PL71816Y1 - Power supply distributor - Google Patents

Description

EN 71 816 Y1 2 Description of the design The subject of the utility model is a power distributor, in particular a low-voltage DC distributor, designed to distribute the supply voltage supplied to many receivers, in particular to LED luminaires. For the simultaneous supply of many DC receivers, such as LED luminaires, it is common to use voltage distributors, connected between the power source, usually a DC power supply, and the DC receivers. Commercially available solutions are provided by power distributors, which are structures based on a power cord connected to a DC power supply, introduced into the distributor housing on one side, and on the other side, usually on the opposite side, form a number of connection sockets to which they are connected through appropriate cables. and plugs, individual luminaires. The power cord entering the housing is usually soldered to the printed circuit board on which the connection sockets are located in a row. Patent description GB2366090 (A) discloses a branched electric cable in the form of a Y divider, containing two sections of an electric cable terminated with IEC female connectors and an IEC male connector, to which both sections of the electric cable are connected with ends opposite to the IEC female connectors. . Electric cables are three-way electric cables. The IEC female connector comprises, on the side of the connection with the sections of the electric cable, three connectors, one for each pair of wires of the electric wires, formed by collars crimped on the ends of the individual wires of the electric wire. After establishing the connection with the pairs of electric wires, the connection area is closed by a molded housing. The result is a Y distributor with an input in the form of an IEC male connector and two outputs in the form of an IEC female connector. US3005179 (A) discloses a distributor having a plurality of electrical outputs for connection to an electrical outlet. The distributor comprises two identical parts forming the distributor housing on which the functional components of the distributor are arranged, the housing forming a flat rectangular structure. The distributor includes two flat contacts extending perpendicularly from the outer surface of one of the housing parts, which are inserted into an electrical outlet. One flat contact extends to the inside of the housing, where it splits into three electrically resilient contacts (sockets) that are accessed from three different side panels of the distributor. The second flat contact extends to the inside of the housing by a distance greater than the first contact, where it divides into three elastic electrical contacts (sockets), which are embedded in one part of the distributor housing, in such a way that the sockets are electrically connected to the first flat contact and the sockets Electrically connected to the second flat contact, they are arranged adjacent to the height of the distributor housing and allow for the connection of an electric plug terminated with two flat contacts, analogous to the flat contacts of the distributor itself. Such a design of the distributor allows you to connect many electrical sockets on its periphery. The subject of US patent application US2003185003 (A1) is a lighting system comprising at least one electrical load and at least one electrical connector, each electrical connector being electrically connected to a corresponding electrical load. The system further comprises an electrical distributor which is electrically connectable to at least one electrical connector. The electrical distributor has a casing forming an elongated rectangular structure, at both ends of which there are electrical connectors for connection with an external power supply. Arranged in a series on the upper surface of the housing are a plurality of electrical sockets to which electrical loads are connected. A plurality of insulated electrical wires extend between opposite electrical connectors. On a section of each insulated electric conductor, appropriate electric contacts are connected, placed in sockets arranged on the upper surface of the casing, while the electric contacts have connection bases, clamped with appropriate conductors. The American patent application US2009147504 (A1) discloses a lighting system dedicated to glass plates or glass blocks. The system consists in general of an LED strip, splitter, transparent silicone or cement joint, and a low voltage driver and transformer circuit. The splitter comprises a rectangular housing having on one side a pair of input openings for connecting the power cord, and on the other side, opposite the first side, a plurality of output openings for connecting wires connecting to the receivers in the form of LED strips. PL 71 816 Y1 3 Uninsulated power cables connected to the controller and low voltage transformer system are led into the input openings, where they are connected to the appropriate electrical connectors. The pairs of the output holes also include sections of wires with stripped ends, which are terminated on the opposite side with appropriate connectors for connecting LED strips. The purpose of the utility model is to develop a power distributor, which will be dedicated especially to low voltage DC circuits, and will provide an easier way of connecting with the power cord and lighting fittings. In particular, it is desirable that the power distributor should have a relatively simple structure, minimizing the number of component components, ensuring economic benefits in its production, and its production, especially assembly, does not require specialized operations and tools, in particular related to soldering operations. . In addition, it