaded connection, the lid is provided with a hole and a groove at the end, characterized in that the outer surface of the body in the section is made stepwise, consisting of at least two sections with larger and smaller diameters, the larger outer diameter of the housing, from the side of the cover, is 0.85-1.3 of the diameter of the cover, the side surface of the second groove closest to the thrust end of the plunger is inclined to the base of the groove at an angle of 20-80 °, opposite to it the casing surface of the groove is at an angle of 80-110 °, and the ratio of the outer diameters of the casing is expressed by the inequality 1.1≤D / d≤1.3, where D is the maximum outer diameter of the casing; d is the minimum outer diameter of the casing.

Description

The invention relates to chain tensioning devices having a hydraulic drive, for example, for distribution systems of internal combustion engines (ICE).

Known hydraulic tensioner device for chain tensioning company "Ina" Germany according to the patents of Germany 3636918, F16H 7/08, publ. 05/05/1988 and 3636919, F16H 7/08, publ. 05/05/1988, consisting of a housing and a plunger, comprising a plunger pair with the housing and drawn in the direction of chain tension by a spring. The plunger in the idle state of the tensioner is fixed in the housing using the mounting ring, which at that moment is in the groove of the housing, in the operating state of the hydraulic tensioner, the mounting ring does not restrict the movement of the plunger relative to the housing and is located in the groove of the plunger. The hydraulic tensioner also has a thrust ring for which recesses are provided in the housing and a groove in the plunger and which allows the plunger to move backward in the direction of the chain tension, while the length of the reverse stroke is limited by the width of the groove on the plunger. The thrust ring with grooves on the housing makes up a stepped stepping mechanism, which ensures the movement of the plunger in the housing under oil and spring pressure during chain drawing during operation.

The hydraulic tensioner has a check valve mounted on the plunger, and openings in the side walls of the housing and plunger for supplying oil from the engine lubrication system.

The disadvantage of this design is that the case of the hydraulic tensioner is made integrally with the bottom, and this greatly complicates the processing of the internal high-precision surface, and also virtually eliminates the possibility of placing a check valve in the bottom.

The closest technical solution, selected as a prototype, is the solution according to the patent of the Russian Federation No. 2067232 publ. 09/27/1996 This hydraulic tensioner for chain tensioning device to reduce knocks in the camshaft drive of the engine created by the hydraulic tensioner of the chain tensioning device consists of a housing and a plunger that make up a plunger pair, a spring compressing the plunger in the direction of the chain tension, mounting ring located in the inoperative state of the device in the groove of the housing, and in the working condition of the device in the groove of the plunger, a thrust ring, which is made with grooves on the housing and a special shape with a groove on the plunger a step-by-step step mechanism, as well as a check valve with an opening in the cap for supplying oil to the hydraulic tensioner, the hydraulic tensioner housing made in the form of a tube, on the side opposite to the plunger thrust end, a screw-on cap with a groove on the end and an opening for the ball check valve to be blocked oil supply into the cavity of the hydraulic tensioner, and the end face of the housing in contact with the cover has at least one groove connecting the internal cavity of the hydraulic tensioner with a channel in the lubrication system through gaps in the thread and engine.

The execution of the housing of the hydraulic tensioner without a bottom, in the form of a tube, simplifies the technology of processing the inner surface of the housing, providing free exit of the tool during the finishing operation and does not require the manufacture of a workpiece-cup, and allows you to use the pipe as a workpiece.

However, the manufacture of a housing in the form of a tube of the same diameter entails its increased metal consumption, which increases the weight of the hydraulic tensioner. At the same time, the known hydraulic tensioner is provided with a groove of a special shape. Given (see Fig. 1 and 2 of the prototype) form, together with the thrust ring during operation of the stepper mechanism does not ensure its reliable operation and leads to jamming of the device.

The objective of the utility model is to improve the design of the hydraulic tensioner for the chain tension device.

The technical result of the utility model is to reduce the weight of the hydraulic tensioner by changing the design of its housing, as well as increasing the reliability of its operation.

