CN110957622A - Automatic assembling equipment for network cable connector - Google Patents

Abstract

The automatic assembling equipment for the network wire connector sequentially comprises a wire feeding device, a conveying device, a peeling device and a connector assembling device according to a processing sequence, wherein the wire feeding device sequentially comprises a drawing and cutting assembly, a wire clamping assembly and a wire taking assembly according to the processing sequence, a clamp is arranged on the conveying device, the wire feeding device is used for cutting a network wire according to a preset length and moving the network wire to the clamp, the peeling device is used for splitting the network wire into core wires inside the exposed skin, and the connector assembling device is used for assembling the core wires and the network wire connector together. The invention has high automation degree, realizes the automatic assembly of the network cable connector, is not easy to wind when the network cable is processed, has high production efficiency and ensures the product quality.

Description

Automatic assembling equipment for network cable connector

Technical Field

The invention relates to the field of network cable processing, in particular to automatic network cable connector assembling equipment.

Background

The network line includes the network line and the network line joint of wire rod both ends installation, and general network line all is a bundle of very long wire rod of length, need cut into preset length, and need cut open the skin before the erection joint, make some heart yearns in the network line expose, connect the heart yearn again in the network line joint, it is rare that one set of complete automation line that can satisfy simultaneously to go on the line, cut open the skin and connect the installation is present, the wire rod twines together easily when current automation equipment is on the line, damage the device even, there is the low, the inefficiency problem of degree of automation.

Disclosure of Invention

The invention provides automatic network cable connector assembling equipment, aiming at solving the technical problems that the existing network cable connector assembling equipment is low in automation degree and efficiency, wires are easy to wind during processing and the like.

The automatic assembling equipment for the network wire connector sequentially comprises a wire feeding device, a conveying device, a peeling device and a connector assembling device according to a processing sequence, wherein the wire feeding device sequentially comprises a drawing and cutting assembly, a wire clamping assembly and a wire taking assembly according to the processing sequence, a clamp is arranged on the conveying device, the wire feeding device is used for cutting a network wire according to a preset length and moving the network wire to the clamp, the peeling device is used for splitting the network wire into core wires inside the exposed skin, and the connector assembling device is used for assembling the core wires and the network wire connector together.

Preferably, a net tail conveying device, a net tail sleeving device and a net tail pushing device are sequentially arranged between the line feeding device and the splitting device, the net tail conveying device is used for neatly arranging net tails of network lines and conveying the net tails to the net tail sleeving device, the net tail sleeving device is used for penetrating the net tails of the network lines into positions where front ends of the network lines are aligned, and the net tail pushing device is used for pushing the net tails of the network lines into a position away from the front ends of the network lines by a preset distance.

A wire branching device, a core wire straightening sundry shearing device and a wire twisting device are sequentially arranged between the skin splitting device and the joint assembling device, the wire branching device is used for separating a plurality of bare core wires after skin peeling, the core wire straightening sundry shearing device is used for straightening the core wires and shearing sundries in the core wires after straightening, and the wire twisting device is used for twisting off network wires;

the connector assembling device sequentially comprises a crimping conduction device, a labeling device and a winding and binding device according to a processing sequence, wherein the crimping conduction device is used for crimping a core wire and a network wire connector and detecting the electric conductivity of the network wire connector, the labeling device is used for labeling the network wire, and the winding and binding device is used for winding and arranging the network wire and binding the network wire.

Preferably, the drawing and cutting assembly sequentially comprises a meter wheel set, an upper synchronous wheel set, a lower synchronous wheel set and a cutting assembly for cutting a network cable according to a processing sequence, the upper synchronous wheel set and the lower synchronous wheel set are respectively sleeved with an upper synchronous wheel belt and a lower synchronous wheel belt, a drawing transmission mechanism for driving the upper synchronous wheel set to vertically move and a drawing motor for driving the lower synchronous wheel belt to rotate are arranged behind the upper synchronous wheel set; the cutting assembly comprises a cutting cylinder B, a cutting cylinder plate C and a cutting cylinder plate B, wherein the cutting cylinder B is correspondingly arranged below the cutting cylinder C, the cutting cylinder plate C is connected with the cutting cylinder C, the cutting cylinder plate B is connected with the cutting cylinder B, and the cutting cylinder plate C and the cutting cylinder plate B are respectively provided with a cutting knife C and a cutting knife B.

Preferably, the wire clamping assembly comprises a wire clamping plate, the wire clamping plate is sequentially provided with an upper wire clamping slide rail, a rodless cylinder A, a rodless cylinder B and a lower wire clamping slide rail from top to bottom, a wire clamping slide block is simultaneously installed on the upper wire clamping slide rail and the lower wire clamping slide rail, the wire clamping slide block is provided with at least two air claws, each air claw is provided with a clamp, sensors are arranged at two ends of the wire clamping plate, and an induction sheet matched with the sensors is arranged at the upper end of the wire clamping slide block.

