CN105648813B - Twisting wire rope rotation payingoff mechanism - Google Patents

Abstract

A kind of twisting wire rope rotation payingoff mechanism, it includes bobbin loader (1), base (2) bearing (3) parallel with upper two of base (2) is fixed on, I-beam wheel placement mechanism includes support bar (4) and adjustment axis (5), both sides of the two ends of support bar (4) respectively with bobbin loader (1) are connected, the two ends of adjustment axis (5) rotate with the both sides of bobbin loader (1) be connected respectively, support bar (4) is provided with the support for being used for placing I-beam wheel, support is divided into first support (6) and second support (7), and first support (6) is parallel with second support (7), the two ends of first support (6) are slidably connected with support bar (4) and adjustment axis (5) respectively, the two ends of second support (7) are slidably connected with support bar (4) and adjustment axis (5) respectively, bobbin loader (1) is provided with control first support (6) or second support (7) or first support (6) and the mobile controlling organization of second support (7), controlling organization is connected with adjustment axis (5)；Compared with prior art, the characteristics of present invention has preferable adaptability and relatively low production cost.

Description

Twisting wire rope rotation payingoff mechanism

Technical field

The present invention relates to a kind of twisting wire rope rotation payingoff mechanism.

Background technology

At present, steel wire rope application is wider, and the steel wire rope of some particular/special requirements needs 2 layers or more than 2 layers of multilayer strand Rope composition, and the twist direction of inside and outside layer rope is different.Therefore, difficult point of its manufacture be how to remove when closing rope internal layer stock because and The twisting of internal layer stock causes deformation and produces distorting stress when outer layer strand closes rope, and general method is by steel wire rope internal layer strand Carry out untwisting and stand up, the twisting for standing up direction and product is in opposite direction, so as to produce distorting stress when reaching and eliminating twisting Purpose, the steel wire rope sling so produced has the characteristic of unstressed, straight, soft, micro- rotation, it is adaptable to which some have special It is required that purposes.

The twisting wire rope of prior art, because the support of I-beam wheel 30 is fixed, therefore can only be placed with rotation payingoff mechanism The I-beam wheel 30 of a kind of specification so that, it is necessary to from the steel wire matched with raw material during the raw material of enterprise's production and application different size Restrict twisting rotate payingoff mechanism just can, be significantly increased which results in enterprise's production cost；Therefore twisting wire rope is put with rotation The problem of there is poor adaptability and higher production cost in line mechanism.

The content of the invention

The present invention provides a kind of twisting wire rope that adaptability is preferable and production cost is relatively low rotation for problem above Payingoff mechanism.

The present invention solve problem above used in technical scheme be：A kind of twisting wire rope with following structure is provided to use Payingoff mechanism is rotated, it includes bobbin loader, base and is fixed on two parallel bearings on base, the bobbin loader is frame-type Structure, bobbin loader is located between two parallel bearings, and the two ends of bobbin loader are connected with two bearings rotations respectively, the line The placement mechanism of I-beam wheel 30 is provided with plate rail, the placement mechanism of I-beam wheel 30 includes support bar and adjustment axis, the support bar Two ends be connected respectively with the both sides of bobbin loader, the two ends of the adjustment axis rotate with the both sides of bobbin loader be connected respectively, and prop up Strut is parallel with adjustment axis, and the support bar is provided with the support for being used for placing I-beam wheel 30, and the support is divided into first support And second support, and first support is parallel with second support, the two ends of the first support are slided with support bar and adjustment axis respectively Dynamic connection, the two ends of second support are slidably connected with support bar and adjustment axis respectively, and described bobbin loader is provided with control first Frame or the controlling organization of second support or first support and second support movement, the controlling organization are connected with adjustment axis.

After above structure, compared with prior art, the present invention is because bobbin loader is provided with control first support or second Support or the controlling organization of first support and second support movement, then in use, during if desired for placing I-beam wheel 30, turn Dynamic adjustment axis causes controlling organization to control the movement of support, so as to I-beam wheel 30 be clamped between two supports, use side Just, and because support is mobile, therefore the I-beam wheel 30 of a range of different model can be clamped, the scope of application compared with Extensively, so as to reduce the quantity of enterprise procurement equipment, and then the use cost of equipment can be greatly reduced.Therefore the present invention, which has, adapts to The characteristics of property preferable and relatively low production cost.

