RU2711166C1 - Anti-break flexible pipeline protector - Google Patents

Abstract

FIELD: protective devices.SUBSTANCE: invention relates to protective devices of flexible pipelines, including hoses and cables, and can be used to prevent fracture of pipeline during its installation and operation. Anti-break flexible pipeline protector comprises transverse links in form of annular plate, connected in pairs to each other by longitudinal links, wherein the radius of the transverse links inner edge provides the transverse link fit on the flexible conduit with a guaranteed clearance. On inner edge of cross link there is even number of slots, not less than six. Longitudinal links are made in the form of sector of circular annular plate, on inner radius of which there are two wide slots, and external radius of which is equal to specified radius of bend of pipeline. At that, each two adjacent transverse links are connected to each other by means of at least three longitudinal links, which are installed mainly perpendicular to planes of both cross links by "groove in slot" so that in each longitudinal link in one wide slot the groove of the first transverse link is located, and in the other wide slot the groove of the next transverse link is located. Slots of transverse link are made as wide as to fit with guaranteed clearance relative to thickness of longitudinal link. Wide slots of longitudinal link are made with width providing free relative displacement of transverse links in them at bending of flexible pipeline to preset radius of bend.EFFECT: reduced mechanical stresses of walls of flexible pipeline, as well as longer service life of proposed device with simplification of its manufacturing and installation.1 cl, 2 dwg

Description

The invention relates to protective devices for flexible pipelines, including hoses, cables, and can be used to prevent fracture of the pipeline during its installation and operation.

The prior art known "Protective device against a broken wire" according to patent No.RU 2392714 (publ. 06/20/2010). To prevent kinking of the wire during its passage through the hole in the wall of the hose coupling or pipe, the device contains a supporting elastic spiral made in one piece with the mounting base. The wire is covered by the mounting base and the supporting elastic spiral, and the mounting base is covered by the outlet pipe and has the ability to move until it engages with a geometric circuit with the outlet pipe. The fracture of the pipeline is prevented by supporting the wire on the inner walls of the spiral. The minimum radius of curvature of the bend of the wire in the spiral is determined by the weight and elastic properties of the wire itself, as well as the elastic characteristics of the spiral, namely its pitch, diameter, material. The selection of these characteristics for an arbitrary pipeline with given parameters is complex and time-consuming. In addition, the spiral does not preserve the internal diameter during bending, which can lead to a change in the geometry of the cross section of the pipeline, and the appearance during operation of alternating bending and torsional stresses in the spiral leads to its destruction.

Also known is the "Support Clamp" according to patent No. RU 2212743 (publ. 09/20/2003), the design of which includes an elastic element with diametrical annular protrusions made on it from the outside. The minimum radius of curvature of the bend of the pipeline in such a structure is determined by the elastic properties of the material of the elastic element and the geometry of these protrusions: their height and pitch. The main disadvantage is the noticeable alternating tangential stresses on the walls of the elastic element, which reduces the life of the device.

The closest to the claimed technical solution for the combination of design features is the "Device of the hose for the fluid" according to patent No. RU 2636863 (published on November 28, 2017). The hose device has a number of anti-kink protrusions, which are spaced from each other by a certain interval and are made in the longitudinal direction of the hose. The protrusions extend annularly around the outer surface of the hose. A group of connecting mesh jumpers is made between two adjacent protruding anti-bend tabs, while mesh jumpers connect adjacent adjacent anti-kink protrusions. The groups are arranged in the shape of an alternating chevron weave in the longitudinal direction of the fluid hose. The disadvantage of this device is the rigid fastening of the reinforcing frame of the protrusions and jumpers to the walls of the hose (in particular, the execution of these protrusions and mesh jumpers by injection molding). The prevention of hose fracture is ensured by the elastic properties of the material of the pipeline and the frame, which entails the presence of zones of increased tensile / compressive deformations and a limitation of the life of the hose during its intensive use.

The technical result of the invention is to reduce the mechanical stresses of the walls of the flexible pipe when it is bent to a predetermined bending radius, as well as to increase the life of the proposed device while simplifying its manufacture and installation.

To achieve the technical result, the anti-burglar tread of the flexible pipeline contains transverse links in the form of an annular plate pairwise interconnected by longitudinal links, and the radius of the inner edge of the transverse links ensures that the transverse link fits onto the flexible pipeline with a guaranteed gap, even, not less than six, the number of grooves, the longitudinal links are made in the form of a sector of a circular annular plate, on the inner radius of which there are two wide grooves, and the outer radius of which is equal to the specified bending radius of the pipeline, with each two adjacent transverse links connected to each other using at least three longitudinal links, which are installed mainly perpendicular to the planes of both transverse links by the connection "groove in groove" so that in each longitudinal link in one wide groove is the groove of the first transverse link, and in the other wide groove is the groove of the adjacent transverse link with the first, grooves of the transverse link are made of widths landing with guaranteed clearance relative to the thickness of the longitudinal link, and the wide grooves of the longitudinal link are made wide, providing free relative movement of the transverse links in them when the flexible pipe is bent to a predetermined bending radius. Two longitudinal links installed in two adjacent grooves of one transverse link are installed in them on opposite sides of said transverse link.

