CN110491589B - Reinforced electric wire for multipoint wiring based on bidirectional ring cutting principle - Google Patents

Abstract

The invention discloses a reinforced electric wire for multi-point wiring based on a bidirectional ring cutting principle. The multiple branch point assemblies on the periphery of the built-in through disc on the wire main body are used as distribution carriers of the wire main body during multi-point wiring, the wire main body can form a bevel at the distance between two wire holes, when the surface skin of the wire main body needs to be planed, the built-in side planing blade, the movable crescent edge and the positioning relay edge can be driven to rapidly cut the surfaces at the bevel by only pressing the internal planing assembly and the ring cutting mechanism, the operation is simple and convenient, the cutting precision is high, the damage to internal wire cores can be avoided, and the multi-point wiring power box is suitable for various multi-point wiring power boxes.

Description

Reinforced electric wire for multipoint wiring based on bidirectional ring cutting principle

Technical Field

The invention relates to the field of electric wires, in particular to a reinforced electric wire for multipoint wiring based on a bidirectional ring cutting principle.

Background

The electric wire is indispensable in the daily life power consumption, generally divide into two kinds of single core, multicore, and single core line is most as home decoration uses, not only makes things convenient for the threading, is difficult for disconnected strand moreover, and the multicore line generally is used for the main equipment, can be convenient for install and manage, along with the progress of science and technology, the better family of condition also can adopt the multicore line, and the power switch that the power box of house usefulness also has classification planning mostly carries out the multiple spot by a main line and connects. The prior art on the market has the following problems in the using process:

since the positions of the classification switches of the power boxes of different models are not uniform, the wires cannot be peeled in advance during multi-point wiring, the situation of dislocation is easy to occur, and the point dividers arranged on the wires do not have the peeling function, so that the hands of workers are required to manually cut in a crowded space, the cutting accuracy cannot be guaranteed, the internal wire cores are easy to damage, and optimization is needed, so that the wires with the quick peeling function are urgently needed to be invented.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a reinforced electric wire for multipoint wiring based on a bidirectional circular cutting principle, so as to solve the problems that the positions of classification switches of electric power boxes of different types are not uniform, the electric wire cannot be peeled in advance during multipoint wiring, the situation of dislocation is easy to occur, a point divider arranged on the electric wire does not have the function of peeling, the hand of a worker is required to manually cut in a crowded space, the cutting accuracy cannot be guaranteed, an internal wire core is easy to damage, and optimization is needed, so that the electric wire with the function of quick peeling is urgently needed to be invented.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multiple spot wiring is with reinforceing electric wire based on two-way circular cutting principle, its structure includes the branch point subassembly, the fixed orifices, built-in dish, the electric wire hole, the electric wire main part of wearing, the branch point subassembly is equipped with more than two, and even equidistance is installed in the built-in dish outside of wearing, the electric wire hole is equipped with more than two and through connection inside the branch point subassembly, built-in dish middle part of wearing is equipped with the fixed orifices to structure as an organic whole, electric wire main part through connection is inside the electric wire hole, built-in dish inside of wearing is connected with the.

As the further optimization of this technical scheme, the branch point subassembly is including inlaying the knot foot young, the heavy platform of concatenation, circle cutting mechanism, the interior subassembly of digging, the branch point subassembly is inside to be equipped with to inlay the knot foot young, and through connection in the middle part, interior plane subassembly embedding is installed in branch point subassembly front end middle part, and is connected with the young end of inlaying the knot foot, the young head end of inlaying the knot foot is buckled mutually with built-in disc of wearing inside, circle cutting mechanism installs inside the branch point subassembly through the embedding mode, the branch point subassembly is connected with electric wire main part registrate, the inboard one end of branch point subassembly is located to the heavy platform of concatenation, and structure as an organic whole.

As the further optimization of the technical scheme, the internal planing assembly comprises a reset press button, a built-in press shaft, an autorotation assembly and a side planing blade, the reset press button is installed at the top of the built-in press shaft in a sleeving mode, the built-in press shaft is connected inside the autorotation assembly in a penetrating mode, the side planing blade is arranged on one side of the autorotation assembly and is connected with the electric wire main body, and the bottom of the autorotation assembly is connected with the embedded button pin.

