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KR-102962721-B1 - Electric wire distributor with Improved cushioning and insulation for flooring inside apartment houses

KR102962721B1KR 102962721 B1KR102962721 B1KR 102962721B1KR-102962721-B1

Abstract

The present invention comprises a bottom rubber filling member (10) located in the space between an inner floor layer (90) having a floor finishing material (91) formed on its upper surface and a slab layer (80) located below the inner floor layer (90), wherein the bottom surface is located on the upper surface of the slab layer (80) and a circular plate body (11) made of a circular rubber material is formed in a flat plane, and a circular tube body (12) is formed extending upward from the outer surface of the circular plate body (11) to form a tube, wherein a wire hole (13) is formed on one side through which a main wire (70) having a cathode wire (71) and a two-sided wire (72) is inserted from the outside to the inside. A lower support guide cylinder frame (20) that is a cylinder mounted on the upper surface of the circular plate body (11) of the lower rubber filling member (10), with the upper end open, and front and rear vertical guide grooves (21, 22) and left and right vertical guide grooves (23, 24) formed on the inner circumference left and right sides and front and rear sides, respectively, which expand upward and downward with a certain width and depth, and a wire passage hole (25) through which a main wire (70) passes is formed on the extension line of the wire hole (13); A negative terminal plate (31) is formed on a circular plate made of metal material that is seated on the upper surface of the lower support guide cylindrical frame (20), having a central through hole (31c) on the central side and a square through hole (31b) on the left side, and a negative terminal (31a) formed on the right bottom side that protrudes downward and has a wire hole (31aa) at the bottom end to which the negative wire (71) of the main wire (70) is fixed. A front and rear vertical negative terminal plate (32, 33) and a left and right vertical negative terminal plate (34, 35) are formed respectively, extending in all directions from the outer circumference of the negative terminal plate (31) and extending vertically downward from the outside of the lower support guide cylindrical frame (20), with a plurality of horizontal negative terminal bolts (32a, 33a) (34a, 35a) protruding horizontally at regular intervals. The negative terminal plate (31) and the above A negative terminal frame (30) having a spring (36) formed therein that springs upward and springs upward, positioned between the upper surfaces of the lower support guide cylinder frame (20); and an insulating silicone plate (40) having a through hole (41) formed on the extension line of the central through hole (31c) of the negative terminal plate (31), which is a circular plate made of insulating silicone material positioned on the upper surface of the negative terminal plate (31) of the negative terminal frame (30). A positive terminal plate (51) is formed on a circular plate made of metal material that is seated on the upper surface of the insulating silicon plate (40), having a central hole (51b) on the central side and a positive terminal (51a) formed on the lower left side that protrudes downward and has a wire hole (51aa) formed at the lower end to which the positive wire (72) of the main wire (70) is fixed. A plurality of horizontal positive terminal bolts (52a, 53a) (54a, 55a) are each horizontally protruded at regular intervals, extending in all directions from the outer periphery of the positive terminal plate (51) and extending vertically downward while maintaining a certain distance from other parts that do not overlap with the front and rear vertical negative terminal brackets (32, 33) and left and