CN214882569U - Winding device for winding steel wire - Google Patents
Winding device for winding steel wire Download PDFInfo
- Publication number
- CN214882569U CN214882569U CN202022653293.7U CN202022653293U CN214882569U CN 214882569 U CN214882569 U CN 214882569U CN 202022653293 U CN202022653293 U CN 202022653293U CN 214882569 U CN214882569 U CN 214882569U
- Authority
- CN
- China
- Prior art keywords
- wire
- winding
- spool
- guide
- steel wire
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Storage Of Web-Like Or Filamentary Materials (AREA)
Abstract
The utility model relates to a wire rope processing field especially relates to a winding steel wire winding device. A steel wire winding device comprises a wire spool, a core wire coil, a traction mechanism and a supplement device. The wire spool is rotatably arranged on the rack, a central hole is axially formed in the center of the wire spool, and the traction mechanism is used for enabling a central steel wire rope sent out by the core wire coil to penetrate through the central hole. And a winding cavity is arranged on the disc body of the winding disc along the axial direction of the disc body, and the winding steel wire is wound on the central steel wire rope to form a winding cross rope when the winding disc rotates. The supplementing device comprises a wire outlet tray and a wire guide arranged between the wire outlet tray and the wire spool. The wire guide is capable of reciprocating axially along the spool. And the winding steel wire sent out from the wire outlet tray is wound in the winding cavity of the wire winding tray through the wire guide. The wire spool rotatably arranged in the steel wire winding device can realize the two aspects of wire winding and wire releasing, and has the advantages of simplified structure and convenience in use.
Description
Technical Field
The utility model relates to a wire rope processing field especially relates to a winding steel wire winding device.
Background
The winding cross rope is formed by winding a winding steel wire on a central steel wire rope, and is manufactured by a winding device during processing. But at present this kind of device reference bulletin number is "CN 202316863U" record a novel wire winding cutting machine in the chinese utility model patent, include frame, support, send line cylinder, tangent line cylinder, cutter, send line solenoid valve, tangent line solenoid valve, oil water separator and friction disc, be equipped with the spool on the support, be equipped with winding device on the frame, winding device includes spooler, coiling ware and motor, spooler and coiling ware are installed on the spool, be equipped with the traction wheel on the motor, it is rotatory to drive the spooler through the drive belt, be equipped with guide wire hole and guide wire wheel on the spooler. When the winding device works, when a steel wire is conveyed to the winding shaft, the winder continuously rotates around the winding shaft, the steel wire is continuously wound on the steel wire, when the steel wire is conveyed forwards, the steel wire is also pulled forwards, and meanwhile, the expander moves in the same direction along with the movement of the steel wire. It can be seen from the attached drawings that the iron wire is stored on the winding shaft and can be wound on the steel wire only through the rotation guide of the winder. The defects of the scheme are as follows: the winder in this scheme is rotatory around the spool, and the rotation space that the winder occupied is great. In addition, the bobbin of the device cannot be supplemented with iron wires, on one hand, the bobbin cannot rotate autonomously, and on the other hand, the bobbin cannot be supplemented with iron wires through other components because the winder is arranged around the bobbin.
Disclosure of Invention
In order to solve the problem, an object of the utility model is to provide a winding steel wire winding device adopts the wire reel that rotates the setting among this winding steel wire winding device, can realize receiving the work of line and unwrapping wire two-way, has simplified structure and convenient to use's advantage.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the winding device for the winding steel wire comprises a wire spool, a core wire spool and a traction mechanism; the wire spool is rotationally arranged on the rack, a central hole is axially formed in the center of the wire spool, and the traction mechanism is used for enabling a central steel wire rope sent out by the core wire coil to penetrate through the central hole; a winding cavity is formed in the disc body of the winding disc along the axial direction of the winding disc, and when the winding disc rotates, the winding steel wire is wound on the central steel wire rope to form a winding cross rope; the method is characterized in that: the wire guiding device comprises a wire outlet tray and a wire guiding device arranged between the wire outlet tray and the wire winding tray; the wire guide can axially reciprocate along the wire spool; and the winding steel wire sent out from the wire outlet tray is wound in the winding cavity of the wire winding tray through the wire guide.
