CN216004783U - Wire and wire arranging device for steel wire rope - Google Patents

Abstract

The utility model provides a wire and wire arrangement device for a steel wire rope coil, which comprises a box body, a driving arm, two moving tracks, a driven arm, a motor, a wire arrangement device and a limiting column, wherein the driving arm is driven by the motor, the driving arm drives the steel wire rope coil to arrange wires, and the wire arrangement device controls the wire arrangement position of the steel wire rope, so that the traditional mode of arranging the wires of the steel wire rope manually is replaced; in addition, the motor drives the steel wire rope roll to wind at a constant speed, and the micro motor drives the wire shifting device to run at a constant speed, so that the winding space between the steel wire ropes is kept stable all the time, the finished steel wire ropes are arranged uniformly, the winding and knotting phenomena caused by manual wire arrangement are not easy to occur, and the next-step utilization of the steel wire rope roll is effectively guaranteed.

Description

Wire and wire arranging device for steel wire rope

Technical Field

The utility model relates to the technical field of conveyer belt manufacturing equipment, in particular to a wire and wire arranging device for a steel wire rope.

Background

With the increasing economic development speed, the demand for mineral resources becomes greater and greater. During the mining process of mineral resources, the ore is often transported from a deep pit to the outside through a conveyer belt. Due to the complexity of the environment and the caliber within the pit, there are high demands on the performance of the conveyor belt. The performance of the conveyer belt in the market is usually improved by adding a steel wire rope inner core, wherein the steel wire rope inner core is a net structure formed by weaving a plurality of steel wire ropes through special equipment.

However, in the actual production of the conveyor belt, because the required amount of each strand of steel wire rope in the steel wire rope net structure is different, the steel wire rope after weaving is partially coiled with residues. The length of these residual steel cords is not sufficient for the next braiding of the steel cord net structure, so that the steel cords need to be re-wound into a complete steel cord coil. At present, the wire rope is generally rearranged manually, so that the efficiency is low; meanwhile, the steel wire rope is often wound or even knotted due to improper wire arrangement in the steel wire rope roll after wire arrangement, and the next utilization of the steel wire rope roll is seriously influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the wire and the wire arranging device for the steel wire rope are provided, so that the problems of low efficiency caused by the existing manual wire arranging mode and winding and knotting of the steel wire rope caused by improper manual wire arranging can be solved.

The utility model provides a wire and wire arrangement device for a steel wire rope coil, which comprises a box body, wherein a driving arm, two moving tracks and a driven arm are sequentially arranged on the box body from left to right, the driving arm and the driven arm are respectively sleeved with a steel wire rope coil, one ends of the two steel wire rope coils are connected and arranged on a horizontal rolling shaft of a wire shifting device, one end of the driving arm penetrates through the side wall of the box body to be connected with a motor so as to drive the steel wire rope coil on the driving arm to rotate, the upper surfaces of the two moving tracks are in contact with a moving wheel of the wire shifting device so as to realize the adjustment of the winding position of a steel wire rope on the steel wire rope coil through the wire shifting device, a limiting column is fixedly arranged between the two moving tracks, the upper surface of the limiting column is lower than the upper surface of the moving tracks, the upper surface of the limiting column is in contact with the bottom surface of the wire shifting device, the inner side walls of the two moving tracks and the upper surfaces of the limiting column limit the movable range of the wire shifting device, so as to ensure the stable operation of the wire-shifting device.

As a further improvement of the above scheme, the wire pulling device comprises a shell, wherein mounting arms are symmetrically arranged at the top of the shell, horizontal rolling shafts are arranged between the symmetrically arranged mounting arms, horizontal fixing pieces are fixed at one sides of the symmetrically arranged mounting arms, mounting through holes are formed in the horizontal fixing pieces, vertical rolling shafts are fixed in the mounting through holes, micro motors are fixed on the side walls of the shell, output shafts of the micro motors penetrate through the shell to extend inwards, bevel gears are fixed at the end parts of the output shafts, transmission shafts are vertically arranged in the shell, bevel gears are arranged at the two ends of each transmission shaft, the bevel gears at the upper ends of the transmission shafts are tightly combined with the bevel gears of the output shafts in the micro motors, driven shafts are also horizontally arranged in the shell, the moving wheels are arranged at the end parts of the driven shafts, and the bevel gears are symmetrically arranged on the driven shafts, the bevel gears at the lower end of the transmission shaft are not in contact with the bevel gears symmetrically installed on the driven shaft at the same time, and a shifting mechanism is sleeved between the bevel gears symmetrically installed on the driven shaft so as to change the rotating direction of the driven shaft by shifting the driven shaft.

