ITMI970340A1 - SEALING GASKET IN PARTICULAR FOR PNEUMATIC OR HYDRAULIC JACK - Google Patents

Description

DESCRIPTION of the industrial invention entitled:

"SEAL, IN PARTICULAR FOR PNEUMATIC OR HYDRAULIC MARTINET-TO"

The present invention relates to a sealing gasket in particular for piston or rod of double-acting hydraulic pneumatic jack or distribution drawer.

To ensure the seal, for example between a piston or plunger (or its rod) and the body of a cylinder of a jack, various types of gaskets are currently used which can be classified as follows:

- those that allow the sealing in two points, this sealing being obtained by radial compression of the gasket material: these are the toroidal gaskets and the so-called composite gaskets, a single gasket that can be used to guarantee the tightness during the movements of a piston or plunger in a double-acting jack;

- those with which the seal is also made in two points, but this feared one is maintained, on the one hand, by stretching the gasket on the groove in which it is positioned and, on the other hand, by the action of pressure: this type of gasket, comprising in particular the lip gaskets, requires, in the case of a double-acting jack, to provide two gaskets and, moreover, has the drawback that the stress in correspondence with the lip is always maximum compared to the pressure;

- those enabling the seal to be made in three points, this seal being obtained by compressing the gasket in the bore or hole that receives it and by means of the action of pressure. The pressure is always stored below the gasket which gives maximum stresses to the level of the gasket / tube contact of the jack, this stress being able to be suppressed by providing its gaskets. The gasket has no movement in its throat. Among the seals of this type it is possible to mention the seals of Hecker and Knorr.

Starting from this state of the art, the present invention proposes to realize a seal with three contact points at rest, without pressure, allowing to guarantee a perfect seal during movements of the seal associated with small frictions resulting in a longer life. to that of conventional gaskets.

Consequently, the present invention relates to a sealing gasket of elastomeric material, in particular for a piston or rod of a double-acting pneumatic or hydraulic jack, characterized in that it is of the omega cross section type, with three sealing points when it is at rest in the absence of pressure and that it understands

- a circular annular part equipped with a peripheral friction band ensuring contact with the jack tube;

- two lateral fins provided, on their respective lower part, with a lateral sealing flange respectively guaranteeing the sealing contact with the lateral faces of the piston groove in which the gasket is positioned, said fins being flared towards the outside in order to guarantee the centering of the gasket with respect to its groove, in the absence of pressure and sufficiently flexible to ensure that they are assimilated to a flexible membrane at the time of the diametrical tightening of the gasket and,

- by the fact that the masses of the constituent parts of the gasket are distributed in such a way that the center of gravity of the section of said gasket is located in correspondence with the upper part of the gasket, i.e. in its annular part, and that it is located above the thrust center, i.e. the center of action of the forces due to pressure.

According to the invention, the gasket can further comprise gage blocks which are distributed on each of the lateral faces of the fins.

According to a characteristic of the invention, the gasket can comprise a central piece, for example the magnet of a magnetic detection system, this central piece being perforated by an opening in order to ensure the release of the pressure between the two internal faces of the gasket. .

An embodiment of a gasket according to the present invention will now be described, by way of non-limiting example. In this embodiment, the seal is a piston or jack plunger seal. However, it will be obvious that such a gasket can also be applied to ensure the seal of a cylinder stem or distributor drawer. During the present description reference will be made to the accompanying drawings, in which:

Figure 1 is a partial view in longitudinal axial section of a piston or piston of a jack provided with a seal according to the present invention;

Figure 2 is a large-scale view, in diametrical section, of a gasket according to the invention;

Figure 3 is a plan view on a smaller scale of the gasket according to the invention illustrated in Figure 2;

Figure 4 is a schematic vertical sectional view of a gasket according to the invention shown at rest in the tube of a jack; And

Figures 5 and 9 are views similar to Figure 4 illustrating the operation of the gasket according to the present invention during the movement of the piston in both directions.

