CN104909210A

CN104909210A - Full-automatic cable winding machine

Info

Publication number: CN104909210A
Application number: CN201510196851.2A
Authority: CN
Inventors: 邬月良
Original assignee: SUZHOU SHENGLI WIRE CO Ltd
Current assignee: SUZHOU SHENGLI WIRE CO Ltd
Priority date: 2015-04-23
Filing date: 2015-04-23
Publication date: 2015-09-16

Abstract

The invention discloses a full-automatic cable winding machine which comprises a machine frame and a winding device. A cable roller is pivoted to the machine frame. The winding device is located below the cable roller. The winding device comprises a first motor, a second motor, a lead screw mechanism and a rotating shaft. A cable winding frame for cable winding is placed on the rotating shaft. Cables fall down from a cable arranging machine and is wound around the cable winding frame after passing through the cable roller. The first motor drives the rotating shaft to rotate. The rotating shaft drives the cable winding frame to wind the cable. In the process that the cable winding frame winds the cable, the second motor drives the lead screw mechanism to act, the lead screw mechanism drives the cable winding frame to horizontally move within a certain amplitude, and then the cables are evenly wound around the cable winding frame, so that the phenomenon that the cables are wound loosely and irregularly is avoided, the phenomenon that the cables are crushed due to the fact that the cables are extruded in the winding process is avoided, the tensile strength of the cables in the using process is improved, and the service life of the cables is prolonged in the using process.

Description

A kind of full automaticity cable wire coiling machine

Technical field

The present invention relates to line tools, in particular to a kind of full automaticity cable wire coiling machine.

Background technology

In prior art, the operation of cable winding completes mainly through two kinds of modes, and one is by heavy mechanical equipment, although efficiency is high, its complex structure, volume are large, cost is high, not easily apply in complex job environment; Two is artificial windings, and efficiency is low, and winding after cable roll loose random, cable mutually extrudes in winding process, causes cable conquassation, affects the tensile strength in its use procedure and service life.

Summary of the invention

Technical matters solved by the invention: the heavy mechanical equipment carrying out the operation of cable winding, complex structure, volume are large, cost is high; The cable roll of artificial winding is loose random, and cable mutually extrudes in winding process, causes cable conquassation, affects the tensile strength in its use procedure and service life.

The invention provides following technical scheme: a kind of full automaticity cable wire coiling machine, comprises frame, Winder, the wired roller of pivot joint in described frame, described line roller is horizontally disposed with, described Winder is arranged in frame, described Winder is positioned at the oblique below of line roller, described Winder comprises the first driven sprocket, S. A., first support, portable plate, first drive sprocket, first motor, screw mandrel, second support, inner thread piece, guide piece, second driven sprocket, second drive sprocket, described first driven sprocket is fixing on the rotary shaft, described rotation axis horizontal is articulated on the first support, described first support is fixed on portable plate, described first drive sprocket is arranged in the rotating shaft of the first motor, described first drive sprocket is connected by chain with the first driven sprocket, described first motor is fixed on portable plate, described screw mandrel two ends pivot joint on the secondary support bracket, described second support is fixed on the bottom surface of portable plate, described inner thread piece coordinates with screw mandrel, described inner thread piece is fixed in frame, described guide piece comprises guide groove, orienting lug, described guide groove is fixed on the bottom surface of portable plate, described orienting lug is fixed in frame, described guide groove coordinates with orienting lug, protrusion is established in described screw mandrel one end, described protrusion gives prominence to the second support, described second driven sprocket is arranged on the protrusion of screw mandrel one end, described second drive sprocket is arranged in the rotating shaft of the second motor, described second motor is arranged on portable plate, described second drive sprocket is connected by chain with the second driven sprocket.

By technique scheme, put on the rotary shaft for the spool stand being wound around cable, cable gets off through cable machine, is wrapped on spool stand after warp roller.First motor drives the first drive sprocket to rotate, and the first drive sprocket drives the first driven sprocket to rotate, and the first driven sprocket driven rotary axle rotates, and S. A. drives spool stand to be wound around cable.Second motor drives the second drive sprocket to rotate, second drive sprocket drives the second driven sprocket to rotate, second driven sprocket drives screw mandrel to rotate, under the spacing of guide piece and guiding, screw mandrel moves flat as water while rotating, and the screw mandrel that water moves flat drives portable plate water to move flat, and portable plate driven rotary axle moves flat as water, S. A. drives spool stand to move flat as water, and the direction that described water moves flat is parallel to the axial line of S. A..The power that the rotary motion of above-mentioned spool stand and water move flat derives from the first motor and the second motor respectively, realizes the full-automation of cable coiling machine of the present invention with this.

