CN114436051B - Wire collecting equipment for plastic-coated wire production and wire collecting method thereof - Google Patents

Abstract

The invention relates to the technical field of plastic-coated wire production, in particular to a take-up device and a take-up method thereof, wherein the take-up device comprises a base and further comprises: the rotating roller is fixedly arranged on the outer ring of the rotating shaft; the winding and binding device is arranged on the side wall of the rotating roller; a guide device mounted on top of the second mounting stage. This device is through receiving line and binding device's setting for expansion plate and flexible piece can stretch out in proper order and support the plastic-coated wire of top rolling, the weight start of plastic-coated wire book is binded the mechanism, and change the position of expansion plate and flexible piece after binding, make the expansion plate support the plastic-coated wire of expansion plate top rolling again, thereby be favorable to binding the rolling in batches the plastic-coated wire when receiving the line at plastic-coated wire, thereby be favorable to forming the transportation and the use in the later stage of batched little book of formation after the plastic-coated wire receives the line.

Description

Wire collecting equipment for plastic-coated wire production and wire collecting method thereof

Technical Field

The invention relates to the field of plastic-coated wire production, in particular to a take-up device and a take-up method for plastic-coated wire production.

Background

The plastic covered yarn is commonly called as plastic covered yarn, is made of PE and PVC materials, and can be added with anti-ultraviolet and anti-aging additives. The wire is widely used for animal breeding, agriculture and forestry protection, aquaculture, park zoo fences, stadiums and the like, and has longer service life compared with common iron wires due to corrosion resistance and aging resistance.

The prior art discloses an invention patent in the aspect of production of partial plastic-coated wires, and a Chinese patent with the application number of CN202122058468.4, and discloses a take-up device for production and processing of plastic-coated wires, which comprises a base, wherein a supporting plate is fixedly connected to the upper end of the base, a U-shaped connecting plate is fixedly connected to the left end of the supporting plate, rotary holes are formed in the front end and the rear end of the U-shaped connecting plate, a second rotary rod is rotatably connected to the two rotary holes, a take-up roller is fixedly connected to the circumferential surface of the second rotary rod, the take-up roller is positioned between the U-shaped connecting plates, a limiting plate is fixedly connected to the rear end of the second rotary rod, a spring is sleeved on the circumferential surface of the second rotary rod, the spring is positioned between the limiting plate and the U-shaped connecting plate, a cam is fixedly connected to the front end of the U-shaped connecting plate, a square connecting plate is fixedly connected to the front end of the second rotary rod, and a sliding rod is fixedly connected to the rear end of the square connecting plate.

The plastic-coated wire after production needs to be wound and finished, so that the plastic-coated wire is convenient to transport and use at the later stage, the plastic-coated wire is directly wound through the winding roller in the prior art, the wound plastic-coated wire is large in size and weight due to the fact that a large number of plastic-coated wires are wound, the plastic-coated wire is inconvenient to transport and use, and when the plastic-coated wire amount of the plastic-coated wire roll is reduced, the plastic-coated wire needs to be frequently stopped to be wound so as to be bound, so that the plastic-coated wire is frequently suspended in the winding process, a large amount of time is consumed, and the plastic-coated wire winding efficiency is influenced. Therefore, the invention provides a take-up device for plastic-coated wire production and a take-up method thereof, which are used for solving the problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a take-up device and a take-up method for plastic-coated wire production.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: the utility model provides a receive line equipment for plastic-coated wire production usefulness, includes the base, the one end fixed mounting at base top has first mount table, the other end fixed mounting at base top has the second mount table, still includes:

the first motor is fixedly installed at the top of the top plate of the first installation platform through a screw;

the rotating shaft is rotatably arranged at the bottom of the first mounting platform, and the top of the rotating shaft penetrates through the first mounting platform and is fixedly connected with an output shaft of the first motor;

the rotating roller is fixedly arranged on the outer ring of the rotating shaft;

the wire take-up binding device is arranged on the side wall of the rotating roller;

a guide device mounted on top of the second mounting stage;

the plastic-coated wire winding device comprises a guide device, a winding and binding device and a rotating roller, wherein the guide device is used for guiding a winding path of the plastic-coated wire, and the winding and binding device is used for sequentially binding the plastic-coated wire wound and wound on the rotating roller.

Preferably, the winding and binding device comprises four first inserting grooves and four second inserting grooves, the four first inserting grooves are annularly arrayed on the outer wall of the rotating roller, telescopic plates are slidably inserted into the four first inserting grooves, the four second inserting grooves are arrayed on the outer wall of the rotating roller, the four second inserting grooves are positioned below the four first inserting grooves, telescopic blocks are slidably inserted into the four second inserting grooves, a position changing mechanism is arranged among the rotating roller, the four telescopic plates and the four telescopic blocks, the position changing mechanism is used for adjusting the telescopic plates to be stretched out of the first inserting grooves in the process of stretching out of the first inserting grooves, synchronously linking the telescopic blocks to be shrunk into the second inserting grooves simultaneously, and synchronously linking the telescopic blocks to be stretched out of the second inserting grooves simultaneously in the process of adjusting the telescopic plates to be shrunk into the first inserting grooves, the plastic-coated wire winding device is characterized in that a binding mechanism is installed between the telescopic block and the side wall of the rotating roller and used for binding plastic-coated wire coils falling to the top of the telescopic block, and the outer wall of the rotating roller is a smooth surface.