The utility model adopts the above technical scheme, this technical scheme relates to the winding wire winding device, and the core drum in this winding wire winding device is used for providing central wire rope, and the wire reel is used for providing the winding wire and can be with winding wire winding formation winding cross rope on central wire rope, and drive mechanism is then used for carrying central wire rope or winding cross rope; the supplement device is used for supplementing the winding steel wire to the winding cavity. Compared with the prior art, the wire spool in the scheme is rotatably arranged on the rack, and the winding steel wire can be sent out and wound on the central steel wire rope when the wire spool rotates. When the winding steel wire is needed to be supplemented, the end part of the winding steel wire led out by the supplementing device is connected in the winding cavity of the wire spool. The winding steel wire can be wound in the winding cavity through the autorotation of the winding disc; in the process, the wire guider moves back and forth along the axial direction of the wire spool, so that the winding steel wire can be uniformly wound in the winding cavity. Therefore, the wire winding disc which is rotatably arranged in the steel wire winding device is adopted, so that the two aspects of wire winding and wire releasing can be realized, and the steel wire winding device has the advantages of simplified structure and convenience in use.
Preferably, the rack is provided with a screw rod driving pair, and the screw rod driving pair comprises a driving motor, a screw rod connected to the output end of the driving motor, and a moving seat connected to the screw rod; the wire guide is arranged on the movable seat, and the driving motor drives the screw rod to rotate so as to drive the movable seat and the wire guide on the movable seat to move.
Preferably, a straightening guide wheel set is further arranged on the rack between the wire guide and the wire outlet tray, the straightening guide wheel set comprises a plurality of first rollers and a plurality of second rollers, the first rollers and the second rollers are mutually ground in pairs or in a staggered manner, and the wire outlet path of a wound steel wire formed between the first rollers and the second rollers faces the wire guide. Among this technical scheme, set up the alignment guide pulley group in the frame between wire guide and the charging tray of being qualified for the next round of competitions, can guarantee through the first gyro wheel in the alignment guide pulley group and second gyro wheel effect that the winding steel wire gets into in the wire guide with the state of flare-outing to make the winding steel wire can be evenly, closely twine in this wire winding intracavity.
Preferably, the end plate of the winding cavity close to one side of the winder is provided with a wire passing hole, the wire passing hole is arranged in the edge area of the winding disc, a guide wheel is arranged in the wire passing hole of the winding disc or on the end surface of the end plate beside the wire passing hole, and the guide wheel is used for guiding the wire outlet direction of the wound steel wire. In the technical scheme, a wire winder is fixed on a wire winding disc, and a winding steel wire sent out from a winding cavity of the wire winding disc passes through a wire passing hole formed in an end plate of the wire winding disc and then is arranged on the wire winder; when the winding device is used, the winder rotates along with the wire spool to complete the weaving of the winding cross rope. Because the wire spool in the scheme is rotatable, a wire spool with larger rotating space is not needed to be arranged, and the wire spool is only required to be fixed on the wire spool in a small mode; so this winding steel wire winding device simplified structure, under the winding steel wire storage condition of equivalent size, the rotation space that this scheme took is littleer, uses safelyr.
In addition, the wire passing holes are arranged in the edge area of the wire spool, so that the storage capacity of the wound steel wires in the winding cavity can be ensured as much as possible; when the winding device works, the winding steel wires in the winding cavity are sequentially sent out from the outer side to the inner side, and are not easy to lap and block. In addition, the arrangement of the guide wheel can ensure that the winding steel wire can be more smoothly turned through the wire passing hole.
Preferably, the end plate of the wire spool is also provided with a straightening guide wheel set, and the straightening guide wheel set is arranged between the guide wheel and the wire winder; the straightening guide wheel set comprises a plurality of first idler wheels and a plurality of second idler wheels, the first idler wheels and the second idler wheels are in paired mutual grinding or staggered mutual grinding, and winding steel wire outlet paths formed between the first idler wheels and the second idler wheels are radially arranged along a winding disc. Among this technical scheme, set up the alignment leading wheel group between leading wheel and spooler, can guarantee through the first gyro wheel in the alignment leading wheel group and second gyro wheel effect that the winding steel wire gets into in the spooler with the state of flare-outing to can guarantee that the winding steel wire of winding on central wire rope is more compact.
Preferably, the wire spool comprises a shaft part and two end plates connected to the shaft part; a winding cavity is formed between the two end parts, and the central hole is formed in the center of the shaft part of the winding disc.
