CN212323365U - Socket capable of wiring and taking electricity quickly - Google Patents

Abstract

The utility model relates to a socket for fast wiring and electricity taking, which comprises three plugs, a power line and socket units, wherein the three plugs are connected with one end of the power line, and the socket units are provided with a plurality of plugs and are all arranged on the power line; each socket unit comprises a socket shell and a power taking mechanism arranged in the socket shell, the socket shell comprises an end cover, a connecting seat and a power taking base, the power taking base is arranged at the lower end of the connecting seat, and the end cover is arranged at the upper end of the connecting seat; the electricity taking mechanism comprises a zero line electricity taking component, a ground wire electricity taking component and a live wire electricity taking component, the zero line electricity taking component comprises a zero line jacket and a zero line electricity taking end, the ground wire electricity taking component comprises a ground wire jacket and a ground wire electricity taking end, the live wire electricity taking component comprises a live wire jacket and a live wire electricity taking end, and the lower ends of the zero line electricity taking end, the ground wire electricity taking end and the live wire electricity taking end all penetrate through a power line and are in contact with an electricity taking base. The utility model discloses have quick wiring and get the electricity, the efficiency of construction is high, gets beneficial effect such as electric stability firm.

Description

Socket capable of wiring and taking electricity quickly

Technical Field

The utility model relates to a socket especially relates to a quick socket of getting electricity of laying wire belongs to supply socket technical field.

Background

Nowadays, with the development of scientific technology, the popularization speed of household appliances is faster and faster. The electric appliance can not be powered on, and can not be powered on by combining a power plug and a socket. When the power plug and the power socket are combined, the circuit is communicated, and the electric appliance works normally.

At present, common power sockets or wiring boards in the market generally adopt a welding or nut tightening connection method to take power, so that the common occasions are power utilization in a line-to-line and board-to-socket mode, in factories, laboratories and outdoor occasions where the sockets need to be installed in batches for power taking, the sockets are mostly installed by adopting a method of connecting branch lines into the sockets after bus input, the construction and installation procedures are complicated, has certain influence on the construction and installation time, and the wiring or branching of the electric wire needs to strip off the insulating layer on the outer layer of the electric wire to connect the exposed wires, then the wiring opening is wound and wrapped by the insulating tape, the wiring mode has the defects of complex operation, time and labor waste, low working efficiency and the like, and in the long-term use process, the insulating tape is easy to age and fall off, the problems of short circuit and the like are easy to cause, and the problems of electric leakage and the like caused by the water vapor permeating through the insulating tape are solved.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a to prior art existence foretell problem, provide a socket of electricity is got in quick wiring, this socket structure is simple and practical, convenient operation, need not peel off the electric wire and just can lay wire fast and get the electricity, the construction installation process is simple, the efficiency of construction is high, can guarantee good electric conductivity to getting the accurate location of electric mechanism moreover, makes the socket installation more stable firm, need not insulating tape envelope curve in addition, uses labour saving and time saving, does not have the ageing scheduling problem that drops of insulating tape.

The purpose of the utility model is mainly realized by the following scheme:

a socket capable of quickly wiring and getting electricity comprises three plugs, a power line and socket units, wherein the three plugs are connected with one end of the power line, and the socket units are provided with a plurality of plugs and are all arranged on the power line; each socket unit comprises a socket shell and a power taking mechanism arranged in the socket shell, the socket shell comprises an end cover, a connecting seat and a power taking base, the power taking base is arranged at the lower end of the connecting seat, and the end cover is arranged at the upper end of the connecting seat; the electricity taking mechanism comprises a zero line electricity taking component, a ground wire electricity taking component and a live wire electricity taking component, the zero line electricity taking component comprises a zero line jacket and a zero line electricity taking end, a zero line conducting strip electrically connected with the zero line electricity taking end is arranged on the zero line jacket in an extending mode, the ground wire electricity taking component comprises a ground wire jacket and a ground wire electricity taking end, the ground wire jacket is located above the ground wire electricity taking end, the live wire electricity taking component comprises a live wire jacket and a live wire electricity taking end, a live wire conducting strip electrically connected with the live wire electricity taking end is arranged on the live wire jacket in an extending mode, and the lower ends of the zero line electricity taking end, the ground wire electricity taking end and the live wire electricity taking end penetrate through a power line and are in.