Preferably, the transposition mechanism comprises an inner cavity, a rotating ring, four first arc-shaped sliding grooves, four arc-shaped through grooves, four third arc-shaped sliding grooves and four second arc-shaped sliding grooves, the inner cavity is arranged inside the rotating roller, a second motor is fixedly arranged inside the inner cavity through screws, a gear is fixed at the top of an output shaft of the second motor, a rotating shaft of the gear is rotatably arranged at the top of the inner wall of the inner cavity, the rotating ring is rotatably arranged on the side wall of the inner cavity, an arc-shaped rack is fixed on the inner wall of the rotating ring and is meshed with the gear, four fixed blocks are fixed on the outer wall of the rotating ring in a circumferential array manner, a first straight rod is fixed at the top of all the fixed blocks, the four first arc-shaped sliding grooves are arranged at the top of the inner cavity in a circumferential array manner, and are respectively communicated with the first insertion grooves on the same side, the four first arc-shaped sliding grooves are communicated with the inner cavity, the four arc-shaped through grooves penetrate through the top of the expansion plate respectively, the first straight rods penetrate through the first arc-shaped sliding grooves and then are connected inside the arc-shaped through grooves in a sliding mode, four second straight rods are fixed to the circumferential array of the bottom of the rotating ring, four circumferential arrays of the third arc-shaped sliding grooves are arranged at the bottom of the inner cavity, the four third arc-shaped sliding grooves are communicated with the second inserting grooves on the same side respectively, the four third arc-shaped sliding grooves are communicated with the inner cavity, the four second arc-shaped sliding grooves are arranged at the tops of the four expansion blocks respectively, and the four second straight rods penetrate through the inside of the four third arc-shaped sliding grooves and then are connected inside the second arc-shaped sliding grooves in a sliding mode.

Preferably, the binding mechanism comprises a third inserting groove and a first opening, the third inserting groove is arranged inside the telescopic block, one end of the third inserting groove penetrates through the telescopic block and extends to the end part of the telescopic block, a box body is inserted into the third inserting groove, a binding nail row is placed in the box body, the first opening penetrates through the top of the telescopic block, the first opening is positioned right above the box body, a first pushing plate is slidably mounted in the box body and is positioned at one end, back to the first opening, of the binding nail row, a first spring is fixed between one end, back to the binding nail row, of the first pushing plate and the inner wall of the box body, a binding nail pushing mechanism is mounted between the box body and the telescopic block and is used for pushing binding nails, aligned with the first opening, of the end parts of the binding nail row to move upwards and extend out along the first opening, install on the lateral wall of live-rollers with the spacing supporting mechanism that first opening aligns, spacing supporting mechanism is used for right bind up the nail that nail pushing mechanism released and carry out the spacing support, make it supports to bind after the nail is released spacing supporting mechanism department produces the bending and bindes the plastic-coated wire.

Preferably, the binding nail pushing mechanism comprises a first cylinder, a second opening, a pressure switch and a yielding groove, the first air cylinder is fixedly arranged at the bottom of the telescopic block, the abdicating groove is formed in the side wall of the rotating roller, the first cylinder is positioned inside the abdicating groove, the telescopic rod of the first cylinder penetrates through the bottom of the telescopic block and extends to the inside of the third inserting groove, and then a second pushing plate is fixed on the telescopic rod, the second opening penetrates through the bottom of the third inserting groove and is aligned with the first opening, the width of the second opening is the same as that of one binding nail in the binding nail row, the second pushing plate is positioned below the second opening and matched with the second opening, the pressure switch is fixedly installed at the top of the telescopic block and electrically connected with the first cylinder.

Preferably, a fourth inserting groove is formed in the top of the telescopic block, the fourth inserting groove is located at the end of the first opening and communicated with the first opening and the third inserting groove, an arc-shaped pushing plate is inserted into the fourth inserting groove, a third pushing plate is fixed to the bottom of the arc-shaped pushing plate, a third opening communicated with the second opening is formed in the side wall of the box body in a penetrating mode, and the side wall of the third pushing plate penetrates through the third opening and then is fixedly connected with the second pushing plate.

Preferably, the limiting and supporting mechanism comprises four fifth inserting grooves and four circumferential arrays of the fifth inserting grooves are formed in the side wall of the rotating roller, wedge blocks are inserted into the inner portions of the fifth inserting grooves in a sliding mode, the wedge blocks face towards one sides of the fifth inserting grooves and second air cylinders are fixed between the fifth inserting grooves, the second air cylinders are electrically connected with the pressure switch, and arc-shaped supporting grooves aligned with the first openings are formed in the bottoms of the wedge blocks.

Preferably, the guiding device comprises a fixing frame, the fixing frame is fixedly installed at the top of the second installation platform, and two second rotating discs which are arranged oppositely are connected to the inner side wall of the fixing frame in a rotating mode.

Preferably, first mount table top orientation one side of second mount table is fixed with the link, the top of link is passed through the fix with screw and is had the third motor, the output shaft of third motor runs through be fixed with the screw rod behind the third motor, the outer lane screw thread cover of screw rod is equipped with first rotary disk, the bottom of link is fixed with the gag lever post, first rotary disk orientation one side of gag lever post seted up with the recess that the gag lever post is aligned, the gag lever post with recess sliding connection.

A wire collecting method of wire collecting equipment for plastic-coated wire production comprises the following steps:

step one, winding plastic-coated wires: the produced plastic-coated wire passes through the guiding device, is wound and wound on the outer ring of the rotating roller to form a plastic-coated wire coil, and is supported by the wire winding and binding device;

step two, plastic-coated wire transposition: after a period of time, the plastic-coated wire is wound to a certain amount, at the moment, the wire take-up binding device is started, the wire take-up binding device is matched with the gravity of the plastic-coated wire to change the position of the plastic-coated wire coil, so that the plastic-coated wire wound to a certain amount falls to the lower end of the wire take-up binding device and reaches a binding station;

step three, plastic-coated wire binding: the plastic-coated wire coil falling to the lower end of the take-up binding device is automatically bound, after binding is completed, the support is cancelled, and the plastic-coated wire coil which is bound below falls off the rotating roller.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the take-up binding device, the telescopic plate and the telescopic block can sequentially extend, when the telescopic plate extends, the telescopic plate supports the plastic-coated wires wound above the telescopic plate, when the telescopic block extends, a large amount of plastic-coated wires supported on the telescopic plate fall above the telescopic block under the action of gravity, the weight of the plastic-coated wire roll starts the binding mechanism, the binding mechanism rapidly binds the plastic-coated wire roll falling above the telescopic block, and the positions of the telescopic plate and the telescopic block are changed after binding, so that the telescopic plate supports the plastic-coated wires wound above the telescopic plate again, and therefore, the plastic-coated wires can be bound and wound in batches while being taken up, and the plastic-coated wires can be formed into small batches after being taken up, and the transportation and use of the plastic-coated wire roll at the later stage are facilitated.