Preferably, the wire taking assembly comprises a wire clamping assembly for clamping the network wire, a wire taking moving assembly for linearly moving the wire clamping assembly, and a wire taking rotating assembly for rotationally moving the wire clamping assembly.

Preferably, the wire taking moving assembly comprises a wire taking motor B, a screw rod connected with the wire taking motor B, and a track plate for installing the wire taking motor B, wherein the track plate is provided with a wire taking track and a drag chain, the screw rod is connected with a wire taking moving plate moving on the wire taking track, an output shaft of the wire taking motor B is connected with a driving wheel of the drag chain, the wire taking moving plate is connected with the drag chain, the wire taking moving plate is provided with a wire taking cylinder C, a rotary limiting plate is arranged below the wire taking moving plate, and the wire taking cylinder C drives and is connected with the rotary limiting plate;

the wire clamping assembly comprises a rotating plate arranged below a rotating limiting plate, a wire taking cylinder A and a wire taking cylinder B are respectively arranged at two ends of the rotating plate, a wire taking gas claw A and a wire taking gas claw B are respectively arranged below the wire taking cylinder A and the wire taking cylinder B, and a material taking clamp A and a material taking clamp B are respectively arranged on the lower end surfaces of the wire taking gas claw A and the wire taking gas claw B;

get line rotating assembly including setting up the line motor A of getting on rotatory limiting plate, get the synchronous wheelset one that line motor A drive was established at rotatory limiting plate lower surface, be connected with synchronous wheelset two between rotor plate and rotatory limiting plate, synchronous wheelset one and synchronous wheelset two are equipped with synchronous belt, get between line cylinder A and the line gas claw A of getting or/and get between line cylinder B and the line gas claw B of getting still be equipped with revolving cylinder.

Preferably, the peeling device comprises a clamp fixing assembly for fixing the clamp, a splitting knife assembly for splitting the skin, and a wire clamping assembly for clamping the wire and moving to the splitting assembly.

Preferably, the fixture fixing component comprises an upper fixture fixing component, a lower fixture fixing component is arranged below the upper fixture fixing component and corresponds to the upper fixture fixing component, the upper fixture fixing component comprises a peeling cylinder B, an upper fixing plate connected with the peeling cylinder B, and a peeling line rail plate I arranged on one side of the upper fixing plate, the peeling line rail plate I is provided with a line rail I, and the lower fixture fixing component comprises a peeling cylinder A and a lower fixing plate connected with the peeling cylinder A.

Preferably, the wire clamping assembly comprises a peeling cylinder E and a wire clamping and taking plate connected with the peeling cylinder E, the two ends of the lower surface of the wire clamping and taking plate are respectively provided with a peeling cylinder C, the peeling cylinders C at the two ends are respectively connected with a peeling air claw A, the peeling cylinder E is arranged on the upper surface of a peeling line rail plate II arranged below the peeling cylinder E, and the peeling line rail plate II is provided with a line rail II.

Preferably, the skinning knife subassembly including the cylinder G of skinning, with the last cutting board that cylinder G of skinning is connected, establish the lower cutting board in last cutting board below, the skinning cylinder F of splitting of being connected with lower cutting board, last cutting board and lower cutting board on install blade and lower blade respectively, last cutting board and lower cutting board one side be equipped with and cut open skin line rail board three, the skinning line rail board three be equipped with line rail three, the opposite side of skinning line rail board three for last blade/lower blade is equipped with cuts open skin cylinder H, cuts open skin cylinder H and is connected with and cuts open the skin bottom plate, establishes to be equipped with and cuts open skin line rail board four below cutting the skin bottom plate, the skinning line rail board four on be equipped with line rail four, the another side of skinning line rail board four on be equipped with the suction cylinder for line rail four.

The invention provides automatic assembling equipment for a network cable connector, which has high automation degree, realizes automatic assembling of the network cable connector, is not easy to wind during processing of the network cable, and has high production efficiency; the on-line device can obtain the network line with the preset length and convey the network line to the next procedure; the core wire straightening sundry shearing device realizes that sundries are not in the core wire after splitting; the skin splitting device can realize the splitting of the outer skin of the network wire, and is convenient for the subsequent assembly process of the network wire and the network wire connector; the twisting device can avoid winding of the core wire when the wire end is processed, and improves the production efficiency; the crimping and conducting device ensures the electrical property of the network cable connector and ensures the product quality; the labeling device and the winding and binding device realize the automatic production of the processes of labeling, winding and binding of network cables, and have high automation degree.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial schematic structural view of the present invention;

FIG. 3 is a schematic view of a drawing and cutting assembly;

