CN212269119U - Large-scale cable winder - Google Patents
Large-scale cable winder Download PDFInfo
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- CN212269119U CN212269119U CN202020349453.6U CN202020349453U CN212269119U CN 212269119 U CN212269119 U CN 212269119U CN 202020349453 U CN202020349453 U CN 202020349453U CN 212269119 U CN212269119 U CN 212269119U
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Abstract
The utility model provides a large-scale cable spooler, belongs to electric power technology field, concretely relates to cable is around establishing technical field. The problem of present large-scale cable wire winding and off-line in-process all need a large amount of manual works, need other auxiliary assembly simultaneously, cause inefficiency, and remove inconveniently is solved. The utility model discloses when using need wind or initiatively take off line when pushing away or drawing the groove department that makes the bearing and the centre bore of both ends disc along transmission shaft length direction and correspond, the motor drives the transmission shaft and rotates, is equipped with the gap between the middle part tubular structure of I shape spooler body and the both ends disc, makes middle part tubular structure rotates, and the middle part tubular structure corresponds with the groove department of the centre bore of both ends disc, and the motor rotates and drives the transmission shaft and rotate, and the transmission shaft rotates and drives the cylindric mounting and rotate, because the recess joint of the centre bore of cylindric mounting and both ends disc drives the both ends disc and rotates. The utility model discloses still be used for around establishing the cable.
Description
Technical Field
The utility model belongs to the technical field of electric power, concretely relates to cable is around establishing technical field.
Background
Large-scale cable all adopts I shape spooler to realize winding in the electric power construction process nowadays, because the cable that the diameter is big is along with the increase of weight, no matter is around establishing, transporting or the off-line process all needs a large amount of manual works to need supporting other auxiliary assembly to accomplish, not only cause work efficiency low, have the extravagant problem of manpower resources simultaneously.
SUMMERY OF THE UTILITY MODEL
The utility model relates to a solve present large-scale cable wire winding and the off-line in-process all need a large amount of manual works, need other auxiliary assembly simultaneously, cause inefficiency, and remove inconvenient problem, provided a large-scale cable spooler.
The utility model relates to a large cable winder, which comprises an I-shaped winder body 3, a metal ball 2, a round supporting and fixing plate 4, a bearing 501, a cylindrical fixing piece 502, a transmission shaft 6, a motor 7, a first gear 8, a second gear 9 and a power module;
a plurality of metal balls 2 are embedded on the circumferential surfaces of the disks at two ends of the I-shaped winder body 3 at equal intervals, and part of the bodies of the metal balls 2 protrudes out of the circumferential surfaces of the disks;
a gap is formed between the middle cylindrical structure of the I-shaped winder body 3 and the disks at the two ends, a transmission shaft 6 penetrates through the middle cylindrical structure of the I-shaped winder body 3 along the length direction, the two ends of the transmission shaft 6 respectively penetrate through the central holes of the two disks, a bearing 501 and a cylindrical fixing piece 502 are sleeved at the two ends of the transmission shaft 6, and the outer diameters of the bearing 501 and the cylindrical fixing piece 502 are the same; and the bearing 501 and the cylindrical fixing member 502 are disposed adjacently;
the bearing 501 and the cylindrical fixing piece 502 are both positioned between the disc and the transmission shaft 6, and strip-shaped protrusions along the axial direction are fixed on the outer circumferential surfaces of the bearing 501 and the cylindrical fixing piece 502 at equal intervals;
the inner wall of the central hole of the two end discs is divided into two parts along the axial direction, rectangular grooves are formed in the inner wall of one part of the central hole at equal intervals and are matched with the strip-shaped bulges of the bearing 501 or the cylindrical fixing piece 502, the diameter of the central hole of the other part is larger than that of the central hole of the one part, and the inner surface of the central hole of the other part is not in contact with the bearing 501 or the cylindrical fixing piece 502;
when the two bearings 501 are respectively clamped with a part of rectangular grooves of the central holes of the disks at the two ends, the motor drives the middle cylindrical structure of the I-shaped winder body 3 to rotate, and active winding or off-line is carried out;
when the two cylindrical fixing pieces 502 are respectively clamped with a part of grooves of the central holes of the disks at the two ends, the bearing 501 is not in contact with the disks at the two ends, and the middle cylindrical structure of the I-shaped winder body 3 and the disks at the two ends rotate synchronously;
a plurality of circular supporting and fixing plates 4 are fixed in the cylindrical structure in the middle of the I-shaped winder body 3 at equal intervals, a transmission shaft 6 sequentially penetrates through the centers of the plurality of circular supporting and fixing plates 4, and the circumferences of the plurality of circular supporting and fixing plates 4 are clamped with the inner wall of the cylindrical structure in the middle of the I-shaped winder body 3;
a protective shell 1 is buckled on the outer side of a disc on one side of the I-shaped winder body 3, a motor 7 and a power supply module are arranged in the protective shell 1, and an output shaft of the motor 7 drives a transmission shaft 6 to rotate through a first gear 8 and a second gear 9;
the power module is used for supplying power to the motor 7.