As the further optimization of this technical scheme, the rotation subassembly is including driving the commentaries on classics helical orbit, the drag reduction ball, the base resets, the matching groove, the sliding pin, the sleeve inner chamber is located to the matching groove, and be the integral structure, the sliding pin is equipped with two, and install in built-in last item both sides through the welding mode, drive the commentaries on classics helical orbit and the looks lock of sliding pin, the base that resets is located the sleeve lower extreme, reset base upper end middle part is located to the matching groove, and be the integral structure, the drag reduction ball is equipped with two, and install in reset base top both ends, the sleeve is connected with built-in last item registrates, sleeve bottom and drag reduction ball.

As the further optimization of this technical scheme, the ring cutting mechanism includes movable crescent moon sword, ring cutting inlays the axle, the preformed hole, the sword is relayed in the location is equipped with two, and install in branch point subassembly middle part both ends through the lock mode, the branch point subassembly left and right sides is equipped with the preformed hole, and be the integral structure, the ring cutting inlays the axle and is equipped with two, and inside the through connection preformed hole respectively, the sword is relayed in the location is equipped with two, and install in ring cutting inlays the axle end, movable crescent moon sword, the sword is relayed in the location is connected with the electric wire main part respectively.

As the further optimization of the technical scheme, the tail end of the sliding pin is provided with the rotatable sliding ball which is used for increasing the sliding property of the spiral track and driving the spiral track to rotate, reducing the resistance and improving the transmission performance.

As the further optimization of this technical scheme, the inside rotary spring that is equipped with of matching inslot can drive the sleeve through the elasticity of rotation direction and carry out the autogiration and reset.

As the further optimization of the technical scheme, the ring cutting embedded shaft and the inner side of the reserved hole are both made of positive magnet materials, the rebound effect can be realized through the principle that the positive and positive repulsion of magnetic poles, and the ring cutting embedded shaft can be ensured to automatically return when the finger pressure is released.

Advantageous effects

The invention relates to a reinforced electric wire for multi-point wiring based on a bidirectional ring cutting principle, the middle part of a built-in through disc is positioned in an electric cabinet through a fixing hole, a plurality of branch point components are distributed on the periphery of the built-in through disc, a wire main body penetrates through the wire holes so as to surround the whole built-in through disc and the insides of the branch point components, so that the wire main body is divided into a plurality of sections, each branch point component corresponds to two wire holes, an included angle is formed outside the wire main body, when the wiring position is confirmed, an embedded buckling pin is pried by pressing the built-in planing component, the branch point components fixed on the built-in through disc move, internal parts cut the transverse surface of the skin of the wire main body in the pressing process of the built-in planing component, the built-in planing component drives a built-in pressing shaft to press downwards through a reset pressing button and is meshed with the insides of self-rotation components to rotate, so that side planing blades can move circumferentially, and finally the, the sleeve is used for driving the side planing blade, built-in drive changes helical track and built-in epaxial sliding pin pressure movable fit of pressure and forms the rotation, the base that resets can drive the sleeve through the spring that matches the inslot and resets and rotate, it rises automatically to ensure built-in last pressure axle, the drag reduction ball is the free rotation, can reduce the resistance between sleeve and the base that resets, when the epidermis of the angle department of electric wire main part needs to carry out the circular cutting, only need to inlay the axle with the circular cutting and press into the preformed hole, just can drive movable crescent sword and push into the electric wire main part in the location relay sword, and form circular cutting edge and carry out the circular cutting of epidermis to it, the side direction of electric wire main part has been realized, the hoop is opened and is.

Based on the prior art, the invention can achieve the following advantages after operation:

the distribution carrier of a plurality of minute point subassemblies all around of built-in wear disc in the electric wire main part when multiple spot wiring, can make the electric wire main part form the dog-ear at the distance between two electric wire holes, when needs are opened a plane to the epidermis of electric wire main part, only need press interior plane subassembly and ring cutting mechanism, just can drive built-in side plane blade, movable crescent moon sword, the surface of sword dog-ear department carries out the fly-cutting in the location, it is simple and convenient to operate, not only the precision of cutting is high, can also avoid damaging inside sinle silk, be applicable to the power box of various multiple spot wirings.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a reinforced electric wire for multi-point wiring based on a bidirectional ring cutting principle according to the present invention.