FIG. 4 is an exploded view of the pick-and-cut assembly;

FIG. 5 is a schematic structural view of the wire clamping assembly;

FIG. 6 is an exploded view of the wire clamping assembly;

FIG. 7 is a schematic structural diagram of a wire retrieving assembly;

FIG. 8 is an exploded view of the wire take-off assembly;

FIG. 9 is a schematic view of the skin cutting device;

FIG. 10 is an exploded view of the dissecting device;

FIG. 11 is a schematic view of the structure of the conveying device;

FIG. 12 is a schematic structural view of the thread twisting device;

FIG. 13 is an exploded view of the crimp conduction device;

FIG. 14 is an exploded view of a pass device;

FIG. 15 is a view showing the construction of the cutting device;

FIG. 16 is a view showing the structure of the straightening device;

wherein: a web-feeding tail device 90; a net tail sleeving device 91; a net tail pushing device 92; a branching device 93; a joint assembling device 96; a pressure-bonding conduction device 97; a labeling device 98; a winding and binding device 99; leading the cutting assembly 100; a meter wheel group 101; an upper synchronous wheel group 102; a lower synchronizing wheel group 103; an upper timing belt 104; a lower timing belt 105; a take-off axle 106; a cutting assembly 107; a cutting cylinder C108; a cutting cylinder B109; cutting the cylinder plate C110; cutting a cylinder plate B111; a cutting knife C112; a cutting blade B113; a take-up transmission mechanism 114; the mounting plate 115 is pulled; a pick-up cylinder A116; a take-up drive plate 117; a lead rail 118; a take-up motor 119; a coupling 120; a wire clamping assembly 200; a clamp 201; an upper wire clamping slide rail 202; rodless cylinder a 203; rodless cylinder B204; a lower wire clamping slide rail 205; a wire clamping slider 206; a clip 207; an inductor 208; a sensing piece 209; a gas claw 210; a wire clamping gas claw A211; a wire clamping gas claw B212; a wire clamping gas claw C213; a wire take-up assembly 300; a wire taking motor B301; a screw rod 302; a track plate 303; a wire-taking rail 304; a drag chain 305; a wire-taking moving plate 306; a drag link plate 307; a wire taking cylinder C308; a rotation limiting plate 309; a rotating plate 310; a wire taking cylinder A311; a wire taking cylinder B312; a wire taking pneumatic claw A313; a wire taking pneumatic claw B314; a material taking clamp A315; a material taking clamp B316; a wire-taking motor A317; a synchronous wheel group one 318; a second synchronous wheel set 319; a rotary cylinder 321; a tensioning device 322; a peeling device 400; a clamp securing assembly 401; a skiving knife assembly 402; a wire gripping assembly 403; a stripping cylinder B404; an upper fixing plate 405; a first stripping line rail plate 406; a first wire track 407; a splitting cylinder A408; a lower fixing plate 409; a stripping cylinder E410; a wire chucking plate 411; a stripping cylinder C412; a peeling gas claw A413; a second stripping line rail plate 414; a second wire track 415; a peeling cylinder G416; an upper blade 417; a lower blade 418; a skin splitting cylinder F419; an upper blade 420; a lower blade 421; a third skin line cutting rail plate 422; three wire rails 423; a skiving cylinder H424; a skived bottom panel 425; a skin cutting line rail plate IV 426; a line track four 427; a suction barrel 428; a first suction barrel 429; a second suction barrel 430; suction barrel three 431; a thread twisting device 95; a vertical cylinder 1; a horizontal cylinder 2; a bracket 6; a base 9; an upper washboard 61; a lower washboard 62; a second guide rail 41; a core wire crimping device; a lower positioning assembly 10; an upper positioning assembly 20; a moving device 30; a crimping assembly 40; a conducting device 50; the conduction cylinder 51; a conduction panel 52; a second slide rail 53; a moving block 54; the conduction member 55; a lead-through head 551; a mounting block 552; a core wire straightening sundry shearing device 94; a clipping device (941); a first wire clamping and fixing component (942); a cutting assembly (943); a core wire reduction assembly (944); a straightening device (945); a second wire clamping and fixing component (946); a core wire branching assembly (947); a conveying device 800; a conveying motor 801; a conveyor belt 802; and a clamp 803.

Detailed Description

The invention is further elucidated with reference to the figures and embodiments.

The invention provides automatic assembly equipment for a network cable connector, which is processed by the following equipment or procedures in sequence by referring to the attached drawings:

(1) the threading device sequentially comprises a drawing and cutting assembly 100, a wire clamping assembly 200 and a wire taking assembly 300 according to a network wire processing sequence, and is used for cutting and moving the network wire to a clamp 803 of the conveying device 800 according to a preset length.