By adopting the technical scheme, the zero line electricity taking component is used for taking electricity for the zero line, the live wire electricity taking component is used for taking electricity for the live wire, and the ground wire electricity taking component is used for taking electricity for the ground wire; during installation, the zero line electricity taking component, the ground wire electricity taking component and the live wire electricity taking component are provided with a zero line electricity taking end, a ground wire electricity taking end and a live wire electricity taking end, which pierce and abut against a power line on the electricity taking base, wiring and electricity taking can be rapidly carried out without peeling off the electric wire, and the construction and installation process is simple and high in construction efficiency.

Preferably, the cross section of the power line is oval, the power line comprises three parallel lines of zero line wire cores, ground wire cores and live wire cores, the outer sides of the zero line wire cores, the ground wire cores and the live wire cores are provided with insulating layers and anti-aging protective layers wrapped on the outer sides of the insulating layers, and the zero line wire cores, the ground wire cores and the live wire cores are formed by stranding multiple strands of thin copper wires with the diameter of 0.2-0.6 mm.

Through adopting above-mentioned technical scheme, the insulating layer is the ethylene propylene rubber insulating layer, and the ageing resistance protective layer is chlorosulfonated polyethylene protective layer, can play insulation protection's effect to the inside sinle silk of power cord.

Preferably, the end cover is of a cylindrical structure, a cavity is formed in the end cover, and the lower end of the end cover is provided with an opening; the end cover is internally provided with three arrangement grooves, the zero line jacket, the ground wire jacket and the fire wire jacket are fixedly arranged in the arrangement grooves, and the zero line electricity taking component, the ground wire electricity taking component and the fire wire electricity taking component are not in contact with each other; the outer wall of the end cover is uniformly provided with a plurality of first buckling pieces along the axial direction of the end cover, and each first buckling piece comprises a connecting clamping head and a barb arranged at the free end of the connecting clamping head; the upper surface of the end cover is provided with three socket holes which correspond to and are communicated with the placing groove, and three plugs are inserted into the zero line jacket, the ground wire jacket and the fire wire jacket through the socket holes.

By adopting the technical scheme, the arrangement groove is used for placing and fixing the zero line jacket, the ground wire jacket and the fire wire jacket, so that the socket is ensured to stably and firmly take electricity in the installation and use process, and the zero line electricity taking component, the ground wire electricity taking component and the fire wire electricity taking component are ensured to be not contacted with each other, thereby avoiding the short circuit phenomenon; the first buckling piece is used for buckling the end cover on the connecting seat; the upper surface of the end cover is provided with three socket holes which correspond to and are communicated with the placing groove, and the three-plug is inserted into the zero line jacket, the ground wire jacket and the fire wire jacket through the socket holes.

Preferably, the electricity taking base is a cylindrical plate, a first limiting groove is formed in the upper end of the electricity taking base along the length direction of the power line, the first limiting groove is matched with the outer wall of the power line, four second buckling pieces are evenly arranged on the electricity taking base along the axial direction of the electricity taking base, the four second buckling pieces are symmetrically distributed on two sides of the first limiting groove, each second buckling piece is an inverted U-shaped elastic piece, one end of each second buckling piece is fixedly connected with the electricity taking base, and a clamping notch is formed in the free end of each second buckling piece.

Through adopting above-mentioned technical scheme, first spacing groove is used for placing the power cord, and the second buckling piece is used for getting the electricity base lock on the connecting seat.

Preferably, the connecting seat is of a cylindrical structure, a cavity is formed in the connecting seat, the upper end and the lower end of the cavity are open, a stop block is arranged on the upper edge of the inner wall of the connecting seat in an inward extending mode, when the end cover is installed on the connecting seat, the barb on the first buckling piece extends into the lower end of the stop block and is connected with the stop block in a clamped mode, four clamping blocks corresponding to the second buckling piece are arranged on the lower portion of the inner wall of the connecting seat, when the electricity taking base is installed below the connecting seat, the clamping notch on the second buckling piece extends into the upper end of the clamping block and is connected with the clamping block in a clamped mode, four fixing blocks preventing the end cover from rotating relative to the connecting seat are further arranged on.