Drawings
Fig. 1 is a schematic top view of an automatic winding fusing machine according to the present invention.
Fig. 2 is a sectional view B-B of fig. 1.
Fig. 3 is a schematic front view of an automatic winding fusing machine according to the present invention.
Fig. 4 is an enlarged view of a portion a of fig. 3.
Fig. 5 is a schematic end view of the wire spool.
Fig. 6 is a sectional view a-a of fig. 5.
Fig. 7 is a front schematic view of a scissor fuse mechanism.
Fig. 8 is a side schematic view of a scissor fuse mechanism.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.
As shown in fig. 1 to 8, the present embodiment relates to an automatic winding fusing machine, which includes a frame 1, a core wire reel 2 for supplying a central steel wire rope a, a wire reel 3 for supplying a winding steel wire b and winding the winding steel wire b on the central steel wire rope a to form a winding cross rope c, a traction mechanism for conveying the central steel wire rope a and the winding cross rope c, and a scissor-type fusing mechanism 4 for intermittently fusing the winding cross rope c. The machine frame is provided with a central console, and the central console can control the core wire coil 2, the wire spool 3, the traction mechanism and the scissor type fusing mechanism 4 to work.
The following subsections describe the above structure:
as shown in fig. 1, 3, 5 and 6, the wire spool 3 is rotatably disposed on the frame 1, and the frame 1 is further provided with a turntable motor 31, and the turntable motor 31 drives the wire spool 3 to rotate through a belt 32. A central hole 33 is axially arranged at the center of the wire spool 3, and a wire winder 34 is fixed on the wire spool 3 at the inlet end or the outlet end of the central hole 33; the present embodiment is shown with a bobbin 34 disposed at the exit end of the central bore 33. The spool 3 includes a shaft portion 351, and two end plates 352 connected to the shaft portion 351. A winding chamber 353 is formed between the two end portions, and the center hole 33 is provided at the center of the shaft portion 351 of the spool 3. The winding chamber 353 is provided with a wire passing hole 39 on an end plate 352 near one side of the bobbin 34.
In the above technical solution, the traction mechanism is configured to pass the central steel wire rope a sent out from the core wire disc 2 through the central hole 33, the winding steel wire b sent out from the winding cavity 353 is connected to the winder 34 through the wire passing hole 39, and the winding steel wire b is wound on the central steel wire rope a by the winder 34 when the wire spool 3 rotates to form the winding cross rope c. The wire spool 3 in this solution is rotatably disposed on the frame 1, the wire winder 34 is fixed on the wire spool 3, and the winding wire b sent out from the winding cavity 353 of the wire spool 3 passes through the wire passing hole 39 opened on the end plate 352 of the wire spool 34 and then is wound on the wire winder 34. In use, the winder 34 rotates together with the spool 3 to complete the knitting of the winding cross cord c. Since the wire spool 3 in this solution is rotatable, it is not necessary to additionally provide the wire spool 34 with a larger rotation space, and only the wire spool 34 needs to be small and fixed on the wire spool 3. So this winding wire winding device simplified structure, under the equal size's winding wire b storage condition, the rotation space that this scheme took is littleer, uses safelyr.
In a further preferred embodiment, the wire passing hole 39 is preferably disposed in the edge region of the wire spool 3, so as to ensure the storage amount of the winding steel wire b in the winding cavity 353 as much as possible. When the winding device works, the winding steel wires b in the winding cavity 353 are sequentially sent out from the outer side to the inner side, and are not easy to knot and block. In addition, a guide wheel 36 is provided in the thread passing hole 39 of the wire reel 3 or on the end surface of the end plate 352 beside the thread passing hole 39, and the guide wheel 36 guides the outgoing direction of the winding wire b. The end plate 352 of the spool 3 is further provided with a straightening guide wheel set 9, where the straightening guide wheel set 9 is disposed between the guide wheel 36 and the spool 34. The straightening guide wheel set 9 comprises a plurality of first rollers 91 and a plurality of second rollers 92, the first rollers 91 and the second rollers 92 are paired and mutually ground or staggered and mutually ground, and the outgoing line path of a winding steel wire b formed between the first rollers 91 and the second rollers 92 is radially arranged along the wire spool 3. The guide wheel 36 of this embodiment can make the winding wire b smoothly turn through the wire passing hole 39. The first roller 91 and the second roller 92 of the straightening guide wheel set 9 function to ensure that the winding steel wire b enters the winder 34 in a straightened state, thereby ensuring that the winding steel wire b wound on the central steel wire rope a is relatively dense.
