CN212639502U - Steel wire rope coiling device applied to multi-model rollers - Google Patents

Abstract

The utility model discloses a be applied to wire rope coiling device of polytypic roller, include: the variable frequency motor is electrically connected with the reduction box; one end of the central shaft is rotationally connected with the reduction gearbox and is used for penetrating through the roller; the fixed disk is positioned between the reduction gearbox and the roller, a radial slideway is arranged on the fixed disk, and a sliding pin is arranged in the slideway and used for limiting the roller; an adjustable bearing block assembly connected to the other end of the center shaft; for adjusting the distance between the fixing disc and the fixing disc. The utility model adopts the form of the fixed disk, the sliding pin and the limiting hole to realize the unilateral transmission of rollers with different diameters; meanwhile, the form of a penetrating shaft and an adjustable bearing seat is adopted, so that the support and unilateral follow-up of rollers with different lengths are realized. The potential safety hazard of man-machine cooperation existing in the replacement of the steel wire rope of the transmission container bridge crane is eliminated; the rope coiling requirements of steel wire ropes with various heights and the rope coiling requirements of steel wire rope rollers with various diameters are met, and the working cost is saved.

Description

Steel wire rope coiling device applied to multi-model rollers

Technical Field

The utility model relates to a rope coiling device field, concretely relates to be applied to wire rope coiling device of polytypic roller.

Background

At present, the steel wire ropes of the traditional container shore crane are replaced by adopting the butt joint of new and old steel wire ropes and using a steel wire rope reel as power to pull the new ropes in place. The old steel wire ropes fall to the ground from a machine room by means of dead weight, the steel wire ropes are manually prevented from being transported back in an iron disc on the ground, and then the steel wire ropes are scattered, stacked and stored, or the steel wire ropes are mechanically or manually coiled and then stored in a centralized mode. But scattered accumulation and storage, the post-treatment needs to be carried out by hoisting one by using a crane, the steel wire ropes are difficult to extract due to mutual overstocking of the steel wire ropes, and potential safety hazards exist in man-machine cooperation. If the subsequent secondary finishing is adopted, the labor cost is increased. At present, a device for performing secondary coiling and finishing on a steel wire rope is provided, a hydraulic driving platform is adopted for rotating, a steel wire rope roller is vertically and fixedly placed on the driving platform, and the steel wire rope is coiled and finished on the roller by utilizing the friction force generated by the self weight of a wooden stick; but this process is relatively primitive.

In summary, it is necessary to design a wire rope coiling device applied to various types of rollers to solve the technical problems of increased waste material disposal cost and potential safety hazards caused by the conventional storage method.

SUMMERY OF THE UTILITY MODEL

For solving above-mentioned prior art problem, the utility model provides a be applied to wire rope coiling device of polytypic roller realizes remote operation, reduces and deals with the cost of labor, eliminates man-machine cooperation hidden danger.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a wire rope coiling apparatus for use with a plurality of types of rollers, comprising:

the variable frequency motor is electrically connected with the reduction box;

one end of the central shaft is rotationally connected with the reduction gearbox and is used for penetrating through the roller;

the fixed disk is positioned between the reduction gearbox and the roller, a radial slideway is arranged on the fixed disk, and a sliding pin is arranged in the slideway and used for limiting the roller;

an adjustable bearing block assembly connected to the other end of the center shaft; for adjusting the distance between the fixing disc and the fixing disc.

In some embodiments of the present invention, the output shaft of the reduction gearbox adopts a hollow shaft structure, which is integrally formed with the fixed disk, and the central shaft sequentially passes through the adjustable bearing seat assembly, the roller and the fixed disk are inserted into the hollow shaft structure.

In some embodiments of the present invention, the roller comprises a first disc, a second disc, and a roller body; wherein the first disk and the second disk are respectively positioned at two ends of the roller body; and the first disc is provided with a limiting hole for being matched with the sliding pin for use.

In some embodiments of the present invention, the adjustable bearing mount assembly comprises an outer gear sleeve, an inner gear sleeve, a bearing; the outer gear sleeve, the inner gear sleeve and the bearing are sequentially sleeved outside the central shaft.

In some embodiments of the present invention, the bearing is located in a bearing seat, and the bearing seat is fixed by a bolt.

In some embodiments of the present invention, the outer gear sleeve is fixed to the central shaft by a fastening nut.

In some embodiments of the present invention, the inner gear sleeve is located between the bearing and the outer gear sleeve; the inner gear sleeve is rotationally connected with the outer gear sleeve; the inner gear sleeve is fixed on the outer gear sleeve by a round nut.

In some embodiments of the present invention, a spacer is disposed between the round nut and the bearing seat for adjusting the position of the inner gear sleeve.

In some embodiments of the present invention, a stop washer is disposed between the round nut and the spacer for preventing the inner gear sleeve from falling off from the spacer.

In some embodiments of the present invention, the adjustable bearing seat assembly is fixedly connected to the base by a bracket for maintaining a horizontal position of the center shaft.

