Summary of the invention
The purpose of the present invention is to provide a kind of Novel power cord production technologies, in the prior art above-mentioned scarce for overcoming
It falls into.
A kind of Novel power cord production technology of embodiment according to the present invention, including injection-moulded housing, the injection-moulded housing
Interior to be equipped with injecting mechanism, the injecting mechanism includes setting in the intracorporal melting material chamber of the injection moulded shell, the melting material chamber right side
Injection molding motor is fixedly mounted in wall, output shaft end face, which is fixedly connected, on the left of the injection molding motor can carry out injection raw material transmission
Material transfer bar is fixedly mounted in the injection-moulded housing top end surface with the melting material chamber to the hopper being connected to, above and below the melting material chamber
Inner wall is symmetrical above and below to be fixedly mounted the heating component for melting raw material, is additionally provided with conducting wire jack, institute in the injection-moulded housing
Stating conducting wire jack includes the first support being fixedly mounted on the injection-moulded housing, and be rotatably assorted peace on first support
Winch spool axis is filled, the winch spool that can be wound the power lead of injection formed, institute is fixedly mounted on the winch spool axis
Stating conducting wire jack further includes the second support being fixedly mounted in the injection-moulded housing top end surface, on second support
Be rotatably assorted conducting wire cylinder axis, and being fixedly mounted on the conductor barrel axis can store plain conductor, and plain conductor is sent
Enter the conductor barrel of injection molding, is equipped with injection molded tube in the injection-moulded housing, being equipped between the injection molded tube and the melting material chamber can
So that the injection raw material after melting is flowed into the communicating pipe in the injection molded tube, the injection molded tube inner wall, which is equipped with, to be accelerated to melt
Change is molded cooling cooling component, fixed installation feeding cabinet in the injection-moulded housing left end face, in the box for feeding odd body
Equipped with feeding mechanism, the feeding mechanism includes being arranged on the intracorporal sheave chamber of the box for feeding odd, sheave bottom of chamber wall to turn
It is dynamic to be coupled fluted roller shaft, sheave is fixedly mounted on the fluted roller shaft, blowing is fixedly mounted in the feeding cabinet top end surface
Slot is equipped with the connectivity slot being connected to, is fixedly mounted and slides on the sheave between the feeding cabinet top end surface and the sheave chamber
Dynamic pin, the sliding pin pass through the connectivity slot, are the delivery sheets that is slidably installed in injection-moulded housing, place on the delivery sheet
Conducting wire retainer ring, the delivery sheet are slidably matched with the feeding cabinet top end surface, and the delivery sheet bottom wall is equipped with sliding slot, institute
Sliding slot is stated to be slidably matched with the sliding pin, when the sliding pin pushes the delivery sheet to extend into the injection molded tube,
It wraps up the conducting wire retainer ring by plain conductor, falls in injection molded tube outside the insulation for being molded into conducting wire together with injection raw material
In shell, the stripper plate that the conducting wire retainer ring can be made to fall down is fixedly mounted in the injection molded tube inner left wall.
Further technical solution, the conducting wire jack further include the gear being arranged in inside the injection-moulded housing
Chamber, the gear cavity front inner wall is interior to be fixedly mounted driving motor, and output shaft end face is fixedly connected with electricity on rear side of the driving motor
First gear is fixedly mounted on the motor shaft in arbor, is fixedly mounted first pulley on the motor shaft, on the conductor barrel axis
The second belt wheel is fixedly mounted on rear side of the conductor barrel, is driven and is coupled between second belt wheel and the first pulley
First pulley is located on rear side of the first pulley on the motor shaft and third belt wheel is fixedly mounted, and is located on the winch spool axis
The 4th belt wheel is fixedly mounted on rear side of the winch spool, transmission is coupled second between the 4th belt wheel and the third belt wheel
Belt wheel.
Further technical solution, the feeding mechanism further include being rotatably assorted to be mounted in the gear cavity inner left wall
Gear shaft, be fixedly mounted universal joint in the gear shaft left end face, the sheave chamber is rotatably assorted between inner wall peace up and down
Dress stirs wheel shaft through the second belt wheel bottom wall, and the wheel shaft of stirring is fixedly connected with the universal joint, the turning wheel
Turning wheel is fixedly mounted on axis, is fixedly mounted in the turning wheel top end surface and stirs pin, between the turning wheel and the sheave
It has a rest cooperation.
