CN115636300A

CN115636300A - Transformer substation's cable rolling processingequipment

Info

Publication number: CN115636300A
Application number: CN202211251588.9A
Authority: CN
Inventors: 张�雄; 王冠; 易莹; 刘雅琪; 张盛
Original assignee: Wuhan Garden Construction Engineering Co ltd
Current assignee: Wuhan Garden Construction Engineering Co ltd
Priority date: 2022-10-13
Filing date: 2022-10-13
Publication date: 2023-01-24
Anticipated expiration: 2042-10-13
Also published as: CN115636300B

Abstract

The invention discloses a transformer substation cable winding and processing device, which relates to the technical field of cable processing equipment and comprises a workbench, a first rotating rod, a connecting disc, a winding roller and a winding roller driving mechanism, wherein the first rotating rod is connected with the connecting disc; a rotating rod driving mechanism is arranged on the outer wall of the first rotating rod and the inner side of the workbench; a cable fixing mechanism. According to the invention, by arranging the winding roller driving mechanism, the cable fixing mechanism and the rotating rod driving mechanism, the cable to be wound and the winding roller are fixed and limited by the cable fixing mechanism, then the winding roller is driven by the winding roller driving mechanism to rotate to wind the cable, after the cable is wound, the winding roller after the cable is wound and a new winding roller are transposed by the rotating rod driving mechanism, and then a worker can fix the cable and the new winding roller by repeating the operation, so that the time for stopping the operation of equipment is shortened, and the efficiency for winding the cable is improved.

Description

Transformer substation's cable rolling processingequipment

Technical Field

The invention relates to the technical field of cable processing equipment, in particular to a winding processing device for a cable of a transformer substation.

Background

Cable is a generic term for optical cables, electrical cables, and the like. The cable has many applications, is mainly used for controlling installation, connecting equipment, transmitting power and other multiple functions, is a common and indispensable thing in daily life, and needs to be used in a transformer substation.

The existing cable winding device is generally used for winding the cable through a motor driving winding roller, the winding roller needs to be operated for a long time after the winding of the cable is completed, so that the wound cable can be taken out from the inside of the winding roller by workers, the time for taking out the wound cable by the workers is long, the efficiency of winding the cable is reduced, and the transformer substation cable winding processing device is provided for solving the problems.

Disclosure of Invention

The invention aims to: in order to solve the problem of low efficiency of cable rolling, a transformer substation cable rolling processing device is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a winding machining device for a cable of a transformer substation comprises a workbench, wherein a first rotating rod is rotatably connected to the top end of the workbench, a connecting disc is fixedly connected to the outer wall of the first rotating rod, a winding roller is rotatably connected to the outer wall of the connecting disc, one end of the winding roller penetrates through the outer wall of one side of the connecting disc, and a winding roller driving mechanism penetrating through the inner side of the workbench and located on one side of the winding roller is arranged on the outer wall of one side of the workbench and used for driving the winding roller to rotate;

a rotating rod driving mechanism is arranged on the outer wall of the first rotating rod and the inner side of the workbench and is used for driving the first rotating rod to rotate;

the inner wall of the winding roller is provided with a cable fixing mechanism which penetrates through the outer portion of the winding roller and is used for limiting cables on the outer wall of the winding roller.

As a still further scheme of the invention: wind-up roll actuating mechanism includes through bolt assembly fixed connection in the driving motor of workstation one side outer wall, driving motor's output is connected with the third dwang, just the one end of third dwang is run through to the inboard of workstation is located one side of wind-up roll, the outer wall sliding connection of third dwang has first slider, the outer wall fixedly connected with go-between of first slider, just the go-between is located the outside of third dwang, the outer wall of first slider is located solid fixed ring of one side fixedly connected with of go-between, gu fixed ring's one end sliding connection has the rectangular block, gu fixed ring's inside fixedly connected with third spring, just the one end of third spring with rectangular block fixed connection, rectangular clamping groove has been seted up to the one end of wind-up roll, the first spring of opposite side outer wall fixedly connected with of go-between, just the one end of first spring with workstation fixed connection, the outer wall of third dwang is provided with run through to the inboard of workstation is used for promoting the centrifugal drive assembly that the go-between removes.

As a still further scheme of the invention: the centrifugal driving assembly is connected including rotating the second dwang of workstation one side outer wall, the little synchronizing wheel of outer wall fixedly connected with of second dwang, the outer wall of second dwang is located the first big straight-teeth gear of one side fixedly connected with of little synchronizing wheel, the first big synchronizing wheel of outer wall fixedly connected with of third dwang, first big synchronizing wheel with first small straight-teeth gear of first big straight-teeth gear mesh mutually, the inside sliding connection of centrifugation shell has first rack, the one end fixedly connected with second spring of first rack, just the one end of second spring with centrifugation shell fixed connection, the inside rotation of centrifugation shell is connected with the big straight-teeth gear of second, just the big straight-teeth gear of second with first straight-teeth gear mesh mutually, the inside sliding connection of centrifugation shell is connected with one-way go-between, the outer wall of one-way lead screw with the big outer wall of second contact second slide gear mutually and the inside sliding connection of second straight-teeth gear and the other side of rectangle slip straight-teeth gear and the other side of workstation and the outside wall of the one-way slip straight-teeth gear and the one-teeth gear of second slide respectively the workstation and the other side of the slide sleeve and the one-teeth pole extend to the workstation.