(1-1) the drawing and cutting assembly 100 sequentially comprises a metering wheel set 101, an upper synchronous wheel set 102, a lower synchronous wheel set 103 correspondingly arranged below the upper synchronous wheel set, and a cutting assembly 107 for cutting a network cable according to a processing sequence, wherein an upper synchronous wheel belt 104 and a lower synchronous wheel belt 105 are respectively sleeved on the upper synchronous wheel set and the lower synchronous wheel set, a drawing transmission mechanism 114 for driving the upper synchronous wheel set to vertically move is arranged behind the upper synchronous wheel set 102, and a drawing motor 119 for driving the lower synchronous wheel belt 105 to rotate is arranged behind the upper synchronous wheel set. In the embodiment, three metering wheels, namely an upper metering wheel and a lower metering wheel, are adopted, a network line surrounds the metering wheels, and the metering wheels measure the network line with the length of 400 meters.

The upper and lower synchronizing wheel sets 102 and 103 are composed of a plurality of synchronizing wheels, which are centrally provided with a take-off wheel shaft 106, and are mounted on a take-off mounting plate 115 behind them through the take-off wheel shaft. The drawing transmission mechanism 114 comprises a drawing cylinder A116 and a drawing transmission plate 117 connected with the drawing cylinder A, wherein a drawing line rail 118 is arranged on the drawing mounting plate, the drawing transmission plate 117 is arranged between the upper synchronous wheel set 102 and the drawing mounting plate 115, and the drawing cylinder A116 drives the drawing transmission plate 117 to vertically slide on the drawing mounting plate 115 to drive the upper synchronous wheel set 102 on the drawing transmission plate to vertically move. The drawing motor 119 is mounted on the drawing mounting plate 115, the drawing motor is connected with the drawing wheel shaft 106 through the coupler 120, the drawing motor 119 works to drive the drawing wheel shaft 106 to rotate, the rotation of the drawing wheel shaft drives the upper synchronous wheel set 102 and the lower synchronous wheel set 103 to rotate, and at the moment, the upper synchronous wheel belt and the lower synchronous wheel belt simultaneously move to drive the network cable to move towards the cutting assembly 107.

The cutting assembly 107 comprises a cutting cylinder C108 and a cutting cylinder B109 correspondingly arranged below the cutting cylinder C, a cutting cylinder plate C110 connected with the cutting cylinder C, a cutting cylinder plate B111 connected with the cutting cylinder B109, wherein a cutting knife C112 and a cutting knife B113 are respectively arranged on the cutting cylinder plate C110 and the cutting cylinder plate B111, the cutting cylinder B109 and the cutting cylinder C108 work to respectively drive the cutting knife B113 to move upwards and the cutting knife C112 to move downwards, and the tail end of a network line with the length of 400 meters is cut off.

The length of the network cable is measured by the guide cutting component 100 of the invention through the metering wheel group 101, the upper synchronous wheel belt 104 and the lower synchronous wheel belt 105 drive the network cable to move, and the upper synchronous wheel belt 104 moves downwards to press the network cable, at the moment, the cutting component 107 cuts off the tail end of the network cable, and the network cable with the preset length is obtained.

(1-2) wire clamping assembly 200, including wire clamping board 201, be equipped with clamp line slide rail 202, rodless cylinder A203, rodless cylinder B204 and clamp line slide rail 205 down on the wire clamping board from the top down in proper order, go up and install clamp line slider 206 on clamp line slide rail 202 and the lower clamp line slide rail 205 simultaneously, be equipped with two at least gas claws 210 on the clamp line slider, be equipped with clip 207 on the gas claw, the wire clamping board 201 both ends are equipped with inductor 208, clamp line slider 206 upper end is equipped with the response piece 209 with inductor 208 complex. The air claw in this embodiment includes wire clamping air claw A211, wire clamping air claw B212 and wire clamping air claw C213, wire clamping assembly 200 with draw and get cutting assembly 100 cooperation, wire clamping air claw A211 presss from both sides the front end of network line, rodless cylinder A203 works, move to keeping away from to draw the other end of getting cutting assembly from the one end of going up/down wire clamping slide rail, inductor 208 senses the back, wire clamping air claw B212 and wire clamping air claw C213 clip the network line, rodless cylinder B204 works and drives wire clamping air claw B, wire clamping air claw C moves to keeping away from and draws the other end of cutting assembly 100.

