CN203076500U - Numerical control full-automatic winding machine - Google Patents

Abstract

The utility model discloses a numerical control full-automatic winding machine comprising a paying-off rack and a winding device which are arranged side by side, wherein the winding device comprises a machine base, a work bench and a numerical control system, wherein the work bench and the numerical control system are installed on the machine base, a plurality of cams and a plurality of slider lever mechanisms matched with the plurality of cams are installed on the front face of the work bench, a cam motor used for driving the cams to rotate are arranged in the work bench, a pneumatic grooving mechanism is installed on the slider lever mechanisms, a wire feeding mechanism and a rotary core mechanism are installed on the back face of the work bench, a straightening mechanism is installed on the wire feeding mechanism, a lifting winding mechanism is installed at the top of the work bench, and the cam motor, the wire feeding mechanism, the rotary core mechanism and the lifting winding mechanism are all connected with the numerical control system. The numerical control full-automatic winding machine is compact in structure, novel and reasonable in design, convenient to achieve, convenient and fast to use and operate, high in machining efficiency, strong in practicability, and high in promotion and application value.

Description

The full-automatic coiling machine of numerical control

Technical field

The utility model relates to steel-wire screw-socket manufacturing technology field, especially relates to the full-automatic coiling machine of a kind of numerical control.

Background technology

Steel-wire screw-socket (Wire Thread Insert) is a kind of novel internal thread securing member, it is embedded form high strength, wear-resistant, standard female with interchangeability on metal or the nonmetallic materials.At aluminium, use the intensity and the wearability that can obviously improve internal thread on the low-intensity engineering materials such as magnesium alloy.Be applied in steel part, foundry goods on the cast iron, can improve the durability of screw, prevents because various vibrations cause screw loosening the endurance life when fatigue fracture and raising screw connect; Screw thread processing is wrong or when the inner bolt hole that has damaged repaired occurring, and uses steel-wire screw-socket as means, can not gain in weight and volume obtains economic maintenance, and the rescue vitals is repaired reset condition fast and effectively; Utilize steel-wire screw-socket to carry out public affairs---the conversion of inch screw thread hole, very convenient, quick; Lock type steel-wire screw-socket, its polygon can clamp ring can be in screwed hole screw lock, when being vibrated and impact, can make that screw is unlikely to release, better than common locking device processing performance.

Steel-wire screw-socket is widely used in industries such as automobile, Aeronautics and Astronautics, special equipment.Along with industrial expansion, the purposes of steel-wire screw-socket is also increasing.At present, domestic steel-wire screw-socket manufacturing industry is wanted steel-wire screw-socket of coiling, needs moulding swivel nut of coiling, passes through artificial removal's caudal peduncle again, manually opens 90 ° of V-type snap slots then on dedicated tool.This concerning large-scale steel-wire screw-socket also easily, but the steel-wire screw-socket small-sized like this, the manually-operated comparison difficulty of getting up to M2-M6, and production efficiency is low, low precision, the mode of production of this semi-automation, the demand that far can not adapt to market is so be badly in need of the full-automatic coiling machine of a kind of numerical control of development.

The utility model content

Technical problem to be solved in the utility model is to provide a kind of numerical control full-automatic coiling machine, its compact conformation at above-mentioned deficiency of the prior art, rationally novel in design, it is convenient to realize, uses simple operation, the working (machining) efficiency height, applicability is strong, the application value height.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: the full-automatic coiling machine of a kind of numerical control, it is characterized in that: comprise the pay off rack that is arranged side by side and around covering device, describedly comprise support and be installed in workbench and digital control system on the support around covering device, a plurality of slide block leverages that the front of described workbench is equipped with a plurality of cams and matches with a plurality of cams, be provided with the cam motor that is used to drive the cam rotation in the described workbench, pneumatic fluting mechanism is installed on the described slide block leverage, the back side of described workbench is equipped with wire feeder and changes core mechanism, straight mechanism is installed on the described wire feeder, the top of described workbench is equipped with up-and-down-winding mechanism, described cam motor, wire feeder, changeing core mechanism and up-and-down-winding mechanism all joins with described digital control system.