As a still further scheme of the invention: the rectangle draw-in groove is provided with a plurality ofly, and is a plurality of the rectangle draw-in groove equidistance distribute in the one end outer wall of wind-up roll, just the rectangle draw-in groove with the rectangle piece phase-match, the first stopper of outer wall fixedly connected with of sliding sleeve, the inner wall of centrifugation shell seted up with the first spacing spout of first stopper assorted, the sliding sleeve passes through outer wall fixed connection first stopper with centrifugation shell sliding connection, the inner wall of sliding sleeve seted up with one-way lead screw assorted thread groove, the bottom fixedly connected with second stopper of first straight rack, the inner wall of centrifugation shell seted up with the spacing spout of second stopper assorted second, the centrifugation shell pass through bottom fixed connection the second stopper with centrifugation shell sliding connection.

As a still further scheme of the invention: cable fixed establishment includes sliding connection and is in the third slip ring of wind-up roll outer wall, two connecting rods of outer wall fixedly connected with of go-between, and two connecting rod one end is supported the outer wall of third slip ring, the inboard of third slip ring run through extremely the inside fixedly connected with second spur rack of wind-up roll, the one end fixedly connected with fourth spring of second spur rack, just the one end of fourth spring with wind-up roll fixed connection, the outer wall sliding connection of wind-up roll has the second slip ring, just the inboard of second slip ring run through extremely the inside fixedly connected with third spur rack of wind-up roll, one side outer wall fixedly connected with rubber ring of second slip ring, the inner wall of wind-up roll rotates and is connected with first pivot, just first pivot be located the second spur rack with between the third spur rack, the outer wall fixedly connected with fourth little spur gear of first pivot, the bottom of fourth little spur gear with the second spur rack meshes, the top of fourth little spur gear with the straight rack meshes mutually, one side of third connection pad with one side of workstation is set up with the inboard bit cell.

As a still further scheme of the invention: the inner wall of the winding roller is provided with a third limiting sliding groove matched with the third sliding ring, the inner wall of the winding roller is provided with a fourth limiting sliding groove matched with the second sliding ring, and a groove matched with the cable is formed between the second sliding ring and the winding roller.

As a still further scheme of the invention: spacing unit includes fixed connection and is in connection pad one side outer wall just is located the first connection pad of wind-up roll below, the inboard of first connection pad is rotated and is connected with reciprocal lead screw, just the one end of reciprocal lead screw runs through extremely the little straight-teeth gear of one side outer wall fixedly connected with third of connection pad, the top of first connection pad is located the one end sliding connection of wind-up roll has first slip ring, just first slip ring cup joints the outer wall of reciprocal lead screw, the inboard of workstation is located the first arc rack of the little straight-teeth gear of third directly over fixedly connected with, the below of the little straight-teeth gear of third is provided with second arc rack, just second arc rack first arc rack all with the little straight-teeth gear of third meshes mutually.

As a still further scheme of the invention: the bottom fixedly connected with third stopper of first slip ring, the top of first connecting seat seted up with third stopper assorted fifth spacing spout, the inner wall of third stopper be provided with reciprocal lead screw assorted crescent moon round pin, first slip ring through bottom fixedly connected's third stopper with first connecting seat sliding connection.

As a still further scheme of the invention: the rotating rod driving mechanism comprises a second connecting seat fixedly connected to the inner side of the workbench through a bolt assembly, the second connecting seat is fixedly connected with the second arc-shaped rack, the top end of the second connecting seat is rotatably connected with a fifth rotating rod, two large bevel gears are fixed on the outer wall of the fifth rotating rod, the top end of the second connecting seat is positioned on one side of the fifth rotating rod and is rotatably connected with a fourth rotating rod, the outer wall of the fourth rotating rod is fixedly connected with a small bevel gear meshed with the large bevel gears, the outer walls of the fourth rotating rod and the first rotating rod are fixedly connected with a second large synchronous wheel, second synchronous belts are installed on the outer walls of the two second large synchronous wheels, and one-way driving assemblies for driving the fifth rotating rod to rotate in one way are arranged on the outer walls of the connecting ring and the fifth rotating rod.

As a still further scheme of the invention: one-way drive assembly includes sliding connection and is in the second slider on second connecting seat top, just the outer wall of second slider with the go-between rotates to be connected, one side outer wall fixedly connected with dead lever of second slider, the inboard fixedly connected with connection shell of dead lever, the inboard rotation of connection shell is connected with rotates the tooth, rotate one side outer wall fixedly connected with second pivot of tooth, just the one end of second pivot run through extremely connect the inside of shell and with it rotates to connect the shell and connect, the torsional spring is installed to the outer wall of second pivot, just the one end of torsional spring is installed connect the inside of shell, the outer wall fixedly connected with of fifth dwang with rotate the little spur gear of tooth engaged with.

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

1. by arranging the winding roller driving mechanism, the cable fixing mechanism and the rotating rod driving mechanism, the cable to be wound and the winding roller are fixed and limited through the cable fixing mechanism, then the winding roller is driven to rotate through the winding roller driving mechanism to wind the cable, after the cable is wound, the winding roller after the cable is wound and a new winding roller are transposed through the rotating rod driving mechanism, and then a worker can fix the cable and the new winding roller by repeating the operation, so that the time for stopping the operation of equipment is reduced, and the cable winding efficiency is improved;

2. by arranging the winding roller driving mechanism, a converter can drive the two winding rollers to rotate through the winding roller driving mechanism, so that the two winding rollers can be driven to rotate through one driving motor respectively, the full benefit of the kinetic energy of the driving motor is improved, and the winding efficiency of the winding rollers is improved;

3. by arranging the cable fixing mechanism, the cable placed on the winding roller is automatically fixed through the cable fixing mechanism, and one end of the winding roller is sealed, so that manual operation of workers is not required, and the winding efficiency of the cable is improved;

