A kind of plug socket power supply harness coil winding machine
Technical field
The present invention is a kind of plug socket power supply harness coil winding machine, belongs to coil winding machine manufacturing technology field.
Background technology
At present, widely applied plug socket is all with the long and short power cord with plug to differ, for ease of the packet of product
These power cords must be folded bundle into harness by dress, storing and sale.For shorter power cord, for example, length for 2 meters with
Under power cord, can fold two or three time tighten again and as harness.For longer power cord, such as 2~10 meters of long electricity
Source line just need first by power cord fold it is several be back to ten several times, become trunk harness, then continuous winding coil on it, finally
Line tail is locked, becomes power supply harness, this mode of operation is all completed by hand.Longer power cord harness is completed by hand
Making there are following shortcomings:More labour and time are consumed, labor intensity is larger, and product appearance is not enough neatly drawn
One, production efficiency is very low, becomes a weak link on plug socket production line, needs that a kind of product is uniform, beautiful knot
Real plug socket power supply harness coil winding machine.
But the prior art is bundled to power cord in the course of work into harness, although product is uniform, structure more
To be reasonable, but the power cord on the strand oscillator component of equipment can not be carried out at certain weight induction automatic open-close control
Reason, when the power cord on strand oscillator component will be finished by bundle, it is impossible to be sensed to it and the correcting of equipment is caused to fill
It puts and waits components out of service, the associated components such as wire-threading device, the guide device of equipment may be caused to generate idle running phenomenon, cause electric energy
The waste of resource, the cost for increasing plant maintenance, practical performance are insufficient.
Invention content
In view of the deficienciess of the prior art, it is an object of the present invention to provide a kind of plug socket power supply harness coil winding machine, with solution
Certainly the prior art is in the course of work for being bundled power cord into harness, although product is uniform, structure is more reasonable,
Certain weight induction automatic open-close control process can not be carried out to the power cord on the strand oscillator component of equipment, when strand oscillator portion
When power cord on part will be finished by bundle, it is impossible to be sensed and caused the components such as the guide device of equipment to stop fortune to it
Row may cause the associated components such as wire-threading device, the guide device of equipment to generate idle running phenomenon, cause the waste of power resource, increase
The problem of cost that oil (gas) filling device is safeguarded, practical performance is insufficient.
To achieve these goals, the present invention is to realize by the following technical solutions:A kind of plug socket power supply harness
Coil winding machine, structure include pedestal, straining pulley, porcelain wire-threading device, cyclelog, strand oscillator, guide device, harness weight induction
Control device, folding control transmission mechanism, the straining pulley is movably connected on the front-end surface left part of pedestal by shaft, described
Porcelain wire-threading device is movably connected on the front-end surface right part of pedestal by precompressed bolt and its latter half is fixedly connected on pedestal
Inner bottom surface right part, described program controller are fixedly connected on by electricity at the upper end face front, center of pedestal, the strand oscillator
It is vertically connected at the upper end face of pedestal and its lower half portion is extended vertically through at the internal cavities upper right of pedestal, the correcting dress
The inner bottom surface middle and itself that are vertically connected at pedestal and straining pulley mechanical connection are put, the harness weight induction control device
Right half part is bolted to connection in the outer surface middle of strand oscillator, and left-half is slidably connected to the interior of pedestal
Top surface middle, the folding control transmission mechanism are movably connected on the internal cavities left part of pedestal, the harness weight induction
Control device is by weight sensor, connecting line, signal adapter, control shaft, the first rotating turret, first rotating shaft, connecting rod group
Into the weight sensor is bolted to connection in the outer surface middle of strand oscillator, and the connecting line is lived by electricity
The dynamic upper end face for being connected to weight sensor, another most end of the connecting line are run through into the inside of signal adapter and described
