CN210549463U - Intelligent wire burying machine - Google Patents

Abstract

The utility model relates to an intelligence machine of sunkening cord relates to the technical field of automatic processing equipment, has solved the staff at the in-process of sunkening cord, needs the set boring and the line two kinds of modes of sunkening cord, consequently need carry out the interconversion in two processing equipment, leads to the problem that work efficiency is low, and it is including placing station, cross removal station, processing station, lift station, boring station, the station of sunkening cord. The utility model discloses it is little to have occupation space, need not remove the substrate in the course of working, effect that machining efficiency is high.

Description

Intelligent wire burying machine

Technical Field

The utility model belongs to the technical field of the technique of automatic processing equipment and specifically relates to an intelligence machine of sunkening cord is related to.

Background

A wire-laying machine is a dedicated device for wiring on a substrate.

When the wire burying machine is used, firstly, the surface of a base material needing wire burying needs to be subjected to boring processing, then, the base material is cut through a cutter so as to cut a path needing wire burying, and finally, a copper wire is placed into the cut path and pressed into the cut path so as to realize fixation.

Because the surface of the base material needs to be bored, the base material is usually bored by a cutter, so that the base material needs to be placed on one boring station, and when the wire is buried in the later period, the base material needs to be placed on another wire burying station, so that the processing is convenient.

The above prior art solutions have the following drawbacks: because the worker needs to integrate two modes of boring and thread burying in the thread burying process, the two processing devices need to be mutually converted, the working efficiency is low, and the improvement space is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an occupation space is little, need not remove the substrate in the course of working, and the intelligence that machining efficiency is high buries the line machine.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an intelligent line burying machine, comprising:

the placing station is arranged on the plane and used for placing and installing;

the cross-shaped moving station is arranged on the placing station and is used for moving transversely and vertically;

the processing station is arranged on the cross moving station and is used for clamping and fixing the base material to be processed;

the lifting station is arranged on the placing station and is used for longitudinally and synchronously moving the boring station and the wire embedding station;

the boring station is arranged on the lifting station and is used for boring the base material to be processed placed on the processing station;

and the wire burying station is arranged on the lifting station and is used for cutting and burying the wire of the base material to be processed placed on the processing station.

Through adopting above-mentioned technical scheme, place the station and install cross removal station and lift station, and the cross removal station can let the processing station carry out horizontal and vertical removal, and the lift station will drive the boring station and carry out fore-and-aft removal with the thread burying station to make the substrate once only process, need not change, improved the efficiency of processing.

The utility model discloses further set up to: the placement station includes:

the base is used for installing the cross-shaped moving station and the processing station;

the slag discharging groove is arranged on the base and used for collecting materials;

the placing connecting seats are symmetrically arranged on one side of the base close to the ground;

the support legs are arranged on the placing connecting seat and used for supporting the base;

the placing threaded rod is arranged on the support leg and penetrates through the connecting seat;

the placing buffer block is sleeved on the placing threaded rod and is in abutting connection with the placing connecting seat and the support leg;

the rubber pad is arranged on one side of the support leg, which is far away from the buffer block and is in abutting connection with the ground;

and the nut is matched with the screw thread of the placing threaded rod and is pressed by the placing connecting seat in a butting way.

Through adopting above-mentioned technical scheme, the base is directly placed subaerial, row's cinder notch can be placed produced waste material in processing temporarily to improve holistic cleaning efficiency, place connecting seat cooperation stabilizer blade, place the use of threaded rod, nut, thereby support, in order to improve holistic stability, place the setting of buffer block, the noise when having reduced the equipment use and placing, and the setting of rubber pad, then further improvement stability when both connect, in order to improve whole life.

The utility model discloses further set up to: the cross-shaped moving station comprises a transverse station and a vertical station;

the vertical station comprises:

the vertical motor is arranged on the base and is fixed on the vertical mounting seat through a bolt;

the vertical mounting seat is fixed on the first mounting block through a bolt and is in autorotation fit with the vertical threaded rod;

the vertical threaded rod is movably connected between the vertical mounting seat and the vertical movable seat and is in threaded fit with the vertical threaded sleeve;

the vertical threaded sleeve is in threaded fit with the vertical threaded rod and is used for driving the transverse station to vertically move;

the vertical movable seat is fixed on the second mounting block through a bolt and is in rotating fit with the vertical threaded rod;

the vertical sliding rails are symmetrically arranged on two sides of the vertical bolt column and are fixed on the first mounting strip through bolts;

the vertical sliding block is fixed on the vertical sliding rail in a sliding manner and is connected with the transverse station so as to be matched with the transverse station to move vertically;

the vertical limiting strips are symmetrically arranged on two sides of the vertical threaded rod and are used for compressing and fixing the vertical sliding rails;

the vertical telescopic covers are symmetrically arranged on two sides of the vertical slide rail and are fixedly connected with the transverse station;

the utility model discloses a vertical slide rail installation, including base, vertical slide rail, vertical mount pad, the base is gone up integrative and is provided with the first vertical installation piece that supplies the installation of vertical mount pad, an organic whole is provided with the vertical installation piece of the second that supplies the installation of vertical sliding seat on the base, the symmetry is provided with the vertical mounting strip that supplies the installation of vertical slide rail on the base, be provided with the vertical spacing groove that supplies the installation of vertical spacing strip on the vertical mounting strip.