The full-automatic coiling machine of above-mentioned numerical control is characterized in that: the side of described support is provided with manual lubricating pump, is provided with a plurality of lifting screws with described workbench on the described support, and the top of described workbench is provided with portable lamp.

The full-automatic coiling machine of above-mentioned numerical control, it is characterized in that: described digital control system comprises CNC coil winding machine controller and the control panel and the display that join with CNC coil winding machine controller, and described cam motor, wire feeder, commentaries on classics core mechanism and up-and-down-winding mechanism all join with described CNC coil winding machine controller.

The full-automatic coiling machine of above-mentioned numerical control, it is characterized in that: described pay off rack comprises the pay off rack base and is installed in the reducing motor on pay off rack base top, be connected with universal driving shaft on the output shaft of described reducing motor, be connected with the unwrapping wire connecting plate on the described universal driving shaft from top to bottom in turn, following frictional disk, friction plate, last frictional disk and draw drum, connect on one section universal driving shaft of described draw drum and be set with stage clip, the top of described stage clip is equipped with spring pressing nut, one side of described unwrapping wire connecting plate is connected with first fixed bar by first bent plate, the opposite side of described unwrapping wire connecting plate is connected with second fixed bar by second bent plate, one side of described draw drum is fixedly connected with the 3rd fixed bar, the opposite side of described draw drum is fixedly connected with the 4th fixed bar, be connected with support on described second bent plate, be connected with gripper shoe by tube connector on the described support, be connected with support bar on the described gripper shoe, be connected with connecting rod by adapter sleeve on the described support bar, the top of described connecting rod is provided with the extension bar ring, is provided with first extension spring between described adapter sleeve and the described gripper shoe.

The full-automatic coiling machine of above-mentioned numerical control, it is characterized in that: described wire feeder comprises the wire feeder housing and is arranged on wire feeding motor in the wire feeder housing and the wire feed power transmission gear group of joining with wire feeding motor, on the described wire feeder housing wire feed cylinder is installed, fork, the upper wire feeding hose wheel, middle guide plate and lower wire feeding hose wheel, described fork is connected on the described wire feed cylinder and is used to compress or unclamps described upper wire feeding hose wheel, described fork is positioned at the top of described upper wire feeding hose wheel, described upper wire feeding hose wheel is positioned at the top of described lower wire feeding hose wheel, guide plate is between described upper wire feeding hose wheel and lower wire feeding hose wheel in the middle of described, described upper wire feeding hose wheel all is connected with described wire feed power transmission gear group with the lower wire feeding hose wheel, and described wire feeding motor and described CNC coil winding machine controller join.

The full-automatic coiling machine of above-mentioned numerical control is characterized in that: described straight mechanism comprises and is connected the straight mechanism's connecting plate on the wire feeder housing and is arranged on the wire guiding nipple on the straight mechanism connecting plate, a plurality of going up than through ship and a plurality of down than through ship.

The full-automatic coiling machine of above-mentioned numerical control, it is characterized in that: described up-and-down-winding mechanism comprises the up-and-down-winding mechanism support that is installed in bench-top and is installed in the coiler device on the up-and-down-winding mechanism support side by side and is used to drive the lowering or hoisting gear that described coiler device moves up and down, described lowering or hoisting gear comprises lifting motor, be connected on the lifting motor output shaft ball-screw and with the feed screw nut that is connected on the ball-screw, the clutch shaft bearing that is used for the supporting elevation motor output shaft is installed on the described up-and-down-winding mechanism support and is used for second bearing of back-up roller ballscrew; Described coiler device comprises the coiling casing, the coiling motor, be connected on the coiling motor output shaft the coiling main shaft and by collet be installed on the described coiling main shaft around the cover mandrel, described coiling casing is fixedlyed connected with described feed screw nut by bent plate, be provided with the 3rd bearing that is used to support described coiling main shaft in the described coiling casing, described up-and-down-winding mechanism support is provided with and is used for line slideway that moving up and down of coiler device led, be connected with on the described straight line coiling casing and be used for the slide block that moves up and down along described line slideway, described lifting motor and coiling motor all join with described CNC coil winding machine controller.