Fig. 2 is a top view of the internal structure of a reinforced electric wire for multi-point connection based on the principle of bidirectional ring cutting.

Fig. 3 is a top view of the internal structure of a reinforced electrical wire for multi-point connection based on the principle of bidirectional ring cutting.

Fig. 4 is a schematic structural view of an inner plane assembly of a reinforced electric wire for multi-point wiring based on a bidirectional ring cutting principle according to the present invention.

Fig. 5 is a side view of the internal structure of the reinforced electrical wire for multi-point wiring according to the present invention.

Fig. 6 is a front view of the internal structure of a reinforced electric wire for multi-point connection according to the present invention.

Reference numerals in the drawings indicate: the point-dividing component-c 1, the fixing hole-c 2, the built-in disc-through-c 3, the wire hole-c 4, the wire body-c 5, the snap-in pin-c 101, the splicing sinking platform-c 102, the ring-cutting mechanism-c 103, the internal-cutting component-c 104, the reset press button-c 1041, the built-in press shaft-c 1042, the self-rotating component-c 1043, the side-cutting blade-c 1044, the driving and rotating spiral track-c 10431, the drag-reducing ball-c 10432, the reset base-c 10433, the matching groove-c 10434, the sliding pin-c 10435, the sleeve-c 10436, the movable crescent edge-c 1031, the ring-cutting and embedding shaft-c 1032, the reserved hole-c 1033 and the positioning relay edge-c 1034.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

The upper and lower, inner and outer, front and rear, and left and right in the present invention are referred to with reference to the orientation in fig. 1.

Examples

Referring to fig. 1 to 6, the present invention provides a reinforced electric wire for multi-point connection based on the bidirectional ring cutting principle, which includes a point dividing assembly c1, two or more fixing holes c2, an internal threading disc c3, an electric wire hole c4, and an electric wire body c5, wherein the point dividing assembly c1 has two or more fixing holes c 6329 installed uniformly and equidistantly on the outer side of the internal threading disc c3, the electric wire hole c4 has two or more fixing holes c2 connected through the inside of the point dividing assembly c1, the internal threading disc c3 has a fixing hole c2 in the middle and is an integrated structure, the electric wire body c5 is connected through the inside of the electric wire hole c4, the internal threading disc c3 is connected to the electric wire body c5, the internal threading disc c3 is positioned in the electric cabinet through the fixing hole c5 in the middle, and a plurality of point dividing assemblies c1 are distributed around the electric wire body c4, thereby surrounding the entire internal threading disc 63 3 and the dividing assembly c 68628 to facilitate multi-point dividing assembly c 5739, each of the point dividing assemblies c1 corresponds to two wire holes c4, so that the wire main body c5 forms an included angle at the outside thereof.

The dividing point component c1 comprises snap-in legs c101, a splicing sinking platform c102, a ring cutting mechanism c103 and an inner planing component c104, the snap-in legs c101 are arranged in the dividing point component c1, and is connected with the middle part in a penetrating way, the inner plane component c104 is embedded and arranged in the middle part of the front end of the branch point component c1, and is connected with the tail end of the embedded buckling leg c101, the head end of the embedded buckling leg c101 is buckled with the inner part of the built-in through disc c3, the ring cutting mechanism c103 is arranged inside a branch point assembly c1 in an embedding way, the branch point assembly c1 is connected with a wire main body c5 in a sleeving way, the splicing sinking platform c102 is arranged at one end of the inner side of the branch point component c1 and is of an integrated structure, the snap-in clip c101 is pried by pressing the inner plane component c104, at this time, the point component c1 fixed on the built-in through disc c3 is moved, and the inner plane component c104 cuts the surface skin of the wire body c5 transversely during the pressing process.