(1-3) the wire taking assembly 300 includes a wire clamping assembly for clamping a network wire, a wire taking moving assembly for linearly moving the wire clamping assembly, and a wire taking rotating assembly for rotationally moving the wire clamping assembly. The wire taking moving assembly comprises a wire taking motor B301 and a screw rod 302 connected with the wire taking motor B, a nut is sleeved on the screw rod, a track plate 303 of the wire taking motor B301 is installed, a wire taking track 304 and a drag chain 305 are arranged on the track plate, a wire taking moving plate 306 moving on the wire taking track 304 is connected to the screw rod 302, an output shaft of the wire taking motor B is connected with a driving wheel of the drag chain 302, a drag chain plate 307 is arranged on the wire taking moving plate 306, the drag chain plate 307 is connected with the drag chain 302, a wire taking cylinder C308 is arranged on the wire taking moving plate, a rotating limiting plate 309 is arranged below the wire taking moving plate 306, the wire taking cylinder C308 is driven and connected with the rotating limiting plate 309, and the wire taking motor B301 drives the wire taking moving plate 306 to move towards the conveying device 800.

The wire clamping assembly comprises a rotating plate 310 arranged below a rotating limiting plate 309, a wire taking cylinder A311 and a wire taking cylinder B312 are respectively arranged at two ends of the rotating plate, a wire taking gas claw A313 and a wire taking gas claw B314 are respectively arranged below the wire taking cylinder A and the wire taking cylinder B, a material taking clamp A315 and a material taking clamp B316 are respectively arranged on the lower end faces of the wire taking gas claw A and the wire taking gas claw B, the wire taking cylinder A/B drives the material taking clamp A/B to vertically move, and the wire taking gas claw A/B controls the opening and closing of the material taking clamp A/B;

the wire taking rotating assembly is used for clamping a wire taking assembly to rotate and comprises a wire taking motor A317 arranged on a rotating limiting plate 309, the wire taking motor A drives a first synchronous wheel set 318 arranged on the lower surface of the rotating limiting plate, a second synchronous wheel set 319 is connected between the rotating plate 310 and the rotating limiting plate 309, a synchronous belt is sleeved on the first synchronous wheel set 318 and the second synchronous wheel set 319, a tensioning device 322 is arranged on the side edge of the first synchronous wheel set 318, the wire taking motor A317 works to drive the first synchronous wheel set 318 and the second synchronous wheel set 319 to rotate synchronously, the rotating plate 310 connected with the second synchronous wheel set rotates to drive a material taking clamp A315 and a material taking clamp B316 to rotate synchronously, a rotating cylinder 321 is further arranged between a wire taking cylinder A311 and a wire taking gas claw A313 or/and a rotating cylinder B312 and a wire taking gas claw B314, and the rotating cylinder 312 controls the material taking clamp A315 or/and the material taking clamp.

(2) The network cable transmission device comprises a network tail conveying device 90, a network tail sleeving device 91 and a network tail pushing device 92, wherein the network tail conveying device 90 is used for neatly arranging network tails of network cables and conveying the network tails to the network tail sleeving device, the network tail sleeving device 91 is used for penetrating the network tails of the network cables into the positions, aligned with the front ends of the network cables, and the network tail pushing device 92 is used for pushing the network tails of the network cables into the positions, away from the front ends of the network cables, with preset distances.

(3) The peeling apparatus 400 includes a jig fixing assembly 401 for fixing a jig, a splitting knife assembly 402 for splitting, and a wire gripping assembly 403 for gripping a wire and moving to the splitting assembly.

The clamp fixing assembly comprises an upper clamp fixing assembly, a lower clamp fixing assembly which is arranged below the upper clamp fixing assembly and corresponds to the upper clamp fixing assembly, the upper clamp fixing assembly comprises a peeling cylinder B404, an upper fixing plate 405 connected with the peeling cylinder B, and a peeling line rail plate 406 arranged on one side of the upper fixing plate, a line rail 407 is arranged on the peeling line rail plate I, and the peeling cylinder drives the upper fixing plate to vertically move on the peeling line rail plate; the lower clamp fixing assembly comprises a splitting cylinder A408 and a lower fixing plate 409 connected with the splitting cylinder A, the splitting cylinder A drives the lower fixing plate to move vertically, and the upper fixing plate and the lower fixing plate are matched to fix the clamp.

The wire clamping assembly comprises a peeling cylinder E410 and a wire clamping and taking plate 411 connected with a peeling cylinder E, wherein two ends of the lower surface of the wire clamping and taking plate are respectively provided with a peeling cylinder C412, the peeling cylinders C at the two ends are respectively connected with a peeling air claw A413, the peeling cylinder E is arranged on the upper surface of a peeling line rail plate II 414 arranged below the peeling cylinder C, a line rail II 415 is arranged on the peeling line rail plate II, and the peeling cylinder E drives the wire clamping and taking plate to horizontally slide on the peeling line rail plate II to drive the peeling air claw A to horizontally move.

