RU172226U1 - HYDRAULIC SHOCK ABSORBER - Google Patents

Abstract

The utility model relates to the field of transport engineering, namely to the construction of hydraulic shock absorbers. The hydraulic shock absorber contains a reservoir with a working cylinder located in it, a rod guide is located in the upper part of the working cylinder, in the central axial hole of which a rod equipped with a piston with concentric holes is movably fixed, as well as a tank nut in the upper part of the tank and a compression valve in the lower part of the tank, and the inner cavity of the working cylinder is divided into shnem on the rod and the piston part and the piston is provided with a bypass valve and rebound. Unlike the prototype, ten concentric holes are made on the piston, five of which have a diameter of 4.5 mm and the other five have 8 mm, and these holes alternate with each other, holes with a diameter of 8 mm around the perimeter are provided with protrusions on the side of the rod end of the cylinder, and holes with a diameter of 4.5 mm around the perimeter are provided with protrusions with throttle grooves on the piston side of the cylinder. The technical result is an expansion of the hydraulic shock absorber arsenal with the accompanying simplification of the hydraulic shock absorber design. 3 ill.

Description

The invention relates to the field of transport engineering, namely to the design of hydraulic shock absorbers.

A hydraulic shock absorber is known, which comprises a reservoir, inside which a working cylinder is located, a rod guide, a rod passing through a through axial hole of the rod guide, equipped with a piston with concentric holes, a rebound valve and a bypass valve, a tank nut in the upper part of the tank and a compression valve in the lower parts of the tank [Patent SU No. 1746090, IPC F16F 5/00, priority date 08/10/1989, publication date 07/07/1992].

Known piston rod of a hydraulic shock absorber, comprising a housing formed by the method of molds, with channels for the passage of fluid, spring disks, external and internal abutment surfaces for abutment of the spring disks, a calibrating washer with holes adjacent to the channels of the housing, characterized in that the abutment surfaces located on a calibrating washer, made of materials whose strength indicators exceed the corresponding strength indicators of the body materials, and the total channel cross-sectional area the housing is greater than or equal to the total cross-sectional area of the holes of the calibrating washer, and the height of the internal supporting surface does not exceed the height of the external supporting surface [Patent RU No. 103875, IPC F16F 9/34, priority date 01/11/2011, publication date 04/27/2011].

The closest technical solution is a hydraulic shock absorber, which contains a tank with a working cylinder located in it, in the upper part of the working cylinder there is a rod guide, in the central axial hole of which a rod equipped with a piston with concentric holes, a tank nut in the upper part of the tank and a valve are movably fixed compression in the lower part of the tank, and the inner cavity of the working cylinder is divided by the piston into the rod and piston parts, and the piston is equipped with throttle disks bypass valve and rebound valve, and the elastic sleeve inserted in each eye is secured by a bolt screwed from the outer surface of each eye on both sides, while the threaded part of the bolts partially enters the body of the elastic sleeve, and the rigid sleeve is tightened into the elastic sleeve and equipped with outer ring collars. Throttle disks are designed to allow the flow of working fluid from one part of the working cylinder to another at low piston speeds [Patent RU No. 126781, IPC F16F 5/00, F16F 9/36, F16F 9/38, priority date 11/22/2012, date publication 04/10/2013].

The disadvantage of this solution is the complexity of its design, due to the need to install throttle discs.

The technical task of the claimed utility model is to expand the arsenal of technical means of hydraulic shock absorbers.

The technical result, the achievement of which the claimed utility model is aimed, is to expand the arsenal of hydraulic shock absorbers with a concomitant simplification of the design of the hydraulic shock absorber.

The essence of the claimed utility model is as follows.

The hydraulic shock absorber contains a tank with a working cylinder placed in it, a rod guide is located in the upper part of the working cylinder, a rod equipped with a piston with concentric holes, a tank nut in the upper part of the tank and a compression valve in the lower part of the tank are movably fixed in the central axial hole moreover, the inner cavity of the working cylinder is divided by the piston into the rod and piston parts, and the piston is equipped with an overflow valve and a rebound valve. Unlike the prototype, ten concentric holes are made on the piston, five of which have a diameter of 4.5 mm and the other five have 8 mm, and these holes alternate with each other, holes with a diameter of 8 mm around the perimeter are provided with protrusions from the rod end of the working cylinder and holes with a diameter of 4.5 mm around the perimeter are equipped with protrusions with throttle grooves on the piston side of the working cylinder.