The full-automatic coiling machine of above-mentioned numerical control is characterized in that: described commentaries on classics core mechanism comprises changes the core motor, be installed in pinion that changes on the core motor output shaft and the gear wheel that is meshed with pinion, and described commentaries on classics core motor and described CNC coil winding machine controller join.

The full-automatic coiling machine of above-mentioned numerical control, it is characterized in that: described slide block leverage comprises the pressing plate that is installed on the workbench, be installed in the horizontal strut on the pressing plate and be installed in vertical pole on the horizontal strut, on the described vertical pole pull bar is installed, be connected with the swing arm that matches with described cam on the described pull bar, be connected with second extension spring between described vertical pole and the described pressing plate.

The full-automatic coiling machine of above-mentioned numerical control; it is characterized in that: described pneumatic fluting mechanism comprises the fluting mechanism base, be installed in the vertical adjusting bearing on the fluting mechanism base and be installed in transversely regulating support abutment on vertical adjusting bearing; pneumatic chine is installed on the described transversely regulating support abutment; on the described pneumatic chine fluting blade is installed, is connected with on the described base and is used for described pneumatic fluting mechanism is connected attachment screw on the slide block leverage.

The utility model compared with prior art has the following advantages:

1, the utility model compact conformation, rationally novel in design, it is convenient to realize.

2, intelligent degree height of the present utility model can be realized the full-automatic coiling of steel-wire screw-socket, uses simple operation.

3, the utility model can be processed into the raw material of diamond-shaped cross-section the steel-wire screw-socket that meets the market development demand, and the working (machining) efficiency height, and the steel-wire screw-socket quality that is processed is good.

4, applicability of the present utility model is strong, and the coiling that can once finish public affairs, steel-wire screw-socket made in Great Britain is shaped, and unfolds fault trough, the processing overall process of the handle that truncates, and the steel-wire screw-socket of energy coiling band self-locking ring.

5, the scuff resistance height of the steel-wire screw-socket that processes of the utility model can be widely used in industries such as automobile, aviation, space flight and special equipment, the application value height.

In sum, the utility model compact conformation, rationally novel in design, it is convenient to realize, uses simple operation, the working (machining) efficiency height, applicability is strong, the application value height.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present utility model.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the structural representation of the utility model pay off rack.

Fig. 4 is the structural representation of the utility model wire feeder.

Fig. 5 is the structural representation of the straight mechanism of the utility model.

Fig. 6 is the structural representation of the utility model up-and-down-winding mechanism.

Fig. 7 is the left view of Fig. 6.

Fig. 8 changes the structural representation of core mechanism for the utility model.

Fig. 9 is the structural representation of the utility model slide block leverage.

Figure 10 is the structural representation of the pneumatic fluting of the utility model mechanism.

Figure 11 is the annexation schematic diagram of the utility model digital control system and other each parts.

Description of reference numerals:

1-pay off rack; 1-1-pay off rack base; 1-2-reducing motor;

1-3-universal driving shaft; 1-4-unwrapping wire connecting plate; 1-5-following frictional disk;

1-6-friction plate; 1-7-last frictional disk; 1-8-draw drum;

1-9-stage clip; 1-10-spring pressing nut; 1-11-first bent plate;

1-12-first fixed bar; 1-13-second bent plate; 1-14-second fixed bar;

1-15-the 3rd fixed bar; 1-16-the 4th fixed bar; 1-17-support;

1-18-gripper shoe; 1-19-support bar; 1-20-connecting rod;

1-21-extension bar ring; 1-22-first extension spring; 1-23-tube connector;

1-24-adapter sleeve; 2-support; 3-workbench;

4-digital control system; 4-1-CNC coil winding machine controller;

4-2-control panel; 4-3-display; 5-cam;

6-slide block leverage; 6-1-pressing plate; 6-2-horizontal strut;

6-3-vertical pole; 6-4-pull bar; 6-5-swing arm;

6-6-second extension spring; 7-cam motor; 8-pneumatic fluting mechanism;

8-1-fluting mechanism base; 8-2-vertically regulate bearing; 8-3-transversely regulating support abutment;

8-4-pneumatic chine; 8-5-fluting blade; 8-6-screw;

9-wire feeder; 9-1-wire feeder housing; 9-2-wire feeding motor;