The beneficial effects of the present invention are: the present invention can allow the conducting wire inside power supply line be placed in the center of insulation crust
Part protects plain conductor completely, and device can make internal plain conductor not generate fatigue failure,
Certain protective effect can be had to conducting wire, be worthy to be popularized by increasing service life and safety, the conducting wire retainer ring of addition.
Specific embodiment
Below with reference to Fig. 1-6, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-6, a kind of Novel power cord production technology of embodiment according to the present invention, including injection-moulded housing 10,
Injecting mechanism 80 is equipped in the injection-moulded housing 10, the injecting mechanism 80 includes the melting material being arranged in the injection-moulded housing 10
Chamber 17, the 17 right side inner wall of melting material chamber is interior to be fixedly mounted injection molding motor 15, and the 15 left side output shaft end face of injection molding motor is solid
Fixed connection can carry out the material transfer bar 16 of injection raw material transmission, be fixedly mounted in 10 top end surface of injection-moulded housing and melt with described
Expect hopper 18 of the chamber 17 to connection, about 17 inner wall of melting material chamber is symmetrical above and below to be fixedly mounted the heating component for melting raw material
19, be additionally provided with conducting wire jack 81 in the injection-moulded housing 10, the conducting wire jack 81 include be fixedly mounted on it is described
The first support 14 on injection-moulded housing 10 is rotatably assorted on first support 14 and installs winch spool axis 39, the winch spool axis
The winch spool 40 that can be wound the power lead of injection formed is fixedly mounted on 39, the conducting wire jack 81 also wraps
The second support 21 being fixedly mounted in 10 top end surface of injection-moulded housing is included, be rotatably assorted installation on second support 21
Conductor barrel axis 23, being fixedly mounted on the conductor barrel axis 23 can store plain conductor, and plain conductor is sent into injection molding
Conductor barrel 22, the injection-moulded housing 10 is interior to be equipped with injection molded tube 11, is equipped between the injection molded tube 11 and the melting material chamber 17
The injection raw material after melting can be made to be flowed into the communicating pipe 30 in the injection molded tube 11, set on 11 inner wall of injection molded tube
There is the cooling component 42 for the injection molding cooling for accelerating to melt, feeding cabinet 43 be fixedly mounted in 10 left end face of injection-moulded housing,
Feeding mechanism 82 is equipped in the feeding cabinet 43, the feeding mechanism 82 includes the sheave being arranged in the feeding cabinet 43
Chamber 31 is rotatably assorted on 31 bottom wall of sheave chamber and installs fluted roller shaft 36, and sheave 35 is fixedly mounted on the fluted roller shaft 36, described
Trough 24 is fixedly mounted in 43 top end surface of feeding cabinet, between 43 top end surface of feeding cabinet and the sheave chamber 31
Sliding pin 28 is fixedly mounted on the sheave 35 for connectivity slot 29 equipped with connection, and the sliding pin 28 passes through the connectivity slot 29,
It is the delivery sheet 26 that is slidably installed in injection-moulded housing 10, conducting wire retainer ring 70, the delivery sheet 26 is placed on the delivery sheet 26
It is slidably matched with 43 top end surface of feeding cabinet, 26 bottom wall of delivery sheet is equipped with sliding slot 27, the sliding slot 27 and institute
It states sliding pin 28 to be slidably matched, when the sliding pin 28 pushes the delivery sheet 26 to extend into the injection molded tube 11, make
The conducting wire retainer ring 70 wraps up plain conductor, falls in injection molded tube 11 and is molded into the insulation of conducting wire together with injection raw material
In shell, the stripper plate 25 that the conducting wire retainer ring 70 can be made to fall down is fixedly mounted in 11 inner left wall of injection molded tube.