By adopting the technical scheme, when the end cover is arranged on the connecting seat, the end cover is pressed in the same direction as the three plug-in plugs according to the socket holes, the barbs on the first buckling pieces stretch into the lower ends of the stop blocks and are clamped with the stop blocks, in addition, four fixing blocks are also arranged on the inner wall of the connecting seat, and the fixing blocks are abutted against the side wall of the connecting chuck of the first buckling pieces, so that the influence of the rotation of the end cover on the electricity taking effect is avoided; when the electricity taking base is installed on the connecting seat, the electricity taking base is buckled on the connecting seat according to the positions corresponding to the first limiting groove and the second limiting groove, and the clamping notch on the second clamping piece extends into the upper end of the clamping block and is clamped with the clamping block.

Preferably, the zero line electricity taking end is of a structure with a cross section in a shape of 'hui', two opposite edges of the zero line electricity taking end are respectively provided with a first electricity taking felting needle which is bent inwards and the bottom of the first electricity taking felting needle is in a V shape, the lower parts of the other two opposite edges of the zero line electricity taking end are respectively provided with an inverted U-shaped first clamping groove, and edges of the first electricity taking felting needle and the first clamping grooves are respectively provided with a cutting edge; the zero line jacket is a U-shaped jacket, and first clamping parts which are inwards tightened and elastically pressed on the three-plug are symmetrically arranged on two sides of the opening end of the zero line jacket.

By adopting the technical scheme, the purpose of selecting the zero line electricity taking end with the 'return' type structure is to enhance the structural stability of the zero line electricity taking part, so that the zero line electricity taking part is not easy to deform when penetrating through a power line, and the safety and the firmness of the socket are improved; the zero line jacket adopts a U-shaped jacket, and the two sides of the U-shaped jacket symmetrically clamp the insertion pieces of the three-insertion plug, so that the zero line jacket is firmer and more reliable; the first clamping groove can guarantee that the zero line electricity taking end smoothly clamps the zero line in the pressing process, and the cutting edge of the first electricity taking puncture needle punctures the anti-aging protective layer and the insulating layer of the zero line, so that the zero line is cut into the inside of the zero line under the action of pressure and penetrates through the power line.

Preferably, the ground wire jacket is a U-shaped jacket, the two sides of the open end of the ground wire jacket are symmetrically provided with second clamping portions which are inwardly tightened and elastically pressed against the three-plug, the two sides of the transverse plate of the ground wire jacket adjacent to the second clamping portions extend downwards to form the ground wire electricity taking end, the lower portion of the ground wire electricity taking end is provided with inverted U-shaped electricity taking grooves, and the edges of the electricity taking grooves are provided with cutting edges.

By adopting the technical scheme, the ground wire jacket adopts the U-shaped jacket, and the two sides of the U-shaped jacket symmetrically clamp the inserting pieces of the three-plug, so that the ground wire jacket is firmer and more reliable; the electricity taking groove can ensure that the ground wire electricity taking end is smoothly clamped and cut into the zero line in the pressing process.

Preferably, the cross section of the live wire electricity taking end is of a 'hui' structure, two opposite edges of the live wire electricity taking end are respectively provided with a second electricity taking puncture needle which is bent inwards and the bottom of the second electricity taking puncture needle is in a V shape, the lower parts of the other two opposite edges of the live wire electricity taking end are respectively provided with an inverted U-shaped second clamping groove, and the edges of the second electricity taking puncture needle and the second clamping grooves are respectively provided with a cutting edge; the fire wire jacket is a U-shaped jacket, and third clamping parts which are inwards tightened and elastically pressed on the three-plug are symmetrically arranged on two sides of the opening end of the fire wire jacket.

By adopting the technical scheme, the purpose of selecting the firing wire electricity taking end with the 'return' type structure is to enhance the structural stability of the firing wire electricity taking part, so that the firing wire electricity taking part is not easy to deform when penetrating through a power line, and the safety and the firmness of the socket are improved; the firing line jacket adopts a U-shaped jacket, and the two sides of the jacket symmetrically clamp the inserting pieces of the three-inserting plug, so that the three-inserting plug is firmer and more reliable; the second joint groove can guarantee that the live wire power taking end smoothly clamps the live wire in the pressing process, and the cutting edge of the second power taking puncture needle punctures the anti-aging protective layer and the insulating layer of the live wire and then cuts into the inside of the live wire under the action of pressure and penetrates through the power line.