is desirable that the power distributor should be a universal design, mainly manifested in the fact that each socket can be an input as well as an output socket, without the need to modify the construction of the power distributor itself. In addition, it is important that the power distributor is compact in design and that its input / output sockets are located on the side walls along the greater part of the circuit. The object of the utility model is a power distributor comprising a distributor housing, including a base and a cover connected to it, and a plurality of connection sockets, characterized in that it comprises socket housings placed on the base so that the openings for the connection plugs are directed outside the power distributor, and the connection bridge of the negative pole and the connecting bridge of the positive pole, where the negative pole connecting rods extending perpendicularly from the socket housings extend perpendicularly from the connecting bridge of the negative pole, and from the positive pole connecting bridge the positive pole connecting rods entering the socket housings extend perpendicularly , the connection rods in the area of the socket housing lie in one plane and are parallel to each other and separated by a distance corresponding to the distance of openings for connection rods in the connector plug, and the connection bridge of the negative pole is electrically insulated from the bridge. the new positive pole. In one variation of the pattern, the connecting bridge comprises a plurality of flat bar segments with a rectangular cross section, the connecting rods sitting on the long side of the vertically displaced connecting bridge segment and extending perpendicular to the longitudinal direction of the connecting bridge segment. In another variation of the pattern, the distributor housing has a rectangular shape, rectangular shape with cut corners, a prismatic shape with a triangular or polygonal base, regular or not, a cylinder shape or an elliptical cylinder shape. In another variant of the pattern, the base is connected to the cover by means of a snap connection. In a further variation of the pattern, the snap-fit comprises a snap-tab extending from the base towards the cover and received in a corresponding receiving groove and / or a snapping tongue extending from the cover towards the cover and received in the corresponding receiving groove. In another variation of the pattern, the top surface of the cover has at least one mounting hole coaxial with the mounting hole in the base. In yet another variation of the pattern, a plurality of ribs are formed on the base, forming vertical walls and extending from the edge of the base sides to form receiving recesses for the socket housings. In the next variation of the formula, the negative pole connecting bridge and the positive pole connecting bridge are U-shaped structures with perpendicularly extending negative pole connecting rods and positive pole connecting rods, respectively. In a further variation of the housing design, the sockets have two holes on the wall opposite to the hole for the connection plug, for the connection rods with a tight fit. In another variation of the design, the distributor housing on the side wall has an opening for the power cord. In yet another design variation, the power distributor has seven connection sockets, three arranged along the long sides of the socket housing and one on the short side of the socket housing. EN 71 816 Y1 4 The power distributor according to this formula is dedicated to low voltage DC circuits. The use of electrical plug-in sockets significantly simplifies the construction of a complete electrical system in which a power distributor is used, especially such as a low-voltage LED-based lighting circuit. In particular, the operation of assembling such a power distributor does not require the use of specialized tools and consists only in placing the appropriate components of the distributor in the housing and its closing, omitting the complicated soldering operations of the connections. Moreover, the power cord can be connected to any connection socket and the remaining free sockets can be used as output sockets. The electric switch is also simple to build, it minimizes the number of components, and the placement of sockets on the side surfaces of the housing, on at least three different walls, facilitates the construction of lighting systems, thanks to the possibility of freely configurable connection sockets and the availability of these sockets from three side walls of the power distributor. The utility pattern is illustrated in the drawing, in which Fig. 1 shows the power distributor in an axonometric view, Fig. 2 - the power distributor in an axonometric view with the cover removed, Fig. 3 - shows an exploded axonometric view of the power distributor according to the formula, Fig. 4 - an axonometric view of the socket housings with connection bridges and connection rods, while Fig. 5 shows a rear view of a fragment of the socket housings with connection bridges and connection rods. Example 1 A power distributor according to one embodiment of the present utility pattern is shown in detail in Figs. 1-5. As shown in the axonometric view in Figs. 1 and 3, the power distributor has a distributor housing that includes a base 1 and a mating cover 2. The base 1 and cover 2 assembled together form a prism-shaped structure with an octagonal base. executioner. The shape of the casing is not limited to this design, and in other variations the casing may be rectangular, cuboid with cut corners, it may be a prismatic solid with a triangular or other polygon base, regular or not, and may be a cylinder or an elliptical cylinder. As best shown in Fig. 