2. According to the invention, through the arrangement of the binding mechanism, the plastic-coated wires can be synchronously started for binding when falling on the top of the telescopic block for supporting, so that batch binding of plastic-coated wire coils is facilitated, and fast batch winding and binding of the plastic-coated wire coils are facilitated to be improved, thereby facilitating improvement of wire take-up efficiency of the plastic-coated wire coils.

3. According to the invention, through the arrangement of the first rotating disc, the winding position of the plastic-coated wire moves along with the movement of the first rotating disc, so that the plastic-coated wire is uniformly wound and wound on the surface of the rotating roller, thereby being beneficial to uniform winding of the plastic-coated wire and avoiding the condition that the plastic-coated wire cannot be neatly bound by the binding nail due to nonuniform winding of the plastic-coated wire.

Drawings

FIG. 1 is a schematic flow diagram of the process of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a schematic enlarged view of the portion B of FIG. 2;

FIG. 5 is a schematic view of the structure of the present invention after the turning roll is sectioned along the center line of the stretching plate;

FIG. 6 is an enlarged view of a portion of the structure of FIG. 5 at C;

FIG. 7 is a schematic structural view of the rotating roller of the present invention taken along the center line of the telescopic block;

FIG. 8 is an enlarged view of a portion of FIG. 7 at D in accordance with the present invention;

FIG. 9 is a schematic view of the structural relationship between the telescopic blocks and the wedge blocks of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 9 at E;

FIG. 11 is a cross-sectional view of the telescopic block of the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 11 at F according to the present invention;

FIG. 13 is a schematic end sectional view of the telescoping block of the present invention;

FIG. 14 is an enlarged view of a portion of FIG. 13 at G;

fig. 15 is a schematic structural view of the cartridge body of the present invention after being sectioned.

In the figure: 1. a base; 2. a first mounting table; 3. a first motor; 4. a rotating shaft; 5. a rotating roller; 6. an inner cavity; 7. a first insertion groove; 8. a second insertion groove; 9. a second motor; 10. a gear; 11. a rotating ring; 12. an arc-shaped rack; 13. a fixed block; 14. a first straight rod; 15. a retractable plate; 16. an arc-shaped through groove; 17. a first arc-shaped chute; 18. a second straight rod; 19. a telescopic block; 20. a second arc-shaped chute; 21. a pressure switch; 22. a connecting frame; 23. a third motor; 24. a screw; 25. a first rotating disk; 26. a limiting rod; 27. a groove; 28. a third insertion groove; 29. a box body; 30. a first opening; 31. binding a nail row; 32. a first push plate; 33. a first spring; 34. a second opening; 35. a third opening; 36. a first cylinder; 37. a second pusher plate; 38. a third push plate; 39. an arc-shaped pushing plate; 40. a fourth plug groove; 41. a yielding groove; 42. a second mounting table; 43. a fixed mount; 44. a second rotating disk; 45. a fifth inserting groove; 46. a wedge block; 47. a second cylinder; 48. an arc-shaped supporting groove; 49. and a third arc chute.

Detailed Description

The following description is provided to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments described below are by way of example only, and other obvious variations will occur to those skilled in the art.

A receive line equipment for plastic-coated wire production usefulness as shown in fig. 1 to 15, including base 1, the one end fixed mounting at base 1 top has first mount table 2, and the other end fixed mounting at base 1 top has second mount table 42, its characterized in that still includes:

the first motor 3 is fixedly arranged at the top of the top plate of the first mounting table 2 through a screw;

the rotating shaft 4 is rotatably installed at the bottom of the first installation platform 2, and the top of the rotating shaft 4 penetrates through the first installation platform 2 and then is fixedly connected with an output shaft of the first motor 3;

the rotating roller 5, the rotating roller 5 is fixedly installed on the outer ring of the rotating shaft 4;

the winding and binding device is arranged on the side wall of the rotating roller 5;

a guide device installed on the top of the second installation stage 42;

the plastic-coated wire winding device comprises a guide device, a winding binding device, a rotating roller 5 and a winding and winding device, wherein the guide device is used for guiding a winding path of a plastic-coated wire; in the embodiment of the invention, the problems can be solved, and the specific implementation mode is as follows, the base 1 can be fixedly connected with the first installation platform 2 and the second installation platform 42, the first installation platform 2 can support and mount the first motor 3, the second installation platform 42 can mount the guiding device, the plastic-coated wire can be stably wound on the outer ring of the rotating roller 5 after penetrating through the guiding device, the first motor 3 can drive the rotating shaft 4 to rotate through the output shaft after being started, the rotating shaft 4 can drive the rotating roller 5 to rotate after rotating, the rotating roller 5 can take up the plastic-coated wire after rotating, the plastic-coated wire can be wound and wound on the outer ring of the rotating roller 5 to form a plastic-coated wire coil, the plastic-coated wire coil can be supported by the take-up binding device, the wound plastic-coated wire coil can be automatically bound through switching, batch automatic binding of the plastic-coated wire is facilitated, therefore, the plastic-coated wire can be automatically wound and bound into a small amount of plastic-coated wire coils in batches in the take-up process, and the plastic-coated wire coil formed after the plastic-coated wire is taken up can be conveniently transported and used.

