CN210333824U - Wire-type steel wire pay-off device - Google Patents

Abstract

The application discloses wire-type steel wire pay-off device, the unwrapping wire subassembly includes drive module, the bottom plate, the pay-off rack, drive module moves subaerial, the bottom plate is fixed in drive module's upside, the pay-off rack is located the upside of bottom plate, the wire subassembly includes the base, the wire post, the pulley, first wire pole, the guide rod seat, the second wire pole, the scram switch, the base is placed on subaerial, the wire post comprises lower guide pillar and upper guide pillar, pulley and wire post looks swing joint, first wire guide has been seted up on the first wire pole, the scram switch welds on the wire post, the scram switch passes through connecting wire and wire drawing machine electric connection; the second wire guide rod is movably connected with the first guide rod seat through a pin shaft, a second wire guide hole is formed in the second wire guide rod, and the second wire guide rod is pressed on the emergency stop switch. Thereby this steel wire pay-off has avoided being dragged down at the unwrapping wire in-process because of the pay-off rack that the steel wire appears of knoing through addding the direction subassembly for the steel wire falls on subaerial problem that causes the indiscriminate circle.

Description

Wire-type steel wire pay-off device

Technical Field

The application relates to the technical field of steel wire take-up and pay-off, in particular to a wire type steel wire pay-off device.

Background

When a high-carbon steel wire with the diameter of 0.6mm-1.2mm is drawn by a water box type wire drawing machine, secondary drawing is needed, the raw material is drawn to 2.0mm-3.0mm for the first time, and then secondary drawing is carried out to a finished product, so that the problem of paying off of a semi-finished product drawn for the first time is involved.

The traditional paying-off process is to sleeve a semi-finished product which is drawn for the first time on a passive rotating pay-off rack for paying off. However, the pay-off rack has the following disadvantages: the semi-finished steel wire placed on the pay-off rack is easy to tie a knot in the pay-off process, and the steel wire can be dragged down the pay-off rack due to the dragging of the steel wire after being tied, so that the steel wire falls on the ground to cause a messy ring.

SUMMERY OF THE UTILITY MODEL

The application provides a wire formula steel wire pay-off has thereby avoided in unwrapping wire in-process because of the pay off rack that the steel wire knotted and appears is dragged down through addding the direction subassembly for the steel wire falls on subaerial problem that causes in disorder circle.

In order to achieve the above technical object, the present application provides a wire type steel wire pay-off device, which is located at the front end of a wire drawing machine, through a steel wire drawn by the wire drawing machine for the first time is placed on the steel wire pay-off device, the steel wire pay-off device includes:

the paying-off assembly comprises a driving module, a bottom plate and a paying-off frame, wherein the driving module moves on the ground, the driving module comprises a driving shell, a gearbox, a driving controller and a storage battery, the gearbox, the driving controller and the storage battery are all located in the driving shell, the driving controller is distributed in the gearbox and the storage battery through connecting wires and electrically connected, driving shafts are mounted on the front side and the rear side of the gearbox, and wheels are mounted at the end parts of the driving shafts;

the bottom plate is fixed on the upper side of the driving module and is in a regular quadrangular shape;

the pay-off rack is positioned on the upper side of the bottom plate and comprises pay-off rods, lifting rings and support rings, the number of the pay-off rods is not less than 6, the pay-off rods are uniformly distributed along the circumference, the upper ends of the pay-off rods are welded to the lower ends of the lifting rings, the lower ends of the pay-off rods are welded to the upper surface of the bottom plate, and the number of the support rings is not less than 3 and is welded to the inner sides of the pay-off rods;

the guide wire assembly comprises a base, a guide wire column, a pulley, a first guide wire rod, a guide wire rod seat, a second guide wire rod and an emergency stop switch, wherein the base is placed on or fixed on the ground through an expansion bolt, the guide wire column comprises a lower guide pillar and an upper guide pillar, the lower guide wire column is vertical to and welded on the base, the lower guide pillar is connected with the upper guide pillar, an included angle formed by the upper guide pillar and the lower guide pillar is α, and α is more than or equal to 120 degrees;