4. by arranging the rotating rod driving mechanism, the function of switching the two winding rollers can be realized through the rotating rod driving mechanism, so that a worker can conveniently connect the cable with a new winding roller, the time for stopping the equipment is shortened, and the winding efficiency of the cable is improved;

drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the invention at A;

FIG. 3 is a cross-sectional view of the table of the present invention;

FIG. 4 is a cross-sectional view of the centrifuge shell and sliding sleeve of the present invention;

FIG. 5 is an enlarged view of the invention at B;

FIG. 6 is a schematic view of the internal structure of the centrifuge housing of the present invention;

FIG. 7 is a schematic structural view of a wind-up roll driving mechanism of the present invention;

FIG. 8 is a schematic view of a partial structure of a wind-up roll driving mechanism of the present invention;

FIG. 9 is a cross-sectional view of a rectangular block of the present invention;

FIG. 10 is a schematic view of the rotating lever driving mechanism of the present invention;

FIG. 11 is a schematic view of a fifth small spur gear of the present invention engaged with a rotating tooth;

FIG. 12 is a schematic view of the internal structure of the connecting shell of the present invention;

FIG. 13 is a cross-sectional view of a wind-up roll of the present invention;

fig. 14 is a partial schematic view of a cable fixing mechanism of the present invention.

In the figure: 1. a work table; 2. connecting the disc; 3. a first rotating lever; 4. a wind-up roll; 5. a wind-up roll drive mechanism; 501. a drive motor; 502. centrifuging the shell; 503. a second rotating lever; 504. a first synchronization belt; 505. a first large synchronizing wheel; 506. a small synchronizing wheel; 507. a third rotating rod; 508. a rectangular bar; 509. a first spring; 510. a connecting ring; 511. a fixing ring; 512. a rectangular block; 513. a first large spur gear; 514. a first small spur gear; 515. a rectangular clamping groove; 516. a sliding sleeve; 517. a one-way screw rod; 518. a second large spur gear; 519. a second small spur gear; 520. a first straight rack; 521. a second spring; 522. a first slider; 523. a third spring; 6. a cable fixing mechanism; 601. a first connecting seat; 602. a reciprocating screw rod; 603. a first slip ring; 604. a second slip ring; 605. a rubber ring; 606. a first arc-shaped rack; 607. a second arc-shaped rack; 608. a third small spur gear; 609. a connecting rod; 610. a third slip ring; 611. a second spur rack; 612. a first rotating shaft; 613. a third spur rack; 614. a fourth small spur gear; 615. a fourth spring; 7. a rotating rod driving mechanism; 701. a second connecting seat; 702. a fourth rotating rod; 703. a second large synchronizing wheel; 704. a fifth rotating rod; 705. a fixing rod; 706. a fifth small spur gear; 707. a large bevel gear; 708. a bevel pinion gear; 709. a second synchronous belt; 710. a second slider; 711. a connecting shell; 712. rotating the teeth; 713. a second rotating shaft; 714. a torsion spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention based on its overall structure.

Referring to fig. 1 to 14, in the embodiment of the invention, a transformer substation cable winding processing device includes a workbench 1, a first rotating rod 3 is rotatably connected to the top end of the workbench 1, a connecting disc 2 is fixedly connected to the outer wall of the first rotating rod 3, a winding roller 4 is rotatably connected to the outer wall of the connecting disc 2, one end of the winding roller 4 penetrates through the outer wall of one side of the connecting disc 2, and a winding roller driving mechanism 5 penetrating through the inner side of the workbench 1 and located on one side of the winding roller 4 is arranged on the outer wall of one side of the workbench 1 and used for driving the winding roller 4 to rotate;

a rotating rod driving mechanism 7 is arranged on the outer wall of the first rotating rod 3 and the inner side of the workbench 1 and is used for driving the first rotating rod 3 to rotate;

the inner wall of wind-up roll 4 is provided with and runs through to the outside cable fixed establishment 6 of wind-up roll 4 for carry on spacingly to the cable of wind-up roll 4 outer wall.

In this embodiment: firstly, fix the cable that will need the rolling with wind-up roll 4 and spacing to the cable through cable fixed establishment 6, then drive wind-up roll 4 through wind-up roll actuating mechanism 5 and rotate and roll up the cable, after the cable rolling is accomplished, wind-up roll 4 after with the cable rolling through dwang actuating mechanism 7 transposes with new wind-up roll 4, then the staff can be fixed cable and new wind-up roll 4 with the above-mentioned operation of repetition to the time of less equipment out of service, thereby the efficiency of cable rolling has been improved.

Please refer to fig. 1 to 9, the wind-up roll driving mechanism 5 includes a driving motor 501 fixedly connected to an outer wall of one side of the worktable 1 through a bolt assembly, an output end of the driving motor 501 is connected to a third rotating rod 507, one end of the third rotating rod 507 penetrates to an inner side of the worktable 1 and is located at one side of the wind-up roll 4, an outer wall of the third rotating rod 507 is slidably connected to a first slider 522, an outer wall of the first slider 522 is fixedly connected to a connection ring 510, the connection ring 510 is located at an outer portion of the third rotating rod 507, an outer wall of the first slider 522 is fixedly connected to a fixing ring 511 at one side of the connection ring 510, one end of the fixing ring 511 is slidably connected to a rectangular block 512, an inner portion of the fixing ring 511 is fixedly connected to a third spring 523, one end of the third spring 523 is fixedly connected to the rectangular block 512, one end of the wind-up roll 4 is provided with a rectangular clamping groove 515, another outer wall of the wind-up roll 510 is fixedly connected to a first spring 509, one end of the first spring rotating rod 509 is fixedly connected to the worktable 1, and an outer wall of the third spring 507 is provided with a centrifugal driving assembly penetrating to an inner side of the worktable 1 for driving the connection ring 510 to move the connection ring.

