Gland for a sealed feedthrough of an orifice of a partition

Abstract

This gland for a sealed feedthrough of an orifice of a partition using a filiform component such as an electric cable, in particular, of the type including: a gland body for the passage of the filiform component, sealingly fixed to the partition to be passed through opposite the orifice; a seal in the form of a deformable sleeve, placed in a corresponding housing of the gland body, around the component; and a component forming a rammer for compressing the seal in the form of a deformable sleeve and deforming them in the housing of the gland body against the filiform component, so as to provide the seal between the gland body and the filiform component. The seal in the form of a deformable sleeve is in the form of a stack of annular seals.

Claims

1. A gland for sealed feedthrough of a partition having an orifice, using a filiform component, the gland comprising: a gland body configured to receive the filiform component, the gland body being sealingly fixed to the partition to be passed through, opposite the orifice, the gland body including a housing; a seal that is a deformable sleeve, the seal that is the deformable sleeve being disposed in the housing of the gland body around the filiform component, the deformable sleeve comprising a stack of V-shaped annular seals mounted head-to-head one after the other, each of the V-shaped annular seals having a head and V-shaped protrusions extending away from the head, the heads of the V-shaped annular seals abutting against the heads of adjacent other ones of the V-shaped annular seals; and a reamer component configured to compress the deformable sleeve and to deform the deformable sleeve in the housing of the gland body against the filiform component to seal the gland body and the filiform component.

2. The gland according to claim 1, wherein the V-shaped annular seals are made from elastomer.

3. The gland according to claim 1, wherein the gland body is fixed on the partition provided with the orifice by at least one first screw, and the gland further comprises sealing O-rings between the gland body and the partition.

4. The gland according to claim 1, wherein the reamer component has a part engaging in the housing of the gland body to compress the seal and another part that is a collar associated with at least one screw on the gland body to urge the at least one screw in the gland body.

5. The gland according to claim 4, wherein the at least one screw comprises a plurality of screws engaged within the gland body.

6. The gland according to claim 1, wherein the reamer component is screwed directly in the housing of the gland body to compress the seal.

7. The gland according to claim 2, wherein the gland body is fixed on the partition provided with the orifice by at least one first, and the gland further comprises sealing O-rings between the gland body and the partition.

8. The gland according to claim 2, wherein the reamer component has a part engaging in the housing of the gland body to compress the seal and another part that is a collar associated with at least one screw on the gland body to urge the at least one screw in the gland body.

9. The gland according to claim 3, wherein the reamer component has a part engaging in the housing of the gland body to compress the seal and another part that is a collar associated with at least one second screw on the gland body to urge the at least one second screw in the gland body.

10. The gland according to claim 7, wherein the reamer component has a part engaging in the housing of the gland body to compress the seal and another part that is a collar associated with at least one second screw on the gland body to urge the at least one second screw in the gland body.

11. The gland according to claim 2, wherein the reamer component is screwed directly in the housing of the gland body to compress the seal.

12. The gland according to claim 3, wherein the reamer component is screwed directly in the housing of the gland body to compress the seal.

13. The gland according to claim 7, wherein the reamer component is screwed directly in the housing of the gland body to compress the seal.

14. The gland according to claim 1, wherein a sealed portion between the gland body and the filiform component is configured to receive an applied compression rate between 15 and 25%.

15. The gland according to claim 1, wherein the filiform component is an electric cable.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be better understood upon reading the following description, provided solely as an example and done in reference to the appended drawings, in which:

(2) FIG. 1 shows a sectional view of an exemplary embodiment of a feedthrough gland according to the invention; and

(3) FIGS. 2 and 3 respectively show perspective and sectional views of an annular seal included in the composition of a feedthrough gland according to the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

(4) These figures, and in particular FIG. 1, it indeed illustrate a gland for a sealed feedthrough of an orifice.

(5) In this FIG. 1, the gland is designated by general reference 1, and therefore provides a sealed feedthrough of an orifice of any partition or part, by a filiform component, in particular such as an electric cable, designated by general reference 2 in this FIG. 1.

(6) The latter may have relatively significant appearance flaws.

(7) Conventionally, this gland includes a gland body for passage of the filiform component, designated by general reference 3, and fastened sealably on the partition or part to be passed through, opposite the orifice.

(8) Indeed and as illustrated, this gland body 3 for example includes an outer peripheral collar, designated by general reference 4, provided with holes 5 for the passage of fastening screws of this body on the partition or part.

(9) Furthermore, sealing O-rings, for example 6 and 7, are interposed on the body and the partition and make it possible to ensure the sealing between this gland body and this partition.

(10) This gland body also includes an inner housing 8, in which sealing means are provided in the form of a deformable sleeve, designated by general reference 9 in this FIG. 1, these sealing means therefore being placed in the housing of the body, around the cable 2.

(11) Lastly, the gland also includes a component or member forming a reamer designated by general reference 10 in this FIG. 1, to compress the sealing means in the form of a deformable sleeve and to deform them in the corresponding housing 8 of the gland body, against the elongate member and therefore the cable 2, in order to ensure the sealing of this gland body and the filiform component as well as the cable.

(12) Thus, this reamer-forming member 10 includes a part 11 engaging in the housing 8 of the gland body, to bear on and therefore compress the sealing means 9 and another part 12 in the form of a collar, for example associated with screwing and gripping means of this reamer member on the body in order to urge the latter in the body.

(13) As illustrated, these screwing means for example comprise screws designated by references 13 and 14 in this FIG. 1, these screws being regularly distributed around the body.

(14) Of course, other embodiments can be considered.

(15) Thus, for example, the reamer component can also include a threaded part engaging in a tapped part of the housing of the gland in order to compress the sealing means.

(16) The component is then screwed directly in the body in order to compress the sealing means.

(17) This in particular makes it possible to reduce the diameter of the gland substantially.

(18) According to the invention, the sealing means 9 in the form of a deformable sleeve, placed around the cable, assume the form of a stack of annular seals.

(19) One of these seals is designated by general reference 15 in FIG. 1, and is shown in more detail in FIGS. 2 and 3.

(20) Indeed, these annular seals can for example have a general V- or X-shaped cross-section and can be mounted head to tail one after the other, in order to form a stack of seals in staggered rows.

(21) These seals can be made from an elastomer and can be obtained by machining, which makes it possible to obtain better precision than for a molded seal.

(22) Such a structure makes it possible to obtain very good sealing at the cable, an applied compression rate, between 15 and 25%, and for example at 20%, for example being desirable.

(23) Of course, the hardness of each seal can be selected so as to ensure good deformability of this seal under the compression load.

(24) This makes it possible to obtain a configuration of these seals adapted to the shape flaws of the filiform component and in particular the cable.

(25) Of course, still other embodiments can be considered.