Through adopting above-mentioned technical scheme, vertical motor is installed through vertical mount pad, and the vertical thread bush of rethread vertical threaded rod cooperation moves, and the sliding seat is used for stabilizing the stability of vertical threaded rod, vertical slide rail and the cooperation of the spacing strip of vertical line to conveniently remove, and vertical spacing strip then is used for consolidating vertical slide rail, the setting of vertical expansion cover, thereby improves dustproof ability, improves holistic life and smoothness degree.

The utility model discloses further set up to: the lateral station comprises:

the transverse moving seat is arranged on the vertical station and used for installing and fixing the transverse motor, the transverse installing seat, the transverse moving seat, the transverse sliding rail and the transverse limiting strip;

the transverse connecting seats are symmetrically arranged on two sides of the transverse moving seat and are fixedly connected with the vertical sliding blocks through bolts;

the transverse connecting block is arranged on one side of the transverse moving seat close to the vertical moving seat and is fixedly connected with the vertical threaded sleeve;

the transverse motor is arranged on the transverse moving seat and is fixed on the transverse mounting seat through a bolt;

the transverse mounting seat is fixed on the first transverse mounting block through a bolt and is in autorotation fit with the transverse threaded rod;

the transverse threaded rod is movably connected between the transverse mounting seat and the transverse movable seat and is in threaded fit with the transverse threaded sleeve;

the transverse threaded sleeve is in threaded fit with the transverse threaded rod and is used for driving the placing seat to move transversely;

the placing seat is fixedly connected with the transverse sliding block through a bolt and is used for installing a machining station;

the placing connecting block is integrally arranged on one side of the placing seat close to the transverse moving seat and is fixedly connected with the transverse threaded sleeve;

the transverse movable seat is fixed on the second transverse mounting block through a bolt and is in rotating fit with the transverse threaded rod;

the transverse sliding rails are symmetrically arranged on two sides of the transverse bolt column and are fixed on the transverse mounting bar through bolts;

the transverse sliding block is fixed on the transverse sliding rail in a sliding mode and is connected with the transverse station so as to be matched with the placing seat to move transversely;

the transverse limiting strips are symmetrically arranged on two sides of the transverse threaded rod and are used for pressing and fixing the transverse sliding rails;

the transverse telescopic covers are symmetrically arranged on two sides of the transverse sliding rail and are fixedly connected with the placing seat;

the transverse protective plate is fixed on the placing seat through bolts and is positioned between the transverse telescopic covers on the two sides;

the utility model discloses a horizontal installation of horizontal sliding rail, including horizontal removal seat, horizontal removal seat is last an organic whole to be provided with the first horizontal installation piece that supplies the installation of horizontal installation seat, an organic whole is provided with the second horizontal installation piece that supplies the installation of horizontal sliding rail on the horizontal removal seat, the symmetry is provided with the horizontal mounting bar that supplies the installation of horizontal sliding rail on the horizontal removal seat, be provided with the horizontal spacing groove that supplies the installation of horizontal spacing bar on the horizontal.

Through adopting above-mentioned technical scheme, horizontal motor installs through horizontal mount pad, the horizontal thread bush of rethread horizontal threaded rod cooperation moves, the sliding seat is used for stabilizing the stability of horizontal threaded rod, horizontal slide rail and the cooperation of the spacing strip of perpendicular line, thereby conveniently remove, and horizontal spacing strip, then be used for consolidating horizontal slide rail, place the seat and be used for connecting horizontal slider, thereby carry out horizontal removal, and place the connecting block and be used for fixing with horizontal thread bush, the setting of horizontal flexible cover, thereby improve dustproof ability, holistic life and smoothness degree are improved.

The utility model discloses further set up to: the processing station includes:

the first machining mounting seat is arranged on the cross-shaped moving station and used for mounting a machining motor;

the processing motor is arranged on the first processing mounting seat and is used for driving the swing seat;

the second machining mounting seat is arranged on the cross-shaped moving station and is movably matched with the swing seat;

the swinging seat is respectively connected with the processing motor and the second processing mounting seat and used for fixing the base material;

the positioning seat is arranged on the swing seat and used for placing the base material;

the adjusting block is embedded on the fixed seat and fixed through a bolt and used for adjusting the balance of the base material;

the hydraulic cylinder is arranged on the positioning seat and is used for driving the clamping block to lift so as to clamp the base material;

the clamping block is arranged on the hydraulic cylinder and used for clamping the base material;

the leaning block is pivoted with the clamping block and is mutually limited and matched with the base material;

the positioning seat is provided with a positioning groove for positioning the base material.

Through adopting above-mentioned technical scheme, first processing mount pad supplies the processing motor to install, in order to improve stability, second processing mount pad supplies to swing the seat and cooperates, it drives through the processing motor to swing the seat, thereby make a round trip to sway, in order to cut processing, the setting of regulating block, fix a position the substrate, stability when improving processing, pneumatic cylinder skimming and grip block and leaning on the piece, thereby the fixed ability to the substrate has been improved, in the time of making the substrate processing, be difficult for rocking, the stability of processing has been improved, the product percent of pass is improved.

The utility model discloses further set up to: the lift station includes:

the upright post is fixed on the lifting mounting block through a bolt;

the lifting rails are symmetrically arranged on the upright posts through bolts;

the lifting slide block is in sliding fit on the lifting track and is in threaded fit with the lifting threaded rod;

the lifting threaded rod is arranged on the upright post and is used for connecting the lifting motor and the lifting seat;

the lifting motor is arranged on the upright post and is used for driving the lifting threaded rod to rotate;

the rubber buffer block is sleeved on the lifting threaded rod and is in interference fit with the lifting seat;

the lifting seat is fixed on the upright post through a bolt and is in rotary fit with the lifting bolt rod;

the base is integrally provided with a lifting mounting block for mounting the stand column.