As shown in fig. 1 and 2, the automatic winding fuse machine is further provided with a replenishing device for replenishing the winding wire b to the winding chamber 353 of the spool 3. The replenishing device comprises an outlet tray 51 and a wire guide 52 arranged between the outlet tray 51 and the wire spool 3. The wire guide 52 is capable of reciprocating in the axial direction of the spool 3, and the winding wire b fed from the wire outlet tray 51 is wound in the winding chamber 353 of the spool 3 via the wire guide 52. Specifically, a screw rod driving pair is arranged on the frame 1, and the screw rod driving pair comprises a driving motor 53, a screw rod connected to the output end of the driving motor 53, and a moving seat connected to the screw rod. The wire guide 52 is arranged on the movable base, and the driving motor 53 drives the screw rod to rotate so as to drive the movable base and the wire guide 52 thereon to move. In addition, the above-mentioned thread guide 52 may be a thread guide hook, a thread guide loop or a roller set as shown in the figure. As described above, when the spool 3 rotates, the winding wire b can be fed out and wound around the center wire rope a. When the winding wire b needs to be supplemented, the end of the winding wire b drawn out by the supplementing device is connected to the winding cavity 353 of the wire spool 3. The winding wire b can be wound in the winding chamber 353 by the rotation of the spool 3. In this process, the wire guide 52 reciprocates axially along the spool 3, so that the winding wire b can be uniformly wound in the winding chamber 353. Therefore, the wire winding device for winding the steel wire adopts the wire spool 3 which is arranged in a rotating mode, so that the wire winding and the wire releasing can be achieved, and the device has the advantages of being simple in structure and convenient to use.
In addition, a straightening guide wheel set 9 is further arranged on the rack 1 between the wire guide 52 and the wire outlet tray 51, the straightening guide wheel set 9 comprises a plurality of first rollers 91 and a plurality of second rollers 92, the first rollers 91 and the second rollers 92 are paired or staggered and mutually ground, and a wire outlet path of a winding steel wire b formed between the first rollers 91 and the second rollers 92 faces the wire guide 52. The straightening guide wheel set 9 is arranged on the frame 1 between the wire guider 52 and the wire outlet tray 51, and the first roller 91 and the second roller 92 in the straightening guide wheel set 9 act to ensure that the winding steel wire b enters the wire guider 52 in a straightening state, so that the winding steel wire b can be uniformly and tightly wound in the winding cavity 353.
As shown in fig. 3, a welder 49 for supplying power to the scissor fuse mechanism 4 is also provided on the frame and is controlled by a welder controller 491. As shown in fig. 7 and 8, the scissor type fuse mechanism 4 includes two sets of scissor brackets disposed adjacently, and a driving part that drives the two sets of scissor brackets simultaneously or separately. In the scheme shown in the figure, the scissor bracket comprises two scissor arms 42, the driving part is two groups of driving cylinders 41, and the two groups of driving cylinders 41 respectively drive the two groups of scissor brackets to move. The driving air cylinder 41 is positioned between the driving ends of the two scissor arms 42, and the output shaft and the cylinder body of the driving air cylinder 41 are respectively connected with the driving ends of the two scissor arms 42; the frame and/or the driving cylinder is provided with a sensor 411 for detecting the output state of the driving cylinder 41. The movable ends of the scissor brackets are provided with electrode clamps 44, the electrode clamps 44 of the two scissor brackets are respectively connected with the positive electrode and the negative electrode of the high-voltage power supply, and a gap is formed between the electrode clamps 44 of the two scissor brackets. The scissor type fusing mechanism 4 comprises two sets of scissor brackets, and the scissor brackets are driven by a driving part to realize scissor movement. And the electrode clamp 44 on the movable end of the scissors bracket can clamp or loosen the winding cross rope c. When the winding cross rope c is clamped by the electrode clamps 44 of the two groups of scissor brackets, the positive pole and the negative pole of the high-voltage power supply can be switched on through the winding cross rope c, and the winding cross rope c is fused at high temperature. In conclusion, the scissor type fusing mechanism 4 can cut the winding cross rope c in a high-temperature fusing manner, and can eliminate the cutting edge at the cutting position of the winding cross rope c. And the cutting part of the winding cross rope c is fused, so that the winding steel wire b and the central steel wire rope a can be solidified, and the phenomena of loosening and falling can not be generated.
