Disclosure of Invention
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a computer network wiring port coupling device, its is including connecting casing, direction subassembly, annular external member, cutting device and twist reverse coupling assembling, wherein, the net twine passageway has been seted up in the connection casing axle center, connect the inside direction subassembly that is provided with guide net twine access passage of casing left end, annular external member parallel arrangement is on the direction subassembly right side, is located to adjust net twine lateral surface radian the right side of annular external member has set gradually thickness measurement subassembly, fixing device one, cutting device, carries out wall thickness measurement, fixed, cutting and gets rid of the net twine overcoat after adjusting, and through being located cutting device right side wall sliding connection's twist reverse coupling assembling rotates separation, winding to intertwine's net twine.
As a preferred technical scheme of the invention, the guide assembly comprises an auxiliary guide part and a connecting sleeve, the connecting sleeve is meshed and connected to a rotating shaft which is fixedly connected with the output end of a vertically arranged motor, the upper end of the auxiliary guide part is hinged and connected with a fixed seat on the left side surface of the connecting sleeve, a third group of auxiliary wheels positioned at the right side of the bottom of the auxiliary guide part are main driving wheels, a driving net wire enters the axis of the connecting shell, and the guide assembly is circumferentially arranged into 12 groups.
As a preferred technical scheme of the invention, the annular external member comprises an annular shell, elastic auxiliary rings and swinging assemblies, wherein gear rings are fixedly sleeved on the outer side wall of the annular shell and are in meshed connection with straight gears fixedly connected with the output end of a rotating motor fixed above the right side of the guide assembly;
and a telescopic hole frame is arranged at the position of the circle center surrounded by the swinging assembly.
As a preferred technical scheme of the invention, the swing assembly comprises a telescopic rod, a swing piece and an arc-shaped swing frame, wherein the output end of the telescopic rod, the bottom end of which is connected and fixed on the inner side wall of the annular shell, is hinged with the swing piece, and the two groups of the swing pieces are symmetrically arranged by taking the telescopic rod as a base line;
the bottom that is located the inside sliding connection's of the bar slide that sets up on the annular housing indulges, the horizontal direction adjusts the pole is installed the movable pulley, the articulated fixed axle of connecting in the movable pulley of arc swing span left end, and its up end right side be close to center department set up the recess with the articulated connection of oscillating piece bottom.
As a preferred technical scheme of the invention, a fixed shaft in one group of sliding wheels is hinged with an arc-shaped swing frame in an adjacent swing assembly, and the inner side surface of the arc-shaped swing frame is provided with a spherical contact element;
and the adjusting wheels are connected through telescopic springs and are in sliding connection with the two groups of arc-shaped slide ways in the swing assembly.
As a preferred technical scheme of the invention, the thickness measuring components are arranged in 6 groups in a circumferential arrangement, and the telescopic devices in each group of the thickness measuring components synchronously push the probes to measure the extending length of the outer sleeve of the net wire, and record and transmit the length to the sensor.
As a preferred technical scheme of the invention, the first fixing device comprises a distance sensor, a telescopic fixing piece and flexible fixing cotton, the telescopic fixing piece receives signals sent by the distance sensor to push the flexible fixing cotton to clamp and fix the mesh wire outer sleeve, 4 groups of the first fixing devices are arranged circumferentially, and the flexible fixing cotton is in an arc-shaped ring block shape.
As a preferred technical scheme of the invention, the cutting device comprises a motor, a lead screw, an I-shaped frame and a cutting assembly, wherein the left end of the lead screw is rotationally connected with a threaded lantern ring sleeved on a fixed shaft vertically arranged in a connecting shaft seat, the right end of the lead screw is fixedly connected with the motor, and an auxiliary sliding rod is also arranged above the lead screw;
And a vertical connecting rod and a bottom flat plate in the H-shaped frame are respectively in sliding connection with an auxiliary sliding rod and a screw rod, wherein the bottom end face of the left side of the bottom flat plate is fixedly connected with a cutting assembly for cutting the outer sleeve of the mesh wire, and the bottom end face of the right side of the bottom flat plate is also fixedly connected with a second fixing device for fixing the outer sleeve of the local mesh wire to be removed.