As an implementation mode of the invention, the take-up binding device comprises four first inserting grooves 7 and four second inserting grooves 8, wherein the four first inserting grooves 7 are arranged on the outer wall of the rotating roller 5 in an annular array, telescopic plates 15 are respectively inserted into the four first inserting grooves 7 in a sliding manner, the four second inserting grooves 8 are arranged on the outer wall of the rotating roller 5 in an array manner, the four second inserting grooves 8 are positioned below the four first inserting grooves 7, telescopic blocks 19 are respectively inserted into the four second inserting grooves 8 in a sliding manner, a transposition mechanism is arranged among the rotating roller 5, the four telescopic plates 15 and the four telescopic blocks 19, the transposition mechanism is used for adjusting the telescopic plates 15 to extend out of the first inserting grooves 7, the linkage telescopic blocks 19 are synchronously retracted into the second inserting grooves 8, the transposition mechanism is used for adjusting the telescopic plates 15 to retract into the first inserting grooves 7, and the linkage telescopic blocks 19 synchronously extend out of the second inserting grooves 8, a binding mechanism is arranged between the telescopic block 19 and the side wall of the rotating roller 5, the binding mechanism is used for binding the plastic-coated wire roll falling to the top of the telescopic block 19, and the outer wall of the rotating roller 5 is a smooth surface; when the device works, the first inserting groove 7 can provide a telescopic accommodating space for the telescopic plates 15, when the telescopic plates 15 extend out of the first inserting groove 7, the four telescopic plates 15 can support the plastic-coated wires, so that the plastic-coated wires are wound on the tops of the telescopic plates 15, when the telescopic plates 15 are retracted into the first inserting groove 7, the plastic-coated wire roll can slide downwards under the action of gravity, the second inserting groove 8 can provide a telescopic accommodating space for the telescopic blocks 19, when the telescopic blocks 19 extend out of the second inserting groove 8, the telescopic blocks 19 can support the plastic-coated wire roll sliding from the upper part of the telescopic plates 15, when the telescopic blocks 19 are retracted into the second inserting groove 8, the plastic-coated wire roll on the telescopic blocks 19 can fall off the rotating roller 5 under the action of gravity, the transposition mechanism can perform transposition adjustment on the extension of the telescopic plates 15 and the extension of the telescopic blocks 19, so that the telescopic plates 15 and the telescopic blocks 19 can extend out in sequence, when the expansion plate 15 extends out, the expansion plate 15 supports plastic-coated wires wound above, when the expansion block 19 extends out, a large amount of plastic-coated wires supported on the expansion plate 15 before fall to the upper side of the expansion block 19 under the action of gravity, at the moment, the rotation roller 5 continues to rotate to enable the upper side of the expansion plate 15 to continue to wind the plastic-coated wires, when the plastic-coated wires fall to the upper side of the expansion block 19, the binding mechanism is started, the binding mechanism rapidly binds the plastic-coated wire coils falling to the upper side of the expansion block 19, the positions of the expansion plate 15 and the expansion block 19 are changed after binding, the expansion plate 15 supports the plastic-coated wires wound above the expansion plate 15 again, the plastic-coated wires are bound in batches while being wound up, and the plastic-coated wires are bound in batches, and are formed into small batches after being wound up, and therefore transportation and use of the plastic-coated wire coils in the later period are facilitated.

As an embodiment of the invention, the transposition mechanism comprises an inner cavity 6, a rotating ring 11, four first arc-shaped sliding chutes 17, four arc-shaped through grooves 16, four third arc-shaped sliding chutes 49 and four second arc-shaped sliding chutes 20, the inner cavity 6 is arranged inside the rotating roller 5, a second motor 9 is fixedly arranged inside the inner cavity 6 through screws, a gear 10 is fixed at the top of an output shaft of the second motor 9, a rotating shaft of the gear 10 is rotatably arranged at the top of the inner wall of the inner cavity 6, the rotating ring 11 is rotatably arranged on the side wall of the inner cavity 6, arc-shaped racks 12 are fixed on the inner wall of the rotating ring 11, the arc-shaped racks 12 are meshed with the gear 10, four fixed blocks 13 are fixed on the outer wall of the rotating ring 11 in a circumferential array manner, first straight rods 14 are fixed at the tops of all the fixed blocks 13, the four first arc-shaped sliding chutes 17 are arranged at the top of the inner cavity 6 in a circumferential array manner, the four first arc-shaped sliding chutes 17 are respectively communicated with the first inserting grooves 7 on the same side, the four first arc-shaped sliding grooves 17 are communicated with the inner cavity 6, the four arc-shaped through grooves 16 are respectively arranged at the top of the telescopic plate 15 in a penetrating mode, the first straight rods 14 penetrate through the first arc-shaped sliding grooves 17 and then are connected inside the arc-shaped through grooves 16 in a sliding mode, four second straight rods 18 are fixed on the circumferential array of the bottom of the rotating ring 11, the circumferential array of the four third arc-shaped sliding grooves 49 is arranged at the bottom of the inner cavity 6, the four third arc-shaped sliding grooves 49 are respectively communicated with the second inserting grooves 8 on the same side, the four third arc-shaped sliding grooves 49 are mutually communicated with the inner cavity 6, the four second arc-shaped sliding grooves 20 are respectively arranged at the tops of the four telescopic blocks 19, and the four second straight rods 18 penetrate through the insides of the four third arc-shaped sliding grooves 49 and then are connected inside the second arc-shaped sliding grooves 20 in a sliding mode; when the working, the inner cavity 6 can provide a space for installing an internal structure, the second motor 9 can drive the gear 10 to rotate through the output shaft after being started, the gear 10 drives the arc-shaped rack 12 engaged with the gear to rotate after rotating, the arc-shaped rack 12 drives the rotating ring 11 fixed with the arc-shaped rack 12 to rotate after rotating, the rotating ring 11 drives the fixed block 13 to rotate after rotating, the fixed block 13 drives the first straight rod 14 to move, the first arc-shaped chute 17 gives way to the moving track of the first straight rod 14, the first straight rod 14 slides in the arc-shaped through groove 16, the first straight rod 14 slides from one end of the arc-shaped through groove 16 close to the inner arc of the telescopic plate 15 to one end far away from the inner arc of the telescopic plate 15, so that the telescopic plate 15 is pushed to slide towards the inside of the first inserting groove 7 through the arc-shaped through groove 16, and the rotating ring 11 drives the second straight rod 18 to rotate, the third arc-shaped chute 49 provides a giving way space for the rotation of the second straight rod 18, second straight-bar 18 slides in the inside of second arc spout 20, one end of keeping away from flexible piece 19 inner arc by second arc spout 20 is inside to be close to the one end removal of flexible piece 19 inner arc, thereby promote flexible piece 19 through second arc spout 20 and stretch out to the outside of second inserting groove 8, when the output shaft counter-rotation of second motor 9, when realizing stretching out of expansion plate 15, flexible piece 19 retracts in step, thereby realize stretching out in proper order of expansion plate 15 and flexible piece 19 and support the plastic-coated wire book of rolling, and change the position that the plastic-coated wire was rolled up, thereby be favorable to carrying out the binding rolling of batching to the plastic-coated wire when carrying out the plastic-coated wire receipts line.

