CN206029030U - Long superfine coaxial line wire stripping device - Google Patents

Abstract

The utility model discloses a long superfine coaxial line wire stripping device, the utility model discloses at whole wire stripping in -process, all implement the work that the laser mark was carved by the dynamic laser galvanometer deflection system of three -dimensional, can reach 500mmin on the breadth of super large, work efficiency is very high, mirror dynamic system is shaken to the three -dimensional can dynamic focusing, carries out precise guidance's wire stripping to the arc surface of whole cable, can be with the power circular cutting cable of " appropriately ", and the upset processing line cable of cooperation cable 180 just can reach totally not only can shell target disconnected but also that shell, the utility model discloses 100 1000mm's of ability one -step refining cable in excess supply, the efficiency has improved 10 times more than, the convenience of arranging simultaneously, the convenience strengthens greatly, the utility model discloses a large amount of manpowers, material resources have been saved for the laser wire stripping unit cost of cable reduces by a wide margin, at the current energy, under the situation that environmental protection cost hurricane rises, has changed current process, has great economic value.

Description

A kind of long extremely thin coaxial wire punck-down block

Technical field

The invention belongs to cable wire harness field of laser processing, a kind of long extremely thin coaxial wire punck-down block of specific design and side Method.

Background technology

In the technical process of whole extremely thin coaxial wire wire stripping, maximum bottleneck is the mistake that workman carries out arrangement carrier by hand Journey.General technical process is as follows, first the demand according to its wire harness factory customization, cuts out line procedures person on wire harness factory production line Extremely thin coaxial wire is first cut into uniform short-term length, such as 30mm or 100mm etc. by cutting out line equipment by work, then by arranging Line procedures employee one one is arranged in the groove of carrier, adds securing cover plate, is so put into by wire stripping operation employee again and is treated On the support plate of wire stripping, wire stripping is carried out (if by the way of cable needs to shell using in, typically gathered using short using laser wire stripper Focus lens go out laser, and the mode of working table movement is carried out).

Laser wire stripper is then directed to different wire rods, typically has following two ways to carry out laser wire stripping：One kind is to adopt Wire stripping is carried out using the method for mobile XY translation stages with short condenser lens, which adopts laser shaven head wire stripping up and down, goes out light up and down and cuts Change or while go out light, extremely thin coaxial wire is carried out into wire stripping so.One kind is galvanometer high speed scanning mode, using upper and lower double galvanometers, Galvanometer scans the mode of light up and down and carries out the wire stripping of extremely thin coaxial wire.But either which kind of mode, whole technological process spend Time is most or artificial winding displacement operation, artificial winding displacement operation is 5 times of actual wire stripping operation more than the time, and Jing often goes out Existing laser wire stripping equipment operation waits the situation of a upper operation, or winding displacement operation to need many people, increased the people of wire harness factory The cost of member's aspect.

And all there is fixed focal plane in the short type of focusing and double end 2-D vibration mirror mode, on stripping technique with " stripping is disconnected " is the lateral parts of target, particularly cable, if power is little, the peelable disconnected but side of upper and lower surface epidermis then may Cut bad.If power is big, side cuts, but the otch of upper and lower surface will be excessive, and coating is burnt sometimes, suitably Power points is adjusted, and spends very much the time of field personnel, if just even more so in the case of various cable wire strippings.

The content of the invention

For problem present in background technology, it is an object of the invention to provide when one kind saves artificial winding displacement in a large number Between, greatly improve long extremely thin coaxial wire punck-down block and the method for production efficiency.

For reaching above-mentioned purpose, the long extremely thin coaxial wire punck-down block of present invention design, including Three-Dimensional Dynamic laser galvanometer System, the Three-Dimensional Dynamic laser galvanometer system include laser generator, dynamic focusing vibration camera lens and Three-Dimensional Dynamic vibration mirror scanning System, it is characterised in that：Also include carrying the fixed base of the Three-Dimensional Dynamic laser galvanometer system, be located at the fixed base Other frame；The frame is provided with wire stripping station and station to be stripped；The wire stripping station is located at the dynamic focusing vibration camera lens Immediately below Three-Dimensional Dynamic galvanometer scanning system, the station to be stripped is located at by the wire stripping station；The frame is provided with line Property guide rail, the linear guides carry wire harness automatic leading-in device, and the wire harness automatic leading-in device is guided and clamps long pole Thin coaxial line, the wire harness automatic leading-in device are moved back and forth in station to be stripped and wire stripping station along the linear guides.