The skinning knife component comprises a skinning cylinder G416, an upper knife board 417 connected with the skinning cylinder G, a lower knife board 418 arranged below the upper knife board, a skinning cylinder F419 connected with the lower knife board, an upper knife blade 420 and a lower knife blade 421 are respectively arranged on the upper knife board and the lower knife board, a skinning line rail board III 422 is arranged on one side of the upper knife board and one side of the lower knife board, a line rail III 423 is arranged on the skinning line rail board III, the skinning cylinder G and the skinning cylinder F respectively drive the upper knife board and the lower knife board to vertically slide on the skinning line rail board III to drive the upper knife blade and the lower knife blade to vertically move, and the upper knife blade and the lower knife blade are matched to cut off the network line skin. And a skin splitting cylinder H424 is arranged on the other side of the skin splitting line rail plate III relative to the upper blade/the lower blade, the skin splitting cylinder H is connected with a skin splitting bottom plate 425, a skin splitting line rail plate IV 426 is arranged below the skin splitting bottom plate, a line rail IV 427 is arranged on the skin splitting line rail plate IV, and the skin splitting cylinder H drives the skin splitting bottom plate to horizontally slide on the skin splitting line rail plate IV to drive the upper blade and the lower blade to horizontally move so as to split the skin of the network line after being cut. And a suction barrel 428 is arranged on the other side of the split skin line rail plate IV relative to the line rail IV, the suction barrel 428 comprises a first suction barrel 429, a second suction barrel 430 and a third suction barrel 431, the first suction barrel is ventilated, and air passes through the third suction barrel to form negative pressure to suck the split skin away.

(4) Branching subassembly 93 can realize through current automatic branching equipment, and the branching subassembly will be peeled a plurality of exposed heart yearns of back and part, makes things convenient for subsequent joint equipment process.

(5) The core wire straightening sundries shearing device 94 is used for straightening the core wire and shearing sundries in the core wire after straightening, and the invention provides an embodiment: including cutting device 941, cutting device 941 is including being used for the fixed subassembly 942 of double-layered line of network line, cutting subassembly 943 and the heart yearn subassembly 944 that resets that are used for heart yearn debris to cut off, still including straightening device 945, be used for fixed two 946 of the fixed subassembly 946 of double-layered line of network line and heart yearn separated time subassembly 947.

(6) Thread rolling device 95 for open network line heart yearn with rubbing with the hands, prevent that the winding is in the same place, make things convenient for going on of subsequent handling, can realize through current automation equipment, this embodiment provides a scheme and is: the thread rolling device comprises a base 9, an upper rolling plate 61 and a lower rolling plate 62 are arranged above the base 9, a vertical cylinder 1 for controlling the upper rolling plate to vertically move is arranged above the upper rolling plate 61, a horizontal cylinder 2 for controlling the lower rolling plate to horizontally move is arranged on one side of the lower rolling plate 62, a first guide rail is mounted on a support 6, the upper rolling plate 61 is mounted on the first guide rail and can vertically move on the guide rail, a second guide rail 41 is mounted on the base 9, and the lower rolling plate 62 is mounted on the second guide rail 41 and can horizontally move on the guide rail.

(7) The joint assembling device 96 can assemble the separated core wires and the network wire joint together by manual work, or can be realized by the existing automatic equipment.

(8) The crimping and conducting device 97 is used for crimping a core wire and a network cable connector and detecting the electrical conductivity of the network cable connector, so as to ensure the product quality, and the existing automation equipment can realize that the embodiment provides a scheme: the device comprises a core wire crimping device and a conduction device, wherein the core wire crimping device comprises an upper positioning component 20 for positioning and a lower positioning component 10 below the upper positioning component 20, the upper positioning component 20 and the lower positioning component 10 are matched for fixing a network wire, a crimping component 40 is arranged on the side edge of the upper positioning component 20, the crimping component 40 is used for crimping a network wire connector to enable the network wire connector to be electrically connected with the core wire in the network wire, and the device also comprises a mobile device 30, the mobile device 30 is arranged between the upper positioning component 20 and the lower positioning component 10 and is used for moving the network wire to the crimping component 40 and/or the conduction device 50 for crimping and conduction; the conduction device 50 is used to test whether the network cable connector is conducted or not, so as to ensure the quality of the network cable. The conducting device 50 comprises a conducting panel 52, a conducting cylinder 51 installed on the conducting panel 52, a second linear slide rail 53 arranged on the conducting panel 52, a moving block 54 arranged on the second linear slide rail 53, the conducting cylinder 51 connected with the moving block and driving the moving block 54 to move, a conducting piece 55 arranged on the upper surface of the moving block 54, the conducting piece 55 comprising a conducting head 551 and a conducting head installing block 552 sleeved outside the conducting head, and a conducting position of a network line connector in the conducting head 551 is used for detecting the electric conductivity of the network line connector.