The inner planing assembly c104 comprises a reset press button c1041, a built-in press shaft c1042, a rotation assembly c1043 and a side planing blade c1044, the reset press button c1041 is installed at the top of the built-in press shaft c1042 in a sleeving manner, the built-in press shaft c1042 is connected to the inside of the rotation assembly c1043 in a penetrating manner, the side planing blade c1044 is arranged at one side of the rotation assembly c1043, the side planing blade c1044 is connected with the wire body c5, the bottom of the rotation assembly c1043 is connected with the snap-in pin c101, the inner planing assembly c104 drives the built-in press shaft c1042 to press down through the reset press button c1041 and is meshed with the inside of the rotation assembly c1043 to rotate, so that the side planing blade c1044 can move circumferentially, and finally the surface of the inner side of the bevel end of the wire body c5 is planed.

The rotation assembly c1043 comprises a driving and rotating spiral rail c10431, a drag reduction ball c10432, a reset base c10433, a matching groove c10434, a sliding pin c10435 and a sleeve c10436, the matching groove c10434 is arranged in the inner cavity of the sleeve c10436 and is of an integrated structure, two sliding pins c10435 are arranged and are installed on two sides of the built-in pressure shaft c1042 in a welding mode, the driving and rotating spiral rail c10431 is buckled with the sliding pin c10435, the reset base c10433 is located at the lower end of the sleeve c10436, the matching groove c10434 is arranged in the middle of the upper end of the reset base c10433 and is of an integrated structure, two drag reduction balls c10432 are arranged and are installed at two ends of the top of the reset base c10433, the sleeve 10436 is connected with the built-in pressure shaft c1042 in a sleeving mode, the bottom of the sleeve c10436 is connected with the drag reduction ball c10432 and the matching groove c10434, the sleeve c10436 is used for driving and rotating spiral blade c1044, the built-in rotation with the rotation pin c, the reset base c10433 can drive the sleeve c10436 to reset and rotate through a spring in the matching groove c10434, so that the built-in pressure shaft c1042 is ensured to automatically ascend, the resistance reducing ball c10432 freely rotates, and the resistance between the sleeve c10436 and the reset base c10433 can be reduced.

The ring cutting mechanism c103 comprises two movable crescent blades c1031, two ring cutting embedding shafts c1032, two prepared holes c1033 and two positioning relay blades c1034, the two positioning relay blades c1034 are mounted at two ends of the middle part of the point dividing component c1 in a buckling mode, the left side and the right side of the point dividing component c1 are provided with the prepared holes c1033 and are of an integrated structure, the two ring cutting embedding shafts c1032 are respectively connected with the inside of the prepared holes c1033 in a penetrating mode, the two positioning relay blades c1034 are mounted at the tail ends of the ring cutting embedding shafts c1032, the movable crescent blades c1031 and the two positioning relay blades c1034 are respectively connected with the electric wire main body c5, when the epidermis at the folding angle of the electric wire main body c5 needs to be circularly cut, the movable crescent blades c1031 can be driven to push the electric wire main body c5 into the positioning relay blades c1034 to form a circular blade to circularly cut the epidermis at the position of the electric wire main body c 10338, and the lateral side part of the electric wire 5 c5 can be cut by the movable crescent blades c1031, And (4) annular planning relieving.

The tail end of the sliding pin c10435 is provided with a rotatable sliding ball for increasing the sliding property of the driving spiral track c10431, reducing resistance and improving transmission performance.

The matching groove c10434 is internally provided with a rotary spring, and the sleeve c10436 can be driven to automatically rotate and reset through the elasticity of the rotation direction.

The inner sides of the ring-cutting embedded shaft c1032 and the reserved hole c1033 are made of positive magnets, the rebound effect can be realized through the principle that positive and negative poles repel, and the ring-cutting embedded shaft c1032 can automatically return when the finger pressure is relieved.