At least one of the two scissor arms 42 of the scissor bracket is movably arranged, so that the two scissor arms 42 can move relative to the scissor. In this embodiment, the two scissor arms 42 of the scissor bracket can move relative to the scissor; specifically, one of the scissor arms 42 may be fixedly disposed, and the other scissor arm 42 may be movably disposed. Alternatively, both scissor arms 42 may be movably disposed relative to each other. In the illustrated embodiment, the scissors bracket specifically employs two movably disposed scissors arms 42. The scissors bracket further comprises a middle bracket 43, and the middle parts of the two scissors arms 42 are respectively hinged on the middle bracket 43. The two scissor arms 42 are able to pivot relative to the intermediate bracket 43 to enable the two scissor arms 42 to move relative to the scissor. The scissor arms 42 and the middle bracket 43 are further connected through a connecting rod 45, and a longitudinal sliding groove 431 is formed in the middle bracket 43. One end of the link rod 45 is hinged to the scissor arm 42, and the other end is slidably arranged in the longitudinal sliding groove 431. In this embodiment, the two scissor arms 42 rotate relative to the middle bracket 43 along the hinge point, and the movement of the link 45 makes the scissor arms 42 rotate more stably.
Furthermore, the movable ends of the two scissor arms 42 of the scissor support are respectively provided with a clamping head 46, the electrode clamp 44 comprises electrode plates 441 respectively fixed on the two clamping heads 46, at least the inner ends of the electrode plates 441 are positioned at the inner sides of the clamping heads 46, and the inner end surfaces of the electrode plates 441 are provided with butt joint grooves 442. When the scissor bracket is in a closed state, the electrode plates 441 on the movable ends of the two scissor arms 42 are butted and abutted, and the butt-joint grooves 442 are combined to form a wire passing channel. The wire passing channels on the two groups of scissor brackets are axially corresponding. In the scissors bracket, the butt-joint grooves 442 on the two electrode plates 441 can be combined to form a wire passing channel, and the wire passing channel is used for clamping and positioning the winding cross rope c. The thread passing channels on the two groups of scissors brackets are axially corresponding and can be used for the winding cross rope c to pass through along the length direction, thereby being matched with the conveying of the winding cross rope c.
As shown in fig. 3, the drawing mechanism includes a guiding component 61 on the frame 1 upstream of the wire spool 3, and a first conveying wheel set 62, a tensioning adjusting component 63, a straightening guide wheel set 9, a second conveying wheel set 64 and the guiding component 61 which are sequentially arranged on the frame 1 between the wire spool 3 and the scissor type fusing mechanism 4, and a blanking conveying wheel set 65 on the frame 1 downstream of the scissor type fusing mechanism 4. The central steel wire rope a sent out by the core wire coil 2 enters the central hole 33 of the wire spool 3 after passing through the guide assembly 61, the wire spool 3 winds the winding steel wire b on the central steel wire rope a to form a winding cross rope c, the obtained winding cross rope c sequentially passes through the first conveying wheel set 62, the tensioning adjusting assembly 63, the straightening guide wheel set 9, the second conveying wheel set 64 and the guide assembly 61 and then enters the scissor type fusing mechanism 4 to be fused, and the fused winding cross rope c is subjected to blanking under the action of the blanking conveying wheel set 65. In this process, the guide assembly 61 is used for guiding the conveying direction of the central steel wire rope a or the winding cross rope c, and the guide assembly 61 may be a guide wheel set as shown in the figure or a guide frame provided with a guide channel. The straightening guide wheel set 9 is constructed as described in the above-mentioned document, and functions to straighten the winding cross cord c. The first conveying wheel set 62 continuously conveys the winding cross rope c to move forward, and the second conveying wheel set 64 intermittently conveys the winding cross rope c to move forward. The specific structure of the first conveying wheel set 62 and the second conveying wheel set 64 can be seen from fig. 4, in which the frame 1 is provided with a conveying support 621, the conveying support 621 is provided with a first conveying wheel 622 and a second conveying wheel 623, one of the first conveying wheel 622 and the second conveying wheel 623 is connected to the output shaft of the conveying motor, and preferably, the first conveying wheel 622 is used as the driving conveying wheel. The second conveying wheel 623 is movably arranged on the conveying support 621 and is driven by the pressing air/oil cylinder 624, so that the second conveying wheel 623 and the first conveying wheel 622 can press the winding cross rope c in the second conveying wheel 623 and the first conveying wheel 622 on the one hand, and the winding cross rope c is guaranteed not to slip and is conveyed smoothly; on the other hand, the distance between the first conveying wheel 622 and the second conveying wheel 623 can be adjusted, and the device is suitable for winding crossed ropes c with different diameters. Here, the conveying speeds of the first conveying wheel set 62 and the second conveying wheel set 64 can be controlled by the conveying motor; the feeding speed of the first feeding wheel set 62 and the rotating speed of the wire spool 3 can be used to control the density of the turns on the winding cross cord c, and the feeding speed and the feeding time of the second feeding wheel set 64 control the length of the single-time-blown winding cross cord c.