Further, the circumferential surfaces of the plurality of circular supporting and fixing plates 4 are provided with strip-shaped bulges at equal intervals, the inner surface of the middle cylindrical structure of the I-shaped winder body 3 is provided with rectangular grooves at equal intervals along the length direction, and the rectangular grooves are adapted to the strip-shaped bulges on the circumferential surfaces of the circular supporting and fixing plates 4.
Further, a fixing frame is arranged in the protective shell 1 and used for fixing the motor 7 and the power module.
Further, a motor control button and a power switch button are embedded in the outer surface of a disc on one side of the I-shaped winder body 3.
Further, the gap between the cylindrical structure in the middle of the I-shaped winder body 3 and the disks at the two ends is smaller than the diameter of the cable.
The utility model discloses when using need to carry out the wire winding or initiatively take off the line when pushing away or drawing along transmission shaft length direction and make the bearing correspond with the groove of the centre bore of both ends disc, the motor drives the transmission shaft and rotates at this moment, because be equipped with the gap (not being connected) between the middle part tubular structure of I shape spooler body 3 and the both ends disc, make the middle part tubular structure rotate, the disc at both ends does not rotate, so just can realize off-line or wire winding in situ, because when carrying out electric power construction, the restriction of geographical condition, under most circumstances, the spooler can't be directly delivered to the job site through the transportation instrument, most need to push large-scale spooler to the construction position through the manual work, but because the restriction of the I shape, inconvenient turning, the utility model discloses a periphery at both ends disc inlays the solid spheroid, when the spheroid contacts with ground, because the spheroid can freely rotate, only need be in one side of I shape spooler body is hard can realize easily realizing holistic turn, simultaneously, when the groove part of the centre bore of cylindric mounting and both ends disc corresponds, the motor rotates and drives the transmission shaft and rotate, and the transmission shaft rotates and drives the cylindric mounting and rotate, because the recess joint of the centre bore of cylindric mounting and both ends disc drives both ends disc and rotates, like this under the circumstances that is not fit for the transport of transport means, can adopt the starter motor to drive worker style of calligraphy spooler body and rotate wholly, so not only the work efficiency of effectual improvement manual transportation, and effectual manpower resources of saving, and can adopt the motor to drive large-scale spooler overall movement, when removing, need not artifical the promotion, realize that it is convenient to remove.
Drawings
Fig. 1 is a schematic external structural view of a large cable winder according to the present invention;
fig. 2 is a schematic view of the internal structure of the large cable winder of the present invention.
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 of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.
It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.
The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.
The first embodiment is as follows: the large cable winder according to the present embodiment is described with reference to fig. 1 and 2, and includes an i-shaped winder body 3, a metal sphere 2, a circular supporting and fixing plate 4, a bearing 501, a cylindrical fixing member 502, a transmission shaft 6, a motor 7, a first gear 8, a second gear 9, and a power module;
a plurality of metal balls 2 are embedded on the circumferential surfaces of the disks at two ends of the I-shaped winder body 3 at equal intervals, and part of the bodies of the metal balls 2 protrudes out of the circumferential surfaces of the disks;
a gap is formed between the middle cylindrical structure of the I-shaped winder body 3 and the disks at the two ends, a transmission shaft 6 penetrates through the middle cylindrical structure of the I-shaped winder body 3 along the length direction, the two ends of the transmission shaft 6 respectively penetrate through the central holes of the two disks, a bearing 501 and a cylindrical fixing piece 502 are sleeved at the two ends of the transmission shaft 6, and the outer diameters of the bearing 501 and the cylindrical fixing piece 502 are the same; and the bearing 501 and the cylindrical fixing member 502 are disposed adjacently;
the bearing 501 and the cylindrical fixing piece 502 are both positioned between the disc and the transmission shaft 6, and strip-shaped protrusions along the axial direction are fixed on the outer circumferential surfaces of the bearing 501 and the cylindrical fixing piece 502 at equal intervals;
the inner wall of the central hole of the two end discs is divided into two parts along the axial direction, rectangular grooves are formed in the inner wall of one part of the central hole at equal intervals and are matched with the strip-shaped bulges of the bearing 501 or the cylindrical fixing piece 502, the diameter of the central hole of the other part is larger than that of the central hole of the one part, and the inner surface of the central hole of the other part is not in contact with the bearing 501 or the cylindrical fixing piece 502;
when the two bearings 501 are respectively clamped with a part of rectangular grooves of the central holes of the disks at the two ends, the motor drives the middle cylindrical structure of the I-shaped winder body 3 to rotate, and active winding or off-line is carried out;
when the two cylindrical fixing pieces 502 are respectively clamped with a part of grooves of the central holes of the disks at the two ends, the bearing 501 is not in contact with the disks at the two ends, and the middle cylindrical structure of the I-shaped winder body 3 and the disks at the two ends rotate synchronously;
a plurality of circular supporting and fixing plates 4 are fixed in the cylindrical structure in the middle of the I-shaped winder body 3 at equal intervals, a transmission shaft 6 sequentially penetrates through the centers of the plurality of circular supporting and fixing plates 4, and the circumferences of the plurality of circular supporting and fixing plates 4 are clamped with the inner wall of the cylindrical structure in the middle of the I-shaped winder body 3;
a protective shell 1 is buckled on the outer side of a disc on one side of the I-shaped winder body 3, a motor 7 and a power supply module are arranged in the protective shell 1, and an output shaft of the motor 7 drives a transmission shaft 6 to rotate through a first gear 8 and a second gear 9;
the power module is used for supplying power to the motor 7.