The technical result is achieved due to the fact that in the hydraulic tensioner of the chain tensioning device containing a hollow cylindrical body with bores and a groove on the inner surface, a cover with a ball check valve, spring-loaded and comprising a plunger pair with a housing, a plunger with two grooves on the outer surface and a thrust the end face, the mounting ring, placed when the tensioner is inoperative in the housing groove, and in the first groove of the plunger when in working condition, the thrust ring constituting with the bores the housing and the second groove of the plunger a step-by-step mechanism, the cover and the housing being connected to each other by means of a threaded connection, the cover is provided with an opening and a groove at the end, the outer surface of the housing is cut in steps, consisting of at least two sections with a larger and smaller diameters, the larger outer diameter of the housing, from the side of the cover, is 0.85-1.3 of the diameter of the cover, the side surface of the second groove closest to the thrust end of the plunger is inclined to the base of the groove at an angle of 20-80 °, opposite the lateral surface of the groove is at an angle of 80-110 °, and the ratio of the outer diameters of the housing is expressed by the inequality

1.1≤D / d≤1.3,

where D is the maximum outer diameter of the housing;

d is the minimum outer diameter of the housing.

In FIG. 1 shows a hydraulic tensioner for a chain tensioning device in a section.

The hydraulic tensioner 1 for the chain tensioning device includes a hollow cylindrical housing 2 with radial bores 3 and a groove 4 on the inner surface, a plunger 5, comprising a plunger pair with the housing 2, a cover 6 with a ball check valve 7. The cover 6 and the housing 2 are connected to each other when threaded connection 8. The cover 6 is provided with a hole 9 and a groove 10 at the end. The outer surface of the casing in the section is made stepped, consisting of at least two, for example two, sections with larger and smaller diameters. The ratio of the outer diameters of the casing is expressed by the inequality 1.1≤D / d≤1.3, where D is the maximum outer diameter of the casing, d is the minimum outer diameter of the casing.

The larger outer diameter of the housing D, from the side of the cover 6, is 0.85-1.3 the diameter of the cover 6, for example, equal to it. A spring 11 is installed inside the plunger 5. The plunger 5 is equipped with a thrust end 12, two grooves are made on the outer surface of the plunger: the first 13 and second 14. When the tensioner 1 is inoperative, mounting ring 15 is placed in groove 4 of housing 2, and when it is in operation, it is placed in the first groove 13 of the plunger 5. In the second groove 14 of the plunger 5 there is a thrust ring 16, comprising a stepped mechanism with the bores 3 of the housing 2 and the second groove 14 of the plunger 5. The side surface 17 of the second groove 14 closest to the thrust end 12 of the plunger 5 is inclined to the base of the groove at an angle of 20-80 °, for example 40 °, the opposite side surface 18 of the groove is at an angle of 80-110 °, for example 90 °. The space limited by the housing 2, the plunger 5, the cover 6 with a check ball valve 7, forms a closed working chamber A.

At the end of the minimum outer diameter of the housing 2, at least two flats 19, arranged symmetrically with respect to the transverse axis, can be made for use with a wrench when assembling or disassembling the hydraulic tensioner 1.

The hydraulic tensioner 1 for the chain tensioning device operates as follows.

The mounting ring 15 ensures the integrity of the tensioner 1 before it is installed in the hole of the engine body part and is at that moment in the groove 4 of the housing 2 of the tensioner 1. In the operating position of the tensioner 1, the mounting ring 15 is in the first groove 13 of the plunger 5 and does not affect the movement of the plunger 5 in the housing 2 of the hydraulic tensioner 1.

At the beginning of work, the oil from the engine lubrication system along the groove 10 in the end face of the cover 6 enters the hole 9 of the cover 6. Under the pressure of the oil, the non-return ball valve 7 opens and the oil passes into the cavity A, which is the working chamber, which becomes closed when the valve 7 is closed and acts as a hydraulic seal.

The force of the spring 11 is enough to move the plunger 5 with the thrust ring 16 into the next radial bore 3 of the housing 2 during wear (exhaust) of the drive parts. The thrust ring 16, passing through the bores 3 of the stepping mechanism, allows the plunger 5 to move in the direction of the thrust end 12, pulling the chain (not shown in Fig.).