Preferably, the zero line electricity taking component, the ground line electricity taking component and the live line electricity taking component are integrally punched and bent through copper sheets.

Through adopting above-mentioned technical scheme, zero line gets electric parts, ground wire and gets electric parts and live wire and get the electric parts and all pass through the integrative punching press of copper sheet and buckle the shaping, and intensity is good, and the shaping is convenient, and electric conductivity is good.

Preferably, the end cover, the connecting seat and the electricity taking base are made of plastic materials, and spiral grains are arranged on the upper portion of the outer wall of the end cover.

Through adopting above-mentioned technical scheme, guaranteed the insulating effect of socket, and the outer wall upper portion of end cover is equipped with the spiral line, and the operation of being convenient for makes things convenient for operating personnel to lock the end cover on the connecting seat.

Therefore, the utility model discloses possess following advantage:

(1) the utility model has simple and practical structure, convenient operation, simple construction and installation procedures and high construction efficiency, and can quickly perform wiring and electricity taking without stripping wires;

(2) the utility model does not need the insulated rubberized fabric to wrap the wire, saves time and labor when in use, does not have the problems of aging and falling of the insulated rubberized fabric and the like, and does not have the problems of short circuit and electric leakage caused by joints;

(3) the utility model discloses be equipped with the fixed block in the connecting seat, can carry out accurate location to getting electric mechanism, guarantee the good electric conductivity of socket, make the socket installation more stable firm, use safelyr.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the exploded structure of the present invention;

fig. 3 is a schematic structural view of the end cap of the present invention;

fig. 4 is another angle structure diagram of the end cap of the present invention;

fig. 5 is a schematic structural view of the connecting seat of the present invention;

fig. 6 is a top view of the connecting seat of the present invention;

fig. 7 is a schematic structural view of the power-taking base of the present invention;

fig. 8 is a top view of the power-taking base of the present invention;

fig. 9 is a schematic structural view of the power taking mechanism and the end cover after installation;

fig. 10 is a schematic view of the dispersing structure of the electricity taking mechanism and the end cap of the present invention;

fig. 11 is a schematic structural view of the zero line electricity-taking component of the present invention;

fig. 12 is another angle structure diagram of the zero line electricity-taking component of the present invention;

fig. 13 is a schematic structural view of the ground wire electricity-taking component of the present invention;

fig. 14 is a schematic structural view of the live wire electricity-taking component of the present invention;

fig. 15 is a schematic structural diagram of the power cord of the present invention;

illustration of the drawings: 1-three-plug, 2-power line, 3-socket unit, 4-socket shell, 5-electricity taking mechanism, 6-end cover, 7-connecting seat, 8-electricity taking base, 9-zero line electricity taking component, 10-ground line electricity taking component, 11-live line electricity taking component, 12-zero line jacket, 13-zero line electricity taking end, 14-zero line conducting strip, 15-ground line jacket, 16-ground line electricity taking end, 17-live line jacket, 18-live line electricity taking end, 19-live line conducting strip, 20-zero line core, 21-ground line core, 22-live line core, 23-insulating layer, 24-anti-aging protective layer, 25-placement groove, 26-first buckling component, 27-connecting chuck and 28-barb, 29-socket hole, 30-first limiting groove, 31-second buckling piece, 32-clamping gap, 33-stop block, 34-clamping block, 35-fixing block, 36-second limiting groove, 37-first electricity-getting needle, 38-first clamping groove, 39-first clamping part, 40-second clamping part, 41-electricity-getting groove, 42-second electricity-getting needle, 43-second clamping groove, 44-third clamping part and 45-spiral line.

Detailed Description

The technical solution of the present invention is further specifically described below by way of specific embodiments and with reference to the accompanying drawings. It is to be understood that the practice of the present invention is not limited to the following examples, and that any modifications and/or changes in form made to the present invention are intended to fall within the scope of the present invention.

In the utility model, all parts and percentages are weight units, and the adopted equipment, raw materials and the like can be purchased from the market or commonly used in the field if not specified. The methods in the following examples are conventional in the art unless otherwise specified. The components or devices in the following examples are, unless otherwise specified, standard parts or parts known to those skilled in the art, the structure and principle of which are known to those skilled in the art through technical manuals or through routine experimentation.

