GR1009553B - Insulating casing for antenna connectors - Google Patents

Abstract

Novelty: an insulating protective casing for antenna connectors is disclosed. Constitution: the invention is composed of the bipartite shell 1 having internal and external ribs 2, elastic seals 3 of various dimensions depending on the enclosed connectors occupying the available space, a peripheral rim 8 at the upper section for avoiding the concentration of water. Both shell’s sections are joined together via the securing means 5 uniting, in a sliding manner, the frame 4 that each section of the protective shell posseses along its length.

Description

DESCRIPTION

"INSULATED CONNECTOR CASE"

THE FIELD OF TECHNOLOGY

The invention relates to the field of antennas and antenna systems, and more specifically to housings that are not mechanically closely connected to radiating elements.

THE HISTORY OF THE INVENTION

The insulating connector sleeve disclosed in the present invention has not been disclosed in the prior art.

Connectors are essential components widely used in any cellular antenna installation, but also in any interconnection of passive or active components in antenna systems regardless of technology or type of transmission. The point of application of the connector on each cable is a possible point of failure, as the insulation of the cable is interrupted at this point. Weather conditions, especially rain, humidity and salts, are factors that can have a particularly negative effect on the components, thus affecting the quality and characteristics of each connection. To date, in order to address the above issues, solutions have been proposed, which include, among other things, encasing the connectors in cases. The cases are plastic and surround the fasteners so that they are not directly affected by environmental conditions. An additional suggestion includes injecting gel into the interior of each case to cover the space that remains free between the connector and the case, insulating the connector even more effectively.

However, the solutions proposed to date have disadvantages, which make them problematic. To begin with, the fasteners do not all have the same dimensions, so they are not served by the same case. The result of this is that the installer has to be equipped with different cases and, depending on the dimension of the connector that needs to be protected, to install the corresponding case. Furthermore the gel that is internally to cover the space between the connector and the case is often polymerized due to weather conditions. Temperature changes, as well as a change in prevailing conditions, often lead to the destruction of the gel, which sticks to the connector, worsening the problem, since it no longer acts as an insulator.

A further disadvantage presented by the existing solutions is the fact that the available cases do not have a perimeter lip at their upper end, through which the cable passes, with the result that the water that collects there is retained for a long time, gradually eroding the gel. In addition, the concentration of water in direct contact with the gel and its penetration inside the case, inevitably leads to the creation of salts, which contribute to the faster loss of its insulating capacity, resulting in the creation of corrosion conditions and poor functioning of the connectors, changing and altering their dielectric characteristics.

A further disadvantage of the cases available to date is that the plastic is clamped directly around the connector, without the existence of any rubber gasket, which can absorb the pressure when the case is clamped onto the connector. In addition, the existence of different cases for the connectors of different dimensions leads to an increase in manufacturing costs.

It is thus an object of the present invention to advantageously address the aforementioned disadvantages and deficiencies of the prior art by proposing an insulating connector case, with innovative technical characteristics.

It is a further object of the present invention to provide an insulating connector case, which consists of a protective shell and to which different rubber gaskets are applied to cover the known connector systems for antennas.

It is a further object of the present invention to provide an insulating connector case, having rubber gaskets, which do not polymerize and which remain unchanged, so as not to affect the quality of the connections.

A further object of the invention is the presentation of an insulating case of fasteners, which is made of plastic and which has ribs, as a result of which it exhibits enhanced resistance to stress and avoids the creation of distortions.

A further object of the invention is the presentation of an insulating connector case which, thanks to its rubber gaskets, absorbs clamping pressures, preventing their transfer to the components it protects.

Another object of the invention is the presentation of an insulating fastener case, whose protective shell has a lip, both at the top and at the bottom, as a result of which it does not allow the accumulation of water or mud, from rains, ensuring that it will not corrode the insulating material that protects the components.

The object of the present invention is also the presentation of an insulating case of fasteners, which does not allow the accumulation of rainwater in the upper part of the case, which would create salts and affect the connected components.

The object of the present invention is also the presentation of an insulating case, which, regardless of the diameter of the components it covers, uses the same protector, with the result that the cost of manufacture is reduced, since only one die is required for the manufacture of the shell.

These and other objects, features and advantages of the invention will become apparent in the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become apparent to those skilled in the art by reference to the accompanying drawings in which it is illustrated in an illustrative non-limiting manner.

Figure 1 shows a perspective view of the insulating connector case of the invention, showing both the protective shell and an indicative rubber gasket enclosed by it.