9-3-wire feed power transmission gear group; 9-4-wire feed cylinder;

9-5-fork; 9-6-upper wire feeding hose wheel; 9-7-middle guide plate;

9-8-lower wire feeding hose wheel; 10-commentaries on classics core mechanism; 10-1-commentaries on classics core motor;

10-2-pinion; 10-3-gear wheel; 11-straight mechanism;

11-1-straight mechanism connecting plate; 11-2-wire guiding nipple;

11-3-go up than through ship; 11-4-down than through ship; 12-up-and-down-winding mechanism;

12-1-up-and-down-winding mechanism support; 12-2-lifting motor;

12-3-ball-screw; 12-4-feed screw nut; 12-5-clutch shaft bearing;

12-6-second bearing; 12-7-coiling casing; 12-8-coiling motor;

12-9-coiling main shaft; 12-10-collet; 12-11-around the cover mandrel;

12-12-the 3rd bearing; 12-13-line slideway; 21-14-slide block.

The specific embodiment

As depicted in figs. 1 and 2, the utility model comprises the pay off rack 1 that is arranged side by side and around covering device, describedly comprise support 2 and be installed in workbench 3 and digital control system 4 on the support 2 around covering device, a plurality of slide block leverages 6 that the front of described workbench 3 is equipped with a plurality of cams 5 and matches with a plurality of cams 5, be provided with the cam motor 7 that is used to drive cam 5 rotations in the described workbench 3, pneumatic fluting mechanism 8 is installed on the described slide block leverage 6, the back side of described workbench 3 is equipped with wire feeder 9 and changes core mechanism 10, straight mechanism 11 is installed on the described wire feeder 9, the top of described workbench 3 is equipped with up-and-down-winding mechanism 12, described cam motor 7, wire feeder 9, changeing core mechanism 10 and up-and-down-winding mechanism 12 all joins with described digital control system 4.

In the present embodiment, the side of described support 2 is provided with manual lubricating pump 13, is provided with a plurality of lifting screws 14 with described workbench 3 on the described support 2, and the top of described workbench 3 is provided with portable lamp 15.

In conjunction with Figure 11, in the present embodiment, described digital control system 4 comprises CNC coil winding machine controller 4-1 and the control panel 4-2 and the display 4-3 that join with CNC coil winding machine controller 4-1, and described cam motor 7, wire feeder 9, commentaries on classics core mechanism 10 and up-and-down-winding mechanism 12 all join with described CNC coil winding machine controller 4-1.

In conjunction with Fig. 3, in the present embodiment, described pay off rack 1 comprises pay off rack base 1-1 and is installed in the reducing motor 1-2 on pay off rack base 1-1 top, be connected with universal driving shaft 1-3 on the output shaft of described reducing motor 1-2, be connected with unwrapping wire connecting plate 1-4 on the described universal driving shaft 1-3 from top to bottom in turn, following frictional disk 1-5, friction plate 1-6, last frictional disk 1-7 and draw drum 1-8, connect on one section universal driving shaft 1-3 of described draw drum 1-8 and be set with stage clip 1-9, the top of described stage clip 1-9 is equipped with spring pressing nut 1-10, the side of described unwrapping wire connecting plate 1-4 is connected with the first fixed bar 1-12 by the first bent plate 1-11, the opposite side of described unwrapping wire connecting plate 1-4 is connected with the second fixed bar 1-14 by the second bent plate 1-13, the side of described draw drum 1-8 is fixedly connected with the 3rd fixed bar 1-15, the opposite side of described draw drum 1-8 is fixedly connected with the 4th fixed bar 1-16, be connected with support 1-17 on the described second bent plate 1-13, described support 1-17 goes up and is connected with gripper shoe 1-18 by tube connector 1-23, be connected with support bar 1-19 on the described gripper shoe 1-18, described support bar 1-19 goes up and is connected with connecting rod 1-20 by adapter sleeve 1-24, the top of described connecting rod 1-20 is provided with extension bar ring 1-21, is provided with the first extension spring 1-22 between described adapter sleeve 1-24 and the described gripper shoe 1-18.