The piston is made in the form of a cylinder with a central through axial hole for attachment to the rod and holes connecting the rod and piston cavities of the working cylinder. The diameter of the central through hole is determined based on the diameter of the rod and can be 14.5 mm. The external diameter of the piston is equal to the internal diameter of the working cylinder. Concentric holes are located at the same distance from the central through hole, and holes of different diameters alternate with each other.

The protrusions with which the concentric holes are provided around the perimeter are elevations extending from the central through hole to the outer side surface of the piston. The height of the protrusions varies depending on the required piston stroke inside the working cylinder. The width of the protrusions can vary, but cannot be less than the diameter of the hole along the perimeter of which they are made, and cannot be more than the distance between the two nearest concentric holes of another diameter.

The rod part of the working cylinder is its upper part, in which the rod is located, on which the piston is fixed. The piston part of the working cylinder is its lower part, which is located under the piston.

The bypass valve is located on the piston in the rod part of the working cylinder and blocks the holes with a diameter of 8 mm. It is designed to create resistance to the flow of the working fluid flowing from the piston part of the working cylinder to the rod part during compression of the hydraulic shock absorber.

The rebound valve is located on the piston in the piston of the working cylinder and blocks the holes with a diameter of 4.5 mm. It is designed to create resistance to the flow of the working fluid flowing from the rod part of the working cylinder to the piston part in the process of stretching the hydraulic shock absorber.

The rebound valve and the bypass valve have a diameter that allows overlapping holes corresponding to their location. Moreover, the diameter of the valves should be less than the outer diameter of the piston.

The hydraulic shock absorber operates in valve mode and in throttle mode. The valve mode is determined by the piston speed of more than 0.2 m / s, due to which sufficient pressure is created at which the corresponding valves (when the bypass valve is compressed, and when released, the rebound valve) open and the working fluid flows to the other part of the working cylinder through concentric holes. The throttle mode is determined by the piston speed of up to 0.2 m / s, while the created pressure is not enough and the valves are in the closed position, and the working fluid flows into the other part of the working cylinder through the throttle grooves through holes with a diameter of 4.5 mm.

The throttle grooves made on the protrusions located on the piston side of the working cylinder are recesses extending from the edge of the protrusion edge, to which the rebound valve fits snugly, to a concentric hole around which a corresponding protrusion is made. The depth of the throttle grooves and their number affects the flow rate of the working fluid from one part of the working cylinder to another, therefore, they are determined based on the required degree of damping of the hydraulic shock absorber in the throttle mode.

The tank is made in the form of a hollow cylinder with a hole in the upper part of the housing and provides tightness to the hydraulic shock absorber. In the upper part of the casing, the tank is sealed by the rod guide and the tank nut. In the lower part of the tank, the bottom of the tank is made in the form of a truncated cone, the top of which is directed downward.

In the working cylinder there is a rod, a piston with rebound valves and an overflow valve, a rod guide is located in the upper part of the working cylinder, and a compression valve is located in the lower part.

The rod guide provides reciprocating rod movement with the piston in the same plane. The rod guide may include O-rings designed to prevent leakage of the working fluid from the working cylinder.

The tank nut is made in the form of a cylinder with a central through hole, and a thread is made on the outer surface of the tank nut for its installation in the upper part of the tank. The tank nut ensures the fixation of the rod guide and the working cylinder by pressing these elements to the bottom of the tank during installation.

The inventive utility model has new distinctive essential features, which are that ten concentric holes are made on the piston as throttle channels, five of which have a diameter of 4.5 mm and the other five have 8 mm, and these holes alternate with each other, holes with a diameter of 8 mm around the perimeter are provided with protrusions from the rod end of the working cylinder, and holes with a diameter of 4.5 mm along the perimeter are equipped with protrusions with throttle grooves from the side of the piston of the working cylinder. Performing protrusions along the perimeter of the holes allows the working fluid to flow into the recesses formed by the protrusions, and due to the throttle grooves made along the perimeter of the protrusions from the piston part of the working cylinder, the working fluid accumulated in these recesses flows from the piston part of the working cylinder to the rod, This eliminates the need for throttle disk installation due to the throttle mode of the hydraulic shock absorber, in which the bypass valve and the valve you are closed due to the low speed of the piston. The rebound force is controlled by adding rebate valve discs, and the concentric holes, five of which have a diameter of 4.5 mm and the other five have a diameter of 8 mm, increase the initial rebound force, since during rebound the working fluid passes through smaller openings diameter, which allows to reduce the number of disc valves rebound.