As an improvement, the controlling organization includes at least one set of screw and screw mandrel combination, the screw mandrel is rotatably connected on line The side of plate rail, and screw mandrel is parallel with adjustment axis, the screw is fixed on first support or second support or first support and On two supports, described screw mandrel one end coordinates with screw, and screw mandrel one end other end is provided with the first pinion, and the adjustment axis is provided with The driving gear engaged with the first pinion, the driving gear is provided with position-limit mechanism with bobbin loader；Then this structure, parts Less, cost is relatively low, and stability during operation is also preferable, so that the stability in use of the present invention is further improved, into This is lower.

As a further improvement, the controlling organization includes two groups of screws and screw mandrel is combined, two groups of screw is each attached to It is equipped with first support or second support, and on two groups of screw mandrel between the first pinion, the first pinion and passes through driving cog Wheel connection, the axis of the axis of the screw mandrel, the axis of travelling gear and adjustment axis is at grade；Then so set Afterwards so that screw mandrel is more uniform to the active force of support, also make it easier to promote support, and stationarity of the support in movement Also more preferably, the operation for the workman that is more convenient for, while the stability of the present invention can also be improved further.

As further improving, the controlling organization includes four groups of screws and screw mandrel is combined；Four groups of screws and screw mandrel group Two groups in conjunction be located at bobbin loader side, remaining two groups be located at bobbin loader opposite side, and in bobbin loader both sides along drum The axisymmetrical distribution that frame is rotated；The screw is fixed on respective in bobbin loader homonymy first support and second support, institute State and the first pinion is equipped with screw mandrel, connected between the first adjacent pinion by travelling gear, and the two ends of adjustment axis There is driving gear, the driving gear is engaged with the first adjacent pinion；After then so setting, simultaneously synchronous it can promote Two support movements so that after I-beam wheel 30 is clamped, the central point of I-beam wheel 30 is located on the center line of bobbin loader length direction, enters And make it that eccentric force when bobbin loader is rotated is smaller, vibrations are also reduced by, and make it that the abrasion of each parts is also reduced, and then are extended The service life of the present invention, saves energy consumption.

As further improving, be provided with pinboard on the outside of the driving gear of described adjustment axis one end, the pinboard with Driving gear is mutually circumferential spacing, and pinboard axis and driving gear axis on the same line；On the pinboard The handle of pinboard can be rotated by being plugged with；The side for having pinboard on the bobbin loader is provided with locating ring, the locating ring Internal diameter is more than or equal to the external diameter of pinboard, and the axis of locating ring is overlapped with the axis of pinboard, and position-limit mechanism is located at locating ring Between pinboard；After then pinboard is set, it is no longer necessary to punched in adjustment axis so that the intensity of adjustment axis more preferably, is used Life-span is also longer, and processing cost is also decreased；And position-limit mechanism is when can prevent that bobbin loader from rotating, the rotation of adjustment axis, And then the stability after the clamping of I-beam wheel 30 is further improved so that stability of the invention is more preferable；Furthermore handle is set Afterwards so that workman rotates adjustment axis and more facilitated, it is possible to decrease the working strength of workman, and after regulation terminates, it will directly can turn Taking down, therefore security is also preferable.

As further improving, the pinboard outer face is provided with the groove in pinboard outer peripheral face opening, groove Plug blades are inside slidably connected, the one end of the locating ring away from bobbin loader is provided with end-tooth, described plug blades one end and end face Tooth coordinates spacing, is provided with (the first back-moving spring, the outer face of the pinboard and sets between the plug blades other end and groove inner wall There is spliced eye, the axis of spliced eye is overlapped with the axis of pinboard, the spliced eye is stepped hole, and spliced eye near line plate rail one The aperture in the hole at end is more than the aperture in the hole of the spliced eye other end, and the handle is plugged in spliced eye；Then this position-limit mechanism Simple in construction, parts are less, and also preferable using reliability.