In this embodiment: the output end of the driving motor 501 is driven to rotate through the third rotating rod 507, the centrifugal driving component pushes the pushing connection ring 510 to pull one end of the first spring 509 to drive the fixing ring 511 to approach the wind-up roll 4 through the first slider 522, so as to drive the rectangular block 512 to move towards the wind-up roll 4, when the rectangular block 512 is aligned with the rectangular clamping groove 515, the rectangular block 512 is inserted into the rectangular clamping groove 515, so that the third rotating rod 507 is connected with the wind-up roll 4, when the rectangular block 512 is misaligned with the rectangular clamping groove 515, the rectangular block 512 abuts against the outer wall of the wind-up roll 4, the fixing ring 511 is extruded through the fixing ring 511, so as to enable the fixing ring 511 to slide on the outer wall of the rectangular block 512, because the third rotating rod 507 is rotating, the fixing ring 511 is driven to rotate through the first slider 522, the fixing ring 511 drives the rectangular block 512 to rotate, when the rectangular block 512 rotates to be aligned with the rectangular clamping groove 515, the third spring 523 does not push the rectangular block 512 to reset by the extrusion force of the outer wall, so that the rectangular block 512 is inserted into the rectangular clamping groove 515, the third rotating rod 507 is connected with the winding roller 4, after the third rotating rod 507 is connected with the winding roller 4, the winding roller 4 is driven to rotate by the third rotating rod 507 to wind the cable, so that the winding roller 4 is wound, meanwhile, when the next winding roller 4 rotates to one side of the third rotating rod 507, the steps are repeated, a new winding roller 4 can be driven to rotate, the kinetic energy of the driving motor 501 is fully facilitated, and the winding efficiency of the cable is improved.

Referring to fig. 1 to 8 again, the centrifugal driving assembly includes a second rotation rod 503 rotatably connected to an outer wall of one side of the worktable 1, a small synchronizing wheel 506 fixedly connected to an outer wall of the second rotation rod 503, a first large spur gear 513 fixedly connected to an outer wall of the second rotation rod 503 on one side of the small synchronizing wheel 506, a first large synchronizing wheel 505 fixedly connected to an outer wall of a third rotation rod 507, a first synchronizing belt 504 installed between the first large synchronizing wheel 505 and the outer wall of the small synchronizing wheel 506, a centrifugal casing 502 rotatably connected to an outer wall of one side of the worktable 1, the centrifugal casing 502 located on an outer wall of the third rotation rod 507, a first small spur gear 514 engaged with the first large spur gear 513 fixedly connected to an outer wall of the centrifugal casing 502, a first straight rack 520 slidably connected to an inside of the centrifugal casing 502, and a second spring 521 fixedly connected to one end of the first straight rack 520, one end of a second spring 521 is fixedly connected with the centrifugal shell 502, a second large spur gear 518 is rotatably connected inside the centrifugal shell 502, the second large spur gear 518 is meshed with a first straight rack 520, a one-way lead screw 517 is rotatably connected inside the centrifugal shell 502, a second small spur gear 519 meshed with the second large spur gear 518 is fixedly connected to the outer wall of the one-way lead screw 517, a sliding sleeve 516 is slidably connected inside the centrifugal shell 502, the sliding sleeve 516 is sleeved on the outer wall of the one-way lead screw 517, a rectangular rod 508 is slidably connected inside the workbench 1, two ends of the rectangular rod 508 penetrate through the outer walls of two sides of the workbench 1 respectively, one end of the rectangular rod 508 contacts with the sliding sleeve 516 along the outer wall of one side of the workbench 1, and the other end of the rectangular rod 508 extends to the outer wall of the other side of the workbench 1 and contacts with a connecting ring 510.

In this embodiment: an output end of the driving motor 501 drives the first large synchronous pulley 505 to rotate through the third rotating shaft 507, so as to drive the first synchronous belt 504 to drive the second rotating shaft 503 to rotate through the small synchronous pulley 506, the second rotating shaft 503 rotates to drive the first large straight gear 513 to rotate, so as to drive the first small straight gear 514 to drive the centrifugal shell 502 to rotate quickly, so that the centrifugal shell 502 generates centrifugal force to act on the first straight gear rack 520, so as to throw the first straight gear rack 520 to move away from the inner side of the centrifugal shell 502, the centrifugal shell 502 moves to drive the second large straight gear 518 to rotate, the second large straight gear 518 rotates to drive the second small straight gear 519 to drive the one-way screw 517 to rotate quickly, so as to drive the sliding sleeve 516 to move towards the directions of the two rectangular rods 508 inside the centrifugal shell 502, so as to push the two rectangular rods 508 to move towards the direction 510, the rectangular rods 508 move towards the connecting ring 510, so as to push the connecting ring 510 to approach the winding roll 4, thereby realizing that the rectangular driving block 512 is inserted into the inside of the rectangular clamping groove 515, so as to connect the third connecting ring 507 with the winding roll 4, so as to enable the third connecting ring 4 to be connected with the winding roll to respectively, so as to enable the winding device to switch over the function of the winding roll, and to improve the efficiency of the winding roll 4, thereby enabling the winding efficiency of the winding roll to improve the winding efficiency of the winding device, and further to improve the winding efficiency of the winding device.