As an embodiment of the invention, the binding mechanism comprises a third inserting groove 28 and a first opening 30, the third inserting groove 28 is arranged inside the telescopic block 19, one end of the third inserting groove 28 penetrates through the telescopic block 19 and extends to the end part of the telescopic block 19, a box body 29 is inserted inside the third inserting groove 28, a binding nail row 31 is arranged inside the box body 29, the first opening 30 penetrates through the top of the telescopic block 19, the first opening 30 is positioned right above the box body 29, a first pushing plate 32 is slidably arranged inside the box body 29, the first pushing plate 32 is positioned at one end of the binding nail row 31, which is back to the first opening 30, a first spring 33 is fixed between one end of the first pushing plate 32, which is back to the binding nail row 31 and the inner wall of the box body 29, a binding nail pushing mechanism is arranged between the box body 29 and the telescopic block 19, the binding nail pushing mechanism is used for pushing nails, which are aligned with the end part of the binding nail row 31 and the first opening 30, to move upwards and extend along the first opening 30, the side wall of the rotating roller 5 is provided with a limiting and supporting mechanism aligned with the first opening 30, and the limiting and supporting mechanism is used for limiting and supporting the binding nails pushed out by the binding nail pushing mechanism, so that the binding nails are pushed out and then abut against the limiting and supporting mechanism to be bent to bind the plastic-coated wires; when the plastic-coated wire binding device works, the box body 29 can be inserted into the third inserting groove 28, the binding nail row 31 is contained in the box body 29, the first spring 33 can push the first pushing plate 32 to move towards the binding nail row 31, so that the end part of the binding nail row 31 can be pushed by the first pushing plate 32 to be aligned with the first opening 30, the binding nail pushing mechanism is started when a plastic-coated wire coil falls on the top of the telescopic block 19, the binding nail pushing mechanism can push the binding nail at the end part of the binding nail row 31 aligned with the first opening 30 to be separated from the binding nail row 31, the binding nail is pushed to extend outwards along the first opening 30, the two sides of the binding nail are penetrated through by the inner ring and the outer ring of the plastic-coated wire coil, when the binding nail moves upwards to abut against the limiting supporting mechanism, the end part of the binding nail is bent under the support of the limiting supporting mechanism to bind the plastic-coated wire coil, so that the plastic-coated wire can be synchronously started to be bound when the plastic wire falls on the top of the telescopic block 19 to be supported, therefore, the method is beneficial to fast binding the plastic-coated wire coil in batches and improving the fast batch winding binding of the plastic-coated wire coil, thereby being beneficial to improving the wire take-up efficiency of the plastic-coated wire coil.

As an embodiment of the present invention, the binding nail pushing mechanism includes a first air cylinder 36, a second opening 34, a pressure switch 21 and a relief groove 41, the first air cylinder 36 is fixedly mounted at the bottom of the telescopic block 19, the relief groove 41 is opened on the side wall of the rotating roller 5, the first air cylinder 36 is located inside the relief groove 41, the telescopic rod of the first air cylinder 36 penetrates through the bottom of the telescopic block 19 to extend into the inside of the third inserting groove 28 and then is fixed with a second pushing plate 37, the second opening 34 penetrates through the bottom of the third inserting groove 28 and is aligned with the first opening 30, the width of the second opening 34 is the same as the width of one binding nail in the binding nail row 31, the second pushing plate 37 is located below the second opening 34 and is matched with the second opening 34, the pressure switch 21 is fixedly mounted at the top of the telescopic block 19, and the pressure switch 21 is electrically connected with the first air cylinder 36; when the plastic-coated wire binding box works, the abdicating groove 41 can provide an abdicating space for the first air cylinder 36 when the telescopic block 19 drives the first air cylinder 36 to withdraw, after a plastic-coated wire coil falls to the top of the telescopic block 19, the pressure switch 21 is pressed by the weight of the plastic-coated wire coil, the first air cylinder 36 is started after the pressure switch 21 is pressed, the second pushing plate 37 is upwards pushed through the telescopic rod after the first air cylinder 36 is started, the second pushing plate 37 upwards pushes the second pushing plate 37 to enter the box body 29 through the second opening 34 after being upwards pushed, the second pushing plate 37 is continuously upwards pushed, the second pushing plate 37 pushes the binding nails at the end part of the binding nail row 31, the binding nails are separated from the binding nail row 31 and upwards pushed, the separated binding nails are pushed by the second pushing plate 37 and then extend out along the first opening 30, the pushing of the binding nails is completed, and the binding nails extend out, and the binding nails are matched with the limiting supporting mechanism to bind the plastic-coated wire coil after extending out.