3, the base 1 and the cover 2 are fastened together by means of a snap connection made by snap tongues 3 and the corresponding receiving grooves 4. Fig. 3 shows snap connections in which they extend from the base 1 towards the cover 2 two snap-on tongs 3 located on opposite oblique bevels, which are picked up in the corresponding receiving grooves 4, and until the covers 2 extend towards the base 1 additional two snap-on tongues 3 are picked up in the corresponding receiving grooves 4, they are located on the other two opposite oblique walls. In order to increase the certainty of connecting the base 1 with the cover 2, in the central part of the top surface of the cover 2 there are two assembly holes 5 coaxial with the corresponding mounting holes 5 in the base 1. The mentioned mounting holes 5 are dedicated for mounting screws and nuts (not shown) ensuring a more stable and reliable connection of the base 1 with the cover 2. A plurality of ribs 6 are formed on the inner surface of the base 1, constituting vertical walls, extending from the edge of the three sides of the base, forming receiving recesses for the casings 7 of the sockets. The housing 7 of the sockets are placed in the resulting receiving recesses so that they are in close contact with said ribs 6. The construction of the housing 7 of the socket with connection bridges 10, 11 and connection rods 8, 9 is shown in detail in Figs. 4 and 5. The housings The 7 sockets are rectangular structures with openings for connection plugs, directed to the outside of the power distributor, while on the opposite side they have two through holes through which connection rods are inserted, respectively for the negative pole 8 and the positive pole 9 of the power supply. Through holes in the housing 7 of the socket are closely fitted with the dimensions of the connecting rods 8, 9 keeping them stable in the corresponding housing 7 of the socket. The connecting rods 8 for the negative pole are connected to the connecting bridge 10 for the negative pole, while the connecting rods 9 for the positive pole are connected to the connecting bridge 11 for the positive pole. As best illustrated in Fig. 5, the connecting bridges 10, 11 are metal flat bars with a rectangular cross-section, and the respective connecting rods 8, 9 (also made of metal) are mounted on the lower (or upper) longer side of the respective segment of the connecting bridge 10. , 11, with a vertical shift, creating a comb structure of connection rods 8, 9, extending perpendicularly to the appropriate segment of the connection bridge 10, 11. Connection bridges 10, 11 form a U-shaped structure corresponding to the geometry of connection sockets, designated PL 71 816 Y1 connected by the receiving recesses on the base 1 and the casings of 7 sockets introduced into them. For the corresponding socket, the connecting rod 8 extending from the connecting bridge 10 of the negative pole runs parallel to the connecting rod 9 extending from the connecting bridge 11 of the positive pole, so that the connecting rods 8, 9 are in one plane parallel to the plane of the base 1 and are spaced apart by a distance that corresponds to the distance between the holes for the connection rods 8, 9 in the connection plug (not shown). The connecting bridges 10, 11 are arranged one above the other while maintaining the electrical isolation between them in the form of an air gap. Electrical insulation of the connecting bridges 10, 11 and the connecting rods 8, 9 extending from them is ensured by placing the connecting rods 8, 9 on the lower (or upper) longer side of the relevant segment of the connecting bridges 10, 11, with their vertical displacement and by dimensioning and arrangement of the through holes in the housings 7 of the socket, tightly fitted with the dimensions of the connecting rods 8, 9. After placing the connecting rods 8, 9 in the corresponding through holes in the housings of 7 sockets, the geometry of the connecting rods 8 9, and connecting bridges 10, 11 provide electrical insulation of these structures by providing an air gap therebetween. In the cover 2, moreover, cutouts are provided on the side walls which align with the corresponding cutouts on the side walls of the base 1, separated by ribs 6, in such a way that when the base 1 and cover 2 are folded together, the cuts form openings for the housings 7 of the sockets. providing access from the outside to connection sockets formed by housing 7 sockets and connection rods 8, 9. Additionally, in the area of the shorter side of the base 1, opposite to the side where the connection socket is provided, a semicircular cutout 12 is provided, aligned with corresponding to the semi-circular cut provided on the short side of the cover 2, such that when the base 1 and cover 2 are brought together, the semi-circular cutouts 12 form an entry opening for an additional power cord, in the event that the power distributor according to the formula is to function as conventional power distributor, in which the power cord enters the inside of the power distributor housing, where pos The individual wires of the supply cable are connected to the negative pole junction bridge 10 and the positive pole junction bridge 11, respectively, for example by soldering the corresponding leads of the supply cable. In the embodiment shown, the power distributor has seven sockets, three of which are located along the longer sides of the distributor housing, and one socket is located on the shorter side of the distributor housing. The number of sockets and their location do not, however, constitute a limitation in this model and in other embodiments it is possible to use a smaller or more connection sockets and to arrange them on other sides, not necessarily symmetrically.