the pulley is positioned at the upper end of the upper guide pillar and is movably connected with the wire guide pillar through a pin shaft, the first wire rod is welded on the wire guide pillar and is positioned at the lower side of the pulley, a first wire hole is formed in the first wire rod, the wire guide pillar is welded on the wire guide pillar and is positioned at the lower side of the first wire rod, the emergency stop switch is welded on the wire guide pillar and is positioned at the lower side of the wire guide pillar, and the emergency stop switch is electrically connected with the wire drawing machine through a connecting wire;

the second wire guide rod is movably connected with the first guide rod seat through a pin shaft, a second wire guide hole is formed in the second wire guide rod, and the second wire guide rod is pressed on the emergency stop switch, so that the emergency stop switch is in a working state.

Further, the bottom plate is made of a Q345 steel plate, and the thickness of the bottom plate is not less than 50 mm.

Furthermore, the central axis of the pay-off rack coincides with the central axis of the bottom plate.

Furthermore, the central axis of the pay-off rack coincides with the central axis of the second wire hole, and the second wire hole coincides with the central axis of the first wire hole.

Further, the diameter of the second wire guide hole is 2 times of the diameter of the steel wire, and the diameter of the first wire guide hole is 2 times of the diameter of the second wire guide hole.

Furthermore, the first wire guide rod is parallel to the second wire guide rod, and the second wire guide rod is parallel to the horizontal plane.

Furthermore, the base and the lead post are both made of Q275, and the surface of the base and the lead post is sprayed with anti-rust paint.

Further, the wire assembly further comprises a wire guide tube welded to the wire guide post on the same side as the second wire guide rod.

The working principle is as follows: the method comprises the following steps that firstly, before secondary drawing, a paying-off assembly with semi-finished steel wires is moved to the position close to a wire guide assembly, and the central axis of a paying-off rack is coincided with the central axis of a second wire guide hole;

secondly, the steel wire sequentially passes through a second wire guide hole, a first wire guide hole, a pulley and a wire guide pipe, and finally the steel wire is guided to a wire drawing machine;

the third step, the wire drawing machine is started to enable the wire drawing machine to be in a working state, at the moment, the steel wire is continuously conveyed to the wire drawing machine for drawing, when the steel wire on the pay-off rack is knotted in the drawing process, the size of the steel wire at the knotted position is larger than the diameter of the second wire guide hole, the second wire guide rod is lifted away from the emergency stop switch under the action of the pulling force of the wire drawing machine, so that the emergency stop switch is in a non-working state, signals are transmitted to the wire drawing machine through a connecting wire, the wire drawing machine stops drawing work, and therefore the phenomenon that the pay-off rack is dragged down due to the knotted steel wire is effectively prevented, and the steel wire falls on the;

and fourthly, the knotted part of the steel wire is broken straightly by an operator, and then the wire drawing machine is opened to enable the steel wire to smoothly pass through the second wire guide hole.

Compared with the prior art, the technical scheme provided by the application has the beneficial technical effects that:

the application discloses a wire-type steel wire pay-off device, which comprises a pay-off assembly and a wire assembly, wherein the pay-off assembly comprises a driving module, a bottom plate and a pay-off frame, the driving module moves on the ground, the driving module comprises a driving shell, a gearbox, a driving controller and a storage battery, the gearbox, the driving controller and the storage battery are all located inside the driving shell, the driving controller is distributed on the gearbox and electrically connected with the storage battery through connecting wires, driving shafts are mounted on the front side and the rear side of the gearbox, wheels are mounted at the end portions of the driving shafts, the bottom plate is fixed on the upper side of the driving module, the bottom plate is in a regular quadrangular prism shape, the pay-off frame is located on the upper side of the bottom plate and comprises pay-off rods, lifting rings and support rings, the number of the pay-off rods is not less than 6 and evenly distributed along the circumference, the upper ends of the pay-off rods are welded to the lower ends of the lifting rings, the lower ends of the pay-off rods are welded to the upper surface of the bottom plate, the support rings are not less than 3 wires and welded to the inner sides of the pay-off rods, the pay-off rods are welded to the inner sides of the pay-off rods and are welded to the pay-off rods through a second guide post, the guide post is welded to the guide post, the guide post is not less than the guide post, the guide post is welded to the guide post, the guide post is not less than the guide post, the guide post is welded to the wire assembly, the guide post, the wire is welded to the guide post, the guide post is welded to prevent the wire assembly, the guide post, the wire assembly, the guide post is welded to the guide post, the guide post is welded to the guide post, the wire assembly, the guide post is welded to the.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of a wire pay-off device according to an embodiment;