In conjunction with Fig. 4, in the present embodiment, described wire feeder 9 comprises wire feeder housing 9-1 and is arranged on wire feeding motor 9-2 in the wire feeder housing 9-1 and the wire feed power transmission gear group 9-3 that joins with wire feeding motor 9-2, on the described wire feeder housing 9-1 wire feed cylinder 9-4 is installed, fork 9-5, upper wire feeding hose wheel 9-6, middle guide plate 9-7 and lower wire feeding hose wheel 9-8, described fork 9-5 is connected described wire feed cylinder 9-4 and goes up and be used to compress or unclamp described upper wire feeding hose wheel 9-6, described fork 9-5 is positioned at the top of described upper wire feeding hose wheel 9-6, described upper wire feeding hose wheel 9-6 is positioned at the top of described lower wire feeding hose wheel 9-8, guide plate 9-7 is between described upper wire feeding hose wheel 9-6 and lower wire feeding hose wheel 9-8 in the middle of described, described upper wire feeding hose wheel 9-6 all is connected with described wire feed power transmission gear group 9-3 with lower wire feeding hose wheel 9-8, and described wire feeding motor 9-2 and described CNC coil winding machine controller 4-1 join.

During concrete enforcement, it is the AC servo motor of 1KW that described wire feeding motor 9-2 adopts rated power, and the wire feed precision can reach ± 0.01mm, has guaranteed the accuracy of wire feed.

In conjunction with Fig. 5, in the present embodiment, described straight mechanism 11 comprises and is connected the straight connecting plate 11-1 of mechanism on the wire feeder housing 9-1 and is arranged on the wire guiding nipple 11-2 on the straight connecting plate 11-1 of mechanism, a plurality of going up than through ship 11-3 and a plurality of down than through ship 11-4.Described straight mechanism 11 can carry out more straight at level and vertical both direction to diamond wire, straight amount can be adjusted.

In conjunction with Fig. 6, in the present embodiment, described up-and-down-winding mechanism 12 comprises the support 12-1 of up-and-down-winding mechanism that is installed in workbench 3 tops and is installed in the coiler device on the support 12-1 of up-and-down-winding mechanism side by side and is used to drive the lowering or hoisting gear that described coiler device moves up and down, described lowering or hoisting gear comprises lifting motor 12-2, be connected on the lifting motor 12-2 output shaft ball-screw 12-3 and with the feed screw nut 12-4 that is connected on the ball-screw 12-3, the clutch shaft bearing 12-5 that is used for supporting elevation motor 12-2 output shaft and the second bearing 12-6 that is used for back-up roller ballscrew 12-3 are installed on the described up-and-down-winding support 12-1 of mechanism; Described coiler device comprises coiling casing 12-7, coiling motor 12-8, be connected on the coiling motor 12-8 output shaft coiling main shaft 12-9 and by collet 12-10 be installed on the described coiling main shaft 12-9 around cover mandrel 12-11, described coiling casing 12-7 is fixedlyed connected with described feed screw nut 12-4 by bent plate, be provided with the 3rd bearing 12-12 that is used to support described coiling main shaft 12-9 in the described coiling casing 12-7, the described up-and-down-winding support 12-1 of mechanism is provided with and is used for line slideway 12-13 that moving up and down of coiler device led, be connected with on the described straight line coiling casing 12-7 and be used for the slide block 12-14 that moves up and down along described line slideway 12-13, described lifting motor 12-2 and coiling motor 12-8 all join with described CNC coil winding machine controller 4-1.

During concrete enforcement, it is the AC servo motor of 0.4KW that described lifting motor 12-2 adopts rated power, described lifting motor 12-2 drives coiler device by ball-screw 12-3 and feed screw nut 12-4 and moves up and down, move up and down and lead by line slideway 12-13, described line slideway 12-13 adopts Japanese THK line slideway 12-13, has guaranteed the precision that moves up and down.It is the AC servo motor of 0.4KW that described coiling motor 12-8 has adopted rated power, will be to coiling main shaft 12-9 by collet 12-10 around cover mandrel 12-11 clamping, made things convenient for replacing around cover mandrel 12-11, and guaranteed axiality, thereby guaranteed around the cover quality around cover mandrel 12-11 and coiling main shaft 12-9.