Please refer to fig. 3 to 6, the plurality of rectangular clamping grooves 515 are disposed, the plurality of rectangular clamping grooves 515 are equidistantly distributed on an outer wall of one end of the wind-up roll 4, the rectangular clamping grooves 515 are matched with the rectangular blocks 512, the outer wall of the sliding sleeve 516 is fixedly connected with a first limiting block, a first limiting sliding groove matched with the first limiting block is disposed on an inner wall of the centrifugal shell 502, the sliding sleeve 516 is slidably connected with the centrifugal shell 502 through the first limiting block fixedly connected with the outer wall, a threaded groove matched with the one-way 517 screw rod is disposed on an inner wall of the sliding sleeve 516, a second limiting block is fixedly connected with a bottom end of the first straight rack 520, a second limiting sliding groove matched with the second limiting block is disposed on an inner wall of the centrifugal shell 502, and the centrifugal shell 502 is slidably connected with the centrifugal shell 502 through the second limiting block fixedly connected with the bottom end.

In this embodiment: it is inside to be convenient for rectangular block 512 can insert a rectangle draw-in groove 515, make third dwang 507 can be connected with wind-up roll 4, produce centrifugal force effect on first straight-tooth rack 520 when centrifugal shell 502, thereby throw first straight-tooth rack 520 and remove to keeping away from centrifugal shell 502 inboard along first spacing spout through first stopper, centrifugal shell 502 removes the big spur gear 518 of drive second and rotates, the little spur gear 519 of the big spur gear 518 rotation drive second drives one-way lead screw 517 and rotates fast, thereby drive sliding sleeve 516 moves along the spacing spout direction of second through the second stopper, carry on spacingly to sliding sleeve 516 through mutually supporting of second stopper and the spacing spout of second, avoid sliding sleeve 516 to take place the skew at the in-process that removes.

Please refer to fig. 1, 2, 3, 7, 13, and 14, the cable fixing mechanism 6 includes a third sliding ring 610 slidably connected to an outer wall of the wind-up roller 4, two connecting rods 609 are fixedly connected to an outer wall of the connecting ring 510, and one end of each of the two connecting rods 609 abuts against an outer wall of the third sliding ring 610, a second spur rack 611 is fixedly connected to an inner side of the third sliding ring 610 penetrating to an inner portion of the wind-up roller 4, a fourth spring 615 is fixedly connected to one end of the second spur rack 611, and one end of the fourth spring 615 is fixedly connected to the wind-up roller 4, a second sliding ring 604 is slidably connected to an outer wall of the wind-up roller 4, and an inner side of the second sliding ring 604 penetrates to an inner portion of the wind-up roller 4 and is fixedly connected to a third spur rack 613, a rubber ring 605 is fixedly connected to an outer wall of one side of the second sliding ring 604, a first rotating shaft 612 is rotatably connected to an inner wall of the wind-up roller 4, and the first rotating shaft 612 is located between the second spur rack 611 and the third spur rack 613, a fourth small spur gear 614 is fixedly connected to an outer wall of the first rotating shaft 612, a bottom end of the fourth spur gear 614 is engaged with a top end of the second spur rack 614, and a connecting plate 614 of the third spur rack 614 is engaged with a working table 614, and a working table 614 is arranged on an inner side of the working table 614 of the third spur rack 614, and a working table 614 is arranged on the inner side of the working table 614.

In this embodiment: when the cables need to be wound, the cables are firstly placed between the winding roller 4 and the second sliding ring 604, the fixing ring 511 moves towards the winding roller 4 and simultaneously drives the two connecting rods 609 to move, so as to push the third sliding ring 610 to move on the outer wall of the winding roller 4, the third sliding ring 610 moves and simultaneously drives the second spur rack 611 to move and extrude the fourth spring 615, when the second spur rack 611 moves, the fourth small spur gear 614 is driven to drive the first rotating shaft 612 to rotate, so as to drive the third spur rack 613 to drive the second sliding ring 604 to approach to the cables on the inner side of the winding roller 4, so that the rubber ring 605 abuts against the outer wall of the cables, when the rectangular block 512 is staggered with the rectangular rack 515 due to certain elasticity of the rubber ring 605, the fixing ring 511 drives the connecting rod 609 to continue to move in the process, so that the second sliding ring 604 extrudes the rubber ring 604, so that the second sliding ring 604 has a certain advancing space, so as to fix one end of the cables with the winding roller 4, then one end of the winding roller 4 is fixed through the fixing ring 511, and the automatic limiting operation of a worker is not needed, so as to improve the efficiency of the manual operation.

Please refer to fig. 13, the inner wall of the wind-up roll 4 is provided with a third limiting chute matched with the third sliding ring 610, the inner wall of the wind-up roll 4 is provided with a fourth limiting chute matched with the second sliding ring 604, and a groove matched with the cable is arranged between the second sliding ring 604 and the wind-up roll 4.

In this embodiment: move along the third spacing spout direction when being convenient for third slip ring 610 to remove, carry on spacingly to third slip ring 610 through the third spacing spout, avoid third slip ring 610 to take place to squint at the in-process that removes, move along the fourth spacing spout direction when second slip ring 604 removes, carry on spacingly to second slip ring 604 through the fourth spacing spout, avoid second slip ring 604 to take place to squint at the in-process that removes.

