CN115057299A

CN115057299A - Filament winding device for producing high-strength nylon filaments

Info

Publication number: CN115057299A
Application number: CN202210735788.5A
Authority: CN
Inventors: 邓钦文; 邓锦高; 韩良华
Original assignee: Nantong Wenkai Chemical Fiber Co ltd
Current assignee: Nantong Wenkai Chemical Fiber Co ltd
Priority date: 2022-06-27
Filing date: 2022-06-27
Publication date: 2022-09-16

Abstract

The invention relates to the technical field of winding devices, in particular to a winding device for producing nylon high-strength filaments. According to the invention, the driving roller, the two driven rollers and the plurality of winding tube limiting mechanisms are arranged, the plurality of winding tube limiting mechanisms are used for enabling the plurality of winding tubes to be arranged between the driving roller and the two driven rollers, the driving roller is driven to rotate by the driving motor, the driving roller drives the plurality of winding tubes to rotate, and the two driven rollers play a limiting role on the plurality of winding tubes, so that the single driving motor can drive the plurality of winding tubes to rotate conveniently, the nylon high-strength filament can be wound on the surfaces of the plurality of winding tubes conveniently, and the winding efficiency of the nylon high-strength filament is improved.

Description

Filament winding device for producing high-strength nylon filaments

Technical Field

The invention relates to the technical field of filament winding devices, in particular to a filament winding device for producing nylon high-strength filaments.

Background

After the production of the high-strength nylon filament is finished, the high-strength nylon filament needs to be wound on the barrel through a filament winding device, when the existing filament winding device is operated, the barrel is fixed on a rotating end firstly, then the high-strength nylon filament is wound on the barrel for a plurality of circles, the rotating end is driven by a motor to drive the barrel to rotate, and the high-strength nylon filament can be wound on the surface of the barrel after the barrel rotates;

in the prior art, a single driving motor can only drive a single barrel to rotate, when the number of the high-strength nylon filaments is large, the production efficiency is low, and the efficiency of winding the high-strength nylon filaments on the barrel is reduced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a filament winding device for producing high-strength nylon filaments.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a filament winding device for producing nylon high-strength filaments comprises a base and a driving motor, wherein two first mounting plates which are symmetrically arranged are mounted at the top of the base through screws, third bearings are mounted on the side surfaces of the two first mounting plates in a penetrating manner, a driving roller is inserted between the inner rings of the two third bearings in a tight fit manner, driven rollers are arranged on the two sides of the driving roller, the two driven rollers are located above the driving roller, second bearings are fixedly mounted at the two ends of the two driven rollers, the four second bearings are respectively mounted in the inner walls of the two first mounting plates in a penetrating manner, the movable end of the driving motor is mounted at one end of the driving roller through a coupling, a motor support is mounted between the shell of the driving motor and the first mounting plates through screws, top plates are arranged above the two first mounting plates, and a connecting plate is mounted at the bottom of the top plates through screws, an electric cylinder is installed between the bottom of the connecting plate and the side face of the base through screws, a plurality of wire winding barrel limiting mechanisms are arranged on the surface of the top plate, and a distance sensor is installed on the surface of the top plate in a penetrating mode.

Preferably, wire winding section of thick bamboo stop gear includes the second mounting panel, the second mounting panel is located the below of roof, there is the second dead lever at the top of second mounting panel through the mounting screw, the one end of second dead lever runs through the surface of roof and extends to its top, there is the second baffle on the top of second dead lever through the mounting screw, the fixed cover in surface of second dead lever is equipped with the limiting plate, the bottom of limiting plate and the top contact of roof, the surface cover of second dead lever is equipped with torsion spring, torsion spring's both ends are passed through the screw and are installed the surface at second baffle and roof respectively, there is the third dead lever side of second mounting panel through the mounting screw.

Preferably, a third baffle is installed at one end of the third fixing rod through a screw, and the radial dimension of the third baffle is smaller than that of the inner cavity of the wire forming cylinder.

Preferably, the third fixing rod and the distance sensor correspond in position in a vertical direction.

Preferably, the both ends of roof all have the fixed plate through the mounting screw, the surface of fixed plate all runs through to install the installation pole, the top at first mounting panel is passed through at the bottom of installation pole through the mounting screw, there is first baffle on the top of installation pole through the mounting screw, the surface activity cover of installation pole is equipped with pressure spring, pressure spring's both ends are passed through the screw and are installed respectively on the surface of first baffle and fixed plate.