Through adopting above-mentioned technical scheme, stand direct mount reciprocates with the lifting slide block on the lift installation piece, cooperation lift track to improve holistic stability, elevator motor is used for driving the motion of lifting slide block, and the use of cooperation lift seat improves the stability to the lifting threaded rod, and the rubber buffer block has the ability of buffering to the lifting slide block, in order to improve holistic life.

The utility model discloses further set up to: the boring station includes:

the boring seat is fixed on the lifting seat through bolts;

the boring motor is arranged on the boring seat and is used for driving the boring cutter to rotate;

the boring cutter is used for boring the base material.

By adopting the technical scheme, the boring motor on the boring seat is matched with the boring cutter, so that the boring cutter can move in a manner of being matched with the boring seat, the boring position is switched, the integral boring efficiency is improved, and the practicability is high.

The utility model discloses further set up to: the thread burying station comprises:

the wire embedding seat is fixedly connected to the lifting seat;

the wire embedding plate is fixed on the wire embedding seat through a bolt and is connected with a wire embedding motor;

the wire embedding motor is arranged on the wire embedding plate and is used for driving the wire embedding column to rotate;

the driving wheel is arranged on an output shaft of the buried wire motor;

the driven wheel is arranged on the embedded wire column;

the belt is used for connecting the driving wheel and the driven wheel;

the wire embedding column is rotatably connected to the wire embedding seat and is used for rotating;

the cutting knife is arranged on the wire embedding column and is used for cutting the base material and embedding the wire;

the material seat is arranged on the upright column and used for placing copper wires;

and the copper wire penetrates through the wire embedding plate, the wire embedding seat, the wire embedding column and the cutting knife.

Through adopting above-mentioned technical scheme, install the buried line board on the buried line seat, the buried line motor cooperation action wheel on the buried line board, the belt of deuterogamying will drive from the driving wheel to can be with the rotation of control buried line post, the cutting knife on the buried line post is processed the substrate, can directly place a bucket on the material seat around the good copper line, conveniently process.

The utility model discloses further set up to: the cutting knife includes:

the connector is fixed on the embedded wire column through a bolt;

the cutter seat is fixedly arranged on the connecting cylinder in a penetrating way and is pressed and fixed through a bolt;

the cutting blade is integrally arranged on the cutter seat and is used for cutting the base material;

the wire pressing seat is integrally arranged on the connecting head and is used for pressing wires;

a through groove for a copper wire to penetrate through is formed in the connecting head, and the through groove is formed between the wire pressing seat and the cutter seat;

the wire pressing seat is provided with a guide groove for guiding and pressing the copper wire and communicating with the through groove.

Through adopting above-mentioned technical scheme, fix connector and buried line post through the bolt, the cutter seat mutually supports with the cutter piece to fixing the cutter piece, the line ball seat is arranged in will cutting out the cavity, impresses the copper line to the cavity through line ball seat and guiding groove, improves work efficiency, and the practicality is strong.

To sum up, the utility model discloses a beneficial technological effect does:

1. the occupied space is small, the base material does not need to be moved in the processing process, and the overall processing efficiency is improved;

2. the control diversity, it is more flexible to use.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent wire burying machine.

Fig. 2 is a schematic view of the placement station.

Fig. 3 is an exploded view of the support leg and the connecting socket.

Fig. 4 is a schematic view of the installation of the cross shift station.

Fig. 5 is an exploded view of a vertical station.

Fig. 6 is an exploded view of the vertical station two.

Fig. 7 is an exploded view of the first cross station.

FIG. 8 is an exploded view of the cross station two.

FIG. 9 is a schematic view of the processing station and substrate installation.

FIG. 10 is a schematic view of the structure of a substrate.

Fig. 11 is a schematic view of the construction of the lifting station.

Fig. 12 is an exploded view showing a boring station and a wire embedding station.

Fig. 13 is an exploded schematic view two of the boring station and the wire burying station.

Fig. 14 is an exploded schematic view of the cutting knife.

Fig. 15 is a system schematic diagram of the intelligent line burying machine.