The utility model discloses a theory of operation does:

when the adjustable bearing seat component is used, the outer gear sleeve of the adjustable bearing seat component is adjusted rightwards (namely, away from the direction of a variable frequency motor), the outer gear sleeve rotates rightwards relative to the inner gear sleeve, an empty roller is placed in a support by using a forklift, a central shaft sequentially penetrates through the adjustable bearing seat component, the roller and a fixed disk and then is inserted into a hollow shaft structure of a reduction box, a sliding pin is inserted into a slide way of the fixed disk, the sliding pin and the roller are adjusted, the sliding pin is aligned to a limiting hole in a first disk, and the outer gear sleeve of the adjustable bearing seat component is adjusted leftwards so that the sliding pin enters the limiting hole in the first disk; and rotating a fastening nut and a round nut to fix the outer gear sleeve and the inner gear sleeve on the central shaft. The forklift transports the device to a designated position and then withdraws. When the steel wire rope is replaced, one end of an old steel wire rope is fixed on the roller, different variable frequency motor rotating speeds are selected according to the rope descending speed, and the variable frequency motor pokes the roller through the reduction gearbox, the fixed disc and the sliding pin to reel the steel wire.

The technical scheme of the utility model prior art relatively has following technological effect:

the utility model realizes the unilateral transmission of rollers with different diameters by adopting the forms of the fixed disk, the sliding pin and the limiting hole; meanwhile, the form of a penetrating shaft and an adjustable bearing seat is adopted, so that the support and unilateral follow-up of rollers with different lengths are realized. The potential safety hazard of man-machine cooperation existing in the replacement of the steel wire rope of the transmission container bridge crane is eliminated; the rope coiling requirements of steel wire ropes with various heights and the rope coiling requirements of steel wire rope rollers with various diameters are met, and the working cost is saved.

Drawings

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

Fig. 1 is a schematic structural view of the wire rope reeling device applied to various types of rollers.

Fig. 2 is a schematic structural diagram of the adjustable bearing seat.

Reference numerals: 1-a variable frequency motor; 2-a reduction gearbox; 3, fixing the disc; 4-a sliding pin; 5-a roller; 5.1-a first disc; 5.2-a second disc; 5.3-roller body; 6-an adjustable bearing block assembly; 6.1-external gear sleeve; 6.2-fastening the nut; 6.3-bearings; 6.4-bolt; 6.5-round nut; 6.6-spacer bush; 6.7-end cap; 6.8-bearing seat; 6.9-inner gear sleeve; 7-central axis; 8-base.

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.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

Example 1

As shown in fig. 1, a wire rope reeling device applied to various types of rollers includes: the variable frequency motor 1, the reduction gearbox 2, the central shaft 7, the fixed disc 3 and the adjustable bearing seat assembly 6; the left end of the central shaft 7 is rotationally connected with the reduction gearbox 2 and is used for penetrating the roller 5; the right end of the central shaft 7 is connected with an adjustable bearing seat assembly 6; the adjustable bearing seat assembly 6 is used to adjust the distance between it and the fixed disk 3. The fixed disk 3 is positioned between the reduction gearbox 2 and the roller 5, a radial slideway is arranged on the fixed disk 3, and a sliding pin 4 is arranged in the slideway and used for limiting the roller 5.

For the reduction box 2, an output shaft of the reduction box adopts a hollow shaft structure (not shown in the figure), the hollow shaft structure and the fixed disc 3 are integrally formed, and a central shaft 7 sequentially penetrates through the adjustable bearing seat assembly 6, the roller 5 and the fixed disc 3 and then is inserted into the hollow shaft structure to be connected with the reduction box 2 in a rotating mode.

For the roller 5, a first disc 5.1, a second disc 5.2 and a roller body 5.3 are included; wherein the first disk 5.1 and the second disk 5.2 are respectively positioned at the left end and the right end of the roller body 5.3; the first disc 5.1 is provided with a limiting hole for being matched with the sliding pin 4.

As for the adjustable bearing seat assembly 6, as shown in fig. 2, it includes an outer toothed sleeve 6.1, a fastening nut 6.2, a bearing 6.3, a bolt 6.4, a round nut 6.5, a spacer 6.6, an end cover 6.7, a bearing seat 6.8 and an inner toothed sleeve 6.9; wherein the outer gear sleeve 6.1, the inner gear sleeve 6.9 and the bearing 6.3 are sequentially sleeved outside the central shaft 7; in the use, outer tooth cover 6.1 butt is at second disc 5.2 right side for spacing roller 5 prevents that roller 5 from rocking the wire rope winding inhomogeneous that causes about when rotating. The outer toothed sleeve 6.1 is fixed on the central shaft 7 by means of a fastening nut 6.2. The inner gear sleeve 6.9 is positioned between the bearing 6.3 and the outer gear sleeve 6.1; the inner gear sleeve 6.9 is rotationally connected with the outer gear sleeve 6.1; the right end of the inner gear sleeve 6.9 is provided with an external thread, and the round nut 6.5 fixes the inner gear sleeve 6.9 on the outer gear sleeve 6.1 by utilizing the external thread. The bearing 6.3 is positioned in the bearing seat 6.8, and the bearing seat 6.8 is fixed outside the inner gear sleeve 6.9 by a bolt 6.4. A spacer bush 6.6 is arranged between the round nut 6.5 and the bearing seat 6.8 and used for adjusting the position of the inner gear sleeve 6.9. A stop washer (not shown in the figure) is arranged between the round nut 6.5 and the spacer 6.6 to prevent the inner gear sleeve 6.9 and the spacer 6.6 from falling off in the rotation process of the central shaft 7.