In conjunction with Fig. 8, in the present embodiment, described commentaries on classics core mechanism 10 comprises changes core motor 10-1, be installed in pinion 10-2 that changes on the core motor 10-1 output shaft and the gear wheel 10-3 that is meshed with pinion 10-2, and described commentaries on classics core motor 10-1 and described CNC coil winding machine controller 4-1 join.

During concrete enforcement, it is the AC servo motor of 0.75KW that described commentaries on classics core motor 10-1 adopts rated power, by the gear drive anglec of rotation and change direction, realizes left-handed and the coiling dextrorotation steel-wire screw-socket.

In conjunction with Fig. 9, in the present embodiment, described slide block leverage 6 comprises the pressing plate 6-1 that is installed on the workbench 3, be installed in the horizontal strut 6-2 on the pressing plate 6-1 and be installed in vertical pole 6-3 on the horizontal strut 6-2, on the described vertical pole 6-3 pull bar 6-4 is installed, be connected with the swing arm 6-5 that matches with described cam 5 on the described pull bar 6-4, be connected with the second extension spring 6-6 between described vertical pole 6-3 and the described pressing plate 6-1.

During concrete enforcement, the quantity of described slide block leverage 6 is quadruplet, and the described slide block leverage 6 of quadruplet is the fan star arrangement around workbench 3.

In conjunction with Figure 10; in the present embodiment; described pneumatic fluting mechanism 8 comprises fluting mechanism base 8-1, be installed in the vertical adjusting bearing 8-2 on the fluting mechanism base 8-1 and be installed in transversely regulating support abutment 8-3 on vertical adjusting bearing 8-2; pneumatic chine 8-4 is installed on the described transversely regulating support abutment 8-3; fluting blade 8-5 is installed on the described pneumatic chine 8-4, is connected with on the described base and is used for attachment screw 8-6 that described pneumatic fluting mechanism 8 is connected on the slide block leverage 6.

During concrete enforcement, described pneumatic chine 8-4 has adopted the pneumatic chine 8-4 of the empty company in Japanese east, and pneumatic chine 8-4 drives fluting blade 8-5 rotation, carries out on the steel-wire screw-socket 90 ° of V-types fluting that fractures.

The operation principle of the present utility model and the course of work are: diamond wire is drawn from pay off rack 1, after aligning mechanism 11 alignments, enter between the upper wire feeding hose wheel 9-6 and lower wire feeding hose wheel 9-8 of wire feeder 9, the wire feed cylinder 9-4 action of wire feeder 9, drive fork 9-5 and compress described upper wire feeding hose wheel 9-6, upper wire feeding hose wheel 9-6 is pressed down, 9-8 clamps the rhombus silk with the lower wire feeding hose wheel, wire feeding motor 9-2 rotation, drive described upper wire feeding hose wheel 9-6 and lower wire feeding hose wheel 9-8 rotation beginning wire feed by wire feed power transmission gear group 9-3, after wire feed puts in place, wire feed cylinder 9-4 drives fork 9-5 and unclamps described upper wire feeding hose wheel 9-6, upper wire feeding hose wheel 9-6 liter, lifting motor 12-2 action in the up-and-down-winding mechanism 12, drive ball-screw 12-3 rotation, feed screw nut 12-4 descends and drives the whole decline of coiler device, treat after cover mandrel 12-11 front end snaps in the rhombus silk, the end bending of beginning steel-wire screw-socket, lifting motor 12-2 and coiling motor 12-8 rotation is synchronously subsequently carried out around cover, around to 1.5～2 circles the time, lifting motor 12-2 and coiling motor 12-8 quit work, stop to reel, this moment, the cam motor 7 of workbench 3 was started working, unfold fault trough by 8 feedings of the pneumatic fluting of slide block leverage 6 drives mechanism, after waiting to satisfy the swivel nut technological parameter, pneumatic fluting mechanism 8 rollbacks, begin again subsequently to reel, around to the number of turns of setting, lifting motor 12-2, coiling motor 12-8 counter-rotating, make around cover mandrel 12-11 and withdraw from swivel nut, then, wire feed cylinder 9-4 clamps the rhombus silk, wire feeding motor 9-2 counter-rotating, making the spiral shell portion of swivel nut return to desired location cuts off, just the be through with this moment coiling work of a swivel nut repeats above action repeatedly, will coiling go out a large amount of steel-wire screw-sockets.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of technical solutions of the utility model according to the utility model technical spirit.