Figure 2 shows a front view of a rubber gasket fitting the protective shell when the insulating sleeve is to be used to protect Type 4.3-10 connectors.

Figure 3 shows a sketched perspective view of a case-fitting rubber gasket for use with the insulating case with 7/16 inch fasteners.

Figure 4 shows a perspective sketch of the protective shell locking means used to close and protect the enclosed connectors.

Figure 5 shows the outer side of the protective shell developed.

DETAILED DESCRIPTION OF PREFERRED APPLICATION

Referring now to the accompanying drawings, we will describe indicative applications of the insulating connector case, so that its special technical characteristics, as well as its advantages, become apparent.

Protection of wiring and connectors for antenna systems installed in the environment is an important subject, as any interference affects the quality and speed of communication and data transmission. The invention presented here concerns an insulating connector case, which consists of a protective shell (1), Fig. 1, symmetrical about the vertical axis. The two symmetrical parts of the protective shell (1), Fig. 5, fold around the axis and enclose the components they are supposed to protect. The protective shell (1) is made of plastic material, suitable for use in outdoor applications, with resistance to temperature fluctuations from -40 to 65°C. Internally, each section of the shell (1) has ribs (2), which enhance its rigidity as well as its resistance to the applied pressures. Similarly, ribs (2) are also present externally for its structural reinforcement.

Each part of the protective shell (1) internally has a semi-circular configuration, to allow the passage of cables and to create the necessary space to accommodate the connectors and other components that need to be protected. The protective shell (1) is transparent on its upper and lower sides. Inside the protective shell (1) in the available space apply a suitable rubber gasket (3), Fig. 2. The rubber gasket (3) could be of different sizes to meet the requirements of the known dimensions of connectors available on the market. Indicative gasket variations include 4.3-10 type fasteners, Fig. 2, and 7/16 inch fasteners, Fig. 3. Application of the appropriate gasket (3) ensures that the fasteners are covered and protected by the optimal way from humidity, water and weather conditions in general. The rubber gasket (3) fits inside the parts of the protective shell (1) and is made of suitable rubber, which remains indestructible over time. In case the connector placed inside the protective shell (1) is of small dimension, the rubber gasket (3) has a larger dimension to occupy the entire remaining space. On the contrary, for a larger connector dimension, a smaller size rubber gasket (3) is used, allowing the installation. The existence of the rubber gasket (3) ensures that the available space inside the protective shell (1) is not covered exclusively with gel, as a result of which polymerization is avoided, as well as the sticking of the gel to the connectors.

The parts of the protective shell (1) have, on the sides where they are joined, a frame (4), which is used to apply the drawers by means of a lock (5), Fig. 4. The locking means (5) has a configuration with ribs (6) and notches (7) in part or throughout its length. Its shape follows the configuration of the protective shell (1) at the connection points, so that it is precisely closed. The locking device (5) is detachable and can be removed when the protective shell (1) needs to be opened for inspection or related repair of the protected components.

A special feature and advantage of the insulating connector case is the existence of a perimeter lip (8) on the upper part of the case. The perimeter lip (8) prevents rainwater or moisture from collecting on the upper part of the protective shell (1) and thus gradually eroding the gel that protects and insulates the components. It goes without saying that the locking means has a corresponding lip on the upper part to ensure the absolute perimeter protection of the upper part of the protective shell (1). In the upper part of the lip they also have the rubber gaskets (3), which follow the configuration of the protective shell (1).

It should be noted here that the description of the invention was made with reference to illustrative application examples, to which it is not limited. It is considered acceptable that any change or modification regarding the shape, dimensions, morphology, materials used and construction and assembly components, as long as they do not constitute a new inventive step and do not contribute to the technical development of what is already known, are considered included in the purposes and aims of the present invention.

Claims (4)

1. Insulating connector case, consisting of a protective shell (1) of two sections of semicircular internal configuration, folding around their vertical common axis, with a frame (4) on their joining sides for the drawer application of a locking means (5), characterized by that inside the protective shell (1) and in each of its parts, there is a rubber gasket (3), which covers the space between the protective shell (1) and the connector that surrounds it. 2. Insulating connector case, according to claim 1, characterized in that the protective shell (1) has a peripheral lip (8) in the upper part of its sections. 3. Insulating connector case, according to claims 1 and 2, characterized in that the protective shell (1) has internal and external ribs (2). 4. Insulating connector case according to claims 1 to 3, characterized in that the locking means (5) has ribs (6) and notches (7) along its length.