This allows you to achieve a technical result, which consists in expanding the arsenal of technical means with the accompanying simplification of the design of the hydraulic shock absorber.

The presence of new distinctive essential features indicates the compliance of the claimed utility model with the patentability criterion of "novelty."

The inventive utility model can be made of known materials using known means, which indicates the compliance of the claimed utility model with the patentability criterion of "industrial applicability".

The inventive utility model is illustrated by the following drawings:

FIG. 1 is a general view of a hydraulic shock absorber.

FIG. 2 - the piston.

FIG. 3 is an enlarged view of the piston on the rod.

The hydraulic shock absorber comprises a tank 1 with a working cylinder 2 located in it, a rod guide 3 is located in the upper part of the working cylinder 2, in the central axial hole of which is a rod 4 equipped with a piston 5, a tank nut 6 in the upper part of the tank 1 and a compression valve 7 in the lower part of the tank 1, and the inner cavity of the working cylinder 2 is divided by the piston 5 into the rod 8 and piston 9 parts, and the piston 5 is equipped with an overflow valve 10 and a rebound valve 11. The piston 5 has ten concentric holes, five of which have a diameter of 4.5 mm, and the other five have 8 mm, and these holes alternate with each other, the holes with a diameter of 8 mm around the perimeter are provided with protrusions 12 from the rod part 8 of the working cylinder 2, and holes with a diameter of 4.5 mm around the perimeter are provided with protrusions 13 with throttle grooves 14 from the piston 9 side of the working cylinder 2.

The inventive utility model works as follows.

The rod 4 together with the piston 5 during operation of the hydraulic shock absorber make reciprocating movements in the working cylinder 2. When moving the rod 4 with the piston 5 during compression, the working fluid under pressure of the piston 5 through concentric holes with a diameter of 8 mm flows from the piston part 9 into the rod part 8 of the working cylinder 2. Part of the volume in the working cylinder 2, during compression, takes up the rod 4, and the excess working fluid from the piston part 9 through holes (not shown in the drawing) in the compression valve 7 flows into the cavity between reservoir 1 and the working cylinder 2, creating a compressive force. Additional compression force creates a bypass valve 10.

When moving the rod 4 with the piston 5 during the rebound stroke, pressure is generated in the rod part 8, and rarefaction is generated in the piston part 9, the working fluid flows from the rod part 8 to the piston part 9 of the working cylinder 2 through concentric holes in the piston 5, creating a rebound resistance force . During rebound, the rod 4 ceases to occupy part of the volume in the working cylinder 2. Compensation for changes in the volume of the working fluid in the working cylinder 2 occurs due to the flow of the working fluid through the channels (not shown in the drawing) of the compression valve 7 from the cavity between the tank 1 and the working cylinder 2 into the piston part 9 of the working cylinder 2. An additional rebound force creates a rebound valve 11.

When the hydraulic shock absorber in the throttle mode, the piston 5 moves in the cavity of the working cylinder 2 at a low speed, so the working fluid from the piston part 9 flows into the recesses formed by the protrusions 13, after which it flows through the throttle grooves 14 into the holes with a diameter of 4.5 mm and enters in the recesses formed by the protrusions 12, from which it enters the rod part 8. The reverse movement of the working fluid in the cavity of the cylinder 2 also occurs.

The implementation of concentric holes on the piston 5 of various diameters can reduce the number of discs of the rebound valve 11, since concentric holes of a smaller diameter provide more force for the fluid flowing from the rod part 8 to the piston part 9.

Thanks to this, a technical result is achieved, which consists in expanding the arsenal of technical means with the accompanying simplification of the design of the hydraulic shock absorber.

Claims (1)

A hydraulic shock absorber containing a tank with a working cylinder located in it, in the upper part of the working cylinder there is a rod guide, in the central axial hole of which a rod equipped with a piston with concentric holes is movably fixed, as well as a tank nut in the upper part of the tank and a compression valve in the lower part reservoir, and the inner cavity of the working cylinder is divided by the piston into the rod and piston parts, and the piston is equipped with an overflow valve and a rebound valve, characterized in that Ten concentric holes are made to the pit, five of which have a diameter of 4.5 mm and the other five have 8 mm, and these holes alternate with each other, holes with a diameter of 8 mm around the perimeter are provided with protrusions from the rod end of the cylinder, and holes with a diameter of 4.5 mm around the perimeter are equipped with protrusions with throttle grooves on the piston side of the cylinder.

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