As shown in fig. 1, the utility model provides a technical solution, a fast wiring and electricity-taking socket is composed of a three-plug 1, a power line 2 and a socket unit 3; three plug 1 is connected with the one end of power cord 2, and socket unit 3 is equipped with a plurality of, and all installs on power cord 2, and socket unit 3 is equipped with threely in this embodiment, and evenly distributed is on power cord 2.

As shown in fig. 15, the cross section of the power cord 2 is oval, the power cord 2 is composed of three parallel rows of a zero line core 20, a ground line core 21 and a live line core 22, an insulating layer 23 and an anti-aging protective layer 24 wrapped on the outer side of the insulating layer 23 are arranged on the outer sides of the zero line core 20, the ground line core 21 and the live line core 22, and the zero line core 20, the ground line core 21 and the live line core 22 are formed by twisting multiple strands of thin copper wires with the diameter of 0.2-0.6 mm.

As shown in fig. 2, each of the socket units 3 is composed of a socket housing 4 and a power taking mechanism 5 arranged in the socket housing 4, the socket housing 4 is composed of an end cover 6, a connecting seat 7 and a power taking base 8, the end cover 6, the connecting seat 7 and the power taking base 8 are made of plastic materials, the power taking base 8 is installed at the lower end of the connecting seat 7, and the end cover 6 is installed at the upper end of the connecting seat 7; the electricity taking mechanism 5 is composed of a zero line electricity taking component 9, a ground wire electricity taking component 10 and a live wire electricity taking component 11.

As shown in fig. 11 and 12, the neutral wire electricity-taking component 9 is composed of a neutral wire jacket 12 and a neutral wire electricity-taking end 13, and a neutral wire conducting strip 14 electrically connected with the neutral wire electricity-taking end 13 is extended from the neutral wire jacket 12; the zero line electricity taking end 13 is of a structure with a cross section in a 'return' shape, wherein two opposite edges are respectively provided with a first electricity taking puncture needle 37 which is bent inwards and has a V-shaped bottom, the lower parts of the other two opposite edges of the zero line electricity taking end 13 are respectively provided with an inverted U-shaped first clamping groove 38, the width of the first clamping groove 38 is 90% of the diameter of the zero line wire core 20 in the embodiment, and the edges of the first electricity taking puncture needle 37 and the first clamping groove 38 are both provided with cutting edges; the neutral wire jacket 12 is a U-shaped jacket, and first clamping portions 39 which are inwardly tightened and elastically pressed against the three-pin plug 1 are symmetrically arranged on both sides of the open end of the neutral wire jacket 12.

As shown in fig. 13, the ground wire electricity-taking component 10 is composed of a ground wire jacket 15 and a ground wire electricity-taking end 16, wherein the ground wire jacket 15 is located above the ground wire electricity-taking end 16; the ground wire jacket 15 is a U-shaped jacket, the two sides of the open end of the ground wire jacket 15 are symmetrically provided with second clamping portions 40 which are inwardly tightened and elastically pressed on the three-plug 1, the two sides of the transverse plate of the ground wire jacket 15 adjacent to the second clamping portions 40 extend downwards to form a ground wire electricity taking end 16, the lower portion of the ground wire electricity taking end 16 is provided with an inverted U-shaped electricity taking groove 41, the edge of the electricity taking groove 41 is provided with a cutting edge, and the width of the electricity taking groove 41 in the embodiment is 70% of the diameter of the ground wire core 21.

As shown in fig. 14, the live wire electricity taking part 11 is composed of a live wire jacket 17 and a live wire electricity taking end 18, and a live wire conducting strip 19 electrically connected with the live wire electricity taking end 18 is extended from the live wire jacket 17; the cross section of the live wire electricity taking end 18 is of a 'return' type structure, wherein two opposite edges are respectively provided with a second electricity taking puncture needle 42 which is bent inwards and has a V-shaped bottom, the lower parts of the other two opposite edges of the live wire electricity taking end 18 are respectively provided with an inverted U-shaped second clamping groove 43, the width of the second clamping groove 43 is 90% of the diameter of the live wire core 22 in the embodiment, and the edges of the second electricity taking puncture needle 42 and the second clamping groove 43 are respectively provided with a cutting edge; the firing cable jacket 17 is a U-shaped jacket, and the two sides of the open end of the firing cable jacket 17 are symmetrically provided with third clamping parts 44 which are inwardly tightened and elastically pressed against the three-pin plug 1.