As an embodiment of the present invention, a fourth inserting groove 40 is formed at the top of the telescopic block 19, the fourth inserting groove 40 is located at the end of the first opening 30 and is communicated with the first opening 30 and the third inserting groove 28, an arc pushing plate 39 is inserted into the fourth inserting groove 40, a third pushing plate 38 is fixed at the bottom of the arc pushing plate 39, a third opening 35 communicated with the second opening 34 is formed through the side wall of the box body 29, and the side wall of the third pushing plate 38 penetrates through the third opening 35 and is fixedly connected with the second pushing plate 37; when the plastic-coated wire roll binding device works, when one binding nail of the binding nail row 31 is pushed out to bind the plastic-coated wire roll, if part of the plastic-coated wire is loosely positioned outside the binding nail, the binding nail can difficultly and orderly bind the plastic-coated wire, the embodiment of the invention can solve the problems, in the specific implementation mode, the second pushing plate 37 is pushed upwards to drive the third pushing plate 38 to move upwards, the third opening 35 provides a abdicating space for the joint of the third pushing plate 38 and the second pushing plate 37 when the third pushing plate 38 moves upwards, the third pushing plate 38 pushes the arc pushing plate 39 to move upwards after moving upwards, the arc pushing plate 39 pushes the plastic-coated wire outside towards the interior of the plastic-coated wire through the arc end at the top part after moving upwards, so that the plastic-coated wire roll can be pushed and collected between the two sides of the binding nail, and the plastic-coated wire roll can be completely collected between the two sides of the binding nail to bind the plastic-coated wire roll when the binding nail moves upwards, thereby being beneficial to orderly binding the plastic-coated wire coil.

As an embodiment of the present invention, the limiting and supporting mechanism includes four fifth inserting grooves 45, the four fifth inserting grooves 45 are circumferentially arrayed on the side wall of the rotating roller 5, wedge blocks 46 are slidably inserted into the four fifth inserting grooves 45, a second cylinder 47 is fixed between one side of each wedge block 46 facing the fifth inserting groove 45 and the fifth inserting groove 45, the second cylinder 47 is electrically connected with the pressure switch 21, and an arc-shaped supporting groove 48 aligned with the first opening 30 is formed at the bottom of each wedge block 46; the during operation, the coated wire rolls up landing downwards to the top of flexible piece 19, pressure switch 21 pressurized and starts second cylinder 47, second cylinder 47's telescopic link promotes wedge 46 to the roll-off of fifth inserting groove 45, when tying up the nail rebound, the top of tying up the nail is supported groove 48 by arc support groove 48 gradually rebound, the tip that the nail was tied up in the inclined plane promotion of arc support groove 48 supports groove 48 along the inclined plane of arc support groove 48 crooked, thereby make to tie up the nail crooked and tie up the coated wire, thereby be favorable to the quick rolling of binding to the coated wire roll, be favorable to improving the bundling of coated wire roll and roll up efficiency.

As an embodiment of the present invention, the guiding device includes a fixing frame 43, the fixing frame 43 is fixedly installed on the top of the second installation table 42, and two second rotating discs 44 which are oppositely arranged are rotatably connected to the inner side wall of the fixing frame 43; during operation, the second mounting table 42 can rotate the fixing frame 43 and the fixing frame 43 can rotate the second rotating discs 44, the plastic-coated wires penetrate between the two second rotating discs 44 in the wire winding process, the second rotating discs 44 guide winding of the plastic-coated wires, and the plastic-coated wires are prevented from being separated from a winding path.

As an embodiment of the present invention, a connecting frame 22 is fixed on one side of the top of the first mounting platform 2 facing the second mounting platform 42, a third motor 23 is fixed on the top of the connecting frame 22 through a screw, a screw 24 is fixed on an output shaft of the third motor 23 after penetrating through the third motor 23, a first rotating disc 25 is screwed on an outer ring of the screw 24, a limiting rod 26 is fixed on the bottom of the connecting frame 22, a groove 27 aligned with the limiting rod 26 is opened on one side of the first rotating disc 25 facing the limiting rod 26, and the limiting rod 26 is slidably connected with the groove 27; during operation, in the plastic-coated wire winding process, if the plastic-coated wires are wound in the same position, the plastic-coated wires can be wound unevenly, so that when the plastic-coated wire roll falls down and is bound, a part with a large winding amount of the plastic-coated wires may extend out of a binding nail, and the binding nail is difficult to bind the plastic-coated wire roll neatly, the embodiment of the invention can solve the above problems, and the specific implementation manner is as follows, the connecting frame 22 can fixedly mount the third motor 23, the third motor 23 can drive the screw rod 24 to rotate through the output shaft after being started, the limiting rod 26 is in sliding fit with the groove 27, so that the first rotating disc 25 can only longitudinally move along the limiting rod 26 but can not rotate, the rotation of the screw rod 24 drives the first rotating disc 25 in threaded fit with the screw rod to move up and down, and the first rotating disc 25 continuously reciprocates in the plastic-coated wire winding process, the plastic-coated wire penetrates through the first rotating disc 25 when being taken up, so that the winding position of the plastic-coated wire moves along with the movement of the first rotating disc 25, the plastic-coated wire is wound on the surface of the rotating roller 5 in an even winding mode, the plastic-coated wire is wound evenly, and the plastic-coated wire winding device is beneficial to avoiding the situation that the binding nail cannot be bound to the plastic-coated wire coil in order due to the fact that the plastic-coated wire is wound unevenly.

A wire collecting method of wire collecting equipment for plastic-coated wire production comprises the following steps:

step one, winding plastic-coated wires: the produced plastic-coated wire passes through the guiding device, is wound and wound on the outer ring of the rotating roller 5 to form a plastic-coated wire coil, and is supported by the wire winding and binding device;

step two, plastic-coated wire transposition: after a period of time, the plastic-coated wire is wound to a certain amount, at the moment, the wire take-up binding device is started, the wire take-up binding device is matched with the gravity of the plastic-coated wire to change the position of the plastic-coated wire coil, so that the plastic-coated wire wound to a certain amount falls to the lower end of the wire take-up binding device and reaches a binding station;

step three, plastic-coated wire binding: the plastic-coated wire coil falling to the lower end of the take-up binding device is automatically bound, after binding is completed, the support is cancelled, and the plastic-coated wire coil which is bound below falls off the rotating roller 5.