FIG. 2 is a schematic diagram of a payout assembly in accordance with an embodiment;

illustration of the drawings: 1-a pay-off assembly; 11-a drive module; 111-a drive housing; 112-a drive shaft; 113-a wheel; 12-a base plate; 13-a pay-off rack; 131-a pay-off rod; 132-a lifting ring; 133-support ring; 2-a wire assembly; 21-a base; 22-a conductor post; 221-a lower guide post; 222-upper guide posts; 23-a pulley; 24-a first wire guide; 241-a first wire guide; 25-a guide rod seat; 26-a second wire guide; 261-a second wire guide; 27-a scram switch; 28-a conduit; 29-a pin shaft; 3-steel wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

To the problem that exists among the prior art, the utility model provides a wire formula steel wire pay-off, this steel wire pay-off are located the front end of wire drawing machine, warp steel wire 3 that the wire drawing machine was drawn for the first time place in on the steel wire pay-off, as shown in fig. 1-2, including unwrapping wire subassembly 1, wire subassembly 2, the concrete description is as follows:

1-paying out assembly

As shown in fig. 2, unwrapping wire subassembly 1, including drive module 11, bottom plate 12, pay off rack 13, drive module 11 moves subaerial, drive module 11 includes drive casing 111, gearbox (not shown), drive controller (not shown), storage battery (not shown), gearbox, drive controller with the storage battery all is located drive casing 111 is inside, drive controller pass through the connecting wire distribution in the gearbox with storage battery looks electrical connection, the drive shaft is all installed to both sides around the gearbox, wheel 112 is installed to the tip of drive shaft.

In a specific application scenario, the transmission case, the driving controller, the battery cell in the driving module 11, and other components in the driving module 11 are well known in the art, and the description of the present invention is omitted.

The base plate 12 is fixed on the upper side of the driving module 11, and the base plate 12 is in a regular quadrangular prism shape.

In a specific application scene, the bottom plate 12 can be in a regular quadrangular prism shape, can also be in a circular shape, a regular hexagonal prism shape and the like, specifically adopts which shape to present under the condition of not influencing the prevention of the semi-finished steel wire 3, and can be selected according to actual needs, and the change of the shape of the bottom plate 12 does not influence the protection scope of the application.

As shown in fig. 2, the pay-off rack 13 is located on the upper side of the bottom plate 12, the pay-off rack 13 includes pay-off rods 131, rings 132, and support rings 133, the number of the pay-off rods 131 is not less than 6, and the pay-off rods are uniformly arranged along the circumference, the upper ends of the pay-off rods 131 are welded to the lower ends of the rings 132, the lower ends of the pay-off rods 131 are welded to the upper surface of the bottom plate 12, and the number of the support rings 133 is not less than 3 and is welded to the inner side of the pay-off rods 131.

In a specific application scene, the paying-off rods 131 are steel pipes with the diameter not less than 20mm, and the paying-off rods 131 with the number not less than 6 form a circular frame for storing the finished steel wire 3 drawn for the first time.

Wherein, the support ring 133 is welded to the circular frame formed by the pay-off rods 131, thereby enhancing the structural strength of the pay-off rack 13.

