RU56526U1 - HYDRAUL TENSIONER FOR CHAIN TENSION DEVICE - Google Patents

Abstract

The utility model relates to the field of mechanical engineering (mainly to engine building). The objective of the proposed utility model is to improve the well-known hydraulic tensioners by simplifying the design, reducing the complexity of manufacturing and increasing reliability. The problem is solved in that the hydraulic tensioner comprises a cylindrical body with annular grooves of the stepping mechanism, a plunger with two grooves in which the thrust and mounting rings and a cover are located, in which: a nozzle is made on the oil supply line. On the outer cylindrical surface of the hydraulic tensioner there is an annular groove with a sealing ring. 1 s.p. formulas, 3 ill.

Description

The proposed utility model relates to the field of mechanical engineering (mainly to engine building) and is intended for use in the construction of chain tensioners.

A known tensioner for a chain tensioning device according to the patent of the Russian Federation No. 2067232, comprising a housing with an axial channel located in the opening of the housing and comprising with it a precision pair of plunger made in the form of a cup, the stop end of which is designed to interact with the chain shoe, check valve and power a spring located in the inner cavity of the plunger. The disadvantage of this device is the design complexity, expressed in the presence of a check valve, which includes a specially profiled body, a spring and a locking element (ball). In addition, to ensure the tightness of the valve to the profile of the seat under the valve ball increased demands are made on the cleanliness and accuracy of manufacture.

Also known chain tensioner, the device of which is presented in the description of the utility model No. 46825.

In this hydraulic tensioner, in the case of the non-return valve, in order to protect it from clogging from the supply side of the working fluid, a protective filter made of wire mesh is built in front of the valve shut-off element. In addition, a profiled spacer is installed in front of the filter in the valve body.

The presence of a check valve in the hydraulic tensioner with a protective filter and a profiled spacer further complicates the construction of the hydraulic tensioner.

A common drawback of the above hydraulic tensioners is also the presence of oil leaks through the gap between the inner cylindrical surface of the bore in the engine housing under the hydraulic tensioner and the outer cylindrical surface of the hydraulic tensioner housing.

The objective of the proposed utility model is to improve the well-known hydraulic tensioners by simplifying the design, reducing the complexity of manufacturing and increasing reliability.

The problem is solved in that the proposed hydraulic tensioner contains a hollow cylindrical body, a cover, a power spring, a plunger, comprising a precision pair with the body and made in the form of a glass with a blind end face, a step

a single-acting mechanism located on the precision surface of the pair and containing a thrust ring and on the inner cylindrical surface a series of annular grooves of an asymmetric profile, a mounting ring and differs in that in the cover of the hydraulic tensioner coaxially from the supply side of the working fluid there is a channel passing at the end into the nozzle, and on the side of the end across the cover there is a groove passing through the coaxial channel, and on the opposite side of the cover a bore is made to center the power spring.

The essence of the proposed technical solution is illustrated by drawings, which depict on:

Figure 1 is a longitudinal section of the hydraulic tensioner in the idle transport position;

Figure 2 - the outer part of the housing tensioner (increased);

Figure 3 - sealing ring.

The hydraulic tensioner 1 of the target tension device includes a housing 2 and a plunger 3, which make up a precision pair, a cover 4 with a nozzle 5. A power spring 6 located inside the plunger 3 compresses the plunger in the direction of chain tension. The mounting ring 7 ensures the integrity of the design of the hydraulic tensioner before it is installed on the engine (the position shown in figure 1). In this case, the mounting ring 7 is located in the groove 8 of the housing 2. In the operating position of the hydraulic tensioner, the mounting ring 7 is located in the groove 9 of the plunger 3 and does not interfere with the movement of the plunger 3 in the housing 2. In this case, the plunger 3 is connected to the housing 2 by a step-by-step mechanism.

