TR2023013965U5 - MULTIPLE CONNECTION STRUCTURE - Google Patents

Abstract

The invention consists of at least one multi-connection element (1) containing at least one cable entry (1a), at least one cable exit (1b) and at least one fixing protrusion (1c), connected to the said multiple connection element (1) and At least one multi-connection bearing (2) containing at least one fixing slot (2a) and at least one connection hole (2b) is related to the multi-connection embodiment.

Description

DESCRIPTION MULTIPLE CONNECTION STRUCTURE Technical Field The invention is a multi-connection structure that includes the connection element that enables the parallel connection of the connectors used to safely and quickly transmit the energy obtained from the solar panels used in solar energy systems to the electronic devices and the fixing of the cables, and the connection bed where this connection element is positioned. Known Status: Fade today; The word sun is defined as the energy emitted from the sun. Solar energy is the radiant energy released as a result of the transformation of hydrogen atoms in the sun into helium atoms. The amount of energy emitted by the sun is very high. So much so that 564 million tons of hydrogen turns into 560 million tons of helium per second. The 4 million tons of energy lost during this transformation are also spread into space. This energy emitted from the sun is known as solar energy and ensures the continuation of life on the planet. The distance between the sun and the earth is approximately 150 million kilometers, and it takes approximately 8 minutes for the sun's rays to reach the earth's surface. The sun's rays fall on the outer layer of the earth as approximately 1400 J of energy per square meter per second. This value is known as the solar constant. The amount of solar energy passing through the atmosphere and falling on the earth per square meter is 1000 J. This energy is used to produce heat and electricity by various methods. Solar energy can be obtained in various ways, directly or indirectly, by using the energy from the sun's rays. These pathways are photovoltaic (PV) technology, thermal technology, concentrated solar energy technology and passive solar design. Photovoltaic panels (PV panels) are used to generate electrical energy directly from sunlight. These panels capture sunlight and produce electricity thanks to solar cells. This electricity is converted into eV or alternating current (AC) electricity that can be used at work, with the help of an inverter. Since the solar cables used to transmit the current from the solar panels used in the solar energy system are used one by one in the inverter connection, extra cables are used and the installed installation makes the system more complex. Due to the use of cables one by one, the cost becomes very high, the need for assembly labor is high, and material-related efficiency losses occur due to the use of excess material. In addition, there is cable clutter in the system where the cables are used, and this causes problems such as the connectors being damaged and not transmitting current, as the cables cannot be fixed in weather conditions such as wind, rain and snow. For the reasons mentioned, there is a need for a product that eliminates these disadvantages. Brief Description of the Invention One of the aims of the invention will be to ensure the use of less solar cables and, as a result, to reduce costs and shorten labor times. In this way, cost and labor savings will be achieved. Another aim of the invention is to prevent cable crowding caused by using a separate cable for each connection and energy transfer and to prevent unwanted visual pollution. Another purpose of the invention is to prevent problems encountered during installation of cables in facilities with long-term warranty life in open areas due to adverse conditions such as wind and rain. Additionally, it is undesirable for cables to sag where they are used. In solar energy systems installed in places such as roofs, ceilings and open areas, cable sagging and related problems such as birds landing on the sagging cables, cables coming into contact with grass on the ground, and employees getting entangled in their feet will be minimized. Explanation of the Drawings Figure 1: A front projection view representing the connection structure of the invention in conjunction with the solar panels. Figure 2: is the perspective representation of the connection structure of the invention in connection with the solar panels. Figure 3: is a perspective representation of the fragmented version of the connection structure that is the subject of the invention. Figure 4: is the perspective representation of the connection structure subject to the invention, connected to the place of use of the bearing element. Figure 5: It is the projection representative view of the connection structure subject to the invention, connected to the place of use of the bearing element. Explanation of References in the Figures For a better understanding of the invention, the corresponding numbers in the figures are given below: 1. Multiple connection element 1a-Cable entry 1b-Cable outlet 1c-Fixing protrusion 2 Multiple connection bearing 2a-Fixing slot 2b-Connection