Preferably, the wire harness automatic leading-in device includes the mobile microscope carrier being carried on linear guides, is located at Many rigid columnar guide ribs of the parallel linear guides above mobile microscope carrier；The two ends of the mobile microscope carrier are provided with vertical line The rackwork of property guide rail；The rigid columnar guide ribs two ends are fixed with gear, and side wall is provided with what is arranged along its axially spaced-apart Multiple Pneumatic paws for clamping long extremely thin coaxial wire；The gear is engaged with the rackwork；It is located at turning on mobile microscope carrier Rotating motor drives the rackwork vertical linearity guide rail to move back and forth.

Preferably, flue dust recovery device is provided between the frame and linear guides, and the flue dust recovery device includes enclosing Cover, shroud side are provided with suction opeing, and suction opeing is connected with waste material recovery device by blower fan.

Preferably, multiple through holes uniformly at intervals on the mobile microscope carrier.So, the flue dust of stripping is made to enter to be shortlisted for by through hole In cover, waste material recovery device is finally taken in the presence of blower fan.

It is further preferred that the through hole is mounting hole or honeycomb.

Preferably, the laser generator is optical fiber laser and/or carbon dioxide laser.

The long extremely thin coaxial wire stripping method of above-mentioned long extremely thin coaxial wire punck-down block is applied to, is comprised the following steps：

One) in station to be stripped, long extremely thin coaxial wire is manually arranged in wire harness automatic leading-in device successively, using pneumatic hand Pawl clamps and keeps the straight of cable, and wire harness automatic leading-in device is moved to wire stripping station；

Two) the marking figure of the short cable needed for production is imported, focus point is adjusted according to cable diameter and is selected suitable Power；

Three) marking is carried out to the side to light of cable using Three-Dimensional Dynamic laser galvanometer system；

Four), after the completion of the marking of cable side to light, cable is overturn into 180 °；

Five) repeat step two, carry out marking to the shady face before cable upset；

Six) short cable needed for cut into marking good long cable.

Preferably, the marking figure in the step 2 and step 6 includes that cable wants the positional information of released part.

It is further preferred that also including starting point and/or the cable mark of the short cable needed for production in the marking figure Character learning symbol.

The invention has the beneficial effects as follows：The positive effect of the present invention shows, in whole process, is all swashed by Three-Dimensional Dynamic Implementing the work of laser index carving, up to 500m/min on the breadth of super large, operating efficiency is very high for light galvanometer system；It is three-dimensional Galvanometer dynamical system is dynamically adapted focal length, carries out the wire stripping of precise guidance for the arc surface of whole cable, can be with " appropriate " Power ring tangent line cable, coordinate the upset processing cable of 180 ° of cable just to fully achieve and can not only shell mesh that is disconnected but also stripping Mark；The long cable of energy 100 * 1000mm of time processing of the invention, effect improves as many as 10 times, while the convenience of arrangement, Convenience is greatly enhanced；Present invention saves substantial amounts of human and material resources so that the laser wire stripping unit cost of cable significantly drops It is low, in the current energy, in the case of environmentally friendly cost hurricane rises, existing process is changed, with larger economic worth.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the present invention

Fig. 2 is the structural representation of the wire harness automatic leading-in device of the present invention

Fig. 3 is a kind of pattern after the completion of marking, only illustrates wherein one long cable in figure

In figure：1, frame 2, wire stripping station 3, laser generator 4, dynamic focusing vibration camera lens 5, Three-Dimensional Dynamic by fixed base Galvanometer scanning system 6, linear guides 7, wire harness automatic leading-in device 8 (mobile microscope carrier 8.1, rigid columnar guide ribs 8.2, tooth bar Mechanism 8.3, gear 8.4, Pneumatic paw 8.5, upset motor drive 8.6, through hole 8.7), long extremely thin coaxial wire 9, shroud 10, take out Air port 11.