The principle of the invention is as follows: the middle of the built-in disc c3 is positioned in the electric cabinet through a fixing hole c2, and a plurality of branch point assemblies c1 are distributed around the periphery, a wire body c5 is penetrated through a wire hole c4 so as to surround the whole built-in disc c3 and the inside of the branch point assembly c1, so that the wire body c5 is divided into a plurality of sections, each branch point assembly c1 corresponds to two wire holes c4, so that the wire body c5 forms an included angle on the outside thereof, when the rear wiring position is confirmed, the snap-in pin c101 is pried by pressing the inner plane assembly c104, at this time, the branch point assembly c1 fixed on the built-in disc c3 is moved, the inner plane assembly c104 performs a transverse plane cutting on the skin of the wire body c5 during the pressing-down process, the inner plane assembly c104 drives the built-in pressing shaft c1042 to be pressed down through the reset button c1041 and is engaged with the inside of the rotation assembly c1043, so that the side blade c1044 c can move, and the inner side blade 5 is finally performs a peripheral edge folding process of the wire body c, the sleeve c10436 is used for driving the side planing blade c1044, the built-in driving spiral track c10431 and the sliding pin c10435 on the built-in pressing shaft c1042 are in press fit to form rotation, the reset base c10433 can drive the sleeve c10436 to reset and rotate through a spring in the matching groove c10434, the built-in pressing shaft c1042 is ensured to automatically ascend, the drag reduction ball c10432 freely rotates, resistance between the sleeve c10436 and the reset base c10433 can be reduced, when the skin at the folding angle of the electric wire main body c5 needs to be circularly cut, the movable crescent edge c1031 can be driven to push the electric wire main body c5 into the positioning relay edge c1034 only by pressing the circular cutting embedded shaft c1032 into the reserved hole c1033, the circular cutting edge is formed to circularly cut the skin, and lateral and circumferential planing of the electric wire main body c5 is realized.

The invention solves the problems that the positions of classification switches of power boxes with different types are not uniform, wires cannot be peeled in advance during multi-point wiring, the situation of dislocation is easy to occur, and a point divider arranged on the wires does not have the function of peeling, so that the wires need to be manually cut in a crowded space by hands of workers, the cutting precision cannot be guaranteed, internal wire cores are easy to damage, and optimization is needed.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. A reinforced electric wire for multi-point wiring based on a bidirectional ring cutting principle structurally comprises a branch point component (c 1), a fixing hole (c 2), a built-in through disc (c 3), an electric wire hole (c 4) and an electric wire main body (c 5), and is characterized in that:

the branch point module (c 1) is installed on the outer side of a built-in penetration plate (c 3), the wire hole (c 4) is connected to the inside of the branch point module (c 1), a fixing hole (c 2) is formed in the middle of the built-in penetration plate (c 3), the wire body (c 5) is connected to the inside of the wire hole (c 4), and the inside of the built-in penetration plate (c 3) is connected with the wire body (c 5);

the dividing point component (c 1) comprises snap-fit buckles (c 101), a splicing sinking platform (c 102), a ring cutting mechanism (c 103) and an inner planing component (c 104), wherein the snap-fit buckles (c 101) are arranged in the dividing point component (c 1), the inner planing component (c 104) is installed in the middle of the front end of the dividing point component (c 1), the inner planing component (c 104) is connected with the snap-fit buckles (c 101), the head end of the snap-fit buckles (c 101) with the inner part of the built-in through disc (c 3), the ring cutting mechanism (c 103) is installed in the dividing point component (c 1), the dividing point component (c 1) is connected with the electric wire main body (c 5) in a sleeved mode, and the splicing sinking platform (c 102) is arranged at one end of the inner side of the dividing point component (c 1) and is of an integrated structure;

the inner planer assembly (c 104) comprises a reset press button (c 1041), a built-in press shaft (c 1042), a rotation assembly (c 1043) and a side planer blade (c 1044), the reset press button (c 1041) is installed at the top of the built-in press shaft (c 1042), the built-in press shaft (c 1042) is connected to the inside of the rotation assembly (c 1043), the side planer blade (c 1044) is arranged on one side of the rotation assembly (c 1043), the side planer blade (c 1044) is connected with the wire main body (c 5), and the bottom of the rotation assembly (c 1043) is connected with the embedded buckle pin (c 101).

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