In the figure, 1, a placing station; 10. a base; 100. a first vertical mounting block; 101. a second vertical mounting block; 102. a vertical mounting bar; 1020. a vertical limiting groove; 103. a lifting mounting block; 11. a slag discharge groove; 12. placing the connecting seat; 13. a support leg; 14. placing a threaded rod; 15. placing a buffer block; 16. a rubber pad; 17. a nut; 2. a cross-shaped moving station; 201. a vertical station; 2010. a vertical motor; 2011. a vertical mounting seat; 2012. a vertical threaded rod; 2013. a vertical thread bushing; 2014. a vertical movable seat; 2015. a vertical slide rail; 2016. a vertical slide block; 2017. a vertical limiting strip; 2018. a vertical telescopic cover; 200. a transverse station; 2000. a transverse moving seat; 20000. a first transverse mounting block; 20001. a second transverse mounting block; 20002. transversely mounting a bar; 200020 and a transverse limiting groove; 2001. a transverse connecting seat; 2002. a transverse connecting block; 2003. a transverse motor; 2004. a transverse mounting seat; 2005. a transverse threaded rod; 2006. a transverse threaded sleeve; 2007. a placing seat; 2008. placing a connecting block; 2009. a transverse movable seat; 20010. a transverse slide rail; 20011. a transverse slide block; 20012. a transverse limiting strip; 20013. a transverse telescopic cover; 20014. a transverse protection plate; 3. a processing station; 30. a first machining mounting seat; 31. processing a motor; 32. a second machining mounting seat; 33. a swing seat; 34. positioning seats; 340. positioning a groove; 35. an adjusting block; 36. a hydraulic cylinder; 37. a clamping block; 38. a rest block; 4. lifting the station; 40. a column; 41. a lifting rail; 42. a lifting slide block; 43. lifting a threaded rod; 44. a lifting motor; 45. a rubber buffer block; 46. a lifting seat; 47. a material seat; 5. a boring station; 50. a boring seat; 51. boring the motor; 52. boring a cutter; 6. a wire burying station; 60. a wire embedding seat; 61. a wire embedding plate; 62. a buried wire motor; 63. a driving wheel; 64. a driven wheel; 65. a belt; 66. burying a wire column; 67. a cutting knife; 670. a connector; 6700. a through groove; 671. a cutter seat; 672. cutting a blade; 673. a wire pressing base; 6730. a guide groove; 7. a master control terminal; 8. a substrate; 81. processing a cambered surface; 82. a first column; 83. a second cylinder; 84. connecting columns; 85. a clamping piece; 86. copper wire.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-15.

Referring to fig. 1, for the utility model discloses an intelligence machine of sunkening cord, including placing station 1, cross removal station 2, processing station 3, lift station 4, boring station 5, the station 6 of sunkening cord.

The placing station 1 is arranged on a plane for installing the digital moving station and the lifting station 4. The cross moving station 2 is installed on the placing station 1 and is used for driving the machining station 3 to move transversely and vertically, in the embodiment, the transverse moving is left and right moving, the vertical moving is front and back moving, and the longitudinal moving is up and down moving.

The processing station 3 is arranged on the cross moving station 2 and is used for clamping and fixing a substrate 8 to be processed. The lifting station 4 is arranged on the placing station 1 and used for longitudinally and synchronously moving the boring station 5 and the wire embedding station 6, and the boring station 5 is arranged on the lifting station 4 and used for boring the base material 8 to be processed which is placed on the processing station 3. The wire burying station 6 is arranged on the lifting station 4 and is used for cutting and burying the wire of the base material 8 to be processed placed on the processing station 3.

Referring to fig. 2 and 3, the placing station 1 comprises a base 10, a slag discharging groove 11, a placing connecting seat 12, a supporting leg 13, a placing threaded rod 14, a placing buffer block 15, a rubber pad 16 and a nut 17.

The base 10 is integrally provided with a lifting mounting block 103 for mounting the column 40. Base 10 supplies cross mobile station 2 and machining station 3 to install, and is close to ground on the base 10 one side an organic whole and is provided with and places connecting seat 12, places connecting seat 12 and is provided with a plurality ofly, and places connecting seat 12 and be the symmetry setting. Placing still to be provided with on connecting seat 12 and having a stabilizer blade 13, an organic whole is provided with on stabilizer blade 13 and places threaded rod 14, places and still overlaps on the threaded rod 14 and be equipped with rubber pad 16, and rubber pad 16 is located and places between connecting seat 12 and the stabilizer blade 13, and places and still be provided with nut 17 on the threaded rod 14, nut 17 with place threaded rod 14 screw-thread fit and with place connecting seat 12 and contradict and compress tightly. The side of the support leg 13 contacting the ground is adhered with a rubber pad 16 by glue, and a placing buffer block 15 is sleeved on the placing threaded rod 14 and is connected with the placing connecting seat 12 and the support leg 13 in an abutting mode.

And a slag discharge groove 11 for collecting materials and waste materials is further arranged on one side of the base 10 far away from the ground, so that the waste materials cut and bored by the base material 8 can be conveniently discharged.

The base 10 is integrally provided with a first vertical mounting block 100 for mounting a vertical mounting seat 2011, the base 10 is integrally provided with a second vertical mounting block 101 for mounting a vertical movable seat 2014, and the first vertical mounting block 100 and the second vertical mounting block 101 are arranged on the same straight line.

The base 10 is symmetrically provided with vertical mounting bars 102 for mounting vertical sliding rails 2015, and the vertical mounting bars 102 are provided with vertical limiting grooves 1020 for mounting vertical limiting bars 2017.

Referring to fig. 4-6, the cross moving station 2 includes a horizontal station 200 and a vertical station 201, the vertical station 201 is installed on the base 10, and the horizontal station 200 is installed on the vertical station 201 to realize the cross movement.

Vertical station 201 is including setting up on base 10 and through the vertical motor 2010 on the bolt fastening vertical mount pad 2011, through the bolt fastening on the first installation piece and with vertical threaded rod 2012 rotation fit's vertical mount pad 2011, swing joint between vertical mount pad 2011 and vertical movable seat 2014 and with vertical thread bush 2013 screw-thread fit's vertical threaded rod 2012, screw-thread fit is on vertical threaded rod 2012 and be used for driving horizontal station 200 vertical movement's vertical thread bush 2013, through the bolt fastening on the second installation piece and with vertical threaded rod 2012 rotation fit's vertical movable seat 2014.

