SK9452Y1 - Multichannel element - Google Patents

Abstract

The technical solution relates to multichannel elements used for the construction of cable ducts for laying communication, energy and other technical infrastructure in the ground to protect the interior of multichannel elements against ingress of water and dirt in urban areas for easy future installation and/or repair of technical infrastructure without the need for extensive earthworks. The present solution consists of an elongate hollow base body (1) with a rectangular or square cross-section, the inner space of which is divided by at least one compartment (2) extending in the longitudinal direction and on the circumference of which transversely extending reinforcing ribs (3) are formed.

Description

Field of technology

The technical solution relates to a multi-channel element, in particular for mechanical protection of cables of metropolitan, backbone telecommunications network, power network and other technical infrastructure, consisting of hollow basic body of oblong shape with rectangular or square cross-section, the inner space of which is divided by at least one compartment running along in the direction and on the circumference of which transversely extending reinforcing ribs are formed, on the front sides of the base body sockets being formed for connection to the base bodies of adjacent multichannel elements.

Prior art

Previously known multichannel elements of this type have reinforcing ribs on the base body with a simple approximately rectangular or square cross-section with rounded corners and with a constant height. The interconnection of the individual multichannel elements is performed by simply inserting their front ends together, so that the inner space of the multichannel elements is not sufficiently protected against the ingress of water and dirt.

The task of the present technical solution is therefore to find such a construction of a multichannel element which will be more resistant to the ingress of water and impurities in comparison with hitherto known multichannel elements.

The essence of the technical solution

This task addresses the shortcomings of known multichannel elements of this kind, largely eliminates the multichannel element, especially for mechanical protection of cables, metropolitan, backbone telecommunications network, power network and other technical infrastructure, which consists of a hollow basic body of oblong shape with rectangular or square whose inner space is divided by at least one compartment extending in the longitudinal direction and on the circumference of which transversely extending reinforcing ribs are formed, on the front sides of the base body sockets being formed for connection to the base bodies of adjacent multichannel elements according to this technical solution. that a neck formed on one side of the base body for connection to the base body of an adjacent multichannel element is formed by a circumferential shoulder and that a neck formed on the other side of the base body for connection to the base body of an adjacent multichannel element The front is formed by a circumferential flange with light dimensions complementary to the circumferential mounting.

The described solution will create the preconditions for the inner space of multichannel elements to be protected against the ingress of water and dirt.

In a further refinement of the present solution, it is advantageous if a resilient circumferential seal is arranged on the circumferential shoulder, behind which a circumferential step is formed in the longitudinal direction of the base body, the clear dimensions of the circumferential flange being complementary to the radial dimensions with flexible circumferential seal.

Another possible improvement is that an inner resilient circumferential seal is arranged in the circumferential flange, behind which a circumferential step is formed in the longitudinal direction of the base body, which is formed on the inner circumference of the base body, the clear dimensions of the circumferential flange complementary to the radial dimensions of the peripheral shoulder.

With both of these improvements, the protection of the interior of the multi-channel elements is further improved.

The interconnection of the individual multichannel elements is mechanically ensured by a resilient clamp abutting the peripheral flange formed in the axial direction behind the circumferential shoulder of the adjacent multichannel element on the remote edge of the circumferential flange from the front of the base body.

Overview of figures in the drawings

The essence of the technical solution is further clarified by examples of its embodiment, which are described on the basis of the attached drawings, which show:

- fig. 1 shows different side and front views of a pair of interconnected multichannel elements according to the technical solution and

- fig. 2 is an enlarged cross-sectional detail of the connection of the basic bodies of the multichannel elements.

SK 9452 Υ1

Examples of embodiments

In FIG. 1 schematically shows different side and front views of a pair of interconnected multichannel elements according to the technical solution, each of which consists of a base body 1 in the shape of a hollow prism or block, which is made of high-density polyethylene HDPE.