With reference to the drawings and, more particularly to Figures 1 to 3, it is noted that the sealing gasket according to the present invention has an omega shape with a cross section. Figure 1 illustrates the way in which the gasket, generally indicated by the reference number 5, is positioned in the groove 7 of the piston 6 of a jack, to ensure the seal on the pipe 9 of the jack.

According to the invention, the gasket comprises a circular annular part 10 provided with a peripheral friction band 11 which guarantees, by contact with the tube 9 of the jack, one of the sealing points. The gasket also comprises two lateral fins 12, 12 'which are provided, on their respective lower part, with a sealing flange or lateral rib 13, 13', respectively, ensuring sealing contact with the lateral faces 8, 8. 'of the throat 7 of the jack in which the gasket is positioned, the fins 12, 12' being flared outwards as can be seen in figure 4 in order to ensure, at rest in the absence of pressure, the centering of the gasket with respect to the its groove 7. According to the invention, the fins 12, 12 'are sufficiently flexible to be assimilated to a flexible membrane at the time of the diametrical tightening of the gasket 10 as will be illustrated later.

According to the present invention, and in order to ensure a good release of the pressure stored under the gasket during its operation, the angle a of each fin 12, 12 'with respect to the vertical must be greater than 5 °.

Thus, the gasket according to the invention can be considered as a circular ring provided on each side with two fins 12, 12 'whose deformation, following its diametrical tightening, is assimilated to a flexible membrane. When centering the gasket in its housing, the fins, thanks to their flexibility, play the role of two springs of equal strength and opposite actions. Thanks to these characteristics, the gasket according to the invention allows to obtain at rest three points of contact (see figure 5): a first point with the tube 9 of the jack the other two points on the lateral faces 8, 8 'of the groove of the jack.

According to the present invention, the distribution of the masses of the constituent parts of the gasket is such that the center of gravity of the section of the gasket is located in correspondence with the upper part of the gasket (i.e. in its annular part 10), this center of gravity being located above the center of thrust ie the center of action of the effects due to pressure. Thanks to this arrangement, any possibility of interlocking of the gasket as well as any rotation of the latter in its groove, during displacements of the piston, is avoided.

The gasket according to the present invention can be installed using a central piece, for example the magnet 15 (figure 5) of a magnetic detection system. This center piece must include an opening 16 which passes through it from side to side in order to ensure pressure release during piston displacements.

Reference is now made to figures 5 and 9 in order to illustrate the operation of the gasket according to the invention.

It has been seen that at rest the gasket mounted in its groove was centered with respect to this in the absence of pressure, the centering being obtained thanks to the flexibility of the fins 12, 12 '. The stress at the point of contact of the gasket with the tube 9 is minimal since the elastomer constituting the gasket is not compressed radially between the bottom of the groove and the bore.

When the pressure is applied, for example on the right side of the gasket as can be seen in figure 5, the latter acts on the entire surface of the fin 12 'thus causing, for a given pressure value, a torsion moment of the circular ring constituting the fin, which results in a leakage line at the level of the sealing flange or rib 13 '. On the side opposite to the pressure, the stress due to it exerting itself on the fin 12, is added to that of the tightening of the gasket in its groove (due to the flexibility of the fin 12), which strengthens the seal between the rib 13 of the fin 12 of the gasket and the side face 8 of the groove 7.

By increasing the pressure on the inlet side (i.e. the right side of figure 6), and therefore increasing the pressure difference between the two chambers of the groove of the gasket, a translation of the gasket is caused in its groove, the latter coming to abut by its blocks 14 on the face 8 of the piston groove which is opposite to the introduction of the pressure. Upon the occurrence of this translation, the gasket has only two points of contact, as can be clearly seen in figure 6. A point of contact with the pipe 9 and the other point of contact on the face 8 of the groove opposite to the pressure (i.e. say between the blocks 14 and the face 8 of the groove). On the pressure side, there is a functional clearance between the rib 13 'and the face 8' of the groove, which allows the pressure to be released as illustrated in figure 6. During the movement described above, the gasket must move without rotating in the its groove and this characteristic, as previously seen, is obtained by means of the distribution of the masses of the gasket and thanks to its contact geometry at the level of the tube 9, positioning the center of action of the forces due to the pressure below the center of gravity.