Claims (10)

1. full-automatic coiling machine of numerical control, it is characterized in that: comprise the pay off rack (1) that is arranged side by side and around covering device, describedly comprise support (2) and be installed in workbench (3) and digital control system (4) on the support (2) around covering device, a plurality of slide block leverages (6) that the front of described workbench (3) is equipped with a plurality of cams (5) and matches with a plurality of cams (5), be provided with the cam motor (7) that is used to drive cam (5) rotation in the described workbench (3), pneumatic fluting mechanism (8) is installed on the described slide block leverage (6), the back side of described workbench (3) is equipped with wire feeder (9) and changes core mechanism (10), straight mechanism (11) is installed on the described wire feeder (9), the top of described workbench (3) is equipped with up-and-down-winding mechanism (12), described cam motor (7), wire feeder (9), changeing core mechanism (10) and up-and-down-winding mechanism (12) all joins with described digital control system (4).

2. according to the full-automatic coiling machine of the described numerical control of claim 1, it is characterized in that: the side of described support (2) is provided with manual lubricating pump (13), described support (2) is gone up and described workbench (3) is provided with a plurality of lifting screws (14), and the top of described workbench (3) is provided with portable lamp (15).

3. according to claim 1 or the full-automatic coiling machine of 2 described numerical controls, it is characterized in that: described digital control system (4) comprises CNC coil winding machine controller (4-1) and the control panel (4-2) and the display (4-3) that join with CNC coil winding machine controller (4-1), and described cam motor (7), wire feeder (9), commentaries on classics core mechanism (10) and up-and-down-winding mechanism (12) all join with described CNC coil winding machine controller (4-1).

4. according to the full-automatic coiling machine of the described numerical control of claim 3, it is characterized in that: described pay off rack (1) comprises pay off rack base (1-1) and is installed in the reducing motor (1-2) on pay off rack base (1-1) top, be connected with universal driving shaft (1-3) on the output shaft of described reducing motor (1-2), be connected with unwrapping wire connecting plate (1-4) on the described universal driving shaft (1-3) from top to bottom in turn, following frictional disk (1-5), friction plate (1-6), last frictional disk (1-7) and draw drum (1-8), connect on one section universal driving shaft (1-3) of described draw drum (1-8) and be set with stage clip (1-9), the top of described stage clip (1-9) is equipped with spring pressing nut (1-10), one side of described unwrapping wire connecting plate (1-4) is connected with first fixed bar (1-12) by first bent plate (1-11), the opposite side of described unwrapping wire connecting plate (1-4) is connected with second fixed bar (1-14) by second bent plate (1-13), one side of described draw drum (1-8) is fixedly connected with the 3rd fixed bar (1-15), the opposite side of described draw drum (1-8) is fixedly connected with the 4th fixed bar (1-16), be connected with support (1-17) on described second bent plate (1-13), described support (1-17) is gone up and is connected with gripper shoe (1-18) by tube connector (1-23), be connected with support bar (1-19) on the described gripper shoe (1-18), described support bar (1-19) is gone up and is connected with connecting rod (1-20) by adapter sleeve (1-24), the top of described connecting rod (1-20) is provided with extension bar ring (1-21), is provided with first extension spring (1-22) between described adapter sleeve (1-24) and the described gripper shoe (1-18).

5. according to the full-automatic coiling machine of the described numerical control of claim 3, it is characterized in that: described wire feeder (9) comprises wire feeder housing (9-1) and is arranged on wire feeding motor (9-2) in the wire feeder housing (9-1) and the wire feed power transmission gear group (9-3) of joining with wire feeding motor (9-2), wire feed cylinder (9-4) is installed on the described wire feeder housing (9-1), fork (9-5), upper wire feeding hose wheel (9-6), middle guide plate (9-7) and lower wire feeding hose wheel (9-8), described fork (9-5) is connected described wire feed cylinder (9-4) and goes up and be used to compress or unclamp described upper wire feeding hose wheel (9-6), described fork (9-5) is positioned at the top of described upper wire feeding hose wheel (9-6), described upper wire feeding hose wheel (9-6) is positioned at the top of described lower wire feeding hose wheel (9-8), guide plate (9-7) is positioned between described upper wire feeding hose wheel (9-6) and the lower wire feeding hose wheel (9-8) in the middle of described, described upper wire feeding hose wheel (9-6) all is connected with described wire feed power transmission gear group (9-3) with lower wire feeding hose wheel (9-8), and described wire feeding motor (9-2) joins with described CNC coil winding machine controller (4-1).