As further improving, the handle includes shank, handle and connecting rod, and the shank passes through connecting rod and handle Hand is connected, and the axis and the diameter parallel of handle of shank, and the external diameter of the shank inserted terminal is equal to the spliced eye other end The aperture in hole, and shank outer peripheral face is provided with the elongated slot that extends along its length, the elongated slot and is hinged with positive stop hook, it is spacing Hook one end is provided with barb, and the positive stop hook other end is provided with the projection with barb opposite direction, and one end that positive stop hook has barb is located at grafting It is hinged in the middle part of the inserted terminal of bar, positive stop hook in elongated slot, and the position between the barb of positive stop hook and hinged place is provided with the Two back-moving springs, the bottom surface of the elongated slot is provided with counterbore and through hole, and the hinged place of positive stop hook is located between counterbore and through hole Position on, described second back-moving spring one end and positive stop hook, which are supported, to be closed, and the second back-moving spring other end is located at counterbore, the projection In through hole；One end that the connecting rod is connected with shank is provided with circumferential spacer pin, and the plug blades are provided with and circumferential limit Position pin coordinates spacing jack, and the inwall of the nearly spliced eye of jack is inclined-plane, and the circumferential spacer pin is provided with and jack inclined-plane The inclined-plane of laminating, when circumferential spacer pin is located in jack, under the interaction on inclined-plane, plug blades one end takes off with end-tooth Open；Then such rotating handle structure, when in use, is plugged into after pinboard, due to the interaction of circumferential spacer pin and plug blades, No longer need the action in addition to plug blades that unblock can be achieved, and also no longer need other circumferential position-limit mechanism so that this Overall structure is invented simpler, using also more convenient.

As further improving, the bearing is provided with reducing motor, and reducing motor is driven by gear and bobbin loader Connection；After then so setting so that the stability that bobbin loader is rotated is more preferable, so as to ensure the stability in use of the present invention.

Brief description of the drawings

Fig. 1 is the structural representation that twisting wire rope of the present invention rotates payingoff mechanism.

Fig. 2 is the mplifying structure schematic diagram of part A in Fig. 1.

Fig. 3 is the top view that twisting wire rope of the present invention rotates payingoff mechanism.

Fig. 4 is the structural representation that twisting wire rope of the present invention rotates payingoff mechanism controlling organization.

Fig. 5 is the mplifying structure schematic diagram of part B in Fig. 4.

As shown in the figure：1st, bobbin loader, 2, base, 3, bearing, 4, support bar, 5, adjustment axis, 6, first support, 7, second Frame, 8, screw, 9, screw mandrel, the 10, first pinion, 11, driving gear, 12, travelling gear, 13, pinboard, 14, handle, 141, Shank, 142, handle, 143, connecting rod, 15, locating ring, 16, groove, 17, plug blades, 18, end-tooth, 19, first resets bullet Spring, 20, spliced eye, 21, elongated slot, 22, positive stop hook, 23, raised, 24, second back-moving spring, 25, counterbore, 26, through hole, 27, limit Position pin, 28, jack, 29, reducing motor, 30, I-beam wheel.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described further.

Embodiment one

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, a kind of twisting wire rope rotation payingoff mechanism, it includes bobbin loader 1st, base 2 be fixed on two parallel bearings 3 on base 2, the bobbin loader 1 is tower structure, and bobbin loader 1 is located at two Between parallel bearing 3, and the two ends of bobbin loader 1 are connected with two rotations of bearings 3 respectively, and I-shaped is provided with the bobbin loader 1 Take turns placement mechanism, the I-beam wheel placement mechanism includes support bar 4 and adjustment axis 5, the two ends of the support bar 4 respectively with drum The both sides connection of frame 1, the two ends of the adjustment axis 5 are rotated with the both sides of bobbin loader 1 respectively to be connected, and support bar 4 and adjustment axis 5 Parallel, the axis of support bar 4 and the axis of adjustment axis 5 are in same level, and the support bar 4, which is provided with, to be used to place I-shaped Wheel 30 support, the support be divided into first support 6 and second support 7, the first support 6 and second support 7 on both It is equipped with relative face for the rotating shaft with the grafting of I-beam wheel 30, and first support 6 is parallel with second support 7；Described first The two ends of support 6 are slidably connected with support bar 4 and adjustment axis 5 respectively, provided with two cunnings near two close end end in first support 6 Hole, one of slide opening is slidably connected