Further, the material of the bottom plate 12 is a steel plate of Q345, and the thickness of the bottom plate 12 is not less than 50 mm.

In a specific application scenario, the material of the bottom plate 12 may be Q345, 225, etc., and under the condition that the structural strength of the pay-off assembly 1 is not affected, which material is specifically adopted may be selected according to actual needs, and the change of the material of the bottom plate 12 does not affect the protection scope of the present application.

Further, the central axis of the pay-off rack 13 coincides with the central axis of the bottom plate 12.

In a specific application scene, the central axis of the pay-off rack 13 coincides with the central axis of the bottom plate 12, so that the bottom plate 12 is uniformly stressed, and the falling and the inclination are avoided.

Further, the central axis of the pay-off rack 13 coincides with the central axis of the second wire hole 261, and the second wire hole 261 coincides with the central axis of the first wire hole 241.

In a specific application scenario, the central axis of the pay-off rack 13 coincides with the central axis of the second wire hole 261, and the second wire hole 261 coincides with the central axis of the first wire hole 241, so that the steel wire 3 is not easy to knot in the drawing process.

2-conductor assembly

As shown in fig. 1, the wire assembly 2 includes a base 21, a wire guide post 22, a pulley 23, a first wire guide rod 24, a wire guide rod seat 25, a second wire guide rod 26, and an emergency stop switch 27, wherein the base 21 is placed on or fixed on the ground through an expansion bolt, the wire guide post 22 includes a lower guide post 221 and an upper guide post 222, the lower wire guide post 22 is vertically welded on the base 21, the lower guide post 221 is connected with the upper guide post 222, and an included angle formed by the upper guide post 222 and the lower guide post 221 is α and α is greater than or equal to 120 °.

In the concrete application scene, the contact mode of base 21 and ground is not limited to prevent with expansion bolts fixed, can also adopt other contact modes, is guaranteeing that wire column 22 uses under the not influenced circumstances, specifically adopts which kind of contact mode, can select according to actual need, and the protection scope of this application is not influenced in the change of contact mode.

Wherein, the included angle formed by the upper guide post 222 and the lower guide post 221 is not less than 120 degrees, which is beneficial to the phase wire drawing machine to convey the steel wire 3.

As shown in fig. 1, the pulley 23 is located at the upper end of the upper guide post 222 and is movably connected to the wire guide post 22 through a pin 29, the first wire guide rod 24 is welded to the wire guide post 22 and located at the lower side of the pulley 23, a first wire guide hole 241 is formed in the first wire guide rod 24, the wire guide rod seat 25 is welded to the wire guide post 22 and located at the lower side of the first wire guide rod 24, the emergency stop switch 27 is welded to the wire guide post 22 and located at the lower side of the wire guide rod seat 25, and the emergency stop switch 27 is electrically connected to the wire drawing machine through a connection wire.

In a specific application scenario, the pulley 23 and the first wire guide 241 are provided to more conveniently convey the steel wire 3.

As shown in fig. 1, the second wire guiding rod 26 is movably connected to the first wire guiding rod seat 25 by a pin 29, a second wire guiding hole 261 is formed in the second wire guiding rod 26, and the second wire guiding rod 26 is pressed on the emergency stop switch 27, so that the emergency stop switch 27 is in a working state.

In the specific application scene, when the steel wire 3 that is located on pay off rack 13 appears knotting at the drawing in-process, because the steel wire 3 size of the department of knoing is greater than the diameter of second wire guide 261, under the pulling force effect of wire drawing machine, second wire rod 26 lifts away from emergency stop switch 27, make emergency stop switch 27 be in inoperative condition, and give the wire drawing machine with the signal transmission through the connecting wire, make the wire drawing machine stop drawing work, thereby effectively prevented that pay off rack 13 that appears because of steel wire 3 is knotted from being dragged down, make steel wire 3 fall subaerial and cause in disorder circle.