The gage blocks 14 and 14 'allow the release or escapement pressure to be admitted at the level of the fins 12, 12' when the gasket abuts against one face of its housing, which also allows to avoid the deformation of the fins likely to create leak lines.

When the direction of pressure is reversed (figure 7), the gasket remains in its position until the difference in pressure between the two chambers of its throat is greater than a certain value. The pressure beneath the gasket escapes through the clearance that exists between the rib 13 'and the sealing face 8' of the groove. The stress exerted at the gasket-tube contact 9 is correlated to the diametrical tightening of the gasket in its tube, increased by the stress deriving from the pressure difference between the two chambers. The resulting stress is very small, which guarantees little friction. The central position (figure 8) at the moment of resetting the gasket is very short and very unstable and the tilting (figure 9) is carried out without stopping.

As the pressure increases (Figure 9), the gasket comes into contact by means of its blocks 14 'on the face 8' of its groove in opposition to the introduction of the pressure. In this position, the gasket comprises two points of contact: one with the tube 9 and the other with the lateral face 8 'of its groove, by means of its blocks or projections 14'.

Among the advantages provided by the gasket according to the present invention it is possible to mention in particular the following:

- obtaining a perfect seal on the face of the piston opposite to the pressure for a value close to 0 relative bar;

- very low friction in the absence of gumming, - zero stress at rest and independent of pressure,

- absence of rotation of the gasket during its movements in the absence of interlocking, - long useful life

- low cost

- possibility of mounting with a magnet centered in the piston.

Naturally the present invention is not limited to the embodiment example described and represented here. Thus, the operation of the seal according to the invention has been described with reference to a double-acting piston or piston seal. In this case it is only an example of application, the invention being able to be applied to other functions in particular seal for rod or rod, seal for drawer, etc.

Claims (4)

CLAIMS 1. Sealing gasket of elastometric material, in particular for piston or rod of pneumatic or hydraulic jack with double or single effect, characterized by the fact that it is of the omega cross section type, with three sealing points when it is at rest in absence of pressure, and two sealing points under pressure obtained by a translational movement of the gasket in its groove and which includes: - a circular annular part (10) equipped with a peripheral friction band (11) ensuring sealing contact with the tube (9) of the jack; - two lateral fins (12, 12 ') equipped, on their respective lower part, with a lateral sealing flange or rib (13, 13') respectively guaranteeing the sealing contact with the lateral faces (8, 8 ') of the groove (7) in which the gasket is positioned, said fins being flared towards the outside to ensure the centering of the gasket with respect to its groove, in the absence of pressure, and sufficiently flexible to ensure that they are assimilated to a flexible membrane at the moment of the diametrical tightening of the gasket, e - that the masses of the constituent parts of the gasket are distributed in such a way that the center of gravity of the section of said gasket is located in correspondence with the upper part of the gasket, that is to say in its annular part (10), and that it is positioned at the above the center of action of the forces due to pressure, similar to the center of thrust in hydraulics. 2. Sealing gasket according to claim 1, characterized in that it further comprises blocks or abutment lugs (14, 14 ') distributed on each of the external faces of the circular annular part (10). 3. Sealing gasket according to one of claims 1 or 2, characterized in that the fins (12, 12 ') form an angle a of less than 10 ° with the vertical. 4. Sealing gasket according to any one of the preceding claims characterized in that it comprises a central piece (15), in particular a magnet of a magnetic detection system, said central piece comprising an opening (16) which passes through it from both the sides in order to ensure the introduction of pressure under the entire surface of the gasket and its release.