right vertical negative terminal brackets (34, 35) of the negative terminal frame (30) outside the lower support guide cylinder frame (20). A positive terminal frame (50) having front and rear vertical positive terminal blocks (52, 53) and left and right vertical positive terminal blocks (54, 55), respectively; and a circular plate (61) is formed on the upper part of the positive terminal frame (50) and is an insulated circular tube body with an open bottom, having a lower fixing bolt (61a) made of synthetic resin material that protrudes directly downward from the center of the bottom surface and is fixed by a nut (61b) made of synthetic resin material through the center hole (51b) of the positive terminal frame (50), the through hole (41) of the insulating silicone plate (40), and the center through hole (31c) of the negative terminal frame (30). On the upper surface of the circular plate (61), an upper support rubber plate (62) made of rubber material is formed to be in close contact with the bottom surface of the inner bottom layer (90). The outer circumference of the tube body extending directly downward from the outer end of the circular plate (61) is located on the outer surface of the lower support guide cylindrical frame (20), and a plurality of recesses are formed on the outer circumference, and the negative terminal frame (30) A front-rear side vertical cathode terminal zone (32, 33) and a left-right side vertical cathode terminal zone (34, 35) are respectively positioned in a front-rear side cathode terminal zone groove (63, 63a) and a left-right side cathode terminal zone groove (63b, 63c), and a front-rear side positive terminal zone (64, 64a) and a left-right side positive terminal zone groove (64b, 64c) are respectively positioned in a front-rear side vertical positive terminal zone (52, 53) and a left-right side vertical positive terminal zone (54, 55) of the positive terminal frame (50), and an inner tube body (65), which is a tubular body located on the inner surface of the lower support guide cylinder frame (20), is formed on the inner side of the bottom surface of the circular plate (61), extending directly downward while maintaining a certain distance from the outer periphery, and is formed such that the left-right side and the front-rear side are separated at both ends. The invention relates to an electrical wire distributor with improved cushioning and insulation properties used in the interior floor of a multi-unit dwelling, comprising an insulating lifting support frame (60) in which left and right guide bars (66, 67) and front and rear guide bars (68, 69) are respectively formed to guide during lifting and lowering by being inserted into the left and right vertical guide grooves (21, 22) and front and rear vertical guide grooves (23, 24) of the lower support guide cylinder frame (20), and a catch projection (66a, 67a) (68a, 69a) that protrudes outward and catches is respectively formed on the lower outer surface of the left and right guide bars (66, 67) and front and rear guide bars (68, 69). The present invention allows for easy electrical connection work by connecting the cathode and anode wires of the main line, which is wired to the interior floor layer of a multi-unit dwelling, to the cathode terminal of the cathode terminal frame and the anode terminal of the anode terminal frame. Furthermore, the simple structure results in low manufacturing and construction costs, thereby reducing the financial burden. Additionally, the insulation of the cathode and anode terminal frames is further enhanced by the insulating silicone plate and the insulating lifting support frame, and the cushioning between the interior floor layer and the slab layer is effectively achieved through the insulating silicone plate, the lower rubber filler, the upper support rubber plate, and the elastic spring.