Preferably, two there is driven gear the other end of driven voller through the mounting screw, there is the driving gear the other end of drive roll through the mounting screw, the both sides meshing of driving gear has drive gear, two there is first transmission shaft, two drive gear's side through the mounting screw the fixed cover of one end of first transmission shaft is equipped with the second bearing, two the second bearing all runs through and installs in the inner wall of first mounting panel, two driven gear meshes with two drive gear respectively.

Preferably, a plurality of fourth bearings penetrate through the top of the base, a second transmission shaft is inserted into inner rings of the fourth bearings in a tight fit manner, a circular plate is installed at the top end of the second transmission shaft through a screw, and a plurality of first fixing rods are installed at the top of the circular plate through screws.

Preferably, the number of the first fixing rods is at least two, the first fixing rods are symmetrically arranged, and the first fixing rods are located below the driving roller.

Preferably, a rubber pad is fixedly bonded along the arc surface of the driving roller.

Preferably, the surface of the base is provided with a PLC controller through a screw, and the PLC controller is respectively connected with the distance sensor, the electric cylinder and the driving motor through wires.

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

according to the invention, the driving roller, the two driven rollers and the plurality of winding barrel limiting mechanisms are arranged, the plurality of winding barrel limiting mechanisms are used for driving the plurality of winding barrels, the plurality of winding barrels are arranged between the driving roller and the two driven rollers, the driving roller is driven to rotate by the driving motor, the driving roller drives the plurality of winding barrels to rotate, and the two driven rollers play a limiting role on the plurality of winding barrels, so that a single driving motor can drive the plurality of winding barrels to rotate conveniently, the nylon high-strength filament can be wound on the surfaces of the plurality of winding barrels conveniently, and the winding efficiency of the nylon high-strength filament is improved.

Drawings

FIG. 1 is a first isometric view of a filament winding device for producing a nylon high-strength filament according to the invention;

FIG. 2 is a second axial view of a filament winding device for producing high-strength nylon filaments according to the present invention;

FIG. 3 is a schematic view of a connection structure of a first mounting plate, a first transmission shaft, a driven roller and a driving roller of the filament winding device for producing the high-strength nylon filament;

FIG. 4 is a schematic view of a connecting structure of a driving roller, a first mounting plate and a bottom plate of the filament winding device for producing the high-strength nylon filament;

FIG. 5 is a schematic structural view of a winding drum limiting mechanism of the winding device for producing the high-strength nylon filament yarn, provided by the invention;

FIG. 6 is a schematic view of a connection structure of a second baffle, a second fixing rod and a limiting plate of the filament winding device for producing high-strength nylon filaments;

FIG. 7 is a schematic view of a connection structure of a first fixing rod and a circular plate of the filament winding device for producing high-strength nylon filaments of the present invention;

FIG. 8 is a schematic view of a connection structure of a second transmission shaft and a circular plate of the filament winding device for producing the high-strength nylon filament.

In the figure: the device comprises a fixing plate 1, a mounting rod 2, a driven gear 3, a first bearing 4, a second bearing 5, a first transmission shaft 6, a driven roller 7, a first fixing rod 8, a circular plate 9, a base 10, a first mounting plate 11, a motor support 12, a driving motor 13, a pressure spring 14, a first baffle plate 15, a second baffle plate 16, a top plate 17, an electric cylinder 18, a connecting plate 19, a wire winding tube 20, a second mounting plate 21, a second transmission shaft 22, a torsion spring 23, a distance sensor 24, a transmission gear 25, a driving gear 26, a PLC (programmable logic controller) 27, a third baffle plate 28, a third bearing 29, a driving roller 30, a second fixing rod 31, a third fixing rod 32, a limiting plate 33 and a fourth bearing 34.