The adjustable bearing block assembly 6 is fixedly connected with the base 8 by a bracket for maintaining the horizontal position of the central shaft 7 and further for ensuring that the roller 5 is always in the horizontal state.

The utility model discloses a theory of operation does:

when the adjustable bearing seat assembly is used, the outer gear sleeve 6.1 of the adjustable bearing seat assembly 6 is adjusted rightwards (namely, away from the direction of the variable frequency motor 1), the outer gear sleeve 6.1 rotates rightwards relative to the inner gear sleeve 6.9, an empty roller 5 is placed into a support by a forklift, a central shaft 7 sequentially penetrates through the adjustable bearing seat member 6, the roller 5 and the fixed disk 3 and then is inserted into a hollow shaft structure in the reduction box 2, the sliding pin 4 is inserted into a slide way of the fixed disk 3, the sliding pin 4 and the roller 5 are adjusted, the sliding pin 4 is aligned to a limiting hole in the first disk 5.1, the outer gear sleeve 6.1 of the adjustable bearing seat member 6 is adjusted leftwards, and the sliding pin 4 enters the limiting hole in the first disk 6.1; the fastening nut 6.2 and the round nut 6.5 are rotated to fix the outer gear sleeve 6.1 and the inner gear sleeve 6.9 on the central shaft 7. The forklift transports the device to a designated position and then withdraws. When the steel wire rope is replaced, one end of an old steel wire rope is fixed to the roller 5, different rotating speeds of the variable frequency motor 1 are selected according to the rope descending speed, the variable frequency motor 1 stirs the roller 5 through the reduction gearbox 2, the fixed disc 3 and the sliding pin 4, the fixed disc 3, the sliding pin 4, the roller 5 and the central shaft 7 rotate simultaneously in the process, and in addition, on the adjustable bearing seat assembly 6, the outer gear sleeve 6.1, the fastening nut 6.2, the bearing 6.3, the round nut 6.5, the spacer bush 6.6 and the inner gear sleeve 6.9 rotate synchronously along with the central shaft 7 to perform steel wire coiling.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a be applied to wire rope serving device of polytypic roller which characterized in that includes a wire rope serving device who is applied to polytypic roller, includes:

the variable frequency motor is electrically connected with the reduction box;

one end of the central shaft is rotationally connected with the reduction gearbox and is used for penetrating through the roller;

the fixed disk is positioned between the reduction gearbox and the roller, a radial slideway is arranged on the fixed disk, and a sliding pin is arranged in the slideway and used for limiting the roller;

an adjustable bearing block assembly connected to the other end of the center shaft; for adjusting the distance between the fixing disc and the fixing disc.

2. The steel wire rope coiling device applied to the rollers with various models as claimed in claim 1, wherein the output shaft of the reduction box is of a hollow shaft structure, the hollow shaft structure and the fixed disk are integrally formed, and the central shaft sequentially penetrates through the adjustable bearing seat assembly, the rollers and the fixed disk and then is inserted into the hollow shaft structure.

3. The apparatus of claim 1, wherein the roller comprises a first disc, a second disc, and a roller body; wherein the first disk and the second disk are respectively positioned at two ends of the roller body; and the first disc is provided with a limiting hole for being matched with the sliding pin for use.

4. The steel wire rope coiling device applied to rollers of various types as claimed in claim 1, wherein the adjustable bearing seat assembly comprises an outer gear sleeve, an inner gear sleeve and a bearing; the outer gear sleeve, the inner gear sleeve and the bearing are sequentially sleeved outside the central shaft.

5. The steel wire rope coiling device applied to rollers with various sizes as claimed in claim 4, wherein the bearing is positioned in a bearing seat, and the bearing seat is fixed by a bolt.

6. The steel wire rope coiling device applied to rollers with various sizes as claimed in claim 4, wherein the outer gear sleeve is fixed on the central shaft through a fastening nut.

7. The apparatus of claim 4, wherein the inner sleeve is located between the bearing and the outer sleeve; the inner gear sleeve is rotationally connected with the outer gear sleeve; the inner gear sleeve is fixed on the outer gear sleeve by a round nut.

8. The steel wire rope coiling device applied to rollers with various types as claimed in claim 7, wherein a spacer sleeve is arranged between the round nut and the bearing seat and used for adjusting the position of the inner gear sleeve.

9. The steel wire rope coiling device applied to rollers with various sizes as claimed in claim 8, wherein a stop washer is arranged between the round nut and the spacer bush.

10. The apparatus of claim 1, wherein the adjustable bearing housing assembly is fixedly connected to the base by a bracket for maintaining a horizontal position of the central shaft.

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