RU168657U1 - PROTECTED CORRUGATED PIPE - Google Patents

Abstract

The utility model relates to protective corrugated hoses and can be used to protect electrical wires and cables, including for protecting vehicle wires. In a protective corrugated pipe (1), made with a wave-like profile located along its longitudinal axis, the wave-like profile is a continuous and uniformly parallel alternating annular channels parallel to each other, including a protrusion (2) and a cavity (3), which wave step has a size that allows you to perform in the cavity of the ribs (4) stiffness. The stiffening ribs (4) can be longitudinal, transverse, spiral, inclined, or in the form of alphanumeric embossing. Annular channels are characterized by continuity and heterogeneity due to the presence of stiffeners. The technical result is to increase the service life of the corrugated pipe due to its strengthening. 6 c.p. f-ly, 5 ill.

Description

The utility model relates to protective corrugated hoses and can be used to protect electrical wires and cables, including for protecting vehicle wires

Protective corrugated tubes of the German company SCHLEMMER are known, for example a protective tube made in the form of a corrugated tube in which the outer diameter of the tube is at least 10 mm and the wall thickness of the corrugated tube is 0.3 to 0.5 mm. The protective tube in accordance with the invention can be made of plastic, which is commonly used in the automotive industry. Polyamide can be used here. Good results were obtained using protective tubes made of black PA6 (patent No. DE 20108981, IPC A01M 29/30, publ. 09.07.1995).

Known flexible corrugated pipe for electrical wiring made of polyvinyl chloride, manufactured by the extrusion method, having an equally high trapezoidal shape of the corrugation, an external diameter of 16 to 20 mm, the height of the corrugation from 2.1 to 2.3 mm, the profile has the following parameters: rib length 2.5 mm and corrugation pitch 4.04 mm (patent No. RU 8977510 U1, IPC H02G 3/04, publ. 10.12.2009).

The closest set of essential features is a tube for protecting electrical wires. The wall section of the protective tube is made wavy along the longitudinal axis of the tube. The wavy shape is an annular channel that includes a ridge and a hollow. The annular channels are continuously and uniformly parallel to each other, that is, the wave crest and the trough of the wave are parallel. The outer diameter of the protective tube is between 7.2 and 43 mm, and the inner diameter of the protective tube is between 4.7 and 36 mm. The step of the wave is from 2.3 to 5.1 mm, the width of the wave crest is from 1.2 to 2 mm, the pipe wall thickness is 0.15-0.4 mm, the pipe bending radius is from 10 to 100 mm. The protective tube is made of PVC. Its use increases the service life of the wiring harness (patent No. CN 201238168, IPC H01B 17/58, publ. 05.12.2009).

This design of the corrugated pipe does not provide effective protection against friction with electrical wiring when bending the corrugation.

The task was to increase the service life of the corrugated pipe due to its strengthening.

The problem is solved due to the fact that in a protective corrugated pipe made with a wave-like profile located along its longitudinal axis, the wave-like profile is a continuous and evenly alternating ring channels parallel to each other, including a protrusion and a cavity, the wave step has a size , allowing to perform stiffening ribs in the cavity.

Stiffeners can be longitudinal, transverse, inclined, spiral, in the form of alphanumeric embossing and other geometric shapes.

The technical result that allows us to solve the problem is to increase the step of the wave, which allows you to perform stiffeners in the wave cavity, which make the corrugated pipe more reliable, increasing its service life.

The analysis of patent and scientific and technical documentation showed that a technical solution that coincides with the claimed technical solution for all the essential features has not been identified. Therefore, the claimed technical solution meets the patentability criterion of a utility model: novelty.

The utility model is illustrated by drawings:

FIG. 1 - protective corrugated pipe with longitudinal ribs, section, general view.

FIG. 2 - also, with transverse ribs;

FIG. 3 - the same, with inclined ribs;

FIG. 4 - the same with spiral ribs.

Protective corrugated pipe is designed to protect wires and cables in the electrical wiring of vehicles and is a pipe with a wave-like profile located along its longitudinal axis. Due to this profile, the pipe acquires flexibility and strength.

Corrugated pipe is made of polymeric materials (polyethylene, polypropylene, polyamide, polyurethane, etc.) by extrusion blow molding.

The polymer melt leaves the extruder in the form of a "stocking" of a certain diameter. Using a nozzle, the polymer melt is introduced into the continuously moving forms of the corrugator, where under the pressure of the air supplied into the "stocking", it inflates, taking the form of a corrugated pipe.

The wave-like profile is a continuous and evenly alternating annular channels parallel to each other, including a protrusion and a cavity.

The main parameters of the corrugated pipe (1) are:

Dн - outer diameter,

Dвн - inner diameter,

t is the step of the profile wave,

h is the width of the protrusion of the profile wave,

e is the width of the cavity of the profile wave.

When bending, the inner wall of the corrugation, formed by the lower half-wave, loses its straightness on the outer radius of the bend, forming protrusions, which will abrade the protection of electrical wiring during vibration.

To solve this problem, it is necessary to increase the wave step (t) without changing the width of the protrusion (2) of the wave (h). Thus, due to the increased contact area of the wiring with the inner wall of the corrugated pipe, the abrasion of the wiring during bending of the corrugated pipe under the action of vibration will be reduced.

In addition, by increasing the step of the profile wave, it becomes possible in the cavity (3) to manufacture ribs (4) of stiffness and / or embossing in the form of a alphanumeric designation to strengthen the corrugation structure.

The ribs (4) stiffness can be made longitudinal, transverse, inclined and spiral. In addition to stiffeners (4), it is possible to stamp in the form of a alphanumeric designation on the lower half-wave of the corrugation profile (not shown). Annular channels are characterized by continuity and heterogeneity due to the presence of stiffeners.

Strengthening of the structure is carried out only due to the lower half-wave of the profile. The profile of the upper half-wave does not change in order to maintain the flexibility of the product.

Using all the essential features of the formula allows you to achieve the claimed technical result, namely the increase in the service life of the corrugated pipe due to its strengthening.

Protective corrugated pipe can be manufactured on standard equipment using modern materials and technologies.

Claims (7)

1. Protective corrugated pipe made with a wave-like profile located along the longitudinal axis of the pipe, the wave-like profile is a continuous and evenly parallel alternating annular channels, including a protrusion and a cavity, characterized in that the wave step has a size that allows you to perform in the hollow of the stiffener. 2. Protective corrugated pipe according to claim 1, characterized by the continuity and heterogeneity of the annular channel. 3. Protective corrugated pipe according to claim 1, characterized in that the ribs are made longitudinal. 4. Protective corrugated pipe according to claim 1, characterized in that the ribs are made transverse. 5. Protective corrugated pipe according to claim 1, characterized in that the stiffeners are made spiral. 6. Protective corrugated pipe according to claim 1, characterized in that the stiffeners are made inclined 7. Protective corrugated pipe according to claim 1, characterized in that the stiffeners are made in the form of alphanumeric embossing.

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