Pass through technique scheme, the water of spool stand in certain amplitude moves flat and cable can be made to be wrapped in equably on spool stand, thus avoid cable roll loose random, avoid cable mutually extruding and cause cable conquassation in winding process, and then improve cable tensile strength in use and service life.

As the further improvement of the present invention to Winder, described guide piece comprises two pieces of guide grooves and two pieces of orienting lugs, and described two pieces of guide grooves lay respectively at the both sides of screw mandrel.As further improvement, the cross-sectional plane of described guide groove is trapezoidal, and correspondingly, the partial cross sectional that orienting lug coordinates with guide groove is also in trapezoidal, and the trapezoidal semi-surrounding orienting lug of described guide groove trapezoidal, so, can prevent guide groove and orienting lug from departing from.Illustrate as to one of the present invention, described two pieces of guide groove lateral surfaces are separately installed with induction derby, and described two pieces of orienting lug lateral surfaces are separately installed with the proximity switch supporting with responding to derby, and described proximity switch is connected with the second motor.When guide groove is along with portable plate is after a direction parallel motion certain distance, the proximity switch induction on the orienting lug that the induction derby on one piece of guide groove is corresponding to, this proximity switch controls the second motor by just changing reversion into; When guide groove is along with portable plate is after other direction parallel motion certain distance, the induction derby on another block guide groove and the proximity switch on corresponding orienting lug are responded to, and this proximity switch controls the second motor and becomes rotating forward from reversion.So, the second motor drives portable plate in level to moving around by screw body.

Improve the one of frame as the present invention, described frame comprises underframe, four root posts, top frame, and described underframe is rectangle shape, and the bottom of described four root posts is separately positioned on four angles of underframe, and described top frame is arranged on four root posts.Design frame like this can save material.As the further improvement to frame, outstanding top, the two root post tops frame that described four root post middle distances are nearest, described line roller two ends are articulated in the top of the column of described two outstanding top frames.As the further improvement to frame, described top frame comprises a pair quarter butt, a pair curved bar, described a pair quarter butt is arranged in opposite directions, described a pair curved bar is arranged in opposite directions, described a pair curved bar is provided with the curved portions raised up, described a pair curved bar and screw mandrel spatial vertical, described S. A. is positioned at the below of curved portions.Along with increasing of the cable that spool stand is wound around, spool stand, in the process moved flat as water, needs frame to vacate enough spaces, and the curved portions raised up on described a pair curved bar can meet the demand of spool stand to activity space.Design by the Openworks shape of above-mentioned frame, described inner thread piece is fixed on underframe by adapter plate, and described orienting lug is fixed on underframe.

Illustrate the one of Winder as the present invention, described screw mandrel by bearing hinge joint on the secondary support bracket.Described S. A. by bearing hinge joint on the first support.

Illustrate the one of frame as the present invention, described line roller is by the top of bearing hinge joint at the column of described two outstanding top frames.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the present invention is described further:

Fig. 1 is the structural representation of a kind of full automaticity cable of the present invention wire coiling machine;

Fig. 2 is the structural representation of Fig. 1 mid frame;

Fig. 3 is the structural representation of Winder in Fig. 1;

Fig. 4 is the structural representation observing described Winder gained in Fig. 3 from upper left side.

Nomenclature in figure:

10-frame; 11-line roller; 12-underframe; 13-column; 14-pushes up frame; 141-a pair quarter butt; 142-a pair curved bar; The curved portions that 1420-raises up;

20-Winder; 200-adapter plate; 201-responds to derby; 202-proximity switch; 211-first driven sprocket; 212-first drive sprocket; 22-S. A.; 231-first support; 232-second support; 24-portable plate; 251-first motor; 252-second motor; 26-screw mandrel; 27-inner thread piece; 28-guide piece; 281-guide groove; 282-orienting lug; 291-second driven sprocket; 292-second drive sprocket.

Detailed description of the invention

As shown in Figure 1, a kind of full automaticity cable wire coiling machine, comprises frame 10, Winder 20.