As a further improvement of the above scheme, the toggle mechanism comprises a lantern ring, vertical through grooves are symmetrically formed in the outer surface of the lantern ring, sliders are arranged in the vertical through grooves, limiting grooves are formed in two side walls of the vertical through grooves, two ends of each slider are inserted into the limiting grooves, each slider is hinged to one end of the toggle arm, and the other end of the toggle arm is hinged to the bottom surface of the inner cavity of the shell.

As a further improvement of the scheme, the middle part of the poking arm is provided with an auxiliary poking rod, one end of the auxiliary poking rod penetrates through the shell to extend outwards, and an arc-shaped hole is formed in the motion area of the auxiliary poking rod in the shell.

As a further improvement of the scheme, an avoiding groove is formed below the shell corresponding to the horizontal fixing sheet so as to avoid influencing the installation of the vertical rolling shaft.

As a further improvement of the scheme, the two ends of the horizontal roller are provided with the convex edges so as to prevent the steel wire rope from falling off from the horizontal roller.

As a further improvement of the above scheme, the driving arm is provided with a fixed arm, the fixed arm is provided with a strip-shaped through hole, and a fixed pin is installed in the strip-shaped through hole through a nut.

As a further improvement of the scheme, the bottom surface of the wire shifting device is symmetrically provided with L-shaped limiting hook hands, and the two L-shaped limiting hook hands are sleeved on the limiting columns.

As a further improvement of the scheme, the outer surface of the moving wheel and the upper surface of the moving track are provided with corresponding tooth shapes.

As a further improvement of the scheme, the bottom surface of the inner cavity of the box body is provided with a stabilizing block, and the upper surface of the stabilizing block is in close contact with the bottom surface of the motor, so that the stability of the box body and the motor is improved.

The utility model has the beneficial effects that:

compared with the prior art, the wire and wire arranging device for the steel wire rope coil, provided by the utility model, has the advantages that the motor drives the driving arm, the driving arm drives the steel wire rope coil to arrange wires, and meanwhile, the wire shifting device controls the wire arranging position of the steel wire rope, so that the traditional mode of arranging the wires of the steel wire rope manually is replaced; in addition, the motor drives the steel wire rope roll to wind at a constant speed, and the micro motor drives the wire shifting device to run at a constant speed, so that the winding space between the steel wire ropes is kept stable all the time, the finished steel wire ropes are arranged uniformly, the winding and knotting phenomena caused by manual wire arrangement are not easy to occur, and the next-step utilization of the steel wire rope roll is effectively guaranteed.

Drawings

FIG. 1 is a schematic representation of the use of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic diagram of the wire-pulling device, the motor and the stabilizing block of the present invention;

FIG. 5 is a partial cross-sectional view of the wire drawing device of the present invention;

FIG. 6 is an enlarged view of circle A in FIG. 5;

fig. 7 is a cut-away view B-B of fig. 6.

Detailed Description

The following detailed description of embodiments of the utility model is provided in conjunction with the appended drawings:

as shown in fig. 1-7, a wire guiding and arranging device for a steel wire rope coil comprises a box body 1, wherein a driving arm 2, two moving tracks 5 and a driven arm 4 are sequentially arranged on the box body 1 from left to right, the driving arm 2 and the driven arm 4 are both sleeved with steel wire rope coils, one ends of the two steel wire rope coils are connected and arranged on a horizontal rolling shaft 40 of a wire shifting device 3, one end of the driving arm 2 penetrates through the side wall of the box body 1 to be connected with a motor 7 so as to drive the steel wire rope coils on the driving arm 2 to rotate, the upper surfaces of the two moving tracks 5 are in contact with a moving wheel 41 of the wire shifting device 3 so as to realize the adjustment of the winding position of the steel wire rope on the steel wire rope coils through the wire shifting device 3, a limiting column 6 is fixedly arranged between the two moving tracks 5, the upper surface of the limiting column 6 is lower than the upper surface of the moving tracks 5, the upper surface of the limiting column 6 is in contact with the bottom surface of the wire shifting device 3, the inner side walls of the two motion rails 5 and the upper surfaces of the limiting columns 6 limit the moving range of the wire shifting device 3 so as to ensure the stable operation of the wire shifting device 3; wherein: the wire shifting device 3 comprises a shell 31, wherein mounting arms 34 are symmetrically arranged at the top of the shell 31, horizontal rollers 40 are arranged between the symmetrically arranged mounting arms 34, horizontal fixing pieces 32 are fixed at one sides of the symmetrically arranged mounting arms 34, mounting through holes are formed in the horizontal fixing pieces 32, vertical rollers 33 are fixed in the mounting through holes, micro motors 35 are fixed on the side walls of the shell 31, output shafts of the micro motors 35 penetrate through the shell 31 to extend inwards, bevel gears are fixed at the end parts of the output shafts, a transmission shaft 39 is vertically arranged in the shell 31, bevel gears are arranged at the two ends of the transmission shaft 39, the bevel gear at the upper end of the transmission shaft 39 is tightly combined with the bevel gear of the output shaft in the micro motor 35, a driven shaft 36 is horizontally arranged in the shell 31, and a moving wheel 41 is arranged at the end part of the driven shaft 36, bevel gears are symmetrically installed on the driven shaft 36, the bevel gears at the lower end of the transmission shaft 39 are not in contact with the bevel gears symmetrically installed on the driven shaft 36 at the same time, and a toggle mechanism 37 is sleeved between the bevel gears symmetrically installed on the driven shaft 36 so as to realize the purpose of changing the rotation direction of the driven shaft 36 by toggling the driven shaft 36; the toggle mechanism 37 comprises a toggle ring 372, vertical through grooves 376 are symmetrically arranged on the outer surface of the toggle ring 372, a sliding block 373 is arranged in each vertical through groove 376, limiting grooves 3722 are formed in two side walls of each vertical through groove 376, two ends of each sliding block 373 are inserted into the limiting grooves 3722, each sliding block 373 is hinged to one end of a toggle arm 374, and the other end of each toggle arm 374 is hinged to the bottom surface of the inner cavity of the shell 31; an auxiliary shifting lever 375 is mounted in the middle of the shifting arm 374, one end of the auxiliary shifting lever 375 extends outwards through the shell 31, and an arc-shaped hole is formed in the motion area of the auxiliary shifting lever 375 in the shell 31; an avoidance groove is formed below the shell 31 corresponding to the horizontal fixing sheet 32 so as to avoid influencing the installation of the vertical roller 33; the two ends of the horizontal roller 40 are both provided with convex edges so as to prevent the steel wire rope from falling off from the horizontal roller 40; a fixing arm 22 is arranged on the driving arm 2, a strip-shaped through hole is formed in the fixing arm 22, and a fixing pin 23 is arranged in the strip-shaped through hole through a nut 24; the bottom surface of the wire shifting device 3 is symmetrically provided with L-shaped limiting hook hands 38, and the two L-shaped limiting hook hands 38 are sleeved on the limiting column 6; the outer surface of the moving wheel 41 and the upper surface of the moving track 5 are provided with corresponding tooth shapes; the bottom surface of the inner cavity of the box body 1 is provided with a stabilizing block 8, and the upper surface of the stabilizing block 8 is in close contact with the bottom surface of the motor 7 so as to improve the stability of the box body 1 and the motor 7.

The utility model provides a wire and wire arranging device for a steel wire rope, which is characterized in that when in use:

1. respectively fixing one steel wire rope roll on the driving arm 2, sleeving the other steel wire rope roll on the driven arm 4, and connecting the free ends of the two steel wire rope rolls; adjusting the initial position of the wire poking device 3; the connected steel wire rope is placed on the horizontal rolling shaft 40, and the position of the vertical rolling shaft 33 is adjusted, so that the phenomena of knotting and the like caused by over-looseness of the steel wire rope are avoided;

2. the motor 7 and the micro motor 35 are started, the driving arm 2 starts to rotate, the wire shifting device 3 starts to move, when the wire shifting device 3 moves to the maximum displacement position, the auxiliary shifting rod 375 is shifted, the auxiliary shifting rod 375 drives the shifting mechanism 37 to axially move along the driven shaft 36, the bevel gears symmetrically arranged on the driven shaft 36 are pushed, one bevel gear on the driven shaft 36 is far away from the bevel gear on the transmission shaft 39, the other bevel gear is combined with the bevel gear on the transmission shaft 39, and the bevel gears symmetrically arranged on the driven shaft 36 are opposite in direction, so that the driven shaft 36 is driven to move in the opposite direction, and the reciprocating motion of the wire shifting device 3 is realized.

The above embodiments are not limited to the technical solutions of the embodiments themselves, and the embodiments may be combined with each other into a new embodiment. The above embodiments are only for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement without departing from the spirit and scope of the present invention should be covered within the technical solutions of the present invention.