Inventors

  • 정기용

Assignees

  • (주)부흥이앤씨

Dates

Publication Date
20260508
Application Date
20241122

Claims (1)

  1. A bottom rubber filling member (10) is positioned in the space between an inner floor layer (90) having a floor finishing material (91) formed on its upper surface and a slab layer (80) located below the inner floor layer (90), wherein a circular plate body (11) made of a circular rubber material is formed in a flat plane and its lower surface is positioned on the upper surface of the slab layer (80), and a circular tube body (12) is formed extending a certain length upward from the outer surface of the circular plate body (11) to form a tube, wherein a wire hole (13) is formed on one side through which a main wire (70) having a cathode wire (71) and a two-sided wire (72) is inserted from the outside to the inside; A lower support guide cylinder frame (20) that is a cylinder mounted on the upper surface of the circular plate body (11) of the lower rubber filling member (10), with the upper end open, and front and rear vertical guide grooves (21, 22) and left and right vertical guide grooves (23, 24) formed on the inner circumference left and right sides and front and rear sides, respectively, which expand upward and downward with a certain width and depth, and a wire passage hole (25) through which a main wire (70) passes is formed on the extension line of the wire hole (13); A negative terminal plate (31) is formed on a circular plate made of metal material that is seated on the upper surface of the lower support guide cylindrical frame (20), having a central through hole (31c) on the central side and a square through hole (31b) on the left side, and a negative terminal (31a) formed on the right bottom side that protrudes downward and has a wire hole (31aa) at the bottom end to which the negative wire (71) of the main wire (70) is fixed. A front and rear vertical negative terminal plate (32, 33) and a left and right vertical negative terminal plate (34, 35) are formed respectively, extending in all directions from the outer circumference of the negative terminal plate (31) and extending vertically downward from the outside of the lower support guide cylindrical frame (20), with a plurality of horizontal negative terminal bolts (32a, 33a) (34a, 35a) protruding horizontally at regular intervals. The negative terminal plate (31) and the above A negative terminal frame (30) having a spring (36) formed therein, which is positioned between the upper surfaces of the lower support guide cylinder frame (20) and springs upward; An insulating silicon plate (40) made of insulating silicon material, which is positioned on the upper surface of the negative terminal plate (31) of the above negative terminal frame (30), and has a through hole (41) formed on the extension line of the central through hole (31c) of the above negative terminal plate (31); A positive terminal plate (51) is formed on a circular plate made of metal material that is seated on the upper surface of the insulating silicon plate (40), having a central hole (51b) on the central side and a positive terminal (51a) formed on the lower left side that protrudes downward and has a wire hole (51aa) formed at the lower end to which the positive wire (72) of the main wire (70) is fixed. A plurality of horizontal positive terminal bolts (52a, 53a) (54a, 55a) are each horizontally protruded at regular intervals, extending in all directions from the outer periphery of the positive terminal plate (51) and extending vertically downward while maintaining a certain distance from other parts that do not overlap with the front and rear vertical negative terminal brackets (32, 33) and left and right vertical negative terminal brackets (34, 35) of the negative terminal frame (30) outside the lower support guide cylinder frame (20). A positive terminal frame (50) in which front and rear vertical positive terminal blocks (52, 53) and left and right vertical positive terminal blocks (54, 55) are respectively formed; and A circular plate (61) is formed on the upper part of the positive terminal frame (50) and is an insulated tube body with an open bottom, having a lower fixing bolt (61a) made of synthetic resin material that protrudes directly downward from the center of the bottom surface and is fixed by a nut (61b) made of synthetic resin material through the center hole (51b) of the positive terminal frame (50), the through hole (41) of the insulating silicone plate (40), and the center through hole (31c) of the negative terminal frame (30). On the upper surface of the circular plate (61), an upper support rubber plate (62) made of rubber material is formed to be in close contact with the bottom surface of the inner bottom layer (90). The outer circumference of the tube body extending directly downward from the outer end of the circular plate (61) is located on the outer surface of the lower support guide tube frame (20), and a plurality of recesses are formed on the outer circumference, and the negative terminal frame (30) A front-rear side vertical cathode terminal zone (32, 33) and a left-right side vertical cathode terminal zone (34, 35) are respectively positioned in a front-rear side cathode terminal zone groove (63, 63a) and a left-right side cathode terminal zone groove (63b, 63c), and a front-rear side positive terminal zone (64, 64a) and a left-right side positive terminal zone groove (64b, 64c) are respectively positioned in a front-rear side vertical positive terminal zone (52, 53) and a left-right side vertical positive terminal zone (54, 55) of the positive terminal frame (50), and an inner tube body (65), which is a tubular body located on the inner surface of the lower support guide cylinder frame (20), is formed on the inner side of the bottom surface of the circular plate (61), extending directly downward while maintaining a certain distance from the outer periphery, and is formed such that the left-right side and the front-rear side are separated at both ends. An electrical wire distributor with improved cushioning and insulation properties used in the interior floor of a multi-unit dwelling, characterized by having an insulating lifting support frame (60) in which left and right guide bars (66, 67) and front and rear guide bars (68, 69) are respectively formed in the left and right vertical guide grooves (21, 22) and front and rear vertical guide grooves (23, 24) of the lower support guide cylinder frame (20) to guide during lifting, and on the lower outer surfaces of the left and right guide bars (66, 67) and front and rear guide bars (68, 69), respectively, catch protrusions (66a, 67a) (68a, 69a) that protrude outwardly and catch.