Please refer to fig. 1, 2, 3, and 7, the limiting unit includes a first connecting seat 601 fixedly connected to an outer wall of one side of the connecting disc 2 and located below the wind-up roll 4, an inner side of the first connecting seat 601 is rotatably connected with a reciprocating screw 602, one end of the reciprocating screw 602 penetrates through to the outer wall of one side of the connecting disc 2 and is fixedly connected with a third small spur gear 608, one end of the top end of the first connecting seat 601 located at the wind-up roll 4 is slidably connected with a first sliding ring 603, the first sliding ring 603 is sleeved on the outer wall of the reciprocating screw 602, an inner side of the workbench 1 located right above the third small spur gear 608 is fixedly connected with a first arc-shaped rack 606, a second arc-shaped rack 607 is arranged below the third small spur gear 608, and the second arc-shaped rack 607 and the first arc-shaped rack 606 are both engaged with the third small spur gear 608.

In this embodiment: when the connecting disc 2 rotates, the third small spur gear 608 is driven to rotate through the reciprocating screw rod 602, when the third small spur gear 608 is in clamping tooth contact with the outer wall of the second arc-shaped rack 607, the third small spur gear 608 is driven to drive the reciprocating screw rod 602 to rotate, so that the first sliding ring 603 is driven to move away from the direction of the winding roller 4, one end of the winding roller 4 is opened, so that a worker can take off a wound cable, when a new winding roller 4 rotates, the other third small spur gear 608 is driven to drive the third small spur gear 608 to drive the reciprocating screw rod 602 to rotate when the other third small spur gear 608 is in clamping tooth contact with the outer wall of the first arc-shaped rack 606, so that one end of the first sliding ring 603 moving to the winding roller 4 is sealed, so that the cable is limited, the steps are reversely operated, one end of the winding roller 4 is automatically opened, so that the worker can take off the wound cable, the wound cable is convenient for the worker to operate, and the winding efficiency of the cable is improved.

Please refer to fig. 1, a bottom end of the first sliding ring 603 is fixedly connected with a third limiting block, a top end of the first connecting seat 601 is provided with a fifth limiting chute matched with the third limiting block, an inner wall of the third limiting block is provided with a crescent pin matched with the reciprocating screw 602, and the first sliding ring 603 is slidably connected with the first connecting seat 601 through the third limiting block fixedly connected with the bottom end.

In this embodiment: the reciprocating screw 602 is convenient to rotate, the third limiting block is driven to drive the first sliding ring 603 to move along the direction of the fifth limiting sliding groove, and the first sliding ring 603 is limited through the mutual matching of the third limiting block and the fifth limiting sliding groove, so that the first sliding ring 603 can stably move.

Referring to fig. 1 to 12, the rotating rod driving mechanism 7 includes a second connecting seat 701 fixedly connected to the inner side of the worktable 1 by a bolt assembly, the second connecting seat 701 is fixedly connected to a second arc-shaped rack 607, a fifth rotating rod 704 is rotatably connected to the top end of the second connecting seat 701, two pairs of large bevel gears 707 are fixed to the outer wall of the fifth rotating rod 704, a fourth rotating rod 702 is rotatably connected to one side of the fifth rotating rod 704 at the top end of the second connecting seat 701, a small bevel gear 708 engaged with the large bevel gear 707 is fixedly connected to the outer wall of the fourth rotating rod 702, a second large synchronizing wheel 703 is fixedly connected to both the fourth rotating rod 702 and the outer wall of the first rotating rod 3, and a second synchronizing belt 709 is installed on the outer walls of the two second large synchronizing wheels 703, the outer wall of the connecting ring 510 and the outer wall of the fifth rotating rod 704 are provided with a one-way driving assembly for driving the fifth rotating rod 704 to rotate in a one-way manner, the one-way driving assembly comprises a second slider 710 slidably connected to the top end of the second connecting seat 701, the outer wall of the second slider 710 is rotatably connected to the connecting ring 510, the outer wall of one side of the second slider 710 is fixedly connected to a fixing rod 705, the inner side of the fixing rod 705 is fixedly connected to a connecting shell 711, the inner side of the connecting shell 711 is rotatably connected to a rotating tooth 712, the outer wall of one side of the rotating tooth 712 is fixedly connected to a second rotating shaft 713, one end of the second rotating shaft 713 penetrates through the inside of the connecting shell 711 and is rotatably connected to the connecting shell 711, the outer wall of the second rotating shaft 713 is provided with a torsion spring 714, one end of the torsion spring 714 is installed in the inside of the connecting shell 711, and the outer wall of the fifth rotating rod 704 is fixedly connected to a fifth small spur gear 706 engaged with the rotating tooth 712.