When the engine is running, the plunger 5 can move in the opposite direction, damping vibrations and jolts in the drive within the possible movement of the thrust ring 16 in the second groove 14 of the plunger 5. When the engine is running, the loads transferred to the plunger 5 are transferred to the oil in the working chamber A, which pressure closes the check ball valve 7, and the closed volume A becomes a hydraulic seal. The loads are extinguished due to the passage of oil through the gaps of the plunger pair: body 2, plunger 5. When the engine is stopped, due to the layout considerations, the hydraulic tensioner 1 is installed with the slope upward, part of the oil is drained into the engine crankcase (not shown in Fig.) Through gaps in the plunger pair. In the upper part of the cavity A, in the area of the lid 6, an air cushion is formed. The next time the engine is started, air from this air bag under the pressure of oil entering the cavity A through the open check ball valve 7 quickly enough through the gaps in the threaded connection 8 of the housing and the microgaps between the cover 6 and the end face of the housing 1 is discharged into the internal cavities of the engine. The cavity A is quickly filled with oil, thereby eliminating large movements of the plunger 5, causing a knock in the drive. The microgaps between the cover 6 and the end of the housing and the gaps in the threaded connection 8 have a large hydraulic resistance and, quickly releasing air from the cavity A, at the same time do not adversely affect the operation of the hydraulic tensioner 1, i.e. do not reduce the oil pressure in the closed volume A.

It was experimentally shown that the most effective for the smooth reliable operation of the stepping mechanism is to perform the closest to the thrust end 12 of the plunger 5 of the side surface 17 of the second groove 14 inclined to the base of the groove at an angle of 40 °, the opposite side surface 18 of the second groove 14 - at an angle of 90 ° . When deviating from these parameters, the number of jamming of the device increases and its wear increases.

In the case of a D / d ratio of less than 1.1, the efficiency of reducing the weight of the case decreases, and in the case of a D / d ratio of more than 1.3, the reliability of the case decreases due to thinning with a minimum outer diameter.

If the larger outer diameter of the housing 1 from the side of the lid 6 exceeds the diameter of the lid by more than 1.3 times, the lid 6 loses the ability to perform a capping function, if this ratio decreases to less than 0.85, the metal consumption of the product increases without increasing its quality characteristics.

Thus, a new constructive solution for the execution of the housing of the hydraulic tensioner will reduce its metal consumption and reduce the weight of the structure as a whole. Also, due to the implementation of the second groove of the specified geometry, the reliability of the device increases.

Industrial applicability is obvious. Manufactured prototypes by the applicant company have proved the achievement of the task, and can be manufactured in serial production. The design can be manufactured at enterprises of general technical purpose without the use of highly specialized equipment, units and machines.

Claims (1)

The hydraulic tensioner of the chain tensioning device, comprising a hollow cylindrical body with bores and a groove on the inner surface, a cover with a ball check valve, making up a plunger pair with a body, a plunger with two grooves on the outer surface and an abutting end, pressed in the direction of chain tension by a spring, an assembly ring, placed when the tensioner is inoperative in the groove of the housing, and when operational, in the first groove of the plunger, a thrust ring constituting with the bores of the housing and the second groove the plunger has a step-by-step step mechanism, the lid and the body being connected to each other by means of a threaded connection, the lid is provided with a hole and a groove at the end, characterized in that the outer surface of the body in the section is made stepwise, consisting of at least two sections with larger and smaller diameters, the larger outer diameter of the housing, from the side of the cover, is 0.85-1.3 of the diameter of the cover, the side surface of the second groove closest to the thrust end of the plunger is inclined to the base of the groove at an angle of 20-80 °, opposite to it the flange’s casing surface is at an angle of 80-110 °, and the ratio of the outer diameters of the housing is expressed by the inequality 1.1≤D / d≤1.3, where D is the maximum outer diameter of the housing; d is the minimum outer diameter of the housing.