As shown in Figure 2, described frame 10 comprises underframe 12, four root post 13, top frame 14, and described underframe 12 is rectangle shape, and the bottom of described four root posts 13 is separately positioned on four angles of underframe 12, and described top frame 14 is arranged on four root posts 13.Outstanding top, the two root post 13 tops frame 14 that described four root post 13 middle distances are nearest, the wired roller 11 of top pivot joint of the column 13 of described two outstanding top frames 14, described line roller 11 is horizontally disposed with.Described top frame 14 comprises a pair quarter butt 141, a pair curved bar 142, and described a pair quarter butt 141 is arranged in opposite directions, and described a pair curved bar 142 is arranged in opposite directions, and described a pair curved bar 142 is provided with the curved portions 1420 raised up.

As shown in Figure 1, described Winder 20 is arranged in frame 10, and described Winder 20 is positioned at the oblique below of line roller 11.Shown in composition graphs 3, Fig. 4, described Winder 20 comprises the first driven sprocket 211, S. A. 22, first support 231, portable plate 24, first drive sprocket 212, first motor 251, screw mandrel 26, second support 232, inner thread piece 27, guide piece 28, second driven sprocket 291, second drive sprocket 292, second motor 252.Described first driven sprocket 211 is fixed on S. A. 22, described S. A. 22 horizontal pivot is connected on the first support 231, described first support 231 is fixed on portable plate 24, described first drive sprocket 212 is arranged in the rotating shaft of the first motor 251, described first drive sprocket 212 is connected by chain with the first driven sprocket 211, and described first motor 251 is fixed on portable plate 24.Described screw mandrel 26 two ends are articulated on the second support 232, described second support 232 is fixed on the bottom surface of portable plate 24, described inner thread piece 27 coordinates with screw mandrel 26, and described inner thread piece 27 is fixed on underframe 12 by adapter plate 200, and described orienting lug 282 is fixed on underframe 12.Shown in composition graphs 1, Fig. 3 and Fig. 4, described guide piece 28 comprises two pieces of guide grooves 281 and two pieces of orienting lugs 282, the cross-sectional plane of described guide groove 281 is trapezoidal, described two pieces of guide grooves 281 lay respectively at the both sides of screw mandrel 26, described guide groove 281 is fixed on the bottom surface of portable plate 24, described orienting lug 282 is fixed in frame 10, and described guide groove 281 coordinates with orienting lug 282.Shown in composition graphs 3, Fig. 4, protrusion is established in described screw mandrel 26 one end, described protrusion gives prominence to the second support 232, described second driven sprocket 291 is arranged on the protrusion of screw mandrel 26 one end, described second drive sprocket 292 is arranged in the rotating shaft of the second motor 252, and described second drive sprocket 292 is connected by chain with the second driven sprocket 291.

Wherein, shown in composition graphs 3, Fig. 4, described two pieces of guide groove 281 lateral surfaces are separately installed with induction derby 201, described two pieces of orienting lug 282 lateral surfaces are separately installed with the proximity switch 202 supporting with responding to derby 201, and described proximity switch 202 is connected with the second motor 252.

As shown in Figure 1, described a pair curved bar 142 and screw mandrel 26 spatial vertical, described S. A. 22 is positioned at the below of curved portions 1420.

In practical operation, the spool stand for being wound around cable is seated in S. A. 22, and cable gets off through cable machine, is wrapped on spool stand after warp roller 11.First motor 251 drives the first drive sprocket 212 to rotate, and the first drive sprocket 212 drives the first driven sprocket 211 to rotate, and the first driven sprocket 211 driven rotary axle 22 rotates, and S. A. 22 drives spool stand to be wound around cable; Second motor 252 drives the second drive sprocket 292 to rotate, second drive sprocket 292 drives the second driven sprocket 291 to rotate, second driven sprocket 291 drives screw mandrel 26 to rotate, under the spacing of guide piece 28 and guiding, screw mandrel 26 moves flat as water while rotating, the screw mandrel 26 that water moves flat drives portable plate 24 water to move flat, portable plate 24 driven rotary axle 22 moves flat as water, S. A. 22 drives spool stand to move flat as water, and the direction that described water moves flat is parallel to the axial line of S. A. 22.When guide groove 281 is along with portable plate 24 is after a direction parallel motion certain distance, proximity switch 202 on the orienting lug 282 that induction derby 201 on one piece of guide groove 281 is corresponding to is responded to, and this proximity switch 202 controls the second motor 252 by just changing reversion into; When guide groove 281 is along with portable plate 24 is after other direction parallel motion certain distance, induction derby 201 on another block guide groove 281 is responded to the proximity switch 202 on corresponding orienting lug 282, and this proximity switch 202 controls the second motor 252 and becomes rotating forward from reversion.So, the second motor 252 drives portable plate 24 in level to moving around by screw body.So, be wound around at spool stand in the process of cable, the water of spool stand in certain amplitude moves flat and cable can be made to be wrapped in equably on spool stand.

