RU169276U1 - Sealing device for cylindrical pairs of hydropneumatic machines - Google Patents

Abstract

The claimed utility model relates to a sealing technique and can be used to seal moving and stationary pairs of hydraulic and pneumatic machines, mainly operating at elevated pressures and exposure to aggressive and abrasive media, for example, in oil and gas and chemical equipment. The technical result of the claimed utility model is to increase wear resistance cuff package. The specified technical result is achieved due to the fact that the sealing device for cylindrical pairs g dropnevmomashin package comprises working with cuffs having a sealing surface and a support spring tongues, with the central projection of variable thickness and the corresponding groove at the opposite end, and support the pressure of the same material and the support ring. The device is equipped with a spacer sleeve, on the outer and inner surfaces of which annular grooves are made, communicating with each other by radial holes, the device is also equipped with additional pressure support and a support ring interacting with their back planes with a spacer sleeve, while all elements of the package are made of elastic material . Moreover, the modulus of elasticity of the material of the pressure supports and support rings is equal to or greater than the corresponding index of the material of the working cuffs. Yours has lubricant supplies that communicate with the annular grooves of the spacer sleeve. 2 s P. f-ly and 4 ill.

Description

The claimed utility model relates to a sealing technique and can be used to seal moving and stationary pairs of hydraulic and pneumatic machines, mainly operating at elevated pressures and exposure to aggressive and abrasive media, for example, in oil and gas and chemical equipment.

A multi-plunger horizontal single-acting pump is known, including, in particular, the hydraulic part with seals covering the plungers located in the liners, each of which has radial lubricant supply and drain channels (patent for the invention of the Russian Federation 2315199, publication date: 01/20/2008).

The disadvantage of such pumps is the imperfection of the seal, the package of which is made up of serial obsolete chevron rubber-fabric cuffs and metal elements. Such seals have a limited technical resource when using the pump in an aggressive and abrasive-containing environment.

It is also known a sealing device for cylindrical pairs of hydraulic pneumatic machines, containing a package of working cuffs with spring tongues having a sealing and supporting surface, with a central protrusion of variable thickness and a corresponding groove on the opposite end, as well as a pressure support of the same material and a support metal ring (patent for invention of the Russian Federation 2231706, publication date: 06/27/2004).

This sealing device, taken as a prototype, in modern conditions has an insufficient technical resource, including due to the lack of funds for lubricating the bag and for redistributing the load between the cuffs.

The technical result of the claimed utility model is to increase the wear resistance of the package of cuffs.

The specified technical result is achieved due to the fact that the sealing device for cylindrical pairs of hydropneumatic machines contains a package of working cuffs with spring tongues having a sealing and supporting surface, with a central protrusion of variable thickness and its corresponding groove on the opposite end, as well as a pressure support of the same material and support ring. The device is equipped with a spacer sleeve, on the outer and inner surfaces of which annular grooves are made, communicating with each other by radial holes, the device is also equipped with additional pressure support and a support ring interacting with their back planes with a spacer sleeve, while all elements of the package are made of elastic material .

In this case, the elastic modulus of the material of the pressure supports and support rings is equal to or greater than the corresponding index of the material of the working cuffs.

In this case, the device has means for supplying lubricant in communication with the annular grooves of the spacer sleeve.

The essence of the claimed utility model is illustrated by drawings.

In FIG. 1 shows a sealing device for cylindrical pairs of hydropneumatic machines in section; in FIG. 2 - working cuff of the sealing device (in cross section); in FIG. 3 - pressure support (in cross section); in FIG. 4 - support ring (in cross section).

The sealing device for cylindrical pairs of hydraulic pneumatic machines includes two packages 1 and 2 of seals and a spacer sleeve 3 placed between them. Each package of seals contains working cuffs 4 and a pressure support 5 and a support ring 6 covering them. The cuffs have spring tabs 7 with sealing 8 and supporting 9 surfaces, the central protrusion 10 of variable thickness and the corresponding groove 11 on the opposite end of the cuff. The tongues 7 are connected to the protrusion 10 by means of "weak" jumpers 12. At the end of the pressure supports 5 there is a protruding stop 13 and outwardly curved surfaces 14 on the sides of the stop. The inclination angles of these surfaces are equal to or less than the corresponding angles of the bearing surfaces 9 of the cuffs in their free state. In the support rings 6 grooves 15 are made, interacting with the central protrusion 10 near the located cuff, and beveled inwardly to the surface 16 on the sides of the ring.

All elements of each package 1 and 2 of seals - working cuffs 4, pressure bearings 5 and support rings 6 - are made of elastic material. The elastic modulus E of the material of the pressure supports and support rings is equal to or greater than the corresponding index E _{0 of the} material of the working cuffs (E≥E ₀ ). In modern conditions, parts 4, 5 and 6 can be made of tube billets by turning on machines with software control — from thermoplastics based on, for example, polytetrafluoroethylene, which has a low coefficient of friction for steel (0.08) and a wide temperature range of application up to 260 ° C, resistance in aggressive environments. It is also possible to use materials based on ethylene-propylene-diene-rubber at a temperature range of application from -50 to 160 ° C - for pumping fluids without mineral oils. The elastic modulus of these materials is greater than that of oil-and-petrol-resistant rubber used in the manufacture of traditional lip seals. However, the design features and the principle of operation of the working cuffs 4 (more on this below) do not provide for high volumetric deformation of the proposed seal. Spacer sleeve 3 (Fig. 1) can be made of materials based on fluoroplastics with increased hardness and resistance to abrasion; production from the same material as parts 5 and 6 is permissible.