The working principle of the invention is as follows: the embodiment of the invention can solve the problems in the prior art that the plastic-coated wire is directly wound by a winding roller, so that the wound plastic-coated wire is large in volume and heavy in weight due to the fact that a large amount of plastic-coated wires are wound, the plastic-coated wire is inconvenient to transport and use, and when the plastic-coated wire amount of a plastic-coated wire roll is reduced, the winding of the plastic-coated wire needs to be frequently stopped to bind the plastic-coated wire, so that the plastic-coated wire winding process is frequently suspended to consume a large amount of time, and the plastic-coated wire winding efficiency is affected, and has the following specific implementation mode that a base 1 can be fixedly connected with a first mounting table 2 and a second mounting table 42, the first mounting table 2 can support and mount a first motor 3, and the second mounting table 42 can mount a guide device, the plastic-coated wire can be stably wound on the outer ring of the rotating roller 5 after penetrating through the guiding device, the first motor 3 can drive the rotating shaft 4 to rotate through the output shaft after being started, the rotating shaft 4 can drive the rotating roller 5 to rotate after rotating, the rotating roller 5 can take up the plastic-coated wire after rotating, the plastic-coated wire can be wound and wound on the outer ring of the rotating roller 5 to form a plastic-coated wire coil, the plastic-coated wire coil can be supported by the take-up binding device, the wound plastic-coated wire coil can be automatically bound through switching, batch automatic binding of the plastic-coated wire is facilitated, therefore, the plastic-coated wire can be automatically wound and bound into a small amount of plastic-coated wire coils in batches in the take-up process, and the plastic-coated wire coil formed after the plastic-coated wire is taken up can be conveniently transported and used.

The foregoing shows and describes the general principles, principal features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims and their equivalents.

Claims (7)

1. The utility model provides a receive line equipment for plastic-coated wire production usefulness, includes base (1), the one end fixed mounting at base (1) top has first mount table (2), the other end fixed mounting at base (1) top has second mount table (42), its characterized in that still includes:

the first motor (3) is fixedly arranged at the top of the top plate of the first mounting table (2) through a screw;

the rotating shaft (4) is rotatably mounted at the bottom of the first mounting table (2), and the top of the rotating shaft (4) penetrates through the first mounting table (2) and then is fixedly connected with an output shaft of the first motor (3);

the rotating roller (5), the said rotating roller (5) is fixedly mounted to the outer lane of the said spindle (4);

The winding and binding device is arranged on the side wall of the rotating roller (5);

a guide device mounted on top of the second mounting stage (42);

the plastic-coated wire take-up and binding device is used for sequentially binding the plastic-coated wires wound and wound on the rotating roller (5);

the take-up and binding device comprises four first inserting grooves (7) and four second inserting grooves (8), annular arrays of the four first inserting grooves (7) are arranged on the outer wall of the rotating roller (5), telescopic plates (15) are inserted into the four first inserting grooves (7) in a sliding mode, arrays of the four second inserting grooves (8) are arranged on the outer wall of the rotating roller (5), the four second inserting grooves (8) are located below the four first inserting grooves (7), telescopic blocks (19) are inserted into the four second inserting grooves (8) in a sliding mode, a transposition mechanism is installed between the rotating roller (5) and the four telescopic plates (15) and between the four telescopic blocks (19), the transposition mechanism is used for adjusting the telescopic blocks (19) to be synchronously retracted into the second inserting grooves (8) in the process that the telescopic plates (15) extend out of the first inserting grooves (7), the transposition mechanism is used for adjusting the telescopic plate (15) to be retracted into the first insertion groove (7) and simultaneously linking the telescopic block (19) to synchronously extend out of the second insertion groove (8), a binding mechanism is arranged between the telescopic block (19) and the side wall of the rotating roller (5) and used for binding the plastic-coated wire coil falling to the top of the telescopic block (19), and the outer wall of the rotating roller (5) is set to be a smooth surface;

The transposition mechanism comprises an inner cavity (6), a rotating ring (11), four first arc-shaped sliding grooves (17), four arc-shaped through grooves (16), four third arc-shaped sliding grooves (49) and four second arc-shaped sliding grooves (20), wherein the inner cavity (6) is arranged inside the rotating roller (5), a second motor (9) is fixedly arranged inside the inner cavity (6) through screws, a gear (10) is fixed at the top of an output shaft of the second motor (9), a rotating shaft of the gear (10) is rotatably arranged at the top of the inner wall of the inner cavity (6), the rotating ring (11) is rotatably arranged on the side wall of the inner cavity (6), an arc-shaped rack (12) is fixed on the inner wall of the rotating ring (11), the arc-shaped rack (12) is meshed with the gear (10), and four fixing blocks (13) are fixed on the outer wall of the rotating ring (11) in a circumferential array manner, the top of all the fixed blocks (13) is fixed with a first straight rod (14), four first arc-shaped sliding chutes (17) are arranged at the top of the inner cavity (6) in a circumferential array mode, the four first arc-shaped sliding chutes (17) are respectively communicated with the first inserting grooves (7) on the same side, the four first arc-shaped sliding chutes (17) are respectively communicated with the inner cavity (6), four arc-shaped through grooves (16) are respectively arranged at the top of the expansion plate (15) in a penetrating mode, the first straight rod (14) penetrates through the first arc-shaped sliding chutes (17) and then is connected to the inside of the arc-shaped through grooves (16) in a sliding mode, the bottom of the rotating ring (11) is fixed with four second straight rods (18) in a circumferential array mode, four third arc-shaped sliding chutes (49) are arranged at the bottom of the inner cavity (6) in a circumferential array mode, and the four third arc-shaped sliding chutes (49) are respectively communicated with the second inserting grooves (8) on the same side, the four third arc-shaped sliding grooves (49) are communicated with the inner cavity (6), the four second arc-shaped sliding grooves (20) are respectively formed in the tops of the four telescopic blocks (19), and the four second straight rods (18) respectively penetrate into the four third arc-shaped sliding grooves (49) and then are connected to the insides of the second arc-shaped sliding grooves (20) in a sliding mode;