Specific embodiment

Below by Fig. 1～Fig. 2 and the mode of some alternative embodiments for enumerating the present invention, the technical side to the present invention Case (including optimal technical scheme) is described in further detail, any technical characteristic and any technical side in the present embodiment Case is not limited the scope of the invention.

As depicted in figs. 1 and 2, the long extremely thin coaxial wire punck-down block of present invention design, including Three-Dimensional Dynamic laser galvanometer System, the fixed base 1 for carrying the Three-Dimensional Dynamic laser galvanometer system, the frame 2 for being located at by the fixed base 1；It is described Frame 2 is provided with wire stripping station 3 and station (not shown) to be stripped；The Three-Dimensional Dynamic laser galvanometer system includes that laser is sent out Raw device 4, dynamic focusing vibration camera lens 5 and Three-Dimensional Dynamic galvanometer scanning system 6, it is preferred that the laser generator 4 is optical-fiber laser Device and/or carbon dioxide laser；The wire stripping station 3 is located at the dynamic focusing vibration camera lens 6 and Three-Dimensional Dynamic vibration mirror scanning Immediately below system 6, the station to be stripped is located at by the wire stripping station 3；The frame 2 is provided with linear guides 7, described linear Guide rail 7 carries wire harness automatic leading-in device 8, and the wire harness automatic leading-in device 8 guides and clamp long extremely thin coaxial wire 9, institute State wire harness automatic leading-in device 8 to move back and forth in station to be stripped and wire stripping station 3 along the linear guides 7.

Again as shown in Fig. 2 the wire harness is automatically imported the mobile microscope carrier 8.1 that 8 devices include being carried on linear guides, position In many rigid columnar guide ribs 8.2 for moving the parallel linear guides 7 above microscope carrier 8.1, steel pipe in this example, is adopted；It is described The two ends of mobile microscope carrier 8.1 are provided with the rackwork 8.3 of vertical linearity guide rail 7；8.2 two ends of rigid columnar guide ribs are fixed There is a gear 8.4, side wall is provided with the Pneumatic paw 8.5 of the long extremely thin coaxial wire of the multiple clampings arranged along its axially spaced-apart 9；The tooth Wheel 8.4 is engaged with the rackwork 8.3；The upset motor being located on mobile microscope carrier 8.1 drives rackwork 8.3 described in 8.6 Vertical linearity guide rail 7 is moved back and forth.

It is as shown in Figure 1 again, it is preferred that between the frame 2 and linear guides 7, to be provided with flue dust recovery device, the flue dust Retracting device includes shroud 10, and 10 side of shroud is provided with suction opeing 11, and suction opeing 11 is connected with waste material recovery device by blower fan. Shroud 10 and suction opeing 11 is illustrate only in figure, and remaining is not shown.

Again as shown in Fig. 2 multiple through holes 8.7 uniformly at intervals on the mobile microscope carrier 8.1, the through hole 8.7 is mounting hole Or honeycomb.So, make the flue dust of stripping enter in shroud by through hole, finally waste recovery is taken in the presence of blower fan and filled Put.A row through hole is merely illustrated in figure, and the through hole uniformly can entirely move microscope carrier.

The long extremely thin coaxial wire stripping method of above-mentioned long extremely thin coaxial wire punck-down block is applied to, is comprised the following steps：

One) in station to be stripped, the long extremely thin coaxial wire of well cutting is manually arranged in into wire harness automatic leading-in device successively, The straight of cable is clamped and is kept using Pneumatic paw, after the completion of winding displacement, wire harness automatic leading-in device is moved to into wire stripping station；Line Cable cuts into the stripped line cable of 1000mm length in long tangent line station using automatic tangent equipment；Will be the length of well cutting superfine Coaxial line cable is arranged on the wire harness automatic leading-in device of 1000mm*1000mm, draws cable by steel pipe, and Pneumatic paw is solid Alignment cable, such cable would not occur deformation in the engineering of whole wire stripping；10mm is spaced between every cable, thus can Place 100 cables；

Two) the marking figure of the short cable needed for production is imported, wire stripping location graphic is formed, in marked area internal standard groove Cable, the setting that marked area can be from 100mm*100mm to 1000mm*1000mm in software freely, laser galvanometer scanning system Can be with ± 5mm (± 10mm can be arrived) dynamic regulation on the basis of benchmark focal length；Focus point is adjusted according to cable diameter and is selected Select suitable power；