Vertical station 201 still sets up in the both sides of vertical bolt post and through the vertical slide rail 2015 on the bolt fastening in first mounting bar including the symmetry, slide and be fixed in on vertical slide rail 2015 and be connected with horizontal station 200 with the vertical slider 2016 of the vertical removal of the horizontal station 200 of cooperation, the symmetry sets up in the both sides of vertical threaded rod 2012, and be used for compressing tightly vertical spacing strip 2017 of fixed vertical slide rail 2015, the symmetry sets up in the vertical expansion and contraction cover 2018 of the both sides of vertical slide rail 2015, vertical expansion and contraction cover 2018 and horizontal station 200 fixed connection.

Vertical expansion cover 2018 is provided with 2 groups and is the setting that corresponds each other, and vertical expansion cover 2018's one end is connected fixedly through bolt and vertical slide rail 2015, and the other end is fixed through bolt and lateral shifting seat 2000 in the horizontal station 200 to expand and the motion of contracting.

Referring to fig. 4, 7, and 8, the transverse station 200 includes a transverse moving seat 2000 which is installed on the vertical station 201 and used for installing and fixing a transverse motor 2003, a transverse installation seat 2004, a transverse moving seat 2009, a transverse sliding rail 20010, and a transverse limit strip 20012, a first transverse installation block 20000 used for installing the transverse installation seat 2004 is integrally arranged on the transverse moving seat 2000, a second transverse installation block 20001 used for installing the transverse moving seat 2009 is integrally arranged on the transverse moving seat 2000, and the first transverse installation block 20000 and the second transverse installation block 20001 are arranged on the same straight line.

The transverse station 200 includes a transverse mounting seat 2004 fixed to a first transverse mounting block 20000 by bolts and self-rotatably engaged with a transverse threaded rod 2005, a transverse motor 2003 disposed on the transverse moving seat 2000 and fixed to the transverse mounting seat 2004 by bolts, a transverse threaded rod 2005 movably connected between the transverse mounting seat 2004 and the transverse moving seat 2009 and threadedly engaged with a transverse threaded sleeve 2006, a transverse threaded sleeve 2006 threadedly engaged with the transverse threaded rod 2005 and configured to drive the placing seat 2007 to move transversely, and a transverse moving seat 2009 fixed to a second transverse mounting block 20001 by bolts and rotatably engaged with the transverse threaded rod 2005.

The transverse station 200 comprises transverse sliding rails 20010 symmetrically arranged on two sides of the transverse bolt column and fixed on the transverse mounting bar 20002 through bolts, transverse sliding blocks 20011 fixed on the transverse sliding rails 20010 in a sliding mode and connected with the transverse station 200 to be matched with the placing seat 2007 to move transversely, and transverse limiting bars 20012 symmetrically arranged on two sides of the transverse threaded rod 2005 and used for pressing and fixing the transverse sliding rails 20010. The transverse moving seat 2000 is symmetrically provided with transverse mounting strips 20002 for mounting a transverse sliding rail 20010, and the transverse mounting strips 20002 are provided with transverse limiting grooves 200020 for mounting a transverse limiting strip 20012.

The transverse station 200 comprises a placing connecting block 2008 and a placing seat 2007, wherein the placing seat 2008 is integrally arranged on one side of the placing seat 2007 close to the transverse moving seat 2000 and is fixedly connected with the transverse threaded sleeve 2006, and the placing seat 2007 is fixedly connected with the transverse sliding block 20011 through bolts and is used for installing the processing station 3.

The transverse station 200 comprises transverse connecting seats 2001 which are symmetrically arranged on two sides of the transverse moving seat 2000 and fixedly connected with the vertical sliding block 2016 through bolts, and transverse connecting blocks 2002 which are arranged on one side, close to the vertical moving seat, of the transverse moving seat 2000 and fixedly connected with the vertical thread bushings 2013.

The transverse station 200 comprises transverse telescopic covers 20013 symmetrically arranged on two sides of the transverse sliding rail 20010 and fixedly connected with the placing seat 2007, and transverse protection plates 20014 fixed on the placing seat 2007 through bolts and located between the transverse telescopic covers 20013 on the two sides.

Referring to fig. 9 and 10, the processing station 3 includes a first processing mounting seat 30 disposed on the cross moving station 2 and used for mounting a processing motor 31, a second processing mounting seat 32 disposed on the cross moving station 2 and movably engaged with the swing seat 33, a processing motor 31 disposed on the first processing mounting seat 30 and used for driving the swing seat 33, and a swing seat 33 respectively connected with the processing motor 31 and the second processing mounting seat 32 and used for fixing the substrate 8.

The processing station 3 includes a positioning seat 34 disposed on the swing seat 33 and used for placing the substrate 8, an adjusting block 35 embedded on the positioning seat and fixed by bolts and used for adjusting the balance of the substrate 8, a hydraulic cylinder 36 disposed on the positioning seat 34 and used for driving the clamping block 37 to lift and lower so as to clamp the substrate 8, a clamping block 37 disposed on the hydraulic cylinder 36 and used for clamping the substrate 8, and a leaning block 38 pivoted to the clamping block 37 and mutually matched with the substrate 8 in a limiting manner.

The positioning seat 34 is provided with a positioning groove 340 for positioning the substrate 8. The base material 8 includes a processing arc surface 81 for boring by the boring cutter 52, a first column 82 inserted into the positioning seat 34, a second column 83 inserted into the positioning groove 340, and a connecting column 84 embedded in the processing arc surface 81 and used for fixing the copper wire 86. And the processing cambered surface 81 is cut into spirally distributed depressions through the cutting knife 67, so that the copper wires 86 are embedded.