The lower ends of the zero line electricity taking end 13, the ground line electricity taking end 16 and the live line electricity taking end 18 penetrate through the power line 2 and are in contact with the electricity taking base 8; and the zero line electricity taking component 9, the ground wire electricity taking component 10 and the live wire electricity taking component 11 are integrally punched and bent through copper sheets.

As shown in fig. 3 and 4, the end cover 6 is a cylindrical structure, a cavity is arranged in the end cover 6, the lower end of the cavity is open, and the upper part of the outer wall of the end cover 6 is provided with a spiral line 45; as shown in fig. 9 and 10, three placing grooves 25 are arranged inside the end cover 6, the zero line jacket 12, the ground line jacket 15 and the live line jacket 17 are all fixedly installed in the placing grooves 25, and the zero line electricity taking component 9, the ground line electricity taking component 10 and the live line electricity taking component 11 are not in contact with each other; a plurality of first fasteners 26 are uniformly arranged on the outer wall of the end cover 6 along the axial direction of the end cover, and each first fastener 26 consists of a connecting clamping head 27 and a barb 28 arranged at the free end of the connecting clamping head 27; the upper surface of the end cover 6 is provided with three socket holes 29 corresponding to and communicated with the placing grooves 25, and the three-plug 1 is inserted into the zero wire jacket 12, the ground wire jacket 15 and the live wire jacket 17 through the socket holes 29.

As shown in fig. 5 and 6, the power taking base 8 is a cylindrical plate, a first limiting groove 30 is formed in the upper end of the power taking base 8 along the length direction of the power line 2, the first limiting groove 30 is matched with the outer wall of the power line 2, four second fastening pieces 31 are evenly arranged on the power taking base 8 along the axial direction of the power line, the four second fastening pieces 31 are symmetrically distributed on two sides of the first limiting groove 30, each second fastening piece 31 is an inverted U-shaped elastic sheet, one end of each second fastening piece 31 is fixedly connected with the power taking base 8, and a clamping notch 32 is formed in the free end of each second fastening piece 31.

As shown in fig. 7 and 8, the connecting seat 7 is a cylindrical structure, a cavity is formed in the connecting seat 7, the upper end and the lower end of the cavity are open, a stopper 33 is arranged on the upper edge of the inner wall of the connecting seat 7 in an inward extending manner, when the end cover 6 is installed on the connecting seat 7, the barb 28 on the first fastening piece 26 extends into the lower end of the stopper 33 and is clamped with the stopper 33, four clamping blocks 34 corresponding to the second fastening piece 31 are arranged on the lower portion of the inner wall of the connecting seat 7, when the electricity-taking base 8 is installed below the connecting seat 7, the clamping notch 32 on the second fastening piece 31 extends into the upper end of the clamping block 34 and is clamped with the clamping block 34, four fixing blocks 35 for preventing the end cover 6 from rotating relative to the connecting seat 7 are further arranged on the inner wall of the connecting seat 7.

The utility model discloses a socket of electricity is got in quick wiring is when using, at first get electric part 9 with the zero line, the ground wire is got electric part 10 and live wire and is got electric part 11's zero line and press from both sides cover 12, ground wire presss from both sides cover 15 and live wire and presss from both sides cover 17 fixed mounting in installation groove 25, then press end cover 6 on connecting seat 7 with three plug 1 syntropy according to socket hole 29, barb 28 on the first buckling piece 26 stretches into dog 33 lower extreme and with dog 33 joint, the fixed block 35 of connecting seat 7 inner wall is contradicted with the lateral wall of being connected dop 27 of first buckling piece 26 in addition, avoid end cover 6 to rotate, will get electric base 8 lock on connecting seat 7 according to the position that first spacing groove 30 and second spacing groove 36 correspond at last, joint breach 32 on the second buckling piece 31 stretches into joint piece 34 upper end and with joint piece 34 joint, accomplish the installation. When the zero line electricity taking component 9, the ground line electricity taking component 10 and the live line electricity taking component 11 are installed in the embodiment, the zero line electricity taking component, the ground line electricity taking component and the live line electricity taking component should be staggered in the extending direction of the electric wire, and the distance between the three electricity taking components needs to meet the requirements of minimum electric clearance and creepage distance.