Three) marking is carried out to the side to light of cable using Three-Dimensional Dynamic laser galvanometer system；

Four), after the completion of cable side to light wire stripping, engaged by gear and tooth bar, cable is overturn into 180 ° rapidly；

Five) positional information according to cable after upset, repeat step two, using Three-Dimensional Dynamic laser galvanometer system to cable Shady face before upset carries out marking；

Six) Pneumatic paw is unclamped, the long extremely thin coaxial wire for stripping is imported in finished product box；

Seven) short cable needed for cut into the marking in finished product box good long cable.

During whole wire stripping, can be marked in cable surface according to the requirement of client, such as cable model, the time Or numbering etc. other information.Wire stripping process is carried out in an automated manner, and two stations can have been come by a bit manipulation person completely Into, there can be multiple wire harness automatic leading-in devices, operator only needs long cable is arranged in the wire harness on station to be stripped certainly constantly Dynamic gatherer, follow-up work are automatically completed.

Preferably, the marking figure in the step 2 and step 6 includes that cable wants the positional information of released part, example If 1000mm is wire stripping to be carried out every 100mm, or carry out wire stripping every 30mm, need to set on figure, i.e., different figures The different wire stripping of shape correspondence is required, different wire stripping positions, and marking graphic recording is exactly used for recording these positional informations.

It is further preferred that starting point and/or the cable of the short cable needed for production can also be added in the marking figure Mark character.

As shown in figure 3, the part selected parts after the completion of giving marking, wherein core 10, and show two-layer integument 11 With 12, naturally it is also possible to there is multilayer integument.

Claims (6)

1. a kind of long extremely thin coaxial wire punck-down block, including Three-Dimensional Dynamic laser galvanometer system, the Three-Dimensional Dynamic laser galvanometer System includes laser generator, dynamic focusing vibration camera lens and Three-Dimensional Dynamic galvanometer scanning system, it is characterised in that：Also include carrying The fixed base of the Three-Dimensional Dynamic laser galvanometer system, the frame being located at by the fixed base；The frame is provided with stripping Line station and station to be stripped；Under the wire stripping station is just located at the dynamic focusing vibration camera lens and Three-Dimensional Dynamic galvanometer scanning system Side, the station to be stripped are located at by the wire stripping station；The frame is provided with linear guides, and the linear guides carry wired Beam automatic leading-in device, the wire harness automatic leading-in device guide and clamp long extremely thin coaxial wire, and the wire harness is automatically imported dress Put and move back and forth in station to be stripped and wire stripping station along the linear guides.

2. long extremely thin coaxial wire punck-down block according to claim 1, it is characterised in that：The wire harness automatic leading-in device Including the mobile microscope carrier being carried on linear guides, positioned at many rigid columnars of the parallel linear guides above mobile microscope carrier Guide ribs；The two ends of the mobile microscope carrier are provided with the rackwork of vertical linearity guide rail；The rigid columnar guide ribs two ends are solid Surely there is gear, side wall is provided with the Pneumatic paw of the long extremely thin coaxial wire of multiple clampings arranged along its axially spaced-apart；The gear with The rackwork engagement；The upset motor being located on mobile microscope carrier drives the rackwork vertical linearity guide rail back and forth to transport It is dynamic.

3. long extremely thin coaxial wire punck-down block according to claim 1, it is characterised in that：The frame and linear guides it Between be provided with flue dust recovery device, the flue dust recovery device includes shroud, and shroud side is provided with suction opeing, and suction opeing passes through blower fan It is connected with waste material recovery device.

4. long extremely thin coaxial wire punck-down block according to claim 2, it is characterised in that：It is spaced on the mobile microscope carrier equal The multiple through holes of cloth.

5. long extremely thin coaxial wire punck-down block according to claim 4, it is characterised in that：The through hole is mounting hole or honeybee Nest hole.

6. long extremely thin coaxial wire punck-down block according to claim 1, it is characterised in that：The laser generator is optical fiber Laser instrument and/or carbon dioxide laser.