Referring to fig. 11, the lifting station 4 includes an upright post 40 fixed on the lifting mounting block 103 by bolts, a lifting rail 41 symmetrically disposed on the upright post 40 by bolts, a lifting slider 42 slidably fitted on the lifting rail 41 and threadedly engaged with the lifting threaded rod 43, a lifting threaded rod 43 disposed on the upright post 40 and used for connecting the lifting motor 44 with the lifting base 46, a lifting motor 44 disposed on the upright post 40 and used for driving the lifting threaded rod 43 to rotate, a rubber buffer block 45 sleeved on the lifting threaded rod 43 and in interference fit with the lifting base 46, and a lifting base 46 fixed on the upright post 40 by bolts and rotationally engaged with the lifting threaded rod.

The side of stand 40 still the integrative material seat 47 that is provided with, material seat 47 supplies the copper wire that has binded to place fixedly to improve holistic operating efficiency.

Referring to fig. 12 and 13, the boring station 5 comprises a boring seat 50, a boring motor 51 and a boring cutter 52.

The boring holder 50 is fixed to the elevating holder 46 by bolts, and a boring motor 51 is provided on the boring holder 50 and drives a boring cutter 52 to rotate, the boring cutter 52 boring the base material 8. The boring cutter 52 can be fixed by a hydraulic cylinder, so that the boring cutter 52 can be replaced.

The wire burying station 6 comprises a wire burying seat 60 fixedly connected to the lifting seat 46, a wire burying plate 61 fixed on the wire burying seat 60 through bolts and connected with a wire burying motor 62, a wire burying motor 62 arranged on the wire burying plate 61 and used for driving a wire burying column 66 to rotate, a driving wheel 63 arranged on an output shaft of the wire burying motor 62, a driven wheel 64 arranged on the wire burying column 66, a belt 65 used for connecting the driving wheel 63 with the driven wheel 64, a wire burying column 66 rotatably connected to the wire burying seat 60 and used for rotating, a cutting knife 67 arranged on the wire burying column 66 and used for cutting a buried wire of the substrate 8, and a material seat 47 arranged on the upright post 40 and used for placing a copper wire 86.

Wherein the catgut embedding column 66 can be fixed by a hydraulic cylinder to realize the replacement of the boring cutter 52.

Referring to fig. 13 and 14, the cutting blade 67 includes a connector 670, a cutter seat 671, a cutter blade 672, and a pressing line seat 673. And the copper wire 86 passes through the wire embedding plate 61, the wire embedding seat 60, the wire embedding column 66 and the cutting knife 67.

Connector 670 is fixed in on the buried line post 66 through the bolt, and cutter seat 671 wears to establish and is fixed on the connecting cylinder and compresses tightly through the bolt and fix to convenient change to cutter blade 672, cutter blade 672 an organic whole set up on cutter seat 671 and be used for cutting substrate 8.

Wire pressing seat 673 is integrally arranged on connector 670 and used for pressing wires, through groove 6700 for copper wires 86 to penetrate is arranged on connector 670, through groove 6700 is arranged between wire pressing seat 673 and cutter seat 671, and guiding groove 6730 for copper wires 86 to guide pressing and communicate with through groove 6700 is arranged on wire pressing seat 673.

Referring to fig. 15, the main control terminal 7 is used for controlling the opening and closing of the cross moving station 2, the processing station 3, the lifting station 4, the boring station 5 and the wire burying station 6. The main control terminal 7 controls the cross-shaped moving station 2 to switch the machining station 3 to the boring station 5 or the wire embedding station 6, the main control terminal 7 controls the machining station 3 to rotate, the main control terminal 7 controls the lifting station 4 to drive the boring station 5 and the wire embedding station 6 to switch, and the boring station 5 and the wire embedding station 6 are controlled to be opened and closed.

In this embodiment, the main control terminal is a computer, a single chip, a PLC, or other programmable devices, and the writing of the program belongs to common general knowledge of those skilled in the art and is not described herein.

Substrate 8 is at the in-process that uses, through going on going up the electricity to the copper line 86 that is the rotatory form of screw thread and arranges to heat copper line 86, and be connected substrate 8 and other pipelines, thereby melt the periphery of copper line 86, also melt the junction of pipeline and copper line 86, thereby link together pipeline and substrate 8, in order to replace original glue.

The working process is as follows:

1. the main control terminal 7 controls the hydraulic cylinder 36 to clamp and fix the substrate 8;

2. the main control terminal 7 controls the cross-shaped moving station 2 to adjust the position of the processing station 3, controls the lifting station 4 to realize the matching of the boring station 5 and the processing station 3, controls the boring motor 51 to rotate to drive the boring cutter 52 to bore the substrate 8, and controls the processing station 3 to synchronously swing to match with boring at the same time;

3. the main control terminal 7 controls the lifting station 4 to drive the boring station 5 and the wire embedding station 6 to move, controls the cross-shaped moving station 2 to adjust the position of the machining station 3, and correspondingly matches the wire embedding station 6 with the machining station 3;

4. the main control terminal 7 controls the buried wire motor 62 to rotate with the control cutting knife 67, and the cooperation processing station 3 swings in step again to realize carrying out the spiral cutting to the substrate 8 to at the in-process of cutting, thereby cooperate the guiding groove 6730 on the line ball seat 673 with copper line 86 embedding.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. An intelligent line burying machine, characterized by comprising:

the placing station (1) is arranged on a plane and used for placing and installing;

the cross-shaped moving station (2) is arranged on the placing station (1) and is used for moving transversely and vertically;

the processing station (3) is arranged on the cross-shaped moving station (2) and is used for clamping and fixing a substrate (8) to be processed;

the lifting station (4) is arranged on the placing station (1) and is used for longitudinally and synchronously moving the boring station (5) and the wire embedding station (6);

the boring station (5) is arranged on the lifting station (4) and is used for boring the base material (8) to be processed placed on the processing station (3);

and the wire burying station (6) is arranged on the lifting station (4) and is used for cutting and burying wires of the base material (8) to be processed placed on the processing station (3).