In the spacer sleeve 3, annular grooves 17 and 18, respectively, communicating with each other by radial holes 19 are made along the outer and inner diameters. Packages 1 and 2 of the seals and spacer sleeve 3 are mounted in a fixed housing 20, in which there are holes 21 in communication with the outer ring groove 17 spacer sleeve. By means of radial holes 19, 21 and annular grooves 17 and 18, lubricant circulation is provided (not shown in the drawings). The movable element of the device is a plunger 22 of the pump, making a reciprocating motion.

A sealing device for cylindrical pairs of hydropneumatic machines operates as follows.

During the reciprocating movement of the plungers 22 of the pump and, as a consequence, pumping under pressure of the working medium, packages 1 and 2 of the seals are loaded, while the spacer sleeve 3 and the elements of the packages 1 and 2 undergo micromotion due to the cyclic compression of the packages. Through holes 21 in the housing 20, lubricant is supplied to the outer groove 17 of the spacer sleeve 3, which, under pressure, enters the radial holes 19 and into the inner groove 18 of the spacer sleeve. The lubricant is captured by the moving plunger 22 and penetrates into the micro-gaps between the plunger and packages 1 and 2 seals; lubrication of the rubbing (internal) cavity of the spacer sleeve 3 is also carried out.

The deformation and sealing action of the working cuffs 4 of each packet 1 and 2 is achieved by pressure of the fluids on the pressure supports 5. The protruding stop 13 of these supports, stabilizing in packets 1 and 2 by means of a groove 11 on the back of the cuff 4, acts on the central protrusion 10 of the cuff. The power flow throughout the sealing device - from the pressure support 5, through the grooves 11 and the protrusions 10 of the cuffs, is perceived by the support rings 6 adjacent their rear sides respectively to the spacer sleeve 3 and the housing. From the spacer sleeve, the power flow continues through another pressure support 5 (package 2, located on the right), grooves 11 and protrusions 10 of the cuffs of this package and another support ring 6, the power flow closes on the housing 20. The sleeve 3 carries the functions of a centralizer of the sealing device, prevents eversion of "packages, stabilizes the loading of the cuffs and ensures the flow of lubricant to the rubbing surfaces. In the case of a vacuum in the suction pipe, the flow of lubricating fluid passing through the sleeve 3 compensates for the effects of the harmful cavitation process in the sealing bag, which significantly increases the efficiency of the package as a whole.

Design features of working cuffs 4 and packages 1 and 2 as a whole provide:

1) the transmission of the entire power flow along the axis of the central protrusions of 10 cuffs;

2) this is achieved due to the presence of "weak" jumpers 12 between the protrusion 10 and the springy tongues 7 of the cuffs;

3) the sealing effect of the cuffs is achieved not by “crushing” the entire section of the cuff, but by deflecting the tongues 7 and adjoining the sealing surfaces 8, respectively, to the body and to the plunger;

4) in this case, the supporting surfaces 9 of the cuffs act (depending on the position):

- on the bevelled outward surface 14 on the sides of the stop 13 of the pressure supports 5;

- on the beveled inward surface 16 on the sides of the grooves 15 of the support ring 6;

- on the beveled end surfaces of the springy reeds of 7 adjacent cuffs.

Thus, under the action of the pressure of the pumped medium, a package of elastic parts, including cuffs 4, pressure bearings 5 and support rings 6, turns into a closed self-aligning system. The amount of deformation of the elastic parts and the presence or absence of wedge-shaped gaps between the sealing elements depends on the magnitude of the pressure of the medium. The transmission of the main force through the central protrusions 10 of the cuffs contributes to a significant reduction in the energy intensity of the fluid transfer process and the friction force between the cuffs and plungers, and provides increased wear resistance of the seal. The materials and design features of the elastic parts presented above ensure reliable functioning of the sealing device in an aggressive environment at a high working pressure of up to 150 MPa.

The utility model is new, since the entire set of features is unknown from the prior art described in the corresponding section of the description, as well as industrially applicable in the specified field of technology.

Claims (3)

1. A sealing device for cylindrical pairs of hydropneumatic machines, containing a package of working cuffs with spring tongues having a sealing and supporting surface, with a central protrusion of variable thickness and a corresponding groove on the opposite end thereof, as well as a pressure support of the same material and a support ring, characterized in that the device is equipped with a spacer sleeve, on the outer and inner surfaces of which are made annular grooves communicating with each other by radial holes, the device is equipped with the additional thrust bearing and the support ring interacting with their planes with the backs spacer, with all elements of the package are made of elastic material. 2. A sealing device for cylindrical pairs of hydropneumatic machines according to claim 1, characterized in that the modulus of elasticity of the material of the pressure supports and support rings is equal to or greater than the corresponding indicator of the material of the working cuffs. 3. A sealing device for cylindrical pairs of hydropneumatic machines according to claim 1, characterized in that it has means for supplying lubricant in communication with the annular grooves of the spacer sleeve.

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