Signal adapter is bolted to connection the right place in the inner top surface of pedestal, and the control rotor axis mechanical is connected to signal conversion
The left end surface of device, the first rotating turret activity are nested in the outer surface of control shaft, and the first rotating shaft is fixedly connected
In the most left place of the outer surface of the first rotating turret, the connecting rod activity is nested in the outer surface of first rotating shaft, the folding
Control transmission mechanism is made of pulley attachment device, Extensible connection device, direction-changing device, hydraulic control architectures, the cunning
Wheel attachment device is made of first pulley link, first pulley, the first fixed block, rotating bar shaft, rotating bar, and described first
Pulley link is vertically connected at left part in the inner top surface of pedestal by precompressed bolt, and the first pulley is movably connected on first
The rear surface of pulley link, the first fixed block fixation are welded in the inner top surface most left part of pedestal, and the rotating bar turns
Axis be movably connected on the rear surface of the first fixed block and they between in mutually perpendicular state, the rotating bar activity is nested
In the outer surface lowest part of rotating bar shaft, the Extensible connection device is by the second fixed block, the second shaft, the second rotation
Frame, compression spring structure are telescopically connected bar, touching connecting rod, fixing axle, oblique expansion bracket composition, and second fixed block fixes weldering
It is connected to the inside left surface middle of pedestal, second shaft is movably connected on the right end face of the second fixed block, and described
Two rotating turret activities are nested in the outer surface of the second shaft, and the rear surface left part of second fixed block is provided with connecting hole
And the compression spring structure, by connecting hole at this and the second fixed block vertical connection, the bar that is telescopically connected is vertically connected at second
The rear surface of fixed block is right, and the compression spring structure, the rear surface for being telescopically connected bar are connected with touching connecting rod, described
Touching connecting rod is attached by the inside left end surface of oblique expansion bracket and pedestal, and the oblique expansion bracket passes through fixing axle
The rear surface on inside left end surface, touching connecting rod with pedestal is attached.
Further, the direction-changing device is made of second pulley link, second pulley, and the second pulley connects
It connects frame the inside left surface of pedestal is vertically connected at by precompressed bolt and most descend place, the second pulley is movably connected on the second cunning
The right end face of link is taken turns, the outer surface activity of the first pulley, second pulley is nested with connection rope, the connection
The rear surface of bar, rear surface middle, the upper and lower end surface of second rotating turret of the touching connecting rod are movable
Connection rope is connected with, the outer surface of the rotating bar has been closely wound connection rope, and the connecting rod, turns first pulley
It is flexibly connected between lever, the second rotating turret, second pulley, touching connecting rod by connecting rope.
Further, the hydraulic control architectures are by cylinder body, interior connecting cylinder, hydraulic stem, cylinder cap, cross bar, open and close control bar
Composition, the cylinder body are vertically connected at the inner bottom surface left part of pedestal, and the interior connecting cylinder extends vertically through the bosom in cylinder body
Place, the hydraulic stem is extended vertically through at the bosom of interior connecting cylinder and the top of its inside connecting cylinder extends, the cylinder cap
The upper end face of hydraulic stem is fixedly connected on, the cross bar is vertically connected at the outer surface top of hydraulic stem, the opening and closing control
Bar processed is vertically connected at the rear surface most right part of cross bar.
Further, the guide device is made of correcting column, control panel, stepper motor, switch element, the correcting
Column is vertically connected at the inner bottom surface middle of pedestal, the control panel by being electrically connected to the front-end surface top of correcting column,
The stepper motor is fixedly connected on the left end surface lower portions of correcting column and it is electrically connected with control panel, the switch element
The top of stepper motor is movably connected on by power cord, the rear surface of the switch element contacts company with open and close control bar
It connects.