In this embodiment, the strip-shaped protrusions of the bearing 501 and the cylindrical fixing member 502 are in a fitting relationship with rectangular grooves formed on part of the inner wall of the central hole of the two end disks at equal intervals, the transmission shaft can be pushed or pulled according to actual needs, the bearing 501 or the cylindrical fixing piece 502 which is clamped with the rectangular groove is selected, when the bearing 501 is clamped with the rectangular groove, the motor rotates to only drive the middle cylindrical structure of the I-shaped winder body 3 to rotate, when the cylindrical fixing piece 502 is clamped with the rectangular groove, the motor rotates to drive the middle cylindrical structure and the discs at the two ends of the I-shaped winder body 3 to rotate simultaneously, the I-shaped winder body 3 can be driven to move automatically in a rotating mode by controlling the motor to rotate when the I-shaped winder body is wound or off-line in situ and can be moved, so that the moving efficiency is improved, and manual pushing is not needed.
Further, the circumferential surfaces of the plurality of circular supporting and fixing plates 4 are provided with strip-shaped bulges at equal intervals, the inner surface of the middle cylindrical structure of the I-shaped winder body 3 is provided with rectangular grooves at equal intervals along the length direction, and the rectangular grooves are adapted to the strip-shaped bulges on the circumferential surfaces of the circular supporting and fixing plates 4.
In the embodiment, when the circumferential surfaces of the circular supporting and fixing plates 4 are provided with the protrusions at equal intervals and are clamped with the grooves in the extension direction of the inner surface of the cylindrical structure in the middle of the I-shaped winder body 3, the cylindrical structure is driven to rotate when the motor rotates, and the transmission shaft can move axially.
Further, a fixing frame is arranged in the protective shell 1 and used for fixing the motor 7 and the power module.
The fixing frame of the embodiment fixes the power module and the motor at one position in the protective shell, so that the motor and the power module are prevented from moving in the protective shell 1 when the I-shaped winder body rolls.
Further, a motor control button and a power switch button are embedded in the outer surface of a disc on one side of the I-shaped winder body 3.
Further, the gap between the cylindrical structure in the middle of the I-shaped winder body 3 and the disks at the two ends is smaller than the diameter of the cable.
The gap in this embodiment is smaller than the diameter of the cable to avoid the cable from getting stuck in the gap.
The utility model discloses in the bellied extending direction of rectangle recess and bar all is along axial, so the axial push-and-pull is possible, but because recess and bellied looks adapted relation, so, there is not relative displacement in circumference, like this, when the disc contact at bearing and both ends, the motor drives the transmission shaft and rotates, the axle sleeve of bearing outside does not rotate, so only the tubular structure at I shape spooler body middle part rotates, when the disc contact at cylindric mounting and both ends, the motor drives the transmission shaft and rotates, because the centre bore of mounting and the disc at both ends is through "recess and protruding" joint that suits ", will drive whole" wheel "like this.
The utility model discloses still include motor control circuit when using, motor control circuit is used for controlling the positive and negative rotation of motor, realizes controlling middle part tubular structure's rotation direction, and then the control is taken off-line still the wire winding, when driving worker style of calligraphy spooler body 3 whole rotation at the motor simultaneously, because the distance that needs artifical the transporting during construction all is relatively nearer usually, consequently can adopt the slew velocity of the mode control motor of point control, and then control I shape spooler body 3's translation rate.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. It should be understood that features described in different dependent claims and herein may be combined in ways different from those described in the original claims. It is also to be understood that features described in connection with individual embodiments may be used in other described embodiments.