The tensioning adjustment assembly 63 is used for tensioning the winding cross rope c between the first conveying wheel set 62 and the second conveying wheel set 64 and adjusting the length of the winding cross rope c. According to the scheme, the winding steel wire b is wound on the central steel wire rope a to form the winding cross rope c. In the process, the rotating speed of the wire spool 3 and the speed of the steel wire rope a at the conveying center of the traction mechanism need to be ensured to be coordinated, so that the wire spool 3 and the traction mechanism need to be ensured to work all the time after the wire spool 3 is accelerated and stabilized. However, since the subsequent fusing of the obtained winding cross cord c cannot be completed in real time, intermittent fusing is required, which may result in inconsistent moving speeds before and after winding the cross cord c. Thus, the traction mechanism in this version includes a first conveyor wheel set 62, a take-up adjustment assembly 63, and a second conveyor wheel set 64. The first conveying wheel set 62 continuously conveys the winding cross rope c to move forward, and the second conveying wheel set 64 intermittently conveys the winding cross rope c to move forward. According to the scheme, different conveying modes of the front section and the rear section of the winding cross rope c are realized through the first conveying wheel set 62 and the second conveying wheel set 64, the tensioning adjusting assembly 63 can reserve the winding cross rope c between the first conveying wheel set 62 and the second conveying wheel set 64, so that the winding cross rope c on the front side can be continuously input, and the winding cross rope c on the rear side can be discontinuously output. Moreover, the tensioning adjusting assembly 63 requires tensioning the winding cross rope c, so that on one hand, the winding cross rope c can be ensured to be in a tensioned state, and can not be separated from the conveying path or knotted due to looseness; on the other hand, the length of the winding cross rope c of the section can be detected.
In a further preferred version, the tensioning adjustment assembly 63 comprises an adjustment lever 631 hinged to the frame 1 and an adjustment puck 632 centrally rotatably disposed on the free end of the adjustment lever 631. The winding cross rope c is wound under the adjusting pinch roller 632, and the adjusting pinch roller 632 presses on the winding cross rope c. The frame 1 is provided with a plurality of sensors 633 for sensing the height of the adjusting lever 631 and/or the adjusting pinch roller 632. When the sensor 633 detects that the adjusting lever 631 and/or the adjusting press 632 are/is at the lowest position, the second conveying wheel set 64 is activated. When the sensor 633 detects that the adjusting lever 631 and/or the adjusting press wheel 632 is at the uppermost position, the second conveying wheel set 64 stops. On the basis of the above scheme, the scheme further defines the tensioning adjusting assembly 63 as an adjusting pinch roller 632 and an adjusting rod 631, the adjusting pinch roller 632 can rotate relative to the frame 1 through the adjusting rod 631, the adjusting pinch roller 632 presses the winding cross rope c, so that the winding cross rope c can be always kept in a pressed and tensioned state, and the length of the winding cross rope c is fed back to the height of the adjusting pinch roller 632 and/or the adjusting rod 631. Therefore, the present embodiment may provide a plurality of sensors 633 for sensing the height of the adjusting lever 631 and/or the adjusting roller 632, thereby substantially detecting the length of the winding cross cord c. And then the sensor 633 controls the second conveying wheel set 64 to move, so that the movement of the first conveying wheel set 62 is not influenced when the second conveying wheel set 64 conveys and winds the cross rope c. In a specific implementation scheme, at least 3 inductors 633 with different heights are provided, the inductor 633 on the upper side represents a buffering top dead center, the inductor 633 on the lower side represents a buffering bottom dead center, and the inductor 633 in the middle represents an acceleration point. When the adjusting pinch roller 632 and/or the adjusting lever 631 is detected to be at the top dead center of the buffer, the second conveying wheel set 64 should be stopped to enable the winding cross ropes c of the area to be fed into the buffer by the first conveying wheel set 62; when the adjusting pinch roller 632 and/or the adjusting rod 631 are/is detected to be at the buffering bottom dead center, the second conveying wheel set 64 can be started to feed the wound cross rope c with a sufficient length into the scissor type fusing mechanism 4; when the adjusting pinch roller 632 and/or the adjusting rod 631 are/is detected to be positioned between the buffer bottom dead center and the acceleration point, the second conveying wheel set 64 can be continuously accelerated until the highest speed is reached; when it is detected that adjusting puck 632 and/or adjusting lever 631 are between the top buffer dead center and the acceleration point, second conveying wheel set 64 continues to decelerate until it stops.