Further, the diameter of the second wire guide hole 261 is 2 times the diameter of the steel wire 3, and the diameter of the first wire guide hole 241 is 2 times the diameter of the second wire guide hole 261.

In the specific application scenario, the aperture of the second wire hole 261 is set to be 2 times of the diameter of the steel wire 3, so that the steel wire 3 can be guaranteed not to be influenced in conveying, and small knots can be prevented from passing through the second wire hole 261, so that the emergency stop switch 27 cannot play a role.

Further, the first wire guide rod 24 is parallel to the second wire guide rod 26, and the second wire guide rod 26 is parallel to the horizontal plane.

Furthermore, the base 21 and the lead post 22 are both made of Q275, and the surface is sprayed with anti-rust paint.

In the concrete application scene, the material of base 21 and wire column 22 not only can Q275, can also 225 etc. under the condition that does not influence 2 structural strength of wire assembly, specifically adopt and present what kind of material, can select according to actual need, the change of base 21 and wire column 22 material does not influence the protection scope of this application.

Further, the wire assembly 2 further comprises a wire conduit 28, the wire conduit 28 being welded to the wire column 22 on the same side as the second wire rod 26.

The working principle is as follows: firstly, before the second drawing, moving the paying-off component 1 with the semi-finished steel wire 3 to the vicinity of the wire component 2, and enabling the central axis of the pay-off rack 13 to coincide with the central axis of the second wire hole 261;

secondly, the steel wire 3 sequentially passes through the second wire guide hole 261, the first wire guide hole 241, the pulley 23 and the wire guide pipe 28, and finally the steel wire 3 is guided to a wire drawing machine;

thirdly, the wire drawing machine is started to be in a working state, the steel wire 3 is required to be continuously conveyed to the wire drawing machine for drawing at the moment, when the steel wire 3 on the pay-off rack 13 is knotted in the drawing process, the size of the steel wire 3 at the knotted position is larger than the diameter of the second wire hole 261, the second wire guide rod 26 is lifted away from the emergency stop switch 27 under the action of the pulling force of the wire drawing machine, so that the emergency stop switch 27 is in a non-working state, and a signal is transmitted to the wire drawing machine through a connecting wire, so that the wire drawing machine stops drawing work, and the pay-off rack 13 with the knotted steel wire 3 is effectively prevented from being pulled down, so that the steel wire 3 falls on the ground to cause a disordered circle;

and fourthly, the operator straightens the knotted part of the steel wire 3 and then opens the drawing machine so that the steel wire 3 can smoothly pass through the second wire guide 261.

The application discloses a wire type steel wire pay-off device, which solves the problem that a steel wire 3 falls on the ground to cause a disordered circle because a pay-off rack 13 is dragged down due to knotting of the steel wire 3 in the pay-off process by additionally arranging a guide assembly; on the other hand, the driving module 11 is additionally arranged on the pay-off assembly 1, so that the pay-off rack 13 provided with the semi-finished steel wires 3 can easily move to the position near the wire assembly 2, and the loss caused by touching other objects when a crane lifts the pay-off rack 13 is avoided.

Those skilled in the art will appreciate that the figures are merely schematic representations of one preferred implementation scenario and that the blocks or flow diagrams in the figures are not necessarily required to practice embodiments of the present invention.

Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above-mentioned embodiment of the present invention has a sequence number only for description, and does not represent the quality of the implementation scenario.

The above disclosure is only a few specific implementation scenarios of the embodiments of the present invention, however, the embodiments of the present invention are not limited thereto, and any changes that can be considered by those skilled in the art should fall within the business limitation scope of the embodiments of the present invention.