Claims (5)
1. A large-scale cable winder comprises an I-shaped winder body (3), and is characterized by further comprising a metal ball (2), a round supporting and fixing plate (4), a bearing (501), a cylindrical fixing piece (502), a transmission shaft (6), a motor (7), a first gear (8), a second gear (9) and a power module;
a plurality of metal balls (2) are embedded on the circumferential surfaces of disks at two ends of an I-shaped winder body (3) at equal intervals, and part of the metal balls (2) protrudes out of the circumferential surfaces of the disks;
a gap is formed between the middle cylindrical structure of the I-shaped winder body (3) and the disks at the two ends, a transmission shaft (6) penetrates through the middle cylindrical structure of the I-shaped winder body (3) along the length direction, the two ends of the transmission shaft (6) penetrate through the central holes of the two disks respectively, a bearing (501) and a cylindrical fixing piece (502) are sleeved at the two ends of the transmission shaft (6), and the outer diameters of the bearing (501) and the cylindrical fixing piece (502) are the same; and the bearing (501) and the cylindrical fixing piece (502) are arranged adjacently;
the bearing (501) and the cylindrical fixing piece (502) are both positioned between the disc and the transmission shaft (6), and strip-shaped protrusions along the axial direction are fixed on the outer circumferential surfaces of the bearing (501) and the cylindrical fixing piece (502) at equal intervals;
the inner walls of the central holes of the discs at the two ends are divided into two parts along the axial direction, rectangular grooves are formed in the inner walls of one part of the central holes at equal intervals and are matched with strip-shaped bulges of a bearing (501) or a cylindrical fixing piece (502), the diameter of the central hole of the other part is larger than that of the central hole of the one part, and the inner surface of the central hole of the other part is not in contact with the bearing (501) or the cylindrical fixing piece (502);
when the two bearings (501) are respectively clamped with a part of rectangular grooves of the central holes of the disks at the two ends, the motor drives the middle cylindrical structure of the I-shaped winder body (3) to rotate, and active winding or off-winding is carried out;
when the two cylindrical fixing pieces (502) are respectively clamped with a part of grooves of the central holes of the disks at the two ends, the bearing (501) is not in contact with the disks at the two ends, and the middle cylindrical structure of the I-shaped winder body (3) and the disks at the two ends rotate synchronously;
a plurality of circular supporting and fixing plates (4) are fixed in the cylindrical structure in the middle of the I-shaped winder body (3) at equal intervals, a transmission shaft (6) sequentially penetrates through the centers of the circular supporting and fixing plates (4), and the circumferences of the circular supporting and fixing plates (4) are clamped with the inner wall of the cylindrical structure in the middle of the I-shaped winder body (3);
the outer side of a disc on one side of the I-shaped winder body (3) is buckled with a protective shell (1), a motor (7) and a power supply module are arranged in the protective shell (1), and an output shaft of the motor (7) drives a transmission shaft (6) to rotate through a first gear (8) and a second gear (9);
the power module is used for supplying power for the motor (7).
2. A large cable winder as claimed in claim 1, wherein the circumferential surfaces of the plurality of circular support fixing plates (4) are provided with strip-shaped protrusions at equal intervals, and the inner surface of the central cylindrical structure of the i-shaped winder body (3) is provided with rectangular grooves at equal intervals along the length direction, the rectangular grooves being adapted to the strip-shaped protrusions on the circumferential surfaces of the circular support fixing plates (4).
3. A large cable winder as claimed in claim 1 or 2, characterised in that a fixing frame is provided in the protective housing (1) for fixing the motor (7) and the power supply module.
4. A large cable winder as claimed in claim 1 or 2, wherein a motor control button and a power switch button are embedded in the outer surface of a disc on one side of the i-shaped winder body (3).
5. A large cable winder as claimed in claim 1 or 2, characterised in that the gap between the central cylindrical structure of the i-shaped winder body (3) and the discs at the two ends is smaller than the diameter of the cable.
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CN202020349453.6U CN212269119U (en) | 2020-03-16 | 2020-03-16 | Large-scale cable winder |
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CN202020349453.6U CN212269119U (en) | 2020-03-16 | 2020-03-16 | Large-scale cable winder |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115043265A (en) * | 2022-06-15 | 2022-09-13 | 北京理工大学 | Aluminum mooring cable winding drum and preparation process thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115043265A (en) * | 2022-06-15 | 2022-09-13 | 北京理工大学 | Aluminum mooring cable winding drum and preparation process thereof |
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