6. according to the full-automatic coiling machine of the described numerical control of claim 5, it is characterized in that: described straight mechanism (11) comprise be connected the straight mechanism's connecting plate (11-1) on the wire feeder housing (9-1) and be arranged on wire guiding nipple (11-2) on straight mechanism's connecting plate (11-1), a plurality of go up than through ship (11-3) and a plurality of under than through ship (11-4).

7. according to the full-automatic coiling machine of the described numerical control of claim 3, it is characterized in that: described up-and-down-winding mechanism (12) comprises the up-and-down-winding mechanism support (12-1) that is installed in workbench (3) top and is installed in the coiler device on the up-and-down-winding mechanism support (12-1) side by side and is used to drive the lowering or hoisting gear that described coiler device moves up and down, described lowering or hoisting gear comprises lifting motor (12-2), be connected on lifting motor (12-2) output shaft ball-screw (12-3) and with the feed screw nut (12-4) that is connected on the ball-screw (12-3), clutch shaft bearing (12-5) that is used for supporting elevation motor (12-2) output shaft and second bearing (12-6) that is used for back-up roller ballscrew (12-3) are installed on described up-and-down-winding mechanism's support (12-1); Described coiler device comprises coiling casing (12-7), coiling motor (12-8), be connected on coiling motor (12-8) output shaft coiling main shaft (12-9) and by collet (12-10) be installed on the described coiling main shaft (12-9) around the cover mandrel (12-11), described coiling casing (12-7) is fixedlyed connected with described feed screw nut (12-4) by bent plate, be provided with the 3rd bearing (12-12) that is used to support described coiling main shaft (12-9) in the described coiling casing (12-7), described up-and-down-winding mechanism's support (12-1) is provided with and is used for line slideway (12-13) that moving up and down of coiler device led, be connected with on the described straight line coiling casing (12-7) and be used for the slide block (12-14) that moves up and down along described line slideway (12-13), described lifting motor (12-2) and coiling motor (12-8) all join with described CNC coil winding machine controller (4-1).

8. according to the full-automatic coiling machine of the described numerical control of claim 3, it is characterized in that: described commentaries on classics core mechanism (10) comprises changes core motor (10-1), be installed in pinion (10-2) that changes on core motor (10-1) output shaft and the gear wheel (10-3) that is meshed with pinion (10-2), and described commentaries on classics core motor (10-1) joins with described CNC coil winding machine controller (4-1).

9. according to the full-automatic coiling machine of the described numerical control of claim 3, it is characterized in that: described slide block leverage (6) comprises the pressing plate (6-1) that is installed on the workbench (3), be installed in the horizontal strut (6-2) on the pressing plate (6-1) and be installed in vertical pole (6-3) on the horizontal strut (6-2), pull bar (6-4) is installed on the described vertical pole (6-3), be connected with the swing arm (6-5) that matches with described cam (5) on the described pull bar (6-4), be connected with second extension spring (6-6) between described vertical pole (6-3) and described pressing plate (6-1).

10. according to the full-automatic coiling machine of the described numerical control of claim 3; it is characterized in that: described pneumatic fluting mechanism (8) comprises fluting mechanism base (8-1); be installed in the vertical adjusting bearing (8-2) on fluting mechanism base (8-1) and be installed in transversely regulating support abutment (8-3) on vertical adjusting bearing (8-2); pneumatic chine (8-4) is installed on the described transversely regulating support abutment (8-3); fluting blade (8-5) is installed on the described pneumatic chine (8-4), is connected with on the described base and is used for described pneumatic fluting mechanism (8) is connected attachment screw (8-6) on the slide block leverage (6).

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