Detailed Description

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

The filament winding device for producing the high-strength nylon filament comprises a base 10 and a driving motor 13, wherein two first mounting plates 11 which are symmetrically arranged are mounted at the top of the base 10 through screws, third bearings 29 are respectively mounted on the side surfaces of the two first mounting plates 11 in a penetrating manner, a driving roller 30 is tightly matched and inserted between the inner rings of the two third bearings 29, driven rollers 7 are respectively arranged on the two sides of the driving roller 30, the two driven rollers 7 are respectively positioned above the driving roller 30, second bearings 5 are respectively fixedly sleeved at the two ends of the two driven rollers 7, the four second bearings 5 are respectively mounted in the inner walls of the two first mounting plates 11 in a penetrating manner, the movable end of the driving motor 13 is mounted at one end of the driving roller 30 through a coupler, a motor support 12 is mounted between the shell of the driving motor 13 and the first mounting plates 11 through screws, and a driven gear 3 is mounted at the other ends of the two driven rollers 7 through screws, the other end of the driving roller 30 is provided with a driving gear 26 through a screw, two sides of the driving gear 26 are engaged with transmission gears 25, the side surfaces of the two transmission gears 25 are provided with first transmission shafts 6 through screws, one ends of the two first transmission shafts 6 are fixedly sleeved with second bearings 5, the two second bearings 5 are both installed in the inner wall of the first installation plate 11 in a penetrating manner, and the two driven gears 3 are respectively engaged with the two transmission gears 25; when the driving motor 13 drives the driving roller 30 to rotate, the driving roller 30 drives the driving gear 26 to rotate clockwise, the driving gear 26 drives the two transmission gears 25 to rotate anticlockwise, the two transmission gears 25 drive the two driven gears 3 to rotate clockwise, the two driven gears 3 drive the two driven rollers 7 to rotate synchronously, and the two driven rollers 7 conveniently exert an action on the winding drum 20 in the rotating process, so that the winding drum 20 can rotate conveniently; and the driving roller 30 and the two driven rollers 7 rotate in the same direction, so that the stability of the rotation of the winding cylinder 20 between the driving roller 30 and the two driven rollers 7 is improved.

A top plate 17 is arranged above the two first mounting plates 11, a connecting plate 19 is arranged at the bottom of the top plate 17 through screws, an electric cylinder 18 is arranged between the bottom of the connecting plate 19 and the side surface of the base 10 through screws, a plurality of wire winding barrel limiting mechanisms are arranged on the surface of the top plate 17, each wire winding barrel limiting mechanism comprises a second mounting plate 21, the second mounting plates 21 are positioned below the top plate 17, second fixing rods 31 are arranged at the tops of the second mounting plates 21 through screws, one ends of the second fixing rods 31 penetrate through the surface of the top plate 17 and extend to the upper sides of the top plate, second baffle plates 16 are arranged at the top ends of the second fixing rods 31 through screws, limiting plates 33 are fixedly sleeved on the surfaces of the second fixing rods 31, the bottoms of the limiting plates 33 are in contact with the tops of the top plate 17, torsion springs 23 are sleeved on the surfaces of the second fixing rods 31, two ends of the torsion springs 23 are respectively arranged on the surfaces of the second baffle plates 16 and the top plate 17 through screws, a third fixing rod 32 is installed on the side surface of the second installation plate 21 through a screw, a third baffle 28 is installed at one end of the third fixing rod 32 through a screw, and the radial size of the third baffle 28 is smaller than that of the inner cavity of the forming tube 20; before the forming tube 20 is formed, the forming tube 20 is sleeved on the surface of the third fixing rod 32, and the following operations are carried out: firstly, acting force is applied to the second mounting plate 21, the second mounting plate 21 is stressed to drive the second fixing rod 31 to rotate, the second fixing rod 31 drives the second baffle plate 16 and the limiting plate 33 to synchronously rotate, the second baffle plate 16 applies acting force to the torsion spring 23 in the rotating process, the torsion amplitude of the torsion spring 23 is increased after being stressed, the third fixing rod 32 and the third baffle plate 28 are synchronously turned to 90 degrees after the second mounting plate 21 is rotated to 90 degrees, and at the moment, the wire winding barrel 20 is conveniently sleeved on the surface of the third fixing rod 32 from the third baffle plate 28, so that the placement of the wire winding barrel 20 is facilitated; repeating the above-described manner also facilitates the removal of the forming tube 20 from the third retaining bar 32 and the third stop 28 after the forming tube 20 has been wound, thereby facilitating the placement and removal of the forming tube 20.

The third fixing lever 32 and the distance sensor 24 are positioned corresponding to each other in the vertical direction; a distance sensor 24 is installed on the surface of the top plate 17 in a penetrating mode; the surface of the base 10 is provided with a PLC (programmable logic controller) 27 through screws, the PLC 27 is respectively connected with a distance sensor 24, the electric cylinder 18 and the driving motor 13 through leads, the distance sensor 24 is used for detecting the distance between the distance sensor and the surface of the wire winding barrel 20, the wire winding thickness of the surface of the wire winding barrel 20 is gradually increased in the wire winding process of the wire winding barrel 20, when the wire winding thickness of the surface of the wire winding barrel 20 reaches a threshold value detected by the distance sensor 24, information can be fed back to the driving motor 13 to stop working, the PLC 27 also controls the electric cylinder 18 to work in an electrified mode, the electric cylinder 18 drives the top plate 17 to move upwards, a plurality of wire winding barrels 20 are driven to move out from between the driving roller 30 and the two driven rollers 7, and the wound wire winding barrels 20 can be conveniently taken out from the device.

