RU18842U1 - MECHANICAL SEAL - Google Patents

Abstract

1. Mechanical seal of the shaft, or rod, or cylinder of the machine, containing an elastic cage, on the outer or inner surfaces of which are made eccentrically located collars or, respectively, eccentrically located bores, on the collars or bores are installed sealing rings, rubbed against each other at the ends and pressed by elastic cage to the sealing surfaces, characterized in that each sealing ring has a section in the form of a sector, the working surface of which is made cylindrical with a radius, equal the radius of the sealing surface, the rest of the ring has a shape that determines the presence of a gap between the ring and the sealing surface, while adjacent rings are rotated relative to each other so that the angle between their radial planes passing through the midpoints of the sectors is 360 / n, where n is number of rings. 2. Mechanical seal according to claim 1, characterized in that the surfaces to be sealed and the surfaces of the rings have a coating made of a material having adhesive properties that make it possible to retain a film of hydrocarbon components of the pumped medium. The mechanical seal according to claim 1, characterized in that the central angle of the sector of the sealing ring is 30-180.

Description

MECHANICAL SEAL

The invention relates to a sealing technique, in particular to mechanical seals intended for installation on hydraulic and pneumatic machines and devices whose working bodies rotate and / or reciprocate.

It is known to seal the shaft or rod of the USSR AS 391315, class. MKI F 16 J 15/26, publ. 1997, containing eccentric rings of antifriction material, which are lapped one against the other and pressed against the sealed surfaces of these elements in opposite directions, which are located in an elastic cage. In such a seal, due to the uncertainty of the angular displacement of the pair of rings, an increased flow of the medium under a higher pressure into the zone of reduced pressure is possible, which reduces the tightness and reliability of the seal as a whole. In the case of using a seal with several pairs of eccentric rings, it becomes necessary to fix the relative position, which greatly complicates the seal.

The mechanical seal was selected as a prototype. RF Patent 2037077, MKI F 16 J 15/26, publ. 1995, containing O-rings, rubbed against each other at the ends and pressed against the sealing surfaces by an elastic cage in opposite directions. Eccentrically arranged collars or, respectively, eccentrically made on the outer or inner surface of the elastic cage

F 16 J 15/26 located bores. O-rings made with

concentric cylindrical surfaces and are located on the said collars or bores. In the case of a shaft seal, the inner diameter of the seal ring exceeds the diameter of the part to be sealed. In the case of sealing the inner cylindrical surface, the outer diameter of the sealing ring is less than the diameter of the sealing surface. The collars or bores of the cage are made in pairs, and their axes are eccentrically on both sides of the axis of the elastic cage, while the planes passing through the axes of paired collars or bores are rotated one relative to the other at an angle of 180 / p, where n is the number of pairs of collars or bores . In the prototype, each o-ring only touches the sealing surface at one point and, thus, there is a gap between the working surface of the ring and the sealing surface, which is an almost complete ring and its maximum value is on the side opposite from the point of contact. Due to the fact that the bores (collars) have different orientation angles, a complex labyrinth gap is formed between the sealing surface and the set of rings. To ensure a high degree of tightness, it is necessary to use an elastic clip of a large length with a correspondingly large set of o-rings. The friction surfaces of the o-rings and / or shaft, rod or cylinder are made of a wear-resistant material with a rough surface, which is then coated with an antifriction layer, for example, copper, bronze, fluoroplastic, etc.

2 the basis of the utility model is the task of simplifying the design, and

namely, the reduction in the number of o-rings while maintaining a high degree of tightness.

The problem is solved in that in the mechanical seal of the shaft, or rod, or cylinder of the machine, containing an elastic cage, on the outer or inner surfaces of which are made eccentrically located collars or respectively eccentrically located bores, on the collars or bores are installed sealing rings, ground to each other at the ends and pressed by an elastic cage to the sealed surfaces, new, according to the utility model, is that each o-ring has a sector in the form of a sector, the working overhnost kotorogovypolnena cylindrical with a radius equal to the radius

of the sealing surface, the rest of the ring has a shape that determines the presence of a gap between the ring and the sealing surface, while adjacent rings are rotated relative to each other so that the angle between their radial planes passing through the midpoints of the sectors is 360 / p, where n is the number rings.