Claims (11)

1. Protective Claims 1. A power distributor comprising a distributor housing, having a base (1) and an attached cover (2), and a plurality of connection sockets, characterized in that it includes socket housings (7) placed on the base (1). that the openings for the connection plugs are directed outside the power distributor, and the connecting bridge (10) of the negative pole and the connecting bridge (11) of the positive pole, whereby the connecting rods (8) extend perpendicularly from the connecting bridge (10) of the negative pole the negative pole entering the housing (7) of the socket, and the connecting rods (9) of the positive pole extending perpendicularly from the connecting bridge (11) of the positive pole, entering the housing (7) of the socket, the connecting rods (8, 9) in the area of the housing (7) the sockets lie in one plane and are parallel to each other and separated by a distance corresponding to the distance of the holes for the connecting rods (8, 9) in the connector plug, and the connecting bridge (10) of the pole the negative one is electrically isolated from the positive pole connecting bridge (11). 2. Power distributor according to claim The connecting bridge (10, 11) as claimed in claim 1, characterized in that the connecting bridge (10, 11) comprises a plurality of flat bar segments with a rectangular cross-section, the connecting rods (8, 9) being seated on the longer side of the connecting bridge segment (10, 11) with a cross section. slide vertically and extend perpendicular to the longitudinal direction of the segment of the connecting bridge (10, 11). PL 71 816 Y1 6 3. Power distributor according to claim A device according to claim 1 or 2, characterized in that the distributor housing has a rectangular, rectangular shape with cut corners, a prismatic shape with a triangular or polygonal base, regular or not, the shape of a cylinder or an elliptical cylinder. 4. A power distributor according to any one of claims A method as claimed in any one of claims 1 to 3, characterized in that the base (1) is connected to the cover (2) via a snap-fit connection. 5. Power distributor according to claim 4. A method according to claim 4, characterized in that the snap-fit connection comprises a latch tongue (3) extending from the base (1) towards the cover (2) and received in a corresponding receiving groove (4) and / or the latching tongue (3) extending from the cover (2) towards the cover (1) and picked up in the corresponding receiving groove (4). 6. A power distributor according to any one of claims The method of any of claims 1 to 5, characterized in that at least one mounting hole (5) is coaxial with the mounting hole (5) in the base (1) on the top surface of the cover (2). 7. A power distributor according to any one of claims The method according to any one of claims 1 to 6, characterized in that a plurality of ribs (6) are formed on the base (1), constituting vertical walls and extending from the edge of the sides of the base (1) to form receiving recesses for the socket housings (7). 8. A power distributor according to any one of claims 1 to 7, characterized in that the connecting bridge (10) of the negative pole and the connecting bridge (11) of the positive pole are U-shaped structures with perpendicularly extending connecting rods (8) of the negative pole and connecting rods (9), respectively the positive pole. 9. A power distributor according to any one of claims A method according to any one of claims 1 to 8, characterized in that the socket housings (7) have two openings on the wall opposite to the opening for the connection plug, for the connection rods (8, 9) with a close fit. 10. A power distributor according to any one of claims A method as claimed in any one of claims 1 to 9, characterized in that the distributor housing on the side wall has an opening for the supply line. 11. A power distributor according to any one of claims 1 to 10, characterized in that it has seven connection sockets, three arranged along the long sides of the socket housing and one on the shorter side of the socket housing PL PL PL PL PL PL PL PL