The technical result is achieved by the fact that for a flexible pipeline with a specified bending radius, a detachable frame mounted on the pipeline with a guaranteed gap is used as a supporting element, the transverse links of which are pairwise connected by longitudinal links with a groove connection. Upon reaching the degree of bending of the pipeline of a given bending radius, the longitudinal links of the frame located on the side of the pipe wall, which are internal to the bend, are joined by their ends to each other and form a single supporting element, the outer radius of which, due to the proposed shape of the longitudinal link, is equal to the specified limiting bending radius. The annular shape of the transverse links prevents the flattening of the pipeline in the bending zone. This prevents fracture of the pipeline and preserves its throughput. The execution of the grooves of the longitudinal element wide allows you to ensure the operation of the device with multidirectional bending deformations of the pipeline.

A possible implementation of the device is shown in the figures: FIG. 1 is a diagram of an assembled device (side view), FIG. 2 is a diagram of an assembled device (cross section).

The tamper-resistant protector of the flexible pipe 1 contains transverse links 2, pairwise connected with each other by the longitudinal links 3. The transverse links 2 are made in the form of an annular plate, the radius of the inner edge of which ensures the fit of the transverse link 2 on the flexible pipe 1 with a guaranteed clearance. Six grooves are made on the inner edge of the transverse link 2 4. The longitudinal links 3 are made in the form of a sector of a circular annular plate, on the inner radius of which two wide grooves are made 5. The outer radius of the longitudinal link 3 is equal to the specified bending radius of the pipeline 1. Cross links 2 and longitudinal links 3 are made of a material resistant to deformation of compression / tension, for example, of metal or durable plastic. The longitudinal links 3 are installed with their wide grooves 5 in the grooves 4 of the transverse links 2 connection "groove in the groove". Each two adjacent transverse links 2 are connected to each other using three longitudinal links 3. Moreover, in each longitudinal link 3 in one wide groove 5 there is a groove 4 of one transverse link 2, and in the other wide groove 5 there is a groove 4 of the adjacent transverse link link 2. The grooves 4 of the transverse link 2 are made to fit with a guaranteed clearance relative to the thickness of the longitudinal link 3. The width of the wide grooves 5 in the possible implementation of the device is directly proportional to the largest absolute longitudinal wall deformation pipeline 1, limited by two adjacent transverse links 2, achieved by bending the pipeline 1 to a given bending radius. Two longitudinal links 3, installed in two adjacent grooves 4 of one transverse link 2, are installed in them on opposite sides of the said transverse link 2.

The anti-burglar tread of the flexible pipeline operates as follows. The proposed removable anti-burglar tread is installed when installing the pipeline 1 by putting on the transverse links 2 connected by the longitudinal links 3 on the walls of the pipeline 1. During operation, when bending the pipeline 1 to a predetermined bending radius, the longitudinal links 3 on their inner arc of the pipeline 1 are closed with their ends friend, thereby forming a single supporting arc. The external radius of the reference arc, due to the proposed shape of the longitudinal link 3, is equal to the specified limiting bending radius. The annular shape of the transverse links 2 prevents flattening of the flexible pipe 1 at the bend, thereby increasing the overall rigidity of the structure. To ensure the stability of the structure, the connection of one transverse link 2 with two adjacent transverse links 2 cannot be performed by less than six longitudinal links 3 (three longitudinal links on each side). The width of the wide grooves 5, in particular, in accordance with the ratio specified in the example implementation of the device, is determined based on the condition of free relative movement of the transverse links 2 in the grooves 4 of the longitudinal links 3 when the flexible pipe 1 is bent up to a predetermined bending radius.

The proposed removable structure of the anti-burglar tread with the fit of its transverse links to the pipeline with a guaranteed gap, as well as the proposed groove to groove connection for connecting the transverse links to each other, prevent significant deformation of the walls of the pipeline, which extends its life. In addition, the simplicity of the design of the device allows you to manually mount it on any flexible pipe without using additional tools.

Claims (7)

1. The anti-burglar tread of a flexible pipe containing transverse links in the form of an annular plate, pairwise interconnected by longitudinal links, characterized in that - the radius of the inner edge of the transverse links provides a landing of the transverse link on a flexible pipe with a guaranteed clearance, - on the inner edge of the transverse link is made an even, at least six, the number of grooves, - the longitudinal links are made in the form of a sector of a circular annular plate, on the inner radius of which two wide grooves are made, and the outer radius of which is equal to the specified bending radius of the pipeline, - in this case, each two adjacent transverse links are connected to each other using at least three longitudinal links, which are installed mainly perpendicular to the planes of both transverse links by a "groove in groove" connection so that in each longitudinal link in one wide groove is a groove of the first transverse link, and in another wide groove is a groove adjacent to the first transverse link, - the grooves of the transverse link are made to fit the width with a guaranteed gap relative to the thickness of the longitudinal link, and the wide grooves of the longitudinal link are made to be wide, providing free relative movement of the transverse links in them when the flexible pipe is bent to the specified bending radius. 2. An anti-burglar tread of a flexible pipeline according to claim 1, characterized in that two longitudinal links installed in two adjacent grooves of one transverse link are installed on them on opposite sides of said transverse link.

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