RU2724073C1 - Vacuum branch pipe - Google Patents

Abstract

FIELD: transportation.SUBSTANCE: invention relates to production of rubber articles, particularly, to production of vacuum branch pipes used in ship pipelines for transportation of liquid oil media operating under pressure and vacuum in inner cavity or only in case of vacuum in inner cavity. Design of vacuum branch pipe is made in the form of two bead rings with opposite cord loops, flat vacuum rings and circumferential rubber ledges. In the branch pipe design different-purpose rubbers are used: for the covering layer and circumferential rubber ledges – rubber based on rubber of general purpose, for the sealing layer – oil-resistant rubber.EFFECT: design of a vacuum branch pipe for pumping oil media with high reliability of the onboard zone in vacuum conditions.1 cl, 2 dwg

Description

The invention relates to the production of rubber products, namely to the manufacture of vacuum nozzles used in ship pipelines for transporting liquid oil environments operating under pressure and under vacuum in the internal cavity or only under vacuum in the internal cavity.

Known rubber-cord element (copyright certificate SU 1333911 A1, F16F 9/04, publ. 30.08.87, bull. No. 32), containing side rings, a shell consisting of a cover and sealing layers of rubber and cord, enveloping loop side ring and counter loop a second bead ring, and attached flanges covering the bead rings and cord loops (bead area).

A disadvantage of the known rubber-cord element is the inability to use it in a vacuum due to loss of shell stability, i.e. the shell collapses when a vacuum is created in the internal cavity.

The closest in technical essence and the achieved result is a vacuum pipe (patent RU 2498143 C1, publ. 10.11.2013, Bull. No. 31) containing a rubber-cord part consisting of a sealing layer, layers of rubberized cord, an outer (covering) layer of rubber, and side zones for fastening in metal fittings, circumferential rubber protrusions on the cover layer and all-metal vacuum rings flat without recesses, taken out of the cover layer of the vacuum pipe and its cylindrical surface, rigidly bonded only to the outer surface of the circumferential rubber protrusions.

The disadvantages of the known vacuum nozzle (prototype) are: the impossibility of using it in an oil-resistant design due to delamination of the rubber array at the junction of the layers of oil-resistant rubbers with each other under vacuum, namely: the detachment of the rubber circumferential protrusions from the rubber coating layer, when performing the cover layer and the circumferential protrusions of oil-resistant rubber, as a result of which the vacuum pipe loses its working capacity, as well as the reduced reliability of connecting the shell to the pipe metal fittings.

The technical result of the claimed invention is the creation of a design of a vacuum pipe for pumping oil media with high reliability of the side zone in a vacuum.

The technical result is achieved through the use of two side rings with counter loops of cord, flat vacuum rings and circumferential rubber protrusions in the design of the vacuum nozzle, as well as the use of dissimilar rubbers in the design of the nozzle: for the cover layer and the circumferential rubber protrusions — rubber based on general-purpose rubbers, for a sealing layer - oil resistant rubber.

The essence of the claimed invention lies in the fact that when using rubber based on rubbers of general purpose for the cover layer of the nozzle of the vacuum and the circumferential rubber protrusions, there is no delamination in the places of their connection with each other when exposed to vacuum, which ensures the efficiency of the nozzle in vacuum, while using oil-resistant rubber for the sealing layer provides the possibility of pumping oil media, the connection of dissimilar rubbers occurs at the “nose” of the flange, covering and compressing the side rings with the opposite loops of the cord, which protects the outer surface of the vacuum pipe from getting into the pumped oil medium.

The essence of the claimed vacuum pipe is illustrated by drawings:

FIG. 1 is a general view of a vacuum nozzle;

FIG. 2 - the location of the layers of rubber in the side zone.

The vacuum pipe contains a cover 1 and a sealing 2 rubber layers connected at the junction 3 at the “nose” 4 of the flange 5, rubberized cord layers 6, side rings enveloping the opposite loops 7, rubber circumferential protrusions 8 on the rubber cover layer 1, flat vacuum rings 9, taken outside the cover layer 1 and rigidly bonded only with the circumferential rubber protrusions 8, as well as the flange of the attached 10 (Fig. 1, 2).

The vacuum nozzle contains a sealing layer 2 made of oil-resistant rubber, imposed so as to completely cover the side rings 7 with the loops of the layers of rubberized cord 6 around them, while being connected at the junction 3 in the area of the “nose” 4 of the flange 5 with the cover layer 1 made made from rubber based on general purpose rubbers. The heterogeneous layers of rubber are interconnected using a special rubber glue, joint 3 is securely fixed (pinched) by the “nose” 4 of the flange 5 during compression of the side zone (Fig. 2).

The compression of the side zone occurs when the flange 5 and the flange of the attached 10 are pulled together by any known method (for example, by tightening the bolts). When the flange 5 and the flange of the attached 10 are pulled together, the rubber layers 1, 2 and loops are compressed from the layers of the rubberized cord 6 around the side rings 7, which ensures the tightness of the vacuum pipe and prevents the pumped oil media from getting onto the rubber coating 1 during the operation of the vacuum pipe (Fig. 1).

The inventive vacuum pipe works as follows.

When creating a vacuum in the inner cavity of the vacuum pipe, the inventive vacuum pipe is compressed from the outside by atmospheric pressure. Flat vacuum rings 9 due to the rigid fastening of the inner cylindrical part to the outer surface of the circumferential rubber protrusions 8 maintain a circular cross-sectional shape of the pipe, which ensures the stability of the vacuum pipe when exposed to vacuum.

The use of rubber based on general-purpose rubbers for the cover layer 1 of the vacuum nozzle ensures its reliable adhesion to the circumferential rubber protrusions 8 and flat vacuum rings 9 (Fig. 1), due to the fact that the layers of this rubber are not subject to delamination under the influence of vacuum in the internal cavity, as a result of which the working capacity of the vacuum pipe is ensured.

The use of oil-resistant rubber for the sealing layer 2 of the vacuum nozzle provides the possibility of pumping oils, as a result of which the nozzle can be used in ship pipelines to transport liquid oil media, and the use of two side rings with counter layers of the cord provide high reliability of the side connection.

The design of the inventive vacuum pipe, working under pressure and under vacuum in the inner cavity or only under vacuum in the inner cavity, allows it to be used for pumping liquid oil media.

Claims (2)

1. Vacuum nozzle containing a coating and sealing layers of rubber, layers of rubberized cord, enveloping rings enveloping the oncoming rings, tightened by flanges, flat vacuum rings extended outside the coating layer and rigidly bonded to the circumferential rubber protrusions on the coating layer, characterized in that the coating the layer is made of rubber based on general-purpose rubbers, and the sealing layer is made of oil-resistant rubber. 2. The vacuum pipe according to claim 1, characterized in that the coating and sealing layers of rubber are connected in the area of the "nose" of the flange.

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