In this embodiment: the outer wall of the second slider 710 is fixedly connected with the rear arc block, the outer wall of the connecting ring 510 is provided with a circular groove matched with the arc block, the second slider 710 is rotatably connected with the connecting ring 510 through the arc block, the top end of the second connecting seat 701 is provided with a sixth limiting chute matched with the second slider 710, when the connecting ring 510 moves on the outer wall of the third rotating rod 507 and moves towards the wind-up roller 4, the second slider 710 moves to drive the fixing rod 705 to move, so that the rotating teeth 712 are driven to move through the connecting shell 711, the outer wall inclined surface of the rotating teeth 712 is in contact with the fifth small straight gear 706, so that the fifth small straight gear 706 is subjected to resistance and drives one end of the torsion spring 714 to rotate through the second rotating shaft 713, so that the torsion spring 714 is twisted, when the rotating teeth 712 are separated from the fifth small straight gear 706, the torsion spring 714 is not subjected to external force and drives the rotating teeth 712 to reset through the second rotating shaft 713, when the connecting ring 510 moves to the maximum position, the second slider 710 drives the fixing rod to move to drive the fixing rod to move to the second straight gear 510, so that the second straight gear 510 is not subjected to drive the second straight gear 518 to rotate, so that the second straight gear 518 to move, and the winding rod 510 to pull the winding rod 510 to move reversely, thereby the winding rod 510, when the rectangular block 512 moves out of the rectangular clamping groove 515, the outer plane of the rotating tooth 712 is in contact with the fifth small straight gear 706, the fifth small straight gear 706 is driven to drive the small bevel gear 708 to rotate rapidly through the large bevel gear 707, the small bevel gear 708 rotates rapidly to drive the fourth rotating rod 702 to drive the second large synchronous gear 703 to rotate rapidly, so that the second synchronous belt 709 drives the first rotating rod 3 to rotate rapidly through the other second large synchronous gear 703, when the connecting ring 510 drives the second sliding block 710 to move to the maximum position, the first rotating rod 3 drives the connecting disc 2 to rotate by one hundred and eighty degrees, so that the other take-up roller 4 rotates to be positioned on one side of the third rotating rod 507, so that a worker places a cable on the outer wall of the new take-up roller 4, and then starts the driving motor 501 to repeat the above steps, thereby reducing the time for the worker to take the cable down to improve the efficiency of taking up the cable.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The winding machining device for the cable of the transformer substation comprises a workbench (1), and is characterized in that a first rotating rod (3) is rotatably connected to the top end of the workbench (1), a connecting disc (2) is fixedly connected to the outer wall of the first rotating rod (3), a winding roller (4) is rotatably connected to the outer wall of the connecting disc (2), one end of the winding roller (4) penetrates through the outer wall of one side of the connecting disc (2), and a winding roller driving mechanism (5) which penetrates through the inner side of the workbench (1) and is located on one side of the winding roller (4) is arranged on the outer wall of one side of the workbench (1) and used for driving the winding roller (4) to rotate;

a rotating rod driving mechanism (7) is arranged on the outer wall of the first rotating rod (3) and the inner side of the workbench (1) and is used for driving the first rotating rod (3) to rotate;

the inner wall of the winding roller (4) is provided with a cable fixing mechanism (6) which penetrates through the outside of the winding roller (4) and is used for limiting cables on the outer wall of the winding roller (4).

2. The substation cable winding processing device according to claim 1, wherein the winding roller driving mechanism (5) comprises a driving motor (501) fixedly connected to an outer wall of one side of the workbench (1) through a bolt assembly, an output end of the driving motor (501) is connected with a third rotating rod (507), one end of the third rotating rod (507) penetrates through the inner side of the workbench (1) and is located at one side of the winding roller (4), an outer wall of the third rotating rod (507) is slidably connected with a first sliding block (522), an outer wall of the first sliding block (522) is fixedly connected with a connecting ring (510), the connecting ring (510) is located outside the third rotating rod (507), an outer wall of the first sliding block (507) is located at one side of the connecting ring (510) and is fixedly connected with a fixing ring (511), one end of the fixing ring (511) is slidably connected with a rectangular block (512), the other side of the fixing ring (511) is fixedly connected with a third spring (523), one end of the third spring (523) is fixedly connected with the winding block (512), one end of the rectangular roller (4) is provided with a first spring (509), and the first spring (509) is connected with the first clamping groove (510), the outer wall of the third rotating rod (507) is provided with a centrifugal driving assembly which penetrates through the inner side of the workbench (1) and is used for pushing the connecting ring (510) to move.

3. A substation cable winding and processing device according to claim 2, wherein the centrifugal driving assembly comprises a second rotating rod (503) rotatably connected to an outer wall of one side of the workbench (1), a small synchronizing wheel (506) is fixedly connected to an outer wall of the second rotating rod (503), an outer wall of the second rotating rod (503) is located at one side of the small synchronizing wheel (506) and is fixedly connected with a first large spur gear (513), an outer wall of the third rotating rod (507) is fixedly connected with a first large synchronizing wheel (505), a first large synchronizing belt (504) is installed between the first large synchronizing wheel (505) and an outer wall of the small synchronizing wheel (506), an outer wall of one side of the workbench (1) is rotatably connected with a centrifugal shell (502), the centrifugal shell (502) is located at an outer wall of the third rotating rod (507), a first small synchronizing belt (514) meshed with the first large spur gear (513) is fixedly connected to an outer wall of the centrifugal shell (502), a first spur gear (520) is slidably connected to an inner portion of the centrifugal shell (502), a second spur gear (520) is fixedly connected with a second large spur gear (518) meshed with a second large spur gear (521), and the centrifugal shell (521), the inside of centrifugation shell (502) is rotated and is connected with one-way lead screw (517), the outer wall fixedly connected with of one-way lead screw (517) with the little spur gear (519) of the big spur gear of second (518) engaged with, the inside sliding connection of centrifugation shell (502) has sliding sleeve (516), just sliding sleeve (516) cup joints the outer wall of one-way lead screw (517), the inside sliding connection of workstation (1) has rectangle pole (508), just the both ends of rectangle pole (508) run through respectively extremely the both sides outer wall of workstation (1), the one end of rectangle pole (508) along extremely one side outer wall of workstation (1) and with sliding sleeve (516) contact, just the other end of rectangle pole (508) extends to the opposite side outer wall of workstation (1) and with go-between (510) contact.