2. The intelligent line burying machine as recited in claim 1, wherein: the placement station (1) comprises:

the base (10) is used for installing the cross-shaped moving station (2) and the processing station (3);

the slag discharging groove (11) is arranged on the base (10) and used for collecting materials;

the placing connecting seats (12) are symmetrically arranged on one side, close to the ground, of the base (10);

a support leg (13) which is arranged on the placing connecting seat (12) and is used for supporting the base (10);

the placing threaded rod (14) is arranged on the support leg (13) and penetrates through the placing connecting seat (12);

the placing buffer block (15) is sleeved on the placing threaded rod (14) and is in abutting connection with the placing connecting seat (12) and the supporting leg (13);

the rubber pad (16) is arranged on one side of the support leg (13) far away from the buffer block (15) and is connected with the ground in an abutting mode;

and the nut (17) is in threaded fit with the placing threaded rod (14) and is abutted against and pressed by the placing connecting seat (12).

3. The intelligent line burying machine as recited in claim 2, wherein: the cross moving station (2) comprises a transverse station (200) and a vertical station (201);

the vertical station (201) comprises:

the vertical motor (2010) is arranged on the base (10) and is fixed on the vertical mounting seat (2011) through bolts;

the vertical mounting seat (2011) is fixed on the first mounting block through a bolt and is in rotation fit with the vertical threaded rod (2012);

the vertical threaded rod (2012) is movably connected between the vertical mounting seat (2011) and the vertical movable seat (2014) and is in threaded fit with the vertical threaded sleeve (2013);

the vertical thread sleeve (2013) is in thread fit on the vertical thread rod (2012) and is used for driving the transverse station (200) to vertically move;

the vertical movable seat (2014) is fixed on the second mounting block through a bolt and is in rotating fit with the vertical threaded rod (2012);

the vertical sliding rails (2015) are symmetrically arranged at two sides of the vertical bolt column and are fixed on the first mounting bar through bolts;

the vertical sliding block (2016) is fixed on the vertical sliding rail (2015) in a sliding mode and is connected with the transverse station (200) to be matched with the transverse station (200) to move vertically;

the vertical limiting strips (2017) are symmetrically arranged on two sides of the vertical threaded rod (2012) and used for pressing and fixing the vertical sliding rail (2015);

the vertical telescopic covers (2018) are symmetrically arranged on two sides of the vertical slide rail (2015) and are fixedly connected with the transverse station (200);

the utility model discloses a vertical mounting structure of base, including base (10), integrative first vertical installation piece (100) that are provided with the installation of confession vertical mount pad (2011) on base (10), an organic whole is provided with the vertical installation piece (101) of second that supply vertical sliding seat (2014) to install on base (10), the symmetry is provided with vertical installation strip (102) that supply vertical slide rail (2015) to install on base (10), be provided with vertical spacing groove (1020) that supply vertical spacing strip (2017) to install on vertical installation strip (102).

4. The intelligent line burying machine as recited in claim 3, wherein: the transverse station (200) comprises:

the transverse moving seat (2000) is arranged on the vertical station (201) and used for installing and fixing a transverse motor (2003), a transverse mounting seat (2004), a transverse moving seat (2009), a transverse sliding rail (20010) and a transverse limiting strip (20012);

the transverse connecting seats (2001) are symmetrically arranged on two sides of the transverse moving seat (2000) and are fixedly connected with the vertical sliding blocks (2016) through bolts;

the transverse connecting block (2002) is arranged on one side, close to the vertical moving seat, of the transverse moving seat (2000) and is fixedly connected with the vertical threaded sleeve (2013);

a transverse motor (2003) arranged on the transverse moving seat (2000) and fixed on the transverse mounting seat (2004) through bolts;

the transverse mounting seat (2004) is fixed on the first transverse mounting block (20000) through a bolt and is in self-rotation fit with the transverse threaded rod (2005);

the transverse threaded rod (2005) is movably connected between the transverse mounting seat (2004) and the transverse movable seat (2009) and is in threaded fit with the transverse threaded sleeve (2006);

the transverse threaded sleeve (2006) is in threaded fit with the transverse threaded rod (2005) and is used for driving the placing seat (2007) to move transversely;

the placing seat (2007) is fixedly connected with the transverse sliding block (20011) through a bolt and is used for installing the processing station (3);

the placing connecting block (2008) is integrally arranged on one side, close to the transverse moving seat (2000), of the placing seat (2007) and is fixedly connected with the transverse threaded sleeve (2006);

the transverse movable seat (2009) is fixed on the second transverse mounting block (20001) through a bolt and is in rotating fit with the transverse threaded rod (2005);

the transverse sliding rails (20010) are symmetrically arranged on two sides of the transverse bolt column and are fixed on the transverse mounting bar (20002) through bolts;