As a preferred technical scheme of the present invention, the torsion connection assembly comprises a concave housing, a fixed disk, positioning sliding columns and an annular sliding sleeve, wherein the positioning sliding columns are circumferentially arranged on the left side surface of the concave housing near the edge, and the positioning sliding columns are symmetrically arranged on the right side surface of the fixed disk on the right side of the concave housing near the edge;
a circular turntable is arranged on the right side surface in the concave shell, and the axis of the circular turntable is fixedly connected with the output end of a rotating motor fixed in the axis of the fixed disk;
the outer side of the cambered surface of the concave shell is further provided with an annular sliding sleeve, a lifting rod is arranged on the right side face of the annular sliding sleeve, and the bottom end of the lifting rod is fixedly connected with a clamping assembly.
As a preferred technical scheme of the invention, the circular turntable is provided with a slideway in sliding connection with the right side surface of the clamping assembly, wherein the right side inside the clamping assembly is provided with a multi-pyramid-shaped bracket, the network cable is clamped and fixed by telescopic clamping pieces arranged circumferentially on the left side of the clamping assembly, a rotating motor hinged with the vertex of the right end of the multi-pyramid-shaped bracket drives the multi-pyramid-shaped bracket to rotate anticlockwise or clockwise, and the right end of the rotating motor is provided with a return spring block.
Compared with the prior art, the invention provides a computer network wiring port connecting device, which has the following beneficial effects:
1. according to the arrangement structure of the swinging assembly in the annular external member, the external surface of the external network cable jacket with the irregular cambered surface is adjusted, so that the cambered surface of the external network cable jacket becomes smooth, the wall thickness of the external network cable jacket is uniform and in a circular state before the external network cable jacket is subjected to annular cutting, a wire is not easy to be cut by mistake, the spherical contact element is continuously driven to vibrate slightly in a reciprocating mode through the arc swinging frame, the rotation of the integral structure of the annular external member is combined, particularly, the universal ball is further arranged at the end head of the spherical contact element, the friction force between the universal ball and the external surface of the external sleeve is reduced, the smoothness degree of the external sleeve is improved, the wall thickness of the external sleeve is promoted to be in a circular ring shape, the cutting quality of the cutting assembly is enhanced, the automatic operation treatment is realized, and the peeling efficiency of a network cable joint is improved.
2. The invention can not only detect the smoothness degree of the outer surface of the network cable jacket through the thickness measuring component, but also transmit the wall thickness of the outer jacket to the fixing device I and the cutting device, thereby improving the accuracy of the cutting component for cutting the jacket, separating and peeling the initially twisted conductor and mutually matching and twisting the conductor through the twisting connecting component in the other connecting shell through the double-sided connecting structure of the twisting connecting component, reducing the time required for connecting the network wiring port, simultaneously reducing the manual operation, improving the network cable connecting efficiency, thereby avoiding the situation that the network cable jacket is removed by direct strong extrusion like the traditional method, ensuring the balance of the pressure, often causing the surface of the conductor to have scratches or even fractures, and having potential safety hazards.
Detailed Description
Referring to fig. 1, the present invention provides a technical solution: a computer network wiring port connecting device comprises a connecting shell 1, a guide assembly 2, an annular sleeve 3, a cutting device 6 and a torsion connecting assembly 7, wherein a network cable channel is formed in the axis of the connecting shell 1, the guide assembly 2 for guiding a network cable to enter the channel is arranged in the left end of the connecting shell 1, the annular sleeve 3 is arranged on the right side of the guide assembly 2 in parallel, a thickness measuring assembly 4, a fixing device I5 and a cutting device 6 are sequentially arranged on the right side of the annular sleeve 3 positioned at the radian of the outer side surface of the network cable, the adjusted network cable jacket is subjected to wall thickness measurement, fixing, cutting and removal, and the mutually wound network cables are subjected to rotation separation and winding through the torsion connecting assembly 7 in sliding connection with the right side wall of the cutting device 6;
as the best embodiment, the connecting device is formed by splicing two opposite semi-cylindrical structures, and is convenient to disassemble after the net thread is twisted.