It is advisable to apply a coating on the surface of the rings made of a material having adhesive properties, which makes it possible to retain a film of hydrocarbon components of the pumped medium.

In more detail, the essence of the utility model is disclosed by the example of compaction of the inner surface of a cylindrical part. In FIG. 1 shows the mechanical seal of a borehole plunger

sucker rod pump, longitudinal section, Fig.2 - section aa in Fig. 1, FIG. 3 o-ring worn on an elastic clip in an unstressed state. FIG. 4- elastic clip.

A hollow plunger 2 is placed in the cylinder 1, dividing the high-pressure cavity 3 and the low-pressure cavity 4 in the pump. A mechanical seal is installed on the cylindrical surface of the plunger 2, which contains an elastic sleeve 5 of elastomeric material and a set of sealing rings 6 made of rigid non-elastomeric materials, for example, steel. The rings 6 interact with the ferrule 5 and the inner surface of the cylinder 1. The elastic ferrule on the outer surface has a number of eccentric collars 7. The collars 7, and therefore the rings 6 are deployed relative to each other. Each ring 6 has a section 8, made in the form of an annular cylindrical sector with a central angle of a-30-180 degrees. The working (outer lateral) surface of the sector has qi; a gandric shape with a radius equal to the radius of the sealing surface, i.e.

the inner radius of the cylinder 1. On the rest of the ring, an “undershot” is made, and the radius of this part of the ring is smaller than the radius of the surface being sealed. Due to such a shape of the rings and the eccentricity of the collars (which ensures that the rings are pressed when they are installed in cylinder 1), the ring is tightly contacted along the cylindrical surface of the sector with the sealing surface and a gap 9 is formed between the ring and the sealing surface from the side opposite to the mentioned sector.

4 Angle between radial planes passing through the middle

sectors of adjacent rings is 360 / n, where n is the number of rings. So if there are six rings in the seal, their rotation angle relative to each other is 60 degrees. The elastic cage 5 on the side of the high-pressure cavity 3 has a collar 10, to which a set of sealing rings are pressed using the adapter 11.

During the operation of the claimed design, the sealing rings are in such a position that the said sectors are evenly distributed around the circumference and each of them provides a seal of a significant area of the surface, and the labyrinth of narrow slotted gaps allows you to create a large hydraulic resistance to the flow of fluid from the high-pressure cavity 3 into the low-pressure cavity 4.

Thus, when using fewer rings than in the prototype, a high degree of tightness of the seal is achieved.

In the design, designed to seal the shaft or rod, an elastic cage is used, on the inner surface of which eccentrically located bores are made, in which sealing rings similar to those described above are installed. Each ring has a section made in the form of an annular sector, the working (inner) surface of which has a cylindrical shape, and its radius is equal to the radius of the surface being sealed, i.e. the radius of the stem or shaft. The rest of the ring is made with a large inner radius and there is a gap between the part of the ring and the sealing surface, as in the above embodiment. Workflows occurring in this design. similar to those when sealing the inner cylindrical

surface.

In both cases (sealing of the inner cylindrical surface or shaft seal), the end and side surfaces of the rings and the sealing surfaces are coated with a material having adhesive properties that provide the ability to hold the film

hydrocarbon components of the pumped medium, for example, oils during the pumping of petroleum products. This technique allows you to create a self-lubricating system and reduces the coefficient of friction of surfaces.

6

Claims (3)

1. Mechanical seal of the shaft, or rod, or cylinder of the machine, containing an elastic cage, on the outer or inner surfaces of which are made eccentrically located collars or, respectively, eccentrically located bores, on the collars or bores are installed sealing rings, rubbed against each other at the ends and pressed by elastic cage to the sealing surfaces, characterized in that each sealing ring has a section in the form of a sector, the working surface of which is made cylindrical with a radius, equal the radius of the sealing surface, the rest of the ring has a shape that determines the presence of a gap between the ring and the sealing surface, while adjacent rings are rotated relative to each other so that the angle between their radial planes passing through the midpoints of the sectors is 360 / n, where n is number of rings.  2. The mechanical seal according to claim 1, characterized in that the surfaces to be sealed and the surfaces of the rings have a coating made of a material having adhesion properties that make it possible to retain a film of hydrocarbon components of the pumped medium. 3. The mechanical seal according to claim 1, characterized in that the central angle of the sector of the sealing ring is 30-180 ^o .