the transverse sliding block (20011) is fixed on the transverse sliding rail (20010) in a sliding mode and is connected with the transverse station (200) to be matched with the placing seat (2007) to move transversely;

the transverse limiting strips (20012) are symmetrically arranged on two sides of the transverse threaded rod (2005) and are used for pressing and fixing the transverse sliding rails (20010);

the transverse telescopic covers (20013) are symmetrically arranged on two sides of the transverse sliding rail (20010) and are fixedly connected with the placing seat (2007);

the transverse protection plate (20014) is fixed on the placing seat (2007) through bolts and is positioned between the transverse telescopic covers (20013) on the two sides;

the utility model discloses a horizontal installation of horizontal sliding rail, including horizontal removal seat (2000), horizontal removal seat (2000) are gone up the integrative first horizontal installation piece (20000) that supplies horizontal mount pad (2004) to install that is provided with, horizontal removal seat (2000) are gone up the integrative second horizontal installation piece (20001) that supplies horizontal sliding seat (2009) to install that is provided with, horizontal removal seat (2000) are gone up the symmetry and are provided with horizontal mounting bar (20002) that supply horizontal sliding rail (20010) to install, be provided with horizontal spacing groove (200020) that supply horizontal spacing bar (20012) to install on horizontal mounting bar (20002).

5. The intelligent line burying machine as recited in claim 1, wherein: the processing station (3) comprises:

the first machining mounting seat (30) is arranged on the cross moving station (2) and is used for mounting a machining motor (31);

a processing motor (31) which is arranged on the first processing mounting seat (30) and is used for driving the swing seat (33);

the second machining mounting seat (32) is arranged on the cross-shaped moving station (2) and is movably matched with the swing seat (33);

the swing seat (33) is respectively connected with the processing motor (31) and the second processing mounting seat (32) and is used for fixing the base material (8);

a positioning seat (34) which is arranged on the swing seat (33) and used for placing the base material (8);

the adjusting block (35) is embedded on the fixed seat, fixed through a bolt and used for adjusting the balance of the base material (8);

the hydraulic cylinder (36) is arranged on the positioning seat (34) and is used for driving the clamping block (37) to lift so as to clamp the base material (8);

a clamping block (37) which is arranged on the hydraulic cylinder (36) and is used for clamping the base material (8);

a leaning block (38) which is pivoted with the clamping block (37) and mutually limited and matched with the base material (8);

and the positioning seat (34) is provided with a positioning groove (340) for positioning the base material (8).

6. The intelligent line burying machine as recited in claim 2, wherein: the lifting station (4) comprises:

the upright post (40) is fixed on the lifting mounting block (103) through a bolt;

the lifting rails (41) are symmetrically arranged on the upright post (40) through bolts;

the lifting slide block (42) is in sliding fit with the lifting track (41) and is in threaded fit with the lifting threaded rod (43);

the lifting threaded rod (43) is arranged on the upright post (40) and is used for connecting the lifting motor (44) and the lifting seat (46);

the lifting motor (44) is arranged on the upright post (40) and is used for driving the lifting threaded rod (43) to rotate;

the rubber buffer block (45) is sleeved on the lifting threaded rod (43) and is in interference fit with the lifting seat (46);

the lifting seat (46) is fixed on the upright post (40) through bolts and is in rotary fit with a lifting bolt rod;

the base (10) is integrally provided with a lifting mounting block (103) for mounting the upright post (40).

7. The intelligent line burying machine as recited in claim 6, wherein: the boring station (5) comprises:

a boring seat (50) fixed to the lifting seat (46) by bolts;

the boring motor (51) is arranged on the boring seat (50) and is used for driving the boring cutter (52) to rotate;

a boring cutter (52) for boring the base material (8).

8. The intelligent line burying machine as recited in claim 6, wherein: the thread burying station (6) comprises:

the wire embedding seat (60) is fixedly connected to the lifting seat (46);

the wire embedding plate (61) is fixed on the wire embedding seat (60) through bolts and is connected with a wire embedding motor (62);

the buried wire motor (62) is arranged on the buried wire plate (61) and is used for driving the buried wire column (66) to rotate;

the driving wheel (63) is arranged on an output shaft of the buried wire motor (62);

a driven wheel (64) arranged on the buried wire column (66);

a belt (65) for connecting the driving wheel (63) and the driven wheel (64);

a wire embedding column (66) which is rotatably connected to the wire embedding base (60) and is used for rotating;

the cutting knife (67) is arranged on the buried wire column (66) and is used for cutting the buried wire of the base material (8);

the material seat (47) is arranged on the upright post (40) and used for placing the copper wire (86);

and the copper wire (86) penetrates through the wire embedding plate (61), the wire embedding seat (60), the wire embedding column (66) and the cutting knife (67).

9. The intelligent line burying machine as recited in claim 8, wherein: the cutting knife (67) comprises:

a connector (670) fixed to the embedded column (66) by a bolt;

the cutter seat (671) is fixedly arranged on the connecting cylinder in a penetrating way and is compressed and fixed through a bolt;

a cutter blade (672) integrally provided on the cutter base (671) and used for cutting the base material (8);

the wire pressing seat (673) is integrally arranged on the connecting head (670) and is used for pressing wires;

a through groove (6700) for a copper wire (86) to penetrate through is formed in the connecting head (670), and the through groove (6700) is formed between the wire pressing seat (673) and the cutter seat (671);

the wire pressing seat (673) is provided with a guide groove (6730) for guiding and pressing the copper wire (86) and communicating with the through groove (6700).

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