In this embodiment, the guide assembly 2 comprises an auxiliary guide 201, a connection sleeve 202, the connecting sleeve 202 is engaged with a rotating shaft which is fixedly connected with the output end of the vertically arranged motor, the upper end of the auxiliary guide 201 is hinged with the left side fixing seat of the connecting sleeve 202, wherein, the third group of auxiliary wheels positioned at the right direction of the bottom of the auxiliary guide 201 is a main driving wheel which drives the network cable to enter the axle center of the connecting shell 1, and the guide components 2 are arranged in 12 groups in a circumferential arrangement, the auxiliary guide members 201 are adjusted to press the surface of the net twine coat by a vertically arranged motor, wherein, as the best embodiment, the surface of the auxiliary wheel as the main driving wheel is provided with a pressure sensor, which is convenient for accurately adjusting the auxiliary guide 201 of the net wires with different thicknesses to be jointed with the surface of the net wires without inaccurate pressure control, so that the surface of the net wires is sunk or loosened.
Referring to fig. 2, in this embodiment, the annular kit 3 includes an annular housing 301, an elastic auxiliary ring 302 and four swing assemblies 303, a gear ring is fixedly sleeved on an outer side wall of the annular housing 301, and is engaged with a spur gear fixedly connected to an output end of a rotating motor fixed above a right side of the guide assembly 2, the elastic auxiliary ring 302 is concentrically arranged inside the annular housing 301, and is arranged in two groups in parallel, and the space between the two groups is provided with the swing assemblies 303 connected to an inner side wall of the annular housing 301, and the four groups are arranged in a circumferential manner;
the telescopic hole frame 304 is arranged at the circle center surrounded by the swinging component 303, the annular shell 301 is driven to rotate through the rotating motor, so that the swinging component 303 is enabled to fully assist in pressure regulation on the surface of the network cable jacket, and the circular radian of the outer side is corrected.
Referring to fig. 3, in the present embodiment, the swing assembly 303 includes an expansion link 305, a swing member 306, and an arc-shaped swing frame 307, wherein the output end of the expansion link 305, which is connected and fixed to the inner side wall of the annular housing 301 at the bottom end, is hinged to the swing member 306, and the expansion link 305 is used as a base line to symmetrically arrange two groups;
the bottom end of the adjusting rod 8, which is located inside the bar-shaped slide ways arranged in the longitudinal and transverse directions of the annular shell 301 and is slidably connected with the inside of the bar-shaped slide ways, is provided with a sliding wheel 308, the left end of the arc-shaped swing frame 307 is hinged to a fixed shaft in the sliding wheel 308, the right side of the upper end surface of the arc-shaped swing frame is hinged to the bottom end of the swing piece 306, and the swing piece 306 is driven to be continuously and slightly opened and closed through reciprocating stretching and retracting of the telescopic rod 305, so that the arc-shaped swing frame 307 swings by taking the fixed shaft in the sliding wheel 308 as a reference, as an optimal embodiment, the swing amplitude of the arc-shaped swing frame 307 needs to be set according to the width of an actual network cable, and therefore the efficiency of adjusting irregular arcs on the surface of a network cable jacket into regular arcs is improved.