The two ends of the top plate 17 are respectively provided with a fixing plate 1 through screws, the surface of the fixing plate 1 is respectively provided with an installation rod 2 in a penetrating mode, the bottom end of the installation rod 2 is installed at the top of the first installation plate 11 through screws, the top end of the installation rod 2 is provided with a first baffle 15 through screws, the surface of the installation rod 2 is movably sleeved with a pressure spring 14, and the two ends of the pressure spring 14 are respectively installed on the surfaces of the first baffle 15 and the fixing plate 1 through screws; when the top plate 17 is forced to move, two ends of the top plate 17 are arranged on the surfaces of the two mounting rods 2, meanwhile, the top plate 17 applies acting force to the two pressure springs 14, and the length of each pressure spring 14 is lengthened or shortened according to the stress direction so as to slow down the speed of the top plate 17 during moving and further improve the moving stability of the top plate 17 on the two mounting rods 2; two installation poles 2 play spacing effect to the removal of roof 17, have further promoted the stability of roof 17 when removing.

A plurality of fourth bearings 34 are installed at the top of the base 10 in a penetrating manner, second transmission shafts 22 are inserted into inner rings of the fourth bearings 34 in a tight fit manner, circular plates 9 are installed at the top ends of the second transmission shafts 22 through screws, and a plurality of first fixing rods 8 are installed at the tops of the circular plates 9 through screws; at least two first fixing rods 8 are arranged, the first fixing rods 8 are symmetrically arranged, and the first fixing rods 8 are positioned below the driving roller 30; place between a plurality of first dead levers 8 at the nylon high-strength filament that will need the wraparound, along with the winding of nylon high-strength filament on the surface of forming a filament section of thick bamboo 20, nylon high-strength filament still can exert torque force to a plurality of first dead levers 8, torque force is exerted to plectane 9 to a plurality of first dead levers 8, plectane 9 electronic second transmission shaft 22 rotates in bottom plate 10 through fourth bearing 3 for make things convenient for nylon high-strength filament to carry out the unwrapping wire operation from a plurality of first dead levers 8 in the atress pulling process.

A rubber pad is fixedly bonded along the arc surface of the driving roller 30; the rubber pads increase the friction between the winding roll 20 and the surface of the drive roll 30, which in turn makes it inconvenient for the drive roll 30 to drive the winding roll 20 to rotate.

The working principle is as follows: firstly, acting force is exerted on the second mounting plate 21, the second mounting plate 21 is stressed to drive the second fixing rod 31 to rotate, the second fixing rod 31 drives the second baffle plate 16 and the limiting plate 33 to synchronously rotate, the second baffle plate 16 exerts acting force on the torsion spring 23 in the rotating process, the torsion amplitude of the torsion spring 23 is increased after being stressed, after the second mounting plate 21 is rotated to 90 degrees, the third fixing rod 32 and the third baffle plate 28 are synchronously turned to 90 degrees, at the moment, the wire winding barrel 20 is conveniently sleeved on the surface of the third fixing rod 32 from the third baffle plate 28, the acting force on the second mounting plate 21 is cancelled, the torsion spring 23 resets the second mounting plate 21 through the acting force of the torsion spring 23, the torsion spring is used for moving the wire winding barrel 20 to the upper parts of the two driven rollers 7, then the electric cylinder 18 is operated to drive the top plate 17 to move downwards through the connecting plate 19, and the top plate 17 pushes the second mounting plate 21 to synchronously move, the second mounting plate 21 drives the third fixing rod 32 to move downwards synchronously, the winding drum 20 moves synchronously along with the third fixing rod 32, the winding drum 20 is moved between the driving roller 30 and the two driven rollers 7, the surface contact between the winding drum 20 and the driving roller 30 and the surfaces of the two driven rollers 7 is facilitated, then one end of the nylon high-strength filament is firstly wound on the surface of the winding drum 20 for several circles, the driving motor 13 is controlled to work in an electrified mode, the driving roller 30 is driven by the driving motor 13 to rotate, the friction force between the surface of the driving roller 30 and the surface of the winding drum 20 is used for facilitating the driving roller 30 to drive the winding drum 20 to rotate, and the nylon high-strength filament is wound on the surface of the winding drum 20 in the rotating process of the winding drum 20.