(9) The labeling device 98 is used for labeling on a network line, and can be realized by an existing automatic labeling device.

(10) And the winding and binding device 99 is used for winding, arranging and binding the network cable, and can be realized through the existing automatic winding equipment and the automatic binding equipment.

(11) And (3) a conveying device 800, which is arranged on the side edges of the above (1) - (10), and comprises a conveying motor 801, a conveying belt 802 and a clamp 803 arranged on the conveying belt.

The invention provides automatic assembling equipment for a network cable connector, which has high automation degree, realizes automatic assembling of the network cable connector, is not easy to wind during processing of the network cable, and has high production efficiency; the on-line device can obtain the network line with the preset length and convey the network line to the next procedure; the core wire straightening sundry shearing device realizes that no sundries are left in the core wire after splitting; the skin splitting device can realize the splitting of the outer skin of the network wire, and is convenient for the subsequent assembly process of the network wire and the network wire connector; the thread twisting device can avoid winding when a network thread end is processed, and the production efficiency is improved; the crimping and conducting device ensures the electrical property of the network cable connector and ensures the product quality; the labeling device and the winding and binding device realize the automatic production of the processes of labeling, winding and binding of network cables, and have high automation degree.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. An automatic assembling device for a network cable connector is characterized in that: the network cable cutting device sequentially comprises a threading device, a conveying device (800), a peeling device (400) and a connector assembling device (96) according to a processing sequence, wherein the threading device sequentially comprises a leading and taking cutting assembly (100), a clamping assembly (200) and a taking assembly (300) according to the processing sequence, a clamp (803) is arranged on the conveying device (800), the threading device is used for cutting a network cable according to a preset length and moving the network cable to the clamp, the peeling device (400) is used for splitting the network cable and exposing a core wire inside, and the connector assembling device (96) is used for assembling the core wire and a network cable connector together.

2. The automatic assembly equipment of a network cable connector as claimed in claim 1, wherein: a net tail conveying device (90), a net tail sleeving device (91) and a net tail pushing device (92) are sequentially arranged between the line feeding device and the splitting device (400), the net tail conveying device (90) is used for orderly arranging net tails of network lines and conveying the net tails to the net tail sleeving device (91), the net tail sleeving device (91) is used for enabling the net tails of the network lines to penetrate into the front ends of the network lines to be aligned, and the net tail pushing device (92) is used for pushing the net tails of the network lines into a position away from the front ends of the network lines by a preset distance;

a wire branching device (93), a core wire straightening sundry shearing device (94) and a wire twisting device (95) are sequentially arranged between the skin splitting device (400) and the joint assembling device (96), the wire branching device (93) is used for separating a plurality of bare core wires after skin stripping, the core wire straightening sundry shearing device (94) is used for straightening the core wires and shearing sundries in the core wires after straightening, and the wire twisting device (95) is used for twisting network wires;

the connector assembling device comprises a crimping conduction device (97), a labeling device (98) and a winding and binding device (99) in sequence according to a processing sequence, wherein the crimping conduction device (97) is used for crimping a core wire and a network wire connector and detecting the electrical conductivity of the network wire connector, the labeling device (98) is used for labeling the network wire, and the winding and binding device (99) is used for winding, arranging and binding the network wire.

3. The automatic assembly equipment of a network cable connector as claimed in claim 1, wherein: the drawing and cutting assembly (100) sequentially comprises a meter wheel set (101), an upper synchronous wheel set (102), a lower synchronous wheel set (103) and a cutting assembly (107) for cutting a network cable according to a processing sequence, wherein the upper synchronous wheel set and the lower synchronous wheel set are respectively sleeved with an upper synchronous wheel belt (104) and a lower synchronous wheel belt (105), a drawing transmission mechanism (114) for driving the upper synchronous wheel set to vertically move and a drawing motor (119) for driving the lower synchronous wheel belt to rotate are arranged behind the upper synchronous wheel set (102); cutting assembly (107) including cutting cylinder C (108) and cutting cylinder B (109) that its below correspondence set up, with cut cylinder C and be connected cut cylinder board C (110), with cut cylinder board B (111) that cylinder B is connected, cut cylinder board C and cut cylinder board B on respectively be equipped with and cut sword C (112) and cut sword B (113).

4. The automatic assembly equipment of a network cable connector as claimed in claim 1, wherein: the wire clamping assembly (200) comprise a wire clamping plate (201), the wire clamping plate (201) is sequentially provided with an upper wire clamping slide rail (202), a rodless cylinder A (203), a rodless cylinder B (204) and a lower wire clamping slide rail (205) from top to bottom, a wire clamping slide block (206) is simultaneously installed on the upper wire clamping slide rail (202) and the lower wire clamping slide rail (205), the wire clamping slide block is provided with at least two air claws (210), the air claws are provided with clips (207), inductors (208) are arranged at two ends of the wire clamping plate, and an induction sheet (209) matched with the inductors is arranged at the upper end of the wire clamping slide block.