In this embodiment, a fixed shaft in one group of sliding wheels 308 is hinged to an arc-shaped swing frame 307 in an adjacent swing assembly 303, and a spherical contact element 311 is installed on the inner side surface of the arc-shaped swing frame 307;
an arc slideway is arranged at the upper inclined arc edge of the tripod in the arc swinging frame 307, and the adjusting wheels slidably connected to the two sets of arc-shaped slideways in one set of the swing assemblies 303 are connected by the telescopic springs 309, it should be noted that the ends of the arc-shaped swing frames 307 inside each set of the swing assemblies 303, which are close to each other, are relatively connected by the telescopic springs 309, on one hand, a certain fault-tolerant gap is left, so that when the arc-shaped swing frames 307 swing with each other, no extrusion or collision occurs, on the other hand, through the elastic property of the telescopic spring 309, the adjustment effect of the arc swing frame 307 on the outer arc surface of the network cable is improved, as a best embodiment, a flexible universal auxiliary rolling ball is installed at the end of the spherical contact element 311, the friction force between the spherical contact element 311 and the outer arc surface of the network cable is greatly reduced, and therefore the circular arc surface of the outer arc surface of the network cable is smoother.
Referring to fig. 4, in this embodiment, the thickness measurement assemblies 4 are arranged in a circumferential arrangement in 6 groups, the telescopic devices 401 in each group of the thickness measurement assemblies 4 synchronously push the probes 402 to measure the length of the outer arc surface of the net twine, the length of the outer arc surface of the net twine is penetrated through, the length of the outer arc surface of the net twine is recorded and transmitted to the sensor, as a best embodiment, the adjustment effect of the outer arc surface of the net twine can be judged by comparing the lengths of the probes in each group, if the lengths of the probes in each group are the same, the net twine is continuously transmitted, otherwise, the probes are reversely driven by the guide assembly 2 and enter the annular sleeve 3 again to be adjusted until the outer arc surface of the net twine is a regular arc surface.
In this embodiment, the first fixing device 5 includes a distance sensor 501, a telescopic fixing member 502 and flexible fixing cotton 503, the telescopic fixing member 502 receives a signal sent by the distance sensor 501 to push the flexible fixing cotton 503 to clamp and fix the cable jacket, and the first fixing device 5 is circumferentially arranged to form 4 groups, and the flexible fixing cotton 503 is in an arc-shaped ring block shape.
Referring to fig. 5, in this embodiment, the cutting device 6 includes a motor 602, a lead screw 604, an i-shaped frame 605 and a cutting assembly 606, the left end of the lead screw 604 is rotatably connected to a threaded collar sleeved on a fixed shaft vertically installed in a connecting shaft seat 601, the right end of the lead screw is fixedly connected to the motor 602, and an auxiliary sliding rod 603 is further disposed above the lead screw 604;
and the vertical connecting rod and the bottom flat plate in the H-shaped frame 605 are respectively connected with the auxiliary sliding rod 603 and the screw 604 in a sliding manner, wherein the left bottom end face of the bottom flat plate is connected and fixed with a cutting assembly 606 for cutting the outer sleeve of the mesh wire, and the right bottom end face of the bottom flat plate is also connected and fixed with a second fixing device 607 for fixing the partial outer sleeve of the mesh wire to be removed, as the best embodiment, the cutting devices 6 are arranged in 6 groups in a circumferential arrangement and can rotate integrally, wherein the rotating motor positioned at the center of the cutting assembly 606 drives the cutting tools at two sides to rotate and cut, and the integral rotation is combined, so that the whole arc surface of the outer sleeve of the mesh wire is cut more completely.
Referring to fig. 6, in this embodiment, the torsion connection assembly 7 includes a concave housing 701, a fixed disk 703, positioning sliding columns 704 and an annular sliding sleeve 705, wherein the positioning sliding columns 704 are circumferentially arranged on the left side surface of the concave housing 701 near the edge, and the positioning sliding columns are symmetrically arranged on the right side surface of the fixed disk 703 on the right side of the concave housing 701 near the edge;
a circular turntable is arranged on the right side surface inside the concave shell 701, and the axis of the circular turntable is fixedly connected with the output end of a rotating motor fixed inside the axis of the fixed disk 703;
an annular sliding sleeve 705 is further installed on the outer side of the cambered surface of the concave housing 701, a lifting rod 706 is installed on the right side surface of the annular sliding sleeve 705, and a clamping assembly 707 is fixedly connected to the bottom end of the lifting rod 706;
in the preferred embodiment, the clamping assemblies 707 are arranged in 8 groups circumferentially, so as to connect 4 groups of wires in the twisted pair, each group of wires has two wires twisted with each other, so as to quickly adjust and connect the 8 wires, and it should be noted that when the twisted connecting element 7 is used to connect the wires, the left and right sides thereof need to be changed to twist and connect the wires.