Further, the weight sensor sense power supply harness on strand oscillator will around it is complete when, the signal turns
Parallel operation delivers a signal to control shaft, so as to which first rotating turret is rotated around control shaft, then under the first rotating turret
The connection rope of end surfaces pulls the connection rope of first pulley outer surface, so as to which the rotating bar is close by its outer surface
The connection rope of winding is pulled and is rotated, and the top half of the second rotating turret so as to be connected therewith by rope is to moving to left
Dynamic, then second rotating turret is rotated around the second shaft and the connection rope of its lower half portion pulls to the right, so as to draw
The connection rope of the second pulley outer surface is moved, the touching connecting rod being attached thereto is pulled down until touching
The upper end face of the cross bar, the cross bar are pressed downward dynamic and the hydraulic stem are driven to pull down, the open and close control bar
The cross bar is followed to move downward, and then the lower half portion of switch element being attached thereto is driven to be detached with top half, it is described
Control panel, the stepper motor of guide device are turned off connecting.
Advantageous effect
The present invention provides a kind of scheme of plug socket power supply harness coil winding machine, by harness weight induction control device, opens
The mutual cooperation of the control associated components such as transmission mechanism is closed, in the course of work for being bundled power cord into harness, pair can be set
Power cord on standby strand oscillator component carries out certain weight induction automatic open-close control process, the electricity on strand oscillator component
When source line will be finished by bundle, it is impossible to be sensed and caused that the components such as the guide device of equipment are out of service to it, have
Body for weight sensor sense power supply harness on strand oscillator will around it is complete when, signal adapter delivers a signal to control and turns
Axis, so as to which the first rotating turret is rotated around control shaft, then the connection rope of the first rotating turret rear surface pulls first
The connection rope of pulley outer surface, so as to which rotating bar is pulled by the connection rope that its outer surface is closely wound and is turned
Dynamic, so as to which the top half of the second rotating turret connected therewith by rope is moved to the left, then the second rotating turret is around second turn
Axis is rotated and the connection rope of its lower half portion pulls to the right, so as to pull the connection rope of second pulley outer surface,
The touching connecting rod being attached thereto is pulled down until touching the upper end face of cross bar, and cross bar, which is pressed downward, to be moved and with hydrodynamic
Compression bar pulls down, and open and close control bar follows cross bar to move downward, and then drives the lower half portion of switch element being attached thereto
It is detached with top half, control panel, the stepper motor of guide device are turned off connecting, and avoid causing the wave of power resource
Take, decrease the cost of plant maintenance, effectively increase the practical performance of equipment.
Description of the drawings
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention,
Objects and advantages will become more apparent upon:
Fig. 1 is a kind of dimensional structure diagram of plug socket power supply harness coil winding machine of the present invention.
Fig. 2 is guide device of the present invention, the planar structure of harness weight induction control device, folding control transmission mechanism is shown
It is intended to.
Fig. 3 is another work shape of guide device of the present invention, harness weight induction control device, folding control transmission mechanism
State plane structure diagram.
Fig. 4 is the planar structure schematic diagram of Extensible connection device of the present invention.
In figure:Pedestal -1, straining pulley -2, porcelain wire-threading device -3, cyclelog -4, strand oscillator -5, guide device -6, harness
Weight induction control device -7, folding control transmission mechanism -8, weight sensor -71, connecting line -72, signal adapter -73,
Control shaft -74, first rotating shaft -76, -77 group of connecting rod, pulley attachment device -81, is telescopically connected dress at first rotating turret -75
Put -82, direction-changing device -83, hydraulic control architectures -84, first pulley link -811, first pulley -812, first solid
Determine block -813, rotating bar shaft -814, rotating bar -815, the second fixed block -821, the second shaft -822, the second rotating turret -
823rd, compression spring structure -824, be telescopically connected bar -825, touching connecting rod -826, fixing axle -827, oblique expansion bracket -828, second
Pulley link -831, second pulley -832, cylinder body -841, interior connecting cylinder -842, hydraulic stem -843, cylinder cap -844, cross bar -
845th, open and close control bar -846, correcting column -61, control panel -62, stepper motor -63, switch element -64.
Specific embodiment
To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, with reference to
Specific embodiment, the present invention is further explained.