The binding mechanism comprises a third inserting groove (28) and a first opening (30), the third inserting groove (28) is arranged inside the telescopic block (19), one end of the third inserting groove (28) penetrates through the telescopic block (19) and extends to the end portion of the telescopic block (19), a box body (29) is inserted into the third inserting groove (28), a binding nail row (31) is placed inside the box body (29), the first opening (30) penetrates through the top of the telescopic block (19), the first opening (30) is located right above the box body (29), a first pushing plate (32) is slidably mounted inside the box body (29), the first pushing plate (32) is located at one end, back to the first opening (30), of the binding nail row (31), and a first spring (33) is fixed between one end, back to the binding nail row (31), of the first pushing plate (32) and the inner wall of the box body (29), box body (29) with install between flexible piece (19) and tie up nail pushing mechanism, tie up nail pushing mechanism be used for promoting tie up nail row (31) tip with the nail of tying up of first opening (30) alignment along first opening (30) rebound stretches out, install on the lateral wall of live-rollers (5) with the spacing supporting mechanism of first opening (30) alignment, spacing supporting mechanism is used for right it advances spacing support to tie up the nail of tying up that nail pushing mechanism released, makes it is supported after being pushed to tie up the nail spacing supporting mechanism department produces the bending and binds to the plastic-coated wire.

2. The take-up equipment for plastic-coated wire production is characterized in that the binding nail pushing mechanism comprises a first air cylinder (36), a second opening (34), a pressure switch (21) and a yielding groove (41), the first air cylinder (36) is fixedly installed at the bottom of the telescopic block (19), the yielding groove (41) is formed in the side wall of the rotating roller (5), the first air cylinder (36) is located inside the yielding groove (41), a telescopic rod of the first air cylinder (36) penetrates through the bottom of the telescopic block (19) to extend to the inside of the third inserting groove (28) and is then fixedly provided with a second pushing plate (37), the second opening (34) penetrates through the bottom of the third inserting groove (28) and is aligned with the first opening (30), and the width of the second opening (34) is the same as the width of one binding nail in the binding nail row (31), the second pushing plate (37) is located below the second opening (34) and matched with the second opening (34), the pressure switch (21) is fixedly mounted at the top of the telescopic block (19), and the pressure switch (21) is electrically connected with the first air cylinder (36).

3. The take-up equipment for plastic-coated wire production as claimed in claim 1, wherein a fourth inserting groove (40) is formed in the top of the telescopic block (19), the fourth inserting groove (40) is located at the end of the first opening (30) and communicated with the first opening (30) and the third inserting groove (28), an arc-shaped pushing plate (39) is inserted into the fourth inserting groove (40), a third pushing plate (38) is fixed to the bottom of the arc-shaped pushing plate (39), a third opening (35) communicated with the second opening (34) is formed in the side wall of the box body (29) in a penetrating mode, and the side wall of the third pushing plate (38) is fixedly connected with the pushing plate (37) after penetrating through the third opening (35).

4. The take-up device for plastic-coated wire production as claimed in claim 1, wherein the limiting and supporting mechanism comprises four fifth inserting grooves (45), the four fifth inserting grooves (45) are circumferentially arrayed on the side wall of the rotating roller (5), wedge blocks (46) are slidably inserted into the four fifth inserting grooves (45), second air cylinders (47) are fixed between one sides, facing the fifth inserting grooves (45), of the wedge blocks (46) and the fifth inserting grooves (45), the second air cylinders (47) are electrically connected with the pressure switch (21), and arc-shaped supporting grooves (48) aligned with the first openings (30) are formed in the bottoms of the wedge blocks (46).

5. The take-up device for plastic-coated wire production as claimed in claim 1, wherein the guiding device comprises a fixing frame (43), the fixing frame (43) is fixedly mounted on the top of the second mounting table (42), and two oppositely-arranged second rotating discs (44) are rotatably connected to the inner side wall of the fixing frame (43).

6. The take-up device for plastic-coated wire production as claimed in claim 5, wherein a connecting frame (22) is fixed to one side, facing the second mounting table (42), of the top of the first mounting table (2), a third motor (23) is fixed to the top of the connecting frame (22) through screws, a screw (24) is fixed to an output shaft of the third motor (23) after penetrating through the third motor (23), a first rotating disc (25) is sleeved on an outer ring thread of the screw (24), a limiting rod (26) is fixed to the bottom of the connecting frame (22), a groove (27) aligned with the limiting rod (26) is formed in one side, facing the limiting rod (26), of the first rotating disc (25), and the limiting rod (26) is in sliding connection with the groove (27).

7. A wire collecting method of a wire collecting device for plastic-coated wire production is suitable for the wire collecting device for plastic-coated wire production in any one of claims 1 to 6, and is characterized by comprising the following steps:

step one, winding plastic-coated wires: the produced plastic-coated wire passes through a guide device, is wound and wound on the outer ring of a rotating roller (5) to form a plastic-coated wire coil, and is supported by a wire winding and binding device;

step two, plastic-coated wire transposition: after a period of time, the plastic-coated wire is wound to a certain amount, at the moment, the wire take-up binding device is started, the wire take-up binding device is matched with the gravity of the plastic-coated wire to change the position of the plastic-coated wire coil, so that the plastic-coated wire wound to a certain amount falls to the lower end of the wire take-up binding device and reaches a binding station;

step three, plastic-coated wire binding: the plastic-coated wire coil falling to the lower end of the take-up binding device is automatically bound, after binding is completed, the support is cancelled, and the plastic-coated wire coil which is bound below falls off the rotating roller (5).

Images