In addition, the blanking conveying wheel set 65 includes a driving wheel 651, a blanking motor for driving the driving wheel 651 to rotate, and a pressing wheel 652 movably disposed on the frame 1. Specifically, the pressing wheel 652 may be hinged to the frame 1 by a rod, and is driven to rotate by a control component (such as an air cylinder/oil cylinder), so as to control the movement of the pressing wheel 652. The driving wheel 651 is located below the conveying path of the winding cross rope c and can support the winding cross rope c, and the pinch roller 652 is located above the conveying path of the winding cross rope c and can be moved toward or away from the driving wheel 651. In this technical scheme, unloading conveying wheel set 65 is used for sending out the winding cross rope c of cutting fork formula fuse-link 4 fusing. Specifically, when the winding cross cord c is fed into the scissor type fuse mechanism 4 to be fused, a part of the rear end of the winding cross cord c is supported on the driving wheel 651 of the blanking conveying wheel set 65, when the winding cross cord c fused by the scissor type fuse mechanism 4 is to be fused, the pressing wheel 652 is pressed down on the driving wheel 651, and the cut winding cross cord c can be fed out through mutual rolling of the driving wheel 651 and the pressing wheel 652.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the principles and spirit of the present invention.
Claims (6)
1. The winding device for winding the steel wire comprises a wire spool (3), a core wire spool (2) and a traction mechanism; the wire spool (3) is rotatably arranged on the rack (1), a center hole (33) is axially formed in the center of the wire spool (3), and the traction mechanism is used for enabling a center steel wire rope a sent out by the core wire coil (2) to penetrate through the center hole (33); a winding cavity (353) is formed in the disc body of the winding disc (3) along the axial direction of the disc body, and the winding steel wire b is wound on the central steel wire rope a to form a winding cross rope c when the winding disc (3) rotates; the method is characterized in that: the wire guiding device comprises a wire outlet tray (51) and a wire guiding device (52) arranged between the wire outlet tray (51) and the wire spool (3); the wire guide (52) can axially reciprocate along the wire spool (3); the winding steel wire b sent out from the wire outlet tray (51) is wound in a winding cavity (353) of the wire spool (3) through a wire guide (52).
2. The wound wire winding device according to claim 1, wherein: the machine frame (1) is provided with a screw rod driving pair, and the screw rod driving pair comprises a driving motor (53), a screw rod connected to the output end of the driving motor (53), and a moving seat connected to the screw rod; the wire guide (52) is arranged on the moving seat, and the driving motor (53) drives the screw rod to rotate and drives the moving seat and the wire guide (52) on the moving seat to move.
3. The wound wire winding device according to claim 1, wherein: still be equipped with straightening guide pulley group (9) on frame (1) between wire guide (52) and the charging tray (51) of being qualified for the next round of competitions, straightening guide pulley group (9) are including being in a plurality of first gyro wheel (91) and a plurality of second gyro wheel (92), and first gyro wheel (91) and second gyro wheel (92) are in pairs to be rolled each other or crisscross each other to be rolled, and the winding steel wire b that constitutes between first gyro wheel (91) and second gyro wheel (92) is qualified for the next round of competitions the route orientation wire guide (52).