The inner space of each base body 1 is divided by at least one longitudinal compartment 2. In the illustrated embodiment, four perpendicularly oriented compartments 2 are used, which thus divide the inner space of the base body into nine channel chambers 4. Of course, embodiments with on the circumference of each base body 1, reinforcing ribs 3 are formed integrally with these base bodies 1, which run around the entire circumferences of the base bodies 1 in a plane perpendicular to the longitudinal axis of these base bodies 1. These reinforcement ribs 3 have furthermore, the task is to protect the body 1 itself against mechanical damage. Next, in FIG. 1 shows a visible circumferential flange 6 which is formed at the lower end of the upper base body 1 and is mounted on the circumferential shoulder 5 of the lower base body 1 covered therein, as can be seen from FIG. 2. In FIG. 1 and in detail in FIG. 2, it can also be seen that a resilient arc-shaped clamp 7 rests on the distal edge of the circumferential flange 6 of the base body 1 from the front side, which connects this circumferential flange 6 to the circumferential shoulder 5 of the base body 1 of the connected multi-channel element.

In FIG. 2 shows an enlarged longitudinal section through the joint of adjacent base bodies 1. From this section it is further apparent that a resilient circumferential seal 51 is arranged on the circumferential shoulder 5, behind which a circumferential step 52 is formed in the longitudinal direction of the base body 1. on the circumference of the base body 1, the clear dimensions of the circumferential flange 6 being complementary to the radial dimensions of the circumferential shoulder 5 with the resilient circumferential seal 51.

The tightness against running water and dirt is ensured by the use of the circumferential seal 51a of the spring clamps 7.

Industrial applicability

Multichannel elements according to this technical solution are especially suitable for the construction of cable ducts for laying communication, energy and other technical infrastructure in the ground in cases where the requirements for protection of the interior of these multichannel elements against water and dirt intrusion are increased. installation and / or repair of technical infrastructure without the need for extensive earthworks.

SK 9452 Υ1

List of base body compartment reference marks

3 reinforcing ribs channel chamber circumferential mounting circumferential flange flexible clamp

51 circumferential body circumferential step circumferential rib

SK 9452 Υ1

Claims (2)

PROTECTION REQUIREMENTS 1. A multi-channel element, in particular for the mechanical protection of cables, metropolitan, backbone telecommunications networks, energy networks and other technical infrastructure, consisting of an elongated hollow base body (1) with a rectangular or square cross-section, the internal space of which is divided by at least one compartment ( 2) extending in the longitudinal direction and on the circumference of which transversely extending reinforcing ribs (3) are formed, while on the front sides of the base body (1) necks are formed for connection with the base bodies (1) of adjacent multichannel elements, characterized in that on one side of the base body (1) the neck formed for connection to the base body (1) of the adjacent multichannel element is formed by a circumferential shoulder (5) and on the other side of the base body (1) the neck formed for connection to the base body (1) of the adjacent multichannel element is formed by a circumferential flange (6) with light dimensions complementary to the circumferential shoulder (5). Multichannel element according to Claim 1, characterized in that a resilient circumferential seal (51) is arranged on the circumferential shoulder (5), behind which a circumferential step (52) is formed in the longitudinal direction of the base body (1), which is formed on circumference of the base body (1), the clear dimensions of the circumferential flange (6) being complementary to the radial dimensions of the circumferential shoulder (5) with the resilient circumferential seal (51). Multichannel element according to Claim 1, characterized in that an inner resilient circumferential seal (51) is arranged in the circumferential flange (6), behind which a circumferential step (52) is formed in the longitudinal direction of the base body (1). on the inner circumference of the base body (1), the clear dimensions of the circumferential flange (6) with the inner resilient circumferential seal (51) being complementary to the radial dimensions of the circumferential shoulder (5). Multichannel element according to one of Claims 1 to 3, characterized in that a resilient clamp (7) rests on the distal edge of the circumferential flange (6) from the front side of the base body (1), which connects this circumferential flange (6) to the circumferential rib (6). 53), formed in the axial direction behind the circumferential shoulder (5) of the base body (1) of the adjacent multichannel element. 2 drawings