- Fig. 4 is please referred to Fig.1, the present invention provides a kind of plug socket power supply harness coil winding machine, and structure includes pedestal 1, tension
Wheel 2, porcelain wire-threading device 3, cyclelog 4, strand oscillator 5, guide device 6, harness weight induction control device 7, folding control pass
Motivation structure 8, the straining pulley 2 are movably connected on the front-end surface left part of pedestal 1 by shaft, and the porcelain wire-threading device 3 is by pre-
Pressure bolt is movably connected on the front-end surface right part of pedestal 1 and its latter half is fixedly connected on the inner bottom surface right part of pedestal 1, institute
It states cyclelog 4 to be fixedly connected at the upper end face front, center of pedestal 1 by electricity, the strand oscillator 5 is vertically connected at
The upper end face of pedestal 1 and its lower half portion are extended vertically through at the internal cavities upper right of pedestal 1, and the guide device 6 is vertical
It is connected to the inner bottom surface middle of pedestal 1 and it is mechanically connected with straining pulley 2, the right side of the harness weight induction control device 7
Half part is bolted to connection in the outer surface middle of strand oscillator 5, and left-half is slidably connected to the interior of pedestal 1
Top surface middle, the folding control transmission mechanism 8 are movably connected on the internal cavities left part of pedestal 1, the harness weight sense
Control device 7 is answered by weight sensor 71, connecting line 72, signal adapter 73, control shaft 74, the first rotating turret 75, first
Shaft 76, connecting rod 77 form, and the weight sensor 71 is bolted to connection among the outer surface of strand oscillator 5
Place, the connecting line 72 are connected to the upper end face of weight sensor 71, another most end of the connecting line 72 by electrical activity
Run through the inside of signal adapter 73 and the signal adapter 73 is bolted to connection the right side in the inner top surface of pedestal 1
Place, the control shaft 74 are mechanically connected to the left end surface of signal adapter 73, and 75 activity of the first rotating turret is nested in
The outer surface of shaft 74 is controlled, the first rotating shaft 76 is fixedly connected on the most left place of outer surface of the first rotating turret 75, institute
The outer surface that 77 activity of connecting rod is nested in first rotating shaft 76 is stated, the folding control transmission mechanism 8 is by pulley attachment device
81st, Extensible connection device 82, direction-changing device 83, hydraulic control architectures 84 form, and the pulley attachment device 81 is by first
Pulley link 811, first pulley 812, the first fixed block 813, rotating bar shaft 814, rotating bar 815 form, and described first
Pulley link 811 is vertically connected at left part in the inner top surface of pedestal 1 by precompressed bolt, and 812 activity of first pulley is even
The rear surface of first pulley link 811 is connected to, the inner top surface that the fixation of the first fixed block 813 is welded in pedestal 1 is most left
Portion, the rotating bar shaft 814 be movably connected on the rear surface of the first fixed block 813 and they between in mutually perpendicular shape
State, 815 activity of rotating bar are nested in the outer surface lowest part of rotating bar shaft 814, the Extensible connection device 82 by
Second fixed block 821, the second rotating turret 823, compression spring structure 824, is telescopically connected bar 825, touching connecting rod at second shaft 822
826th, fixing axle 827, oblique expansion bracket 828 form, and second fixed block 821 fixes the inside left surface for being welded in pedestal 1
Middle, second shaft 822 are movably connected on the right end face of the second fixed block 821,823 activity of the second rotating turret
It is nested in the outer surface of the second shaft 822, the rear surface left part of second fixed block 821 is provided with connecting hole and described
Compression spring structure 824 is vertically connected at by 821 vertical connection of connecting hole at this and the second fixed block, the bar 825 that is telescopically connected
The rear surface of second fixed block 821 is right, the compression spring structure 824, be telescopically connected bar 825 rear surface be connected with it is tactile