The conducting wire jack 81 further includes the gear cavity 55 being arranged in inside the injection-moulded housing 10, the gear cavity
Driving motor 49 is fixedly mounted in 55 front inner walls, the 49 rear side output shaft end face of driving motor is fixedly connected with motor shaft 48,
First gear 50 is fixedly mounted on the motor shaft 48, first pulley 47, the conductor barrel is fixedly mounted on the motor shaft 48
Be located on rear side of the conductor barrel 22 on axis 23 and be fixedly mounted the second belt wheel 53, second belt wheel 53 and the first pulley 47 it
Between transmission be coupled first pulley 44, be located on rear side of the first pulley 47 on the motor shaft 48 and third belt wheel be fixedly mounted
46, it is located on rear side of the winch spool 40 on the winch spool axis 39 and the 4th belt wheel 41 is fixedly mounted, the 4th belt wheel 41 and institute
It states transmission between third belt wheel 46 and is coupled the second belt wheel 13, to start driving motor 49, driving motor 49 drives first
Gear 50, first pulley 47 and third belt wheel 46 rotate, and the rotation of first pulley 47 drives the second belt wheel 53 and conductor barrel 22 to rotate,
Plain conductor is set to be sent into injection molding, the rotation of third belt wheel 46 drives the 4th belt wheel 41 and winch spool 40 to rotate, and makes injection formed
Wire-wound gets up to store.
The feeding mechanism 82 further includes the gear shaft 38 being mounted in 55 inner left wall of gear cavity that is rotatably assorted, institute
Fixed installation universal joint 37 in 38 left end face of gear shaft is stated, the installation that is rotatably assorted between about 31 inner wall of sheave chamber runs through
Second belt wheel, 53 bottom wall stirs wheel shaft 34, and the wheel shaft 34 of stirring is fixedly connected with the universal joint 37, described to stir
Turning wheel 33 is fixedly mounted on wheel shaft 34, is fixedly mounted in 33 top end surface of turning wheel and stirs pin 32, the turning wheel 33
Intermittently cooperate with the sheave 35, so that the rotation of first gear 50 drives second gear 51 to rotate, the rotation of second gear 51 is driven
It stirs wheel shaft 34 and turning wheel 33 rotates, the rotation of turning wheel 33 drives the intermittent rotation of sheave 35, and the rotation of sheave 35 makes delivery sheet
26 slide on 43 roof of feeding cabinet, and conducting wire retainer ring 70 is sent in injection molded tube 11, and stripper plate 25 can make conducting wire
Retainer ring 70 falls in injection molded tube 11, and is moulded in conductor casing together.
When use: injection raw material being poured into hopper 18, starting injection molding motor 15, injection molding motor 15 drives material transfer bar
16 rotations transmit injection raw material to the left, and heating component 19 melts the raw material sent heating, the raw material after thawing
It is flowed into injection molded tube 11 by communicating pipe 30, starts driving motor 49, driving motor 49 drives first gear 50, first band
Wheel 47 and third belt wheel 46 rotate, and the rotation of first pulley 47 drives the second belt wheel 53 and conductor barrel 22 to rotate, and send plain conductor
Entering into injection molded tube 11 and is molded, cooling component 42 can be such that the injection raw material melted is quickly cooled down, and 46 turns of third belt wheel
It is dynamic that the 4th belt wheel 41 and winch spool 40 is driven to rotate, make the Wire-wound of injection formed get up to store, first gear 50 rotates
Second gear 51 is driven to rotate, the rotation of second gear 51, which drives, stirs wheel shaft 34 and the rotation of turning wheel 33, and turning wheel 33 rotates band
Dynamic sheave 35 is intermittent to be rotated, and the conducting wire retainer ring 70 of injection molding to be sent into is stored on trough 24, and the rotation of sheave 35 makes delivery sheet 26
It is slided on 43 roof of feeding cabinet, when retracting, conducting wire retainer ring 70 is automatically fallen on delivery sheet 26 delivery sheet 26, delivery sheet
26 are sent to conducting wire retainer ring 70 in injection molded tube 11, and stripper plate 25 can be such that conducting wire retainer ring 70 falls in injection molded tube 11,
And it is moulded in conductor casing together.
The beneficial effects of the present invention are: the present invention can allow the conducting wire inside power supply line be placed in the center of insulation crust
Part protects plain conductor completely, and device can make internal plain conductor not generate fatigue failure,
Certain protective effect can be had to conducting wire, be worthy to be popularized by increasing service life and safety, the conducting wire retainer ring of addition.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.