In this embodiment, a slide way slidably connected to the right side surface of the clamping assembly 707 is formed on the circular turntable, wherein a polygonal pyramid-shaped support is arranged on the right side inside the clamping assembly 707, the mesh wires are clamped and fixed by telescopic clamping members arranged circumferentially on the left side of the clamping assembly 707, a rotating motor hinged to the vertex of the right end of the polygonal pyramid-shaped support drives the polygonal pyramid-shaped support to rotate counterclockwise or clockwise, and a return spring block is mounted at the right end of the rotating motor;
As a preferred embodiment, an auxiliary ring is further installed on the left side inside the concave housing 701 to facilitate sliding of the mesh wires during rotation, wherein, if the outermost jacket of the mesh wires is removed, the inside of the outermost jacket of the mesh wires still contains twisted mesh wires, at this time, the clamping assembly 707 is adjusted by the lifting rod 706 to clamp and fix each twisted group of mesh wires, the rotating motor on the right side inside the outermost jacket rotates in the reverse direction to separate each group of mesh wires into each single mesh wire, the guide assembly 2 is matched to guide the mesh wires to be straightened in the reverse direction, one wire is sequentially placed at the axis position by the clamping assembly 707, and the step of removing the jacket of the mesh wires is repeated again until each mesh wire is completely removed, wherein, a wire round hole is formed in the side wall on one side of the rotating motor of the clamping assembly 707 to facilitate twisting connection of the wires.
In specific implementation, the left connecting shell 1 and the right connecting shell 1 are arranged to process two end network cables to be connected respectively, the left connecting shell 1 is matched with a network cable jacket through a motor adjusting auxiliary guide component 201 vertically arranged in a guide component 2, the network cable is driven to enter from the left end of the connecting shell 1 and is transmitted into an annular connecting suite 3, the distance between an arc-shaped swinging frame 307 and the network cable jacket is adjusted through an adjusting rod 8, a swinging component 306 is driven by a telescopic rod 305 to stretch and retract continuously in a reciprocating manner, a spherical contact component 311 arranged on the inner side of the arc-shaped swinging frame 307 is further driven to swing continuously inwards and outwards in a reciprocating manner to adjust the irregular arc surface of the network cable jacket to be a regular arc surface, a plurality of groups of thickness measuring components 4 are used for measuring the length of the network cable jacket, thickness signals measured by the probes 402 are transmitted to a first fixing device 5, a cutting component 606 and a second fixing device 607, the length part of the network cable jacket to be cut is extended into a cutting device 6, clamping and fixing the net wire jacket by a first fixing device 5, cutting the net wire jacket by a cutting assembly 606, clamping and fixing the cut right net wire jacket by a second fixing device 607 after cutting, driving an I-shaped frame 605 to move rightwards by a motor 602 to remove the net wire jacket, adjusting a clamping assembly 707 to the center by a group of lifting rods 706 to fix the wound branch wire at the moment if the branch wire jacket also contains a branch wire with a jacket, opening the wound branch wire by reversely rotating a rotating motor in the net wire jacket and straightening, straightening one branch wire to be processed and carrying out jacket cutting step again at the axis center until all the branch wire jackets are completely cut off, then overturning and installing a twisting connecting assembly 7 to enable a left notch of the twisting connecting assembly to face to the right, carrying out the operation on a right connecting shell 1, clamping and fixing the net wire at one end of the right side by the left clamping assembly, the clamping assembly on the right side clamps and fixes the network cable which needs to be correspondingly connected on the left side, the rotating motor in the clamping assembly 707 corresponding to the left side and the right side drives the telescopic clamping piece to rotate oppositely and twist, and then the connecting shell 1 outside the network cable is disassembled.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.