Above content is only better embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.

Claims

1. a full automaticity cable wire coiling machine, comprise frame (10), Winder (20), the upper wired roller of pivot joint (11) of described frame (10), described line roller (11) is horizontally disposed with, described Winder (20) is arranged in frame (10), described Winder (20) is positioned at the oblique below of line roller (11), described Winder (20) comprises the first driven sprocket (211), S. A. (22), first support (231), portable plate (24), first drive sprocket (212), first motor (251), described first driven sprocket (211) is fixed on S. A. (22), described S. A. (22) horizontal pivot is connected on the first support (231), described first support (231) is fixed on portable plate (24), described first drive sprocket (212) is arranged in the rotating shaft of the first motor (251), described first drive sprocket (212) is connected by chain with the first driven sprocket (211), described first motor (251) is fixed on portable plate (24), it is characterized in that: described Winder (20) also comprises screw mandrel (26), second support (232), inner thread piece (27), guide piece (28), second driven sprocket (291), second drive sprocket (292), second motor (252), described screw mandrel (26) two ends are articulated on the second support (232), described second support (232) is fixed on the bottom surface of portable plate (24), described inner thread piece (27) coordinates with screw mandrel (26), described inner thread piece (27) is fixed in frame (10), described guide piece (28) comprises guide groove (281), orienting lug (282), described guide groove (281) is fixed on the bottom surface of portable plate (24), described orienting lug (282) is fixed in frame (10), described guide groove (281) coordinates with orienting lug (282), protrusion is established in described screw mandrel (26) one end, described protrusion gives prominence to the second support (232), described second driven sprocket (291) is arranged on the protrusion of screw mandrel (26) one end, described second drive sprocket (292) is arranged in the rotating shaft of the second motor (252), described second motor (252) is arranged on portable plate (24), described second drive sprocket (292) is connected by chain with the second driven sprocket (291).

2. a kind of full automaticity cable wire coiling machine as claimed in claim 1, it is characterized in that: described guide piece (28) comprises two pieces of guide grooves (281) and two pieces of orienting lugs (282), and described two pieces of guide grooves (281) lay respectively at the both sides of screw mandrel (26).

3. a kind of full automaticity cable wire coiling machine as claimed in claim 2, it is characterized in that: described two pieces of guide groove (281) lateral surfaces are separately installed with induction derby (201), described two pieces of orienting lug (282) lateral surfaces are separately installed with the proximity switch (202) supporting with responding to derby (201), and described proximity switch (202) is connected with the second motor (252).

4. a kind of full automaticity cable wire coiling machine as claimed in claim 2, is characterized in that: the cross-sectional plane of described guide groove (281) is trapezoidal.

5. a kind of full automaticity cable wire coiling machine as claimed in claim 1, it is characterized in that: described frame (10) comprises underframe (12), four root posts (13), top frame (14), described underframe (12) is rectangle shape, the bottom of described four root posts (13) is separately positioned on four angles of underframe (12), and described top frame (14) is arranged on four root posts (13).

6. a kind of full automaticity cable wire coiling machine as claimed in claim 5, it is characterized in that: outstanding top frame, two root posts (13) top (14) that described four root posts (13) middle distance is nearest, described line roller (11) two ends are articulated in the top of the column (13) of described two outstanding tops frame (14).

7. a kind of full automaticity cable wire coiling machine as claimed in claim 5, it is characterized in that: described top frame (14) comprises a pair quarter butt (141), a pair curved bar (142), described a pair quarter butt (141) is arranged in opposite directions, described a pair curved bar (142) is arranged in opposite directions, described a pair curved bar (142) is provided with the curved portions (1420) raised up, described a pair curved bar (142) and screw mandrel (26) spatial vertical, described S. A. (22) is positioned at the below of curved portions (1420).

8. a kind of full automaticity cable wire coiling machine as claimed in claim 5, it is characterized in that: described inner thread piece (27) is fixed on underframe (12) by adapter plate (200), and described orienting lug (282) is fixed on underframe (12).

9. a kind of full automaticity cable wire coiling machine as claimed in claim 1, is characterized in that: described screw mandrel (26) by bearing hinge joint on the second support (232); Described S. A. (22) by bearing hinge joint on the first support (231).

10. a kind of full automaticity cable wire coiling machine as claimed in claim 6, is characterized in that: described line roller (11) is by the top of bearing hinge joint at the column (13) of described two outstanding tops frame (14).