4. The wound wire winding device according to claim 1, wherein: the wire winding cavity (353) is provided with a wire passing hole (39) on an end plate (352) close to one side of the wire winder (34), the wire passing hole (39) is arranged in the edge area of the wire winding disc (3), a guide wheel (36) is arranged in the wire passing hole (39) of the wire winding disc (3) or on the end face of the end plate (352) beside the wire passing hole (39), and the guide wheel (36) is used for guiding the wire outgoing direction of the wound steel wire b.
5. The wound wire winding device according to claim 4, wherein: an end plate (352) of the wire spool (3) is also provided with a straightening guide wheel set (9), and the straightening guide wheel set (9) is arranged between the guide wheel (36) and the wire winder (34); straightening guide pulley group (9) are including being in a plurality of first gyro wheel (91) and a plurality of second gyro wheel (92), and first gyro wheel (91) and second gyro wheel (92) are in pairs to grind each other or crisscross each other grinds, and the winding steel wire b that constitutes between first gyro wheel (91) and second gyro wheel (92) is qualified for the next round of competitions the route and radially sets up along wire reel (3).
6. The wound wire winding device according to claim 1, wherein: the wire spool (3) comprises a shaft part (351) and two end plates (352) connected to the shaft part (351); a winding cavity (353) is formed between the two end parts, and a center hole (33) is arranged at the center of the shaft part (351) of the winding disc (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022653293.7U CN214882569U (en) | 2020-11-16 | 2020-11-16 | Winding device for winding steel wire |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022653293.7U CN214882569U (en) | 2020-11-16 | 2020-11-16 | Winding device for winding steel wire |
Publications (1)
Publication Number | Publication Date |
---|---|
CN214882569U true CN214882569U (en) | 2021-11-26 |
Family
ID=78950609
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202022653293.7U Active CN214882569U (en) | 2020-11-16 | 2020-11-16 | Winding device for winding steel wire |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN214882569U (en) |
-
2020
- 2020-11-16 CN CN202022653293.7U patent/CN214882569U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN112411223B (en) | Automatic winding fusing machine | |
CN1323915C (en) | Rewinding machine to rewind web material on a core for rolls and corresponding method of winding | |
JP2745082B2 (en) | Web winding method and apparatus | |
KR100310357B1 (en) | Method and apparatus for winding the winding web roll | |
EP2145849B1 (en) | Yarn winder | |
JP2611156B2 (en) | Roller for continuously fed sheets, especially paper sheets | |
EP0155321B1 (en) | Apparatus for taking up cutting wastage of strip sheet | |
CN103170247A (en) | Apparatus and method for manufacturing fiber bundles | |
CN110980429B (en) | Universal full-automatic pipe coiling and unloading machine for PE and PERT pipes | |
CN108689211B (en) | Automatic counting winding and cutting machine and ribbon winding and cutting method | |
CN214271466U (en) | Automatic winding fusing machine | |
CN114348785A (en) | Full-automatic yarn winding machine | |
CN109095238B (en) | PET film rolling machine | |
CN214882569U (en) | Winding device for winding steel wire | |
CN214271467U (en) | Winding device for winding steel wire | |
JP2010222088A (en) | Welding wire rewinding method | |
CN215315361U (en) | Scissor-fork type fusing mechanism | |
JP2002527635A (en) | Textured machine | |
CN1833973B (en) | Yarn traversing device for a winding device of a textile machine producing cross-wound bobbins | |
CN208992844U (en) | Full-automatic cutting machine | |
CN103221324B (en) | Device for winding up a thread | |
CN114229558B (en) | Full-automatic packing belt winding machine and control method thereof | |
CN216512140U (en) | Automatic accumulated wire-withdrawing and wire-releasing conversion device | |
JP2007530390A (en) | Winding device | |
CN113044651B (en) | Textile thread guide and collection device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: Winding wire winding device Effective date of registration: 20230328 Granted publication date: 20211126 Pledgee: China Construction Bank Corporation Pujiang Branch Pledgor: Zhejiang Pujiang Bohu Chain Co.,Ltd. Registration number: Y2023980036177 |
|
PE01 | Entry into force of the registration of the contract for pledge of patent right |