The utility model has the advantages of simple and practical structure, convenient operation need not peel off the electric wire and just can lay wire fast and get the electricity, and the construction installation process is simple, and the efficiency of construction is high, can accurate location moreover, guarantees good electric conductivity, makes the socket installation more stable firm, need not the insulating tape envelope curve in addition, uses labour saving and time saving, does not have the ageing scheduling problem that drops of insulating tape, and the practicality is strong.

It should be understood that this example is for illustrative purposes only and is not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a socket of electricity is got to quick wiring, includes three plug (1), power cord (2) and socket unit (3), its characterized in that: the three-plug (1) is connected with one end of the power line (2), and a plurality of socket units (3) are arranged and are all installed on the power line (2); each socket unit (3) comprises a socket shell (4) and a power taking mechanism (5) arranged in the socket shell (4), the socket shell (4) comprises an end cover (6), a connecting seat (7) and a power taking base (8), the power taking base (8) is installed at the lower end of the connecting seat (7), and the end cover (6) is installed at the upper end of the connecting seat (7); the electricity taking mechanism (5) comprises a zero line electricity taking component (9), a ground wire electricity taking component (10) and a live wire electricity taking component (11), the zero line electricity taking component (9) comprises a zero line jacket (12) and a zero line electricity taking end (13), a zero line conducting strip (14) electrically connected with the zero line electricity taking end (13) is arranged on the zero line jacket (12) in an extending way, the ground wire electricity taking component (10) comprises a ground wire jacket (15) and a ground wire electricity taking end (16), the ground wire jacket (15) is positioned above the ground wire electricity taking end (16), the live wire electricity taking component (11) comprises a live wire jacket (17) and a live wire electricity taking end (18), a live wire conducting strip (19) electrically connected with the live wire electricity taking end (18) is arranged on the live wire jacket (17) in an extending way, the lower ends of the zero line electricity taking end (13), the ground line electricity taking end (16) and the live line electricity taking end (18) penetrate through the power line (2) and are in contact with the electricity taking base (8).

2. The socket for rapidly wiring and taking electricity as claimed in claim 1, wherein: the cross section of power cord (2) is oval-shaped, and power cord (2) include three rows of parallel arrangement's zero line sinle silk (20), ground wire sinle silk (21) and live wire sinle silk (22), the outside of zero line sinle silk (20), ground wire sinle silk (21) and live wire sinle silk (22) is equipped with insulating layer (23) and wraps up ageing resistance protective layer (24) in insulating layer (23) outside, and zero line sinle silk (20), ground wire sinle silk (21) and live wire sinle silk (22) are formed by the thin copper wire transposition of stranded 0.2-0.6mm of diameter.

3. The socket for rapidly wiring and taking electricity as claimed in claim 2, wherein: the end cover (6) is of a cylindrical structure, a cavity is formed in the end cover (6), and the lower end of the end cover is open; three placing grooves (25) are formed in the end cover (6), the zero line jacket (12), the ground wire jacket (15) and the fire wire jacket (17) are fixedly arranged in the placing grooves (25), and the zero line electricity taking component (9), the ground wire electricity taking component (10) and the fire wire electricity taking component (11) are not in contact with each other; the outer wall of the end cover (6) is uniformly provided with a plurality of first buckling pieces (26) along the axial direction of the end cover, and each first buckling piece (26) comprises a connecting clamping head (27) and a barb (28) arranged at the free end of the connecting clamping head (27); the upper surface of the end cover (6) is provided with three socket holes (29) which correspond to and are communicated with the placing groove (25), and the three-plug (1) is inserted into the zero line jacket (12), the ground wire jacket (15) and the live wire jacket (17) through the socket holes (29).