The step mechanism includes a series of annular grooves 10 made on the housing 2, a thrust split ring 11 located in one of the grooves 10 of the housing 2 and in the groove 12 of the plunger 3. The inner closed cavity of the hydraulic tensioner is formed by the housing 2, the plunger 3 and the cover 4, which is wrapped into housing 2 by thread 13.

A nozzle 5 is made in the lid 4, the cross-sectional area of which is calculated from the condition of ensuring the necessary filling speed of the hydraulic fluid (oil after the engine oil pump) of the internal cavity of the hydraulic tensioner, as well as from the condition of creating the necessary hydraulic resistance when moving the plunger 3 in the direction of compression of the power spring 6 under force from the motor circuit.

On the cover 4 from the side of the end 14 there is a groove 15 and a channel 16 associated with the engine lubrication system. The nozzle 5 is made coaxially with the channel 16. A bore 17 is also made in the cover 4 for centering the power spring 6.

A groove 19 is made on the surface 18 of the housing 2, into which a rubber sealing ring 20 is installed, which prevents oil leakage through the gap between

surface 18 of the housing 2 and a cylindrical bore under the hydraulic tensioner in the engine housing (not shown).

The hydraulic tensioner works as follows.

The hydraulic tensioner is installed in the engine body part (not shown in the drawings) along the surface 18 of the housing 2.

To activate the hydraulic tensioner through the channel in the cover of the engine body part, press a special cylindrical rod in the axial direction on the end face 14 of the cover 4. The force from the rod through the cover 4 is transmitted to the body 2, which moves together with the plunger 3 until the spherical surface 22 of the plunger touches 3 s the mating surface of the shoe (or sprocket lever) of the chain. With further movement of the housing 2 toward the shoe, the plunger 3 is axially moved relative to the housing 2 toward the compression of the power spring 6. When the groove 9 on the plunger 3 coincides with the axial coordinate of the mounting ring 7, the latter slides into the groove 9 and does not prevent the axial movement of the plunger 3 into direction of chain tension. The hydraulic tensioner comes into operation. The channel in the engine body part is closed with a stopper.

Oil from the engine oil system through the groove 15, channel 16 and the nozzle 5 enters the inner cavity 21 of the hydraulic tensioner. When the engine is running, as the shoe wears out and the chain is drawn, the plunger 3 is pushed out of the housing 2 under the action of the spring 6 and the oil pressure in the cavity 21, providing constant contact of the end face 22 of the plunger 3 with the chain shoe and thereby maintaining the necessary chain tension. In this case, the plunger 3 is sequentially fixed in the grooves 10 by means of the stop ring 11. The loads received from the chain by the plunger 3 are transferred to the oil in the inner cavity 21 and are damped by squeezing the oil through the nozzle 5 and the clearance along the precision surfaces between the housing 2 and the plunger 3, as well as thread 13.

Thus, the introduction into the design of the hydraulic tensioner of the nozzle 5 from the side of the oil supply provides the necessary operability of the hydraulic tensioner, simplifies the design and reduces the overall complexity of manufacturing the hydraulic tensioner.

The presence of a sealing ring on the seating surface of the hydraulic tensioner reduces oil leakage through the hydraulic tensioner.

Claims (2)

1. The tensioner of the device for tensioning the belt, comprising a hollow cylindrical body, a cover, a power spring, a plunger, comprising a precision pair and made in the form of a cup with a blind end, a single-step stepping mechanism located on the precision surface of the pair and containing a thrust ring, and on the inner cylindrical surface of the housing - a series of annular grooves of an asymmetric profile and a mounting ring, characterized in that in the cover of the tensioner coaxially from the side of the supply of working fluid a channel is made that passes into the nozzle at the end, and on the side of the end across the cover there is a groove passing through the coaxial channel, and a bore is made on the opposite side of the cover to center the power spring. 2. The hydraulic tensioner according to claim 1, characterized in that an annular groove with a sealing ring is made on the outer surface of the housing.