Connecting rod 826 is touched, the touching connecting rod 826 is attached by the inside left end surface of oblique expansion bracket 828 and pedestal 1,
The oblique expansion bracket 828 by the inside left end surface of fixing axle 827 and pedestal 1, touch the rear surface of connecting rod 826 into
Row connection, the direction-changing device 83 are made of second pulley link 831, second pulley 832, the second pulley connection
Place is most descended in the inside left surface that frame 831 is vertically connected at pedestal 1 by precompressed bolt, and the second pulley 832 is movably connected on
The right end face of second pulley link 831, the outer surface activity of the first pulley 812, second pulley 832 are nested with company
Splicing rope, the rear surface of the connecting rod 77, the rear surface middle of the touching connecting rod 826, second rotation
The upper and lower end surface of frame 823 is connected with connection rope, and the outer surface of the rotating bar 815 has been closely wound connection
Rope, the connecting rod 77, first pulley 812, rotating bar 815, the second rotating turret 823, second pulley 832, touching connecting rod
It is flexibly connected between 826 by connecting rope, the hydraulic control architectures 84 are by cylinder body 841, interior connecting cylinder 842, hydraulic stem
843rd, cylinder cap 844, cross bar 845, open and close control bar 846 form, and the cylinder body 841 is vertically connected at the inner bottom surface left part of pedestal 1,
The interior connecting cylinder 842 is extended vertically through at the bosom of cylinder body 841, and the hydraulic stem 843 is extended vertically through in interior connecting cylinder
At the 842 bosom and top of its inside connecting cylinder 842 extends, and the cylinder cap 844 is fixedly connected on the upper of hydraulic stem 843
End surfaces, the cross bar 845 are vertically connected at the outer surface top of hydraulic stem 843,846 vertical connection of open and close control bar
In the rear surface most right part of cross bar 845, the guide device 6 is by correcting column 61, control panel 62, stepper motor 63, switch
Element 64 forms, and the correcting column 61 is vertically connected at the inner bottom surface middle of pedestal 1, and the control panel 62 passes through electrical connection
In the front-end surface top of correcting column 61, the stepper motor 63 be fixedly connected on the left end surface lower portions of correcting column 61 and its with
Control panel 62 is electrically connected, and the switch element 64 is movably connected on the top of stepper motor 63 by power cord, described to open
The rear surface for closing element 64 is connected with open and close control bar 846, and the weight sensor 71 senses the electricity on strand oscillator 5
Source harness will around it is complete when, the signal adapter 73 deliver a signal to control shaft 74, so as to first rotating turret 75 around
Control shaft 74 is rotated, and then the connection rope of 75 rear surface of the first rotating turret pulls 812 outer surface of first pulley
Connection rope, so as to which the rotating bar 815 is pulled by connection rope that its outer surface is closely wound and rotated, so as to
The top half of the second rotating turret 823 connected therewith by rope is moved to the left, and then second rotating turret 823 is around second
Shaft 822 is rotated and the connection rope of its lower half portion pulls to the right, so as to pull 832 outer surface of second pulley
Connection rope, the touching connecting rod 826 being attached thereto is pulled down until touching the upper end table of the cross bar 845
Face, the cross bar 845 are pressed downward dynamic and the hydraulic stem 843 are driven to pull down, and the open and close control bar 846 follows described
Cross bar 845 moves downward, and then the lower half portion of switch element 64 being attached thereto is driven to be detached with top half, the correcting
Control panel 62, the stepper motor 63 of device 6 are turned off connecting.
Folding control transmission mechanism described in this patent is compact-sized, stable drive, noise are low, adapt to temperature it is higher,
There are greasy dirt, humidity larger and the working environment of low speed, preferably cooperation can be realized with harness weight induction control device.
