BR202021024357Y1 - CONTINUOUS POLE SOCKET - Google Patents

Abstract

CONTINUOUS POLE SOCKET. The continuous pole socket is the standard type that can be embedded or superimposed in a standard 4x4 PVC box with 3 pairs of continuous busbars along it, allowing connection of the plug poles in any part of the busbars, which extend throughout the socket. following the standard of NBR 14136:2012. It is used in residential, building and industrial low voltage electrical installations, connecting equipment with 10 A plugs, allowing multiple plugs at the same power point without extensions or connection multipliers, being cleaner aesthetically, avoiding multiplier cables connected to the socket. . With an unnoticed look, not standing out because it is compact and can match the color of the environment. It meets the requirements of NBR 14136:2012, as it has the necessary recesses to make it safe, preventing the possibility of a monopolar connection or the possibility of live parts of the plug being unprotected. It can be used to connect several low-power equipment in the same location, facilitating the use of this equipment and compacting the use of sockets, reducing the cost of installing sockets and making the environment safer.

Description

Field of invention

[001] Electrical materials. Low voltage electrical installations. Building and residential electrical installations. General purpose socket.

Fundamentals of the invention

[002] The built-in or overlapping general purpose socket is standardized in accordance with NBR 14136:2012, which deals with the standardization of plugs and sockets for domestic and similar use up to 20 A/250 V in alternating current. The socket that is standard in Brazil has three pins, where the central pin has the function of grounding and the others are for power. The socket has recesses in accordance with the standard, which aim to protect the user from possible discharges caused by touching the live parts of the socket, being recessed along the user's body and having a protective surface. The first pin to be connected according to the socket is the grounding pin, with the other two pins recessed a few millimeters. The socket also has specific sizes in its holes, so that it is possible to categorize it into 10 and 20 A sockets. The sockets have modules containing 3 pins, and can be used with one, two or three modules, which allow the addition of more than a plug into the socket.

[003] The standard socket in Brazil is limited to a maximum of 3 modules, so it is possible to connect up to 3 plugs in a recessed or overlapping socket, in addition, due to their proximity to the modules, some types of plugs make one or two unusable Built-in or overlapping socket plugs due to their size, making it impossible to properly use the entire socket structure, making it necessary to use other equipment to correct the problem, such as extensions or multipliers. The continuous pole socket, unlike the standard NBR socket, has a bus structure that holds several plugs, and can then be used to connect several equipment to the same power point, and can be a built-in or overlapping socket capable of connecting more of 3 pieces of equipment at a single point without the need to use additional equipment. Furthermore, as it has buses along its entire length, plugs can be positioned in the best way possible, so that they do not come into physical contact, meaning there is no need to mechanically force the plug or the socket itself to securely fit the connection. force. As it is an equipment where it is possible to connect several devices, the continuous pole socket can also have overload protection for the correct use of the socket point, and it is not possible to use equipment for specific use together with equipment for general use, as determined the NBR 5410 standard, as its buses are hollow for plugs of up to 10 A. The continuous pole socket has the same guidelines as the domestic socket, having recesses that prevent the user from touching the pole when connected, the ground pin it is the first to be connected and it is impossible to connect the socket in a monopolar way. Furthermore, as the ground pin is a little far from the others, it is impossible to connect the socket horizontally to the continuous pole socket, avoiding a possible short circuit.

[004] Therefore, the objective of the continuous socket is to provide the greatest number of connections possible for low-power devices, mainly office equipment, such as notebooks and smartphones, as well as other portable equipment that requires constant charging, such as cameras, video games, tablets, etc. It is then possible to bring together the largest number of these devices at a single point, reducing the space and cost of implementing several sockets in the same location or reducing the use of multipliers and other devices that increase the power connection. Brief description of the drawings Figure 1 shows the front view of the continuous pole socket. Figure 2 shows the internal rear view of the continuous pole socket. Figure 3 shows the 3D view of the object embedded in a standard 4x4 PVC box. Figure 4 shows the front view of connecting a plug to a continuous pole socket.

Description of the invention

[005] The continuous pole socket is a socket that follows the guidelines of NBR 14136:2012, having all the lowerings determined by the standard, such as the use of a superior protection that prevents the plugs from being exposed to foreign bodies and the connection must be first to earth. Its particularity lies in the use of a bus instead of a hole to insert the plug. The socket has six buses, where each pair of buses connects to the three standardized equipment plugs. The pair of buses has the necessary spacing according to NBR for plugs rated up to 10 A. The ground bus is slightly larger than the others, being the first to be connected. Figure 1 describes the front part of the socket, where the protective surface (A) prevents the plug from having its pins exposed. The support support (B) connects the busbars and makes mechanical support of the socket possible. It must be made of hard plastic or other insulating material capable of withstanding the force of connecting and disconnecting the plugs without being mechanically damaged. The recessed or overlapping box (C) represents where the socket is fitted to the surface where it will be installed. The earth bus (D) is where the earth plug is first connected, this being the least recessed bus. The other power busbars (E) are the phase and neutral busbars that will make the power connection to the socket. They can be made of copper or brass, depending on the quality required and the price when manufactured. The Fuse (F) represents the overcurrent protection of the socket, being placed in a threaded manner in the center, easily accessible, which will have the role of limiting the circuit connections, preventing the electrical installation in general from being harmed when using the equipment. Figure 2 shows the rear part of the socket, where the protection circuit (G) presents the bus connections to the phase, neutral and earth cables, it also presents the possibility of an overvoltage protection circuit with varistors and overcurrent connected to the fuse (F). The plugs, when connected to the socket, can be placed vertically or horizontally along the socket, allowing them to be distributed in the best and safest way. The connection with the busbars (D) and (E) is made in a toothed way, so that it is not possible to move the plug freely along the busbar, preventing the plug from coming out easily or sliding along the socket, so that it cannot may undergo deformation with shear force. The circuit (G) is placed further below the socket, where the connection of the plug poles cannot reach it, providing a safe distance. A force is needed that forces the entire bus, mechanically destroying the socket so that the two touch each other and short out.

Examples of embodiments of the invention

[006] The continuous pole socket can be efficient in areas that require the use of several equipment at the same socket point, such as several computers and notebooks in offices, Internet cafes, the connection of cell phone chargers in outdoor locations free such as airports, bars, restaurants, shopping malls, various low-power appliances in the kitchen such as blenders, toasters, water coolers, processors, in rooms with various electronic equipment such as TVs, sound systems, Home theater, in rooms with all electronic equipment such as TVs, video games, etc. without the need to use multipliers or connectors, making the connection cleaner and safer for the environment and the user. The continuous pole socket is used for equipment up to 10 A, it does not replace the use of sockets for specific use and its use is not recommended for high power equipment such as microwaves, air conditioners, electric ovens, etc.

Claims (1)

1. CONTINUOUS POLE OUTLET, characterized by having a protective surface (A), a support support (B) connecting the busbars, a ground busbar (D) and two power busbars (E) continuous throughout the entire structure , with the possibility of adding a fuse (F) and protection circuit (G) and DC energy conversion via USB port, in addition to allowing the connection of sockets safely, and being built into the floor or wall, being discreet and being able to have the color of the environment.