Claims (10)

1. The utility model provides a wire, winding displacement device are rolled up to wire rope which characterized in that: comprises a box body (1), a driving arm (2), two moving tracks (5) and a driven arm (4) are sequentially arranged on the box body (1) from left to right, a steel wire rope roll is sleeved on the driving arm (2) and the driven arm (4), one end of the steel wire rope roll is connected, a horizontal rolling shaft (40) of a wire shifting device (3) is arranged, one end of the driving arm (2) penetrates through the side wall of the box body (1) to be connected with a motor (7) so as to drive the steel wire rope roll on the driving arm (2) to rotate, the upper surface of each moving track (5) is in contact with a moving wheel (41) of the wire shifting device (3) so as to realize the adjustment of the winding position of the steel wire rope on the steel wire rope roll through the wire shifting device (3), a limiting column (6) is fixedly arranged between the moving tracks (5), the upper surface of the limiting column (6) is lower than the upper surface of the moving tracks (5), the upper surface of the limiting column (6) is in contact with the bottom surface of the wire shifting device (3), and the side wall between the two moving tracks (5) and the upper surface of the limiting column (6) limit the moving range of the wire shifting device (3) so as to ensure the stable operation of the wire shifting device (3).

2. The wire and cable winding device of claim 1, wherein: the wire pulling device (3) comprises a shell (31), wherein mounting arms (34) are symmetrically arranged at the top of the shell (31), horizontal rolling shafts (40) are mounted between the symmetrically arranged mounting arms (34), horizontal fixing pieces (32) are fixed on one sides of the symmetrically arranged mounting arms (34), mounting through holes are formed in the horizontal fixing pieces (32), vertical rolling shafts (33) are fixed in the mounting through holes, micro motors (35) are fixed on the side walls of the shell (31), output shafts of the micro motors (35) penetrate through the shell (31) to extend inwards and are fixed with bevel gears at the end parts, transmission shafts (39) are vertically arranged in the shell (31), the two ends of each transmission shaft (39) are provided with bevel gears, and the bevel gears at the upper ends of the transmission shafts (39) are tightly combined with the bevel gears of the output shafts in the micro motors (35), still the level is provided with driven shaft (36) in casing (31), motion wheel (41) set up the tip at driven shaft (36), bevel gear is installed to the symmetry on driven shaft (36), the bevel gear of transmission shaft (39) lower extreme and the bevel gear of symmetry installation on driven shaft (36) are not the same time contact, the cover is equipped with toggle mechanism (37) between the bevel gear of symmetry installation on driven shaft (36) to the realization changes the direction of rotation of driven shaft (36) to stirring of driven shaft (36).

3. The wire and cable winding device of claim 2, wherein: the toggle mechanism (37) comprises a toggle ring (372), vertical through grooves (376) are symmetrically formed in the outer surface of the toggle ring (372), sliding blocks (373) are arranged in the vertical through grooves (376), limiting grooves (3722) are formed in two side walls of the vertical through grooves (376), two ends of each sliding block (373) are inserted into the limiting grooves (3722), each sliding block (373) is hinged to one end of a toggle arm (374), and the other end of the toggle arm (374) is hinged to the bottom surface of the inner cavity of the shell (31).

4. The wire and cable winding device of claim 3, wherein: an auxiliary shifting lever (375) is installed in the middle of the shifting arm (374), one end of the auxiliary shifting lever (375) penetrates through the shell (31) to extend outwards, and an arc-shaped hole is formed in the motion area of the auxiliary shifting lever (375) in the shell (31).

5. The wire and cable winding device of claim 2, wherein: an avoiding groove is formed in the lower portion, corresponding to the horizontal fixing piece (32), of the shell (31) so as to avoid influencing the installation of the vertical rolling shaft (33).

6. The wire and cable winding device of claim 2, wherein: and the two ends of the horizontal rolling shaft (40) are provided with convex edges so as to prevent the steel wire rope from falling off from the horizontal rolling shaft (40).

7. The wire and cable winding device of claim 1, wherein: the driving arm (2) is provided with a fixing arm (22), the fixing arm (22) is provided with a strip-shaped through hole, and a fixing pin (23) is arranged in the strip-shaped through hole through a nut (24).

8. The wire and cable winding device of claim 1, wherein: the bottom surface of the wire shifting device (3) is symmetrically provided with L-shaped limiting hook hands (38), and the two L-shaped limiting hook hands (38) are sleeved on the limiting column (6).

9. The wire and cable winding device of claim 1, wherein: the outer surface of the moving wheel (41) and the upper surface of the moving track (5) are provided with corresponding tooth shapes.

10. The wire and cable winding device of claim 1, wherein: the bottom surface of the inner cavity of the box body (1) is provided with a stabilizing block (8), and the upper surface of the stabilizing block (8) is in close contact with the bottom surface of the motor (7) so as to improve the stability of the box body (1) and the motor (7).

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