4. The winding processing device for the cable of the transformer substation according to claim 3, wherein the rectangular clamping grooves (515) are arranged in a plurality, the rectangular clamping grooves (515) are equidistantly distributed on the outer wall of one end of the winding roller (4), the rectangular clamping grooves (515) are matched with the rectangular blocks (512), the outer wall of the sliding sleeve (516) is fixedly connected with a first limiting block, the inner wall of the centrifugal shell (502) is provided with a first limiting sliding groove matched with the first limiting block, the sliding sleeve (516) is slidably connected with the centrifugal shell (502) through the first limiting block fixedly connected with the outer wall, the inner wall of the sliding sleeve (516) is provided with a threaded groove matched with the one-way screw rod (517), the bottom end of the first straight rack (520) is fixedly connected with a second limiting block, the inner wall of the centrifugal shell (502) is provided with a second limiting sliding groove matched with the second limiting block, and the centrifugal shell (502) is slidably connected with the centrifugal shell (502) through the second limiting block fixedly connected with the bottom end.

5. A substation cable winding processing device according to claim 3, wherein the cable fixing mechanism (6) comprises a third sliding ring (610) slidably connected to the outer wall of the winding roller (4), two connecting rods (609) are fixedly connected to the outer wall of the connecting ring (510), one end of each connecting rod (609) abuts against the outer wall of the third sliding ring (610), a second spur rack (611) is fixedly connected to the inner side of the third sliding ring (610) penetrating to the inner part of the winding roller (4), one end of the second spur rack (611) is fixedly connected with a fourth spring (615), and one end of the fourth spring (615) is fixedly connected with the winding roller (4), outer wall sliding connection of wind-up roll (4) has second slip ring (604), just the inboard of second slip ring (604) runs through to the inside fixedly connected with third spur rack (613) of wind-up roll (4), one side outer wall fixedly connected with rubber ring (605) of second slip ring (604), the inner wall of wind-up roll (4) rotates and is connected with first pivot (612), just first pivot (612) are located second spur rack (611) with between third spur rack (613), the outer wall fixedly connected with fourth little spur gear (614) of first pivot (612), the bottom of fourth little spur gear (614) with second spur rack (611) looks The top end of the fourth small spur gear (614) is meshed with the third spur rack (613), and the outer wall of one side of the connecting disc (2) is provided with a limiting unit on the inner side of the workbench (1).

6. The substation cable winding processing device according to claim 5, wherein a third limiting sliding groove matched with the third sliding ring (610) is formed in the inner wall of the winding roller (4), a fourth limiting sliding groove matched with the second sliding ring (604) is formed in the inner wall of the winding roller (4), and a groove matched with a cable is formed between the second sliding ring (604) and the winding roller (4).

7. The substation cable winding processing device according to claim 5, wherein the limiting unit comprises a first connecting seat (601) fixedly connected to an outer wall of one side of the connecting disc (2) and located below the winding roller (4), a reciprocating lead screw (602) is rotatably connected to an inner side of the first connecting seat (601), one end of the reciprocating lead screw (602) penetrates through a third small straight gear (608) fixedly connected to an outer wall of one side of the connecting disc (2), a first sliding ring (603) is slidably connected to an end of the winding roller (4) at a top end of the first connecting seat (601), the first sliding ring (603) is sleeved on an outer wall of the reciprocating lead screw (602), a first arc-shaped rack (606) is fixedly connected to an upper side of the third small straight gear (608) at an inner side of the workbench (1), a second arc-shaped rack (607) is arranged below the third small straight gear (608), and the second arc-shaped rack (607) and the first arc-shaped rack (606) are meshed with the third straight gear (608).

8. The winding and processing device for the cable of the transformer substation of claim 7, wherein a third limiting block is fixedly connected to the bottom end of the first sliding ring (603), a fifth limiting sliding groove matched with the third limiting block is formed in the top end of the first connecting seat (601), a crescent pin matched with the reciprocating screw rod (602) is arranged on the inner wall of the third limiting block, and the first sliding ring (603) is slidably connected with the first connecting seat (601) through the third limiting block fixedly connected to the bottom end.

9. The transformer substation cable winding processing device according to claim 7, wherein the rotating rod driving mechanism (7) comprises a second connecting seat (701) fixedly connected to the inner side of the workbench (1) through a bolt assembly, the second connecting seat (701) is fixedly connected with the second arc-shaped rack (607), a fifth rotating rod (704) is rotatably connected to the top end of the second connecting seat (701), two large bevel gears (707) are fixed to the outer wall of the fifth rotating rod (704), a fourth rotating rod (702) is rotatably connected to the top end of the second connecting seat (701) at one side of the fifth rotating rod (704), small bevel gears (708) meshed with the large bevel gears (707) are fixedly connected to the outer wall of the fourth rotating rod (702), a second large synchronous wheel (703) is fixedly connected to the outer walls of the fourth rotating rod (702) and the first rotating rod (3), a second synchronous belt (709) is installed to the outer walls of the two second large synchronous wheels (703), and a unidirectional rotation driving assembly is arranged on the outer wall of the connecting ring (510) and the outer wall of the fifth rotating rod (704).

10. The substation cable winding processing device according to claim 9, wherein the one-way driving assembly comprises a second sliding block (710) slidably connected to the top end of the second connecting seat (701), the outer wall of the second sliding block (710) is rotatably connected to the connecting ring (510), a fixing rod (705) is fixedly connected to the outer wall of one side of the second sliding block (710), a connecting shell (711) is fixedly connected to the inner side of the fixing rod (705), a rotating tooth (712) is rotatably connected to the inner side of the connecting shell (711), a second rotating shaft (713) is fixedly connected to the outer wall of one side of the rotating tooth (712), one end of the second rotating shaft (713) penetrates through the inside of the connecting shell (711) and is rotatably connected to the connecting shell (711), a torsion spring (714) is installed on the outer wall of the second rotating shaft (713), one end of the torsion spring (714) is installed inside the connecting shell (711), and a fifth spur gear (706) meshed with the rotating tooth (712) is fixedly connected to the outer wall of the fifth rotating shaft (704).