Description

Electric wire distributor with improved cushioning and insulation for flooring inside apartment houses The present invention relates to an electrical wire distributor with improved cushioning and insulation properties used in the interior floor layer of a multi-unit dwelling. More specifically, the invention relates to an electrical wire distributor with improved cushioning and insulation properties used in the interior floor layer of a multi-unit dwelling, wherein the cathode and anode wires of the main wire wired to the interior floor layer of the multi-unit dwelling can be easily connected to the cathode terminal of the cathode terminal frame and the anode terminal of the anode terminal frame, the structure is simple, resulting in low manufacturing and construction costs and reduced financial burden, the insulation of the cathode terminal frame and the anode terminal frame is further enhanced by the insulating silicone plate and the insulating lifting support frame, and cushioning between the interior floor layer and the slab layer is effectively achieved by the insulating silicone plate, the lower rubber filler, the upper support rubber plate, and the elastic spring. Generally, as electricity is supplied from the power generation site to each consumer via distribution lines, the aforementioned distribution lines continuously form unit sections at regular intervals, and the power lines within these unit sections are connected and branched from one another. In this manner, wires routed into the apartment building through connection and branching processes are routed onto the interior floor slabs or floors of the apartment building to enable the use of lighting and various electrical appliances. In addition, the wires routed through the floor are branched out so that electrical appliances can be used throughout the house. This branching is achieved by connecting other wires to the wires that have entered the interior floor slab. That is, when connecting wires to each other, it is common practice to strip the insulation from the wires, twist the exposed copper wires together, and then wrap them with electrical tape. Alternatively, there is a method of covering the wires with a cap instead of the electrical tape and securing them by crimping the cap. However, these wire connections are constantly exposed to the risk of disconnection caused by external forces generated by pulling the wires, and as time passes, the insulation tape or cap at the connection point ages, causing leakage and short circuits, and there was a problem that this could spread into a large-scale fire accident in the building. To solve these problems, a fixing plate (110) is positioned on the upper surface of the slab layer (10) so as to be installed and fixed in the space between the slab layer (10) and the inner floor layer (20) of a multi-unit dwelling, and has a plurality of connecting pieces (115) protruding from the outer surface having an anchor hole (113) into which an anchor bolt (111) embedded in the slab layer (10) is inserted, and a plurality of connecting pipes (119) having a spiral groove (118) that is open upward on the outer side of the upper surface, and a central projection (117) protruding from the center of the upper surface; an upper plate (120) is positioned on the lower surface of the inner floor layer (20), and has a plurality of connecting pipes (123) having a fastening groove (121) that is open downward on the outer side of the lower surface, and a connecting projection (125) protruding from the center of the lower surface; and the fixing plate (110) and A plurality of spacing rods (130) are provided with a first bolt portion (131) that is bolted in the forward direction to the spiral groove (118) at the bottom so as to be spaced apart from the top plate (120), and a second bolt portion (133) that is bolted in the reverse direction to the fastening groove (121) at the top; a pair of metal conductive plates (142) are interposed between the fixing plate (110) and the top plate (120) to distribute electricity from the main wire (30) wired to the inner bottom layer (20) to each branch line (40), and a plurality of connection terminals (141) are installed inside, and a protrusion (143) that is inserted between the spacing rods (130) and the spacing rods (130) is provided on the outer side of each connection terminal (141), and on the inner side of the protrusion (143) An electrical branch (140) injection-molded from a synthetic resin material, having a wiring hole (144) through which a main wire (30) or branch wire (40) is fed so as to be connected to a connection terminal (141), and a connecting pipe (146) having an inflow groove (145) protrudingly formed on the upper and lower surfaces; and a connecting hole (151) provided on the inner side that communicates with the wiring hole (144) and through which the main wire (30) or branch wire (40) wired through the wiring hole (144) is bolted to the end of each wiring hole