Claims (8)

1. The utility model provides a wire formula steel wire pay-off, this steel wire pay-off is located the front end of wire drawing machine, warp steel wire (3) that the wire drawing machine was drawn for the first time place in on the steel wire pay-off, its characterized in that, the steel wire pay-off includes:

the paying-off assembly (1) comprises a driving module (11), a bottom plate (12) and a paying-off rack (13), wherein the driving module (11) moves on the ground, the driving module (11) comprises a driving shell (111), a gearbox, a driving controller and a storage battery, the gearbox, the driving controller and the storage battery are all located inside the driving shell (111), the driving controller is distributed in the gearbox and the storage battery through connecting wires and electrically connected, driving shafts are mounted on the front side and the rear side of the gearbox, and wheels (112) are mounted at the end parts of the driving shafts;

the bottom plate (12) is fixed on the upper side of the driving module (11), and the bottom plate (12) is in a regular quadrangular prism shape;

the pay-off rack (13) is located on the upper side of the bottom plate (12), the pay-off rack (13) comprises pay-off rods (131), hanging rings (132) and supporting rings (133), the number of the pay-off rods (131) is not less than 6, the pay-off rods are uniformly distributed along the circumference, the upper ends of the pay-off rods (131) are welded to the lower ends of the hanging rings (132), the lower ends of the pay-off rods (131) are welded to the upper surface of the bottom plate (12), and the number of the supporting rings (133) is not less than 3, and the supporting rings (133) are welded to the inner sides of the pay-off rods (;

the wire guiding assembly (2) comprises a base (21), a wire guiding column (22), a pulley (23), a first wire guiding rod (24), a wire guiding rod seat (25), a second wire guiding rod (26) and an emergency stop switch (27), wherein the base (21) is placed on or fixed on the ground through an expansion bolt, the wire guiding column (22) consists of a lower guide post (221) and an upper guide post (222), the lower guide post (221) is vertical to and welded on the base (21), the lower guide post (221) is connected with the upper guide post (222), an included angle formed by the upper guide post (222) and the lower guide post (221) is α, and α is larger than or equal to 120 degrees;

the pulley (23) is located at the upper end of the upper guide post (222) and is movably connected with the wire guide post (22) through a pin shaft (29), the first wire guide rod (24) is welded on the wire guide post (22) and is located on the lower side of the pulley (23), a first wire guide hole (241) is formed in the first wire guide rod (24), the wire guide rod seat (25) is welded on the wire guide post (22) and is located on the lower side of the first wire guide rod (24), the emergency stop switch (27) is welded on the wire guide post (22) and is located on the lower side of the wire guide rod seat (25), and the emergency stop switch (27) is electrically connected with the wire drawing machine through a connecting wire;

the second wire guide rod (26) is movably connected with the wire guide rod seat (25) through a pin shaft (29), a second wire guide hole (261) is formed in the second wire guide rod (26), and the second wire guide rod (26) is pressed on the emergency stop switch (27) so that the emergency stop switch (27) is in a working state.

2. A wire-guided wire pay-off device according to claim 1, wherein the base plate (12) is made of a steel plate of Q345, and the thickness of the base plate (12) is not less than 50 mm.

3. A wire guide wire pay-off device according to claim 1, wherein the central axis of the pay-off stand (13) coincides with the central axis of the base plate (12).

4. A wire pay-off device as claimed in claim 3, wherein the central axis of the pay-off stand (13) coincides with the central axis of the second wire guide hole (261), the second wire guide hole (261) coinciding with the central axis of the first wire guide hole (241).

5. A wire-guided wire pay-off device according to claim 1, wherein the diameter of said second wire guide hole (261) is 2 times the diameter of said wire (3), and the diameter of said first wire guide hole (241) is 2 times the diameter of said second wire guide hole (261).

6. A wire guide wire pay-off device according to claim 1, wherein said first wire guide bar (24) is parallel to said second wire guide bar (26), said second wire guide bar (26) being parallel to a horizontal plane.

7. The wire-type wire pay-off device according to claim 1, wherein the base (21) and the wire guide post (22) are made of Q275, and the surface of the base is coated with a rust-proof paint.

8. A wire guide wire payout device as defined in claim 1, wherein said wire assembly (2) further comprises a wire conduit (28), said wire conduit (28) being welded to said wire guide post (22) on a side other than said second wire guide rod (26).

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