The foregoing shows and describes the general principles, essential 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 various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The filament winding device for producing the high-strength nylon filament comprises a base (10) and a driving motor (13), and is characterized in that two first mounting plates (11) which are symmetrically arranged are mounted at the top of the base (10) through screws, third bearings (29) are mounted on the side faces of the two first mounting plates (11) in a penetrating mode, a driving roller (30) is connected between the inner rings of the two third bearings (29) in a tight-fit and inserting mode, driven rollers (7) are arranged on the two sides of the driving roller (30), the two driven rollers (7) are located above the driving roller (30), second bearings (5) are fixedly sleeved at the two ends of the two driven rollers (7), the four second bearings (5) are mounted in the inner walls of the two first mounting plates (11) in a penetrating mode respectively, and the movable end of the driving motor (13) is mounted at one end of the driving roller (30) through a coupler, there is motor support (12), two through the mounting screw between the shell of driving motor (13) and first mounting panel (11) the top of first mounting panel (11) is equipped with roof (17), there is connecting plate (19) bottom of roof (17) through the mounting screw, there is electronic jar (18) through the mounting screw between the bottom of connecting plate (19) and the side of base (10), the surface of roof (17) is equipped with a plurality of wire winding section of thick bamboo stop gear, the surface of roof (17) runs through and installs distance sensor (24).

2. The winding device for producing the high-strength nylon filament as claimed in claim 1, wherein the winding barrel limiting mechanism comprises a second mounting plate (21), the second mounting plate (21) is located below the top plate (17), a second fixing rod (31) is mounted at the top of the second mounting plate (21) through screws, one end of the second fixing rod (31) penetrates through the surface of the top plate (17) and extends above the top plate, a second baffle (16) is mounted at the top end of the second fixing rod (31) through screws, a limiting plate (33) is fixedly sleeved on the surface of the second fixing rod (31), the bottom of the limiting plate (33) is in contact with the top of the top plate (17), a torsion spring (23) is sleeved on the surface of the second fixing rod (31), two ends of the torsion spring (23) are respectively mounted on the surfaces of the second baffle (16) and the top plate (17) through screws, and a third fixing rod (32) is arranged on the side surface of the second mounting plate (21) through a screw.

3. The filament winding device for producing nylon high-strength filaments as claimed in claim 2, wherein a third baffle (28) is installed at one end of the third fixing rod (32) through a screw, and the radial dimension of the third baffle (28) is smaller than that of the inner cavity of the filament winding barrel (20).

4. The filament winding device for producing nylon high-strength filaments as claimed in claim 2, wherein the third fixing rod (32) and the distance sensor (24) are corresponding in position in the vertical direction.

5. The winding device for producing the high-strength nylon filament is characterized in that two ends of a top plate (17) are respectively provided with a fixing plate (1) through screws, the surface of each fixing plate (1) is provided with an installation rod (2) in a penetrating mode, the bottom end of each installation rod (2) is arranged at the top of a first installation plate (11) through screws, the top end of each installation rod (2) is provided with a first baffle (15) through screws, the surface of each installation rod (2) is movably sleeved with a pressure spring (14), and two ends of each pressure spring (14) are respectively arranged on the surfaces of the first baffle (15) and the fixing plate (1) through screws.

6. The filament winding device for producing the high-strength nylon filament is characterized in that a driven gear (3) is mounted at the other end of each of two driven rollers (7) through a screw, a driving gear (26) is mounted at the other end of each of the driving rollers (30) through a screw, transmission gears (25) are meshed with two sides of each of the driving gears (26), first transmission shafts (6) are mounted on the side surfaces of the two transmission gears (25) through screws, a second bearing (5) is fixedly sleeved at one end of each of the two first transmission shafts (6), the two second bearings (5) are mounted in the inner wall of a first mounting plate (11) in a penetrating mode, and the two driven gears (3) are respectively meshed with the two transmission gears (25).

7. The filament winding device for producing the nylon high-strength filament as claimed in claim 1, wherein a plurality of fourth bearings (34) are installed at the top of the base (10) in a penetrating manner, second transmission shafts (22) are inserted into inner rings of the fourth bearings (34) in a tight fit manner, circular plates (9) are installed at the top ends of the second transmission shafts (22) through screws, and a plurality of first fixing rods (8) are installed at the top ends of the circular plates (9) through screws.

8. The filament winding device for producing the nylon high-strength filament yarn as claimed in claim 7, wherein at least two first fixing rods (8) are provided, the first fixing rods (8) are symmetrically arranged, and the first fixing rods (8) are positioned below the driving roll (30).

9. The filament winding device for producing chinlon high-strength filaments as claimed in claim 1, wherein a rubber pad is fixedly bonded along the arc surface of the driving roll (30).

10. The filament winding device for producing nylon high-strength filaments according to claim 1, wherein a PLC (programmable logic controller) 27 is installed on the surface of the base (10) through screws, and the PLC 27 is respectively connected with the distance sensor (24), the electric cylinder (18) and the driving motor (13) through wires.