hole Mounting profile Connector Solar panel Power inverter Solar cable 8951'?? Detailed Description of the Invention Exemplary embodiments are described in more detail below with reference to the accompanying disclosures. However, embodiments may be constructed in different forms and should not be construed as limited to the embodiments set forth herein. Instead, these exemplary embodiments are provided for the completeness of this description and to fully convey its scope to those skilled in the art. The terminology used herein is intended to describe a particular exemplary embodiment only and is not intended to be limiting. As used herein, the forms "one," "at least," and "preferably" are intended to include plural forms unless the context clearly indicates otherwise. The terms "includes", and/or "including" when used in this specification do not imply the presence of the specified features, integers, steps, operations, elements, and/or components, but the presence of one or more other features, integers, steps, operations, elements, and/or components. or does not prevent it from being added. The multiple connection structure of the invention consists of at least one multiple connection element (1) containing at least one cable entry (la), at least one cable exit (lb) and at least one fixing protrusion (lc), said multiple connection element (1). It consists of at least one multiple connection bearing (2) connected to and containing at least one fixing slot (2a) and at least one connection hole (2b). In the multi-connection structure of the invention, the current from each solar panel (5) is transmitted to at least one connector (4) from at least one cable entry (1a) via at least one solar cable (7). At least two solar cables (7) coming to the connector (4) merge here and exit with a single solar cable (7) from at least one cable output (lb) of the multiple connector (l). At least one solar cable (7), which comes out of the said multiple connector (l) and connects again to a connector (4), comes out from this connector (4) and transfers the current to the power converter (6). Here, the solar cable (7) coming out of each solar panel (5) is transmitted by a single solar cable (7) instead of the current drawn from the solar panel (5) being transmitted to the power inverter (6) separately through multiple solar cables (7). It is aimed to prevent unnecessary cable clutter and unnecessary cable usage. In the connection structure of the invention, the multiple connection bearing (2) contains at least one connection hole (2b) and is fixed to the mounting profile (3) with at least one screw-type connection element through the said connection hole (2b). Said multiple connection bearing (2) contains at least one fixing slot (2a) compatible with the fixing protrusion (lc) of the multiple connection element (1). The multiple connection element (1) is placed on the multiple connection bearing (2) fixed to the mounting profile (3). At least one fixing protrusion (lc) of the multiple connection element (l) is placed in at least one fixing slot (2a) of the said multiple connection bearing (2), and said multiple connection element (1) will not move to the said multiple connection bearing (2). It is located as follows. Here, there are no restrictions regarding the shape and structure of the fixing protrusion (1c) and the fixing slot (2a). Any features described herein (including the accompanying claims, summary and drawings) may be replaced by other alternative features that may be equivalent or have similar purposes, unless expressly stated otherwise. That is, unless explicitly stated otherwise, each feature is just one instance of a set of equivalent or similar features. The above embodiments are only intended to explain the technical concept and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and practice the present invention, and the scope of the present invention is not limited thereto. It is intended to include equivalent changes or modifications made in accordance with the spirit of the invention within the scope of the invention. Industrial Applicability of the Invention The invention is about a multi-connection structure developed to reduce the use of cables and provide cost and labor savings in systems where solar energy is converted into electrical energy, and is applicable to industry. The invention is not limited to the above explanations, and a person skilled in the art can easily reveal different applications of the invention. These should be evaluated within the scope of the protection requested by the claims of the invention. TR TR

Claims (2)

1. It is a multi-connection structure and its characteristic feature is; At least one multiple connection element (1), comprising at least one cable entry (la), at least one cable output (lb) and at least one fixing protrusion (lc), is connected to the said multiple connection element (1) and at least one It consists of at least one multiple connection bearing (2) containing a fixing slot (2a) and at least one connection hole (2b). 2. It is a multi-connection structure according to claim 1 and its characterizing feature is; The multiple connector element (l) contains at least one cable entry (la) and at least one cable exit (lb).