5. The automatic assembly equipment of a network cable connector as claimed in claim 1, wherein: the wire taking assembly (300) comprises a wire clamping assembly for clamping a network wire, a wire taking moving assembly for performing linear movement on the wire clamping assembly, and a wire taking rotating assembly for performing rotary motion on the wire clamping assembly.

6. The automatic assembly equipment of a network cable connector as claimed in claim 5, wherein: the wire taking moving assembly comprises a wire taking motor B (301), a screw rod (302) connected with the wire taking motor B and a track plate (303) provided with the wire taking motor B, wherein a wire taking track (304) and a drag chain (305) are arranged on the track plate, a wire taking moving plate (306) moving on the wire taking track is connected to the screw rod (302), an output shaft of the wire taking motor B (301) is connected with a driving wheel of the drag chain (305), the wire taking moving plate (306) is connected with the drag chain (305), a wire taking cylinder C (308) is arranged on the wire taking moving plate, a rotating limiting plate (309) is arranged below the wire taking moving plate, and the wire taking cylinder C (308) is driven and connected with the rotating limiting plate (309);

the wire clamping assembly comprises a rotating plate (310) arranged below the rotating limiting plate, a wire taking cylinder A (311) and a wire taking cylinder B (312) are respectively arranged at two ends of the rotating plate, a wire taking gas claw A (313) and a wire taking gas claw B (314) are respectively arranged below the wire taking cylinder A and the wire taking cylinder B, and a material taking clamp A (315) and a material taking clamp B (316) are respectively arranged on the lower end surfaces of the wire taking gas claw A and the wire taking gas claw B;

get line rotating assembly including setting up get line motor A (317) on rotatory limiting plate, get line motor A drive and establish synchronous wheelset one (318) at rotatory limiting plate (309) lower surface, be connected with synchronous wheelset two (319) between rotor plate (310) and rotatory limiting plate (309), synchronous wheelset one and synchronous wheelset two are equipped with synchronous belt, get between line cylinder A (311) and get line gas claw A (313) or/and get line cylinder B (312) and get and still be equipped with revolving cylinder (321) between line gas claw B (314).

7. The automatic assembly equipment of a network cable connector as claimed in claim 1, wherein: the peeling device (400) comprises a clamp fixing assembly (401) for fixing a clamp, a splitting knife assembly (402) for splitting, and a wire clamping assembly (403) for clamping a wire and moving to the splitting assembly.

8. The automatic assembly equipment of a network cable connector as claimed in claim 7, wherein: anchor clamps fixed subassembly (401) including last anchor clamps fixed subassembly, at last anchor clamps fixed subassembly below and rather than the lower anchor clamps fixed subassembly that corresponds, last anchor clamps fixed subassembly including cylinder B of skinning (404), with cut open the upper fixed plate (405) that skin cylinder B is connected, set up skinning line rail board one (406) of upper fixed plate one side, skinning line rail board one on be equipped with line rail one (407), lower anchor clamps fixed subassembly including cutting open skin cylinder A (408), with lower fixed plate (409) of being connected of skinning cylinder A.

9. The automatic assembly equipment of network cable connector according to claim 7 or 8, characterized in that: wire rod press from both sides and get subassembly (403) including skinning cylinder E (410), with cut open the wire rod clamp that skinning cylinder E is connected and get board (411), the wire rod clamp get both ends of board lower surface respectively be equipped with skinning cylinder C (412), respectively be connected with skinning gas claw A (413) under the skinning cylinder C at both ends, skinning cylinder E (410) install the skinning line rail board two (414) upper surface that sets up below it, skinning line rail board two on be equipped with line rail two (415).

10. The automatic assembly equipment for the network cable connector according to any one of claims 7 to 9, wherein: the barking knife component (402) comprises a barking cylinder G (416), an upper knife board (417) connected with the barking cylinder G, and a lower knife board (418) arranged below the upper knife board, a splitting cylinder F (419) connected with the lower knife board, an upper blade (420) and a lower blade (421) are respectively arranged on the upper knife board and the lower knife board, a third split line rail plate (422) is arranged on one side of the upper knife plate and the lower knife plate, a third split line rail plate (423) is arranged on the third split line rail plate, a split cylinder H (424) is arranged on the other side of the third split line rail plate relative to the upper blade/the lower blade, the split cylinder H is connected with a split bottom plate (425), a fourth split line rail plate (426) is arranged below the split bottom plate, and a fourth wire rail (427) is arranged on the fourth split wire rail plate, and a suction cylinder (428) is arranged on the other surface of the fourth split wire rail plate relative to the fourth wire rail.

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