In use, first check for whether equipment appearance is intact, and whether each section is bonded, after confirming Plant in good condition,
Equipment is placed in place, the power cord of equipment is accessed into power supply, the row that power cord to be bundled is fixed on to equipment
In line device 5, the control panel 62 of the correcting column 61 of equipment is opened, weight sensor 71 senses the power supply harness on strand oscillator 5
Will around it is complete when, signal adapter 73 deliver a signal to control shaft 74, so as to the first rotating turret 75 around control shaft 74 carry out
The connection rope of rotation, then connection rope pulling 812 outer surface of first pulley of 75 rear surface of the first rotating turret, so as to
Rotating bar 815 is pulled and rotated by the connection rope that its outer surface is closely wound, so as to what is connected therewith by rope
The top half of second rotating turret 823 is moved to the left, and then the second rotating turret 823 is rotated and around the second shaft 822 under it
The connection rope of half part pulls to the right, so as to pull the connection rope of 832 outer surface of second pulley, the touching being attached thereto
Connecting rod 826 is pulled down until touching the upper end face of cross bar 845, and cross bar 845, which is pressed downward, to be moved and drive hydraulic stem
843 pull down, and open and close control bar 846 follows cross bar 845 to move downward, and then drive under the switch element 64 being attached thereto
Half part is detached with top half, and control panel 62, the stepper motor 63 of guide device 6 are turned off connecting, later the equipment
It can start to work normally.
It is the prior art in the course of work of the power cord bundle into harness that the present invention, which solves the problems, such as, although product is whole
It is neat it is standardized, structure is more reasonable, but the power cord on the strand oscillator component of equipment can not be carried out certain weight induction from
Dynamic folding control processing, when the power cord on strand oscillator component will be finished by bundle, it is impossible to be sensed to it and be caused
The components such as the guide device of equipment are out of service, and the associated components such as wire-threading device, the guide device of equipment may be caused to generate idle running
Phenomenon causes the waste of power resource, increases the cost of plant maintenance, and practical performance is insufficient, and the present invention passes through above-mentioned component
It is combined with each other, by the mutual cooperation of the associated components such as harness weight induction control device, folding control transmission mechanism, to electricity
Source line is bundled into the course of work of harness, and certain weight induction can be carried out to the power cord on the strand oscillator component of equipment
Automatic open-close control process, when the power cord on strand oscillator component will be finished by bundle, it is impossible to be sensed simultaneously to it
So that the components such as guide device of equipment are out of service, specially weight sensor senses that the power supply harness on strand oscillator will
Around it is complete when, signal adapter delivers a signal to control shaft, so as to which the first rotating turret is rotated around control shaft, then first
The connection rope of rotating turret rear surface pulls the connection rope of first pulley outer surface, so as to which rotating bar is by its outer surface
The connection rope that is closely wound is pulled and is rotated, the top half of the second rotating turret so as to be connected therewith by rope to
It moves left, then the second rotating turret is rotated around the second shaft and the connection rope of its lower half portion pulls to the right, so as to draw
The connection rope of dynamic second pulley outer surface, the touching connecting rod being attached thereto are pulled down until touching the upper of cross bar
End surfaces, cross bar are pressed downward dynamic and hydraulic stem are driven to pull down, and open and close control bar follows cross bar to move downward, and then drives
The lower half portion for the switch element being attached thereto is detached with top half, and control panel, the stepper motor of guide device are broken
Connection is opened, avoids causing the waste of power resource, decreases the cost of plant maintenance, effectively increases the practicability of equipment
Energy.
The basic principles, main features and the advantages of the invention have been shown and described above, for this field skill
For art personnel, it is clear that the present invention is not limited to the details of above-mentioned exemplary embodiment, and without departing substantially from the present invention spirit or
In the case of essential characteristic, the present invention can be realized in other specific forms.Therefore, in all respects, should all incite somebody to action
Embodiment regards exemplary as, and is non-limiting, the scope of the present invention by appended claims rather than on state
Bright restriction, it is intended that including all changes falling within the meaning and scope of the equivalent requirements of the claims in the present invention
It is interior.Any reference numeral in claim should not be considered as to the involved claim of limitation.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in each embodiment can also be properly combined, forms those skilled in the art
The other embodiment being appreciated that.