4. The socket for rapidly wiring and taking electricity as claimed in claim 3, wherein: get electric base (8) and be cylindrical plate, and get the length direction of electric base (8) upper end along power cord (2) and be provided with first spacing groove (30), first spacing groove (30) and the outer wall phase-match of power cord (2), get and evenly be provided with four second buckling pieces (31) along its axial on electric base (8), four second buckling piece (31) symmetric distribution is in first spacing groove (30) both sides, and second buckling piece (31) are the type of falling U elasticity piece, the one end of second buckling piece (31) with get electric base (8) fixed connection, open on the free end of second buckling piece (31) and have joint breach (32).

5. The socket for rapidly wiring and taking electricity as claimed in claim 4, wherein: the connecting seat (7) is of a cylindrical structure, a cavity is arranged in the connecting seat (7), the upper end and the lower end of the connecting seat are both provided with openings, a stop block (33) is arranged on the upper edge of the inner wall of the connecting seat (7) in an inward extending manner, when the end cover (6) is arranged on the connecting seat (7), the barb (28) on the first buckling piece (26) extends into the lower end of the stop block (33) and is clamped with the stop block (33), the lower part of the inner wall of the connecting seat (7) is provided with four clamping blocks (34) corresponding to the second buckling piece (31), when the electricity taking base (8) is arranged below the connecting seat (7), joint breach (32) on second buckle spare (31) stretch into joint piece (34) upper end and with joint piece (34) joint, the inner wall of connecting seat (7) still is equipped with four and prevents end cover (6) for connecting seat (7) pivoted fixed block (35), the bottom of connecting seat (7) be equipped with first spacing groove (30) cooperation second spacing groove (36) of using.

6. The socket for rapidly wiring and taking electricity as claimed in claim 1, wherein: the zero line electricity taking end (13) is of a structure with a cross section in a 'return' shape, two opposite edges of the zero line electricity taking end are respectively provided with a first electricity taking puncture needle (37) which is bent inwards and the bottom of the first electricity taking puncture needle is in a V shape, the lower parts of the other two opposite edges of the zero line electricity taking end (13) are respectively provided with an inverted U-shaped first clamping groove (38), and edges of the first electricity taking puncture needle (37) and the first clamping groove (38) are respectively provided with a cutting edge; the zero line jacket (12) is a U-shaped jacket, and first clamping parts (39) which are inwardly tightened and elastically pressed on the three-plug (1) are symmetrically arranged on two sides of the opening end of the zero line jacket (12).

7. The socket for rapidly wiring and taking electricity as claimed in claim 6, wherein: the ground wire clamping sleeve (15) is a U-shaped sleeve, second clamping parts (40) which are tightened inwards and are elastically pressed on the three-plug (1) are symmetrically arranged on two sides of the opening end of the ground wire clamping sleeve (15), the two sides of the transverse plate of the ground wire clamping sleeve (15), which are adjacent to the second clamping parts (40), extend downwards to form the ground wire electricity taking end (16), inverted U-shaped electricity taking grooves (41) are formed in the lower portion of the ground wire electricity taking end (16), and cutting edges are formed in the edges of the electricity taking grooves (41).

8. The socket for rapidly wiring and taking electricity as claimed in claim 7, wherein: the cross section of the live wire electricity taking end (18) is of a 'return' type structure, two opposite edges of the live wire electricity taking end are respectively provided with a second electricity taking puncture needle (42) which is bent inwards and the bottom of the second electricity taking puncture needle is of a V shape, the lower parts of the other two opposite edges of the live wire electricity taking end (18) are respectively provided with an inverted U-shaped second clamping groove (43), and the edges of the second electricity taking puncture needle (42) and the second clamping groove (43) are respectively provided with a cutting edge; the live wire jacket (17) is a U-shaped jacket, and third clamping parts (44) which are inwards tightened and elastically pressed on the three-plug (1) are symmetrically arranged on two sides of the opening end of the live wire jacket (17).

9. The socket for rapidly wiring and taking electricity as claimed in claim 8, wherein: the zero line electricity taking component (9), the ground wire electricity taking component (10) and the live wire electricity taking component (11) are integrally punched and bent through copper sheets.

10. The socket for rapidly wiring and taking electricity as claimed in claim 1, wherein: the end cover (6), the connecting seat (7) and the electricity taking base (8) are all made of plastic materials, and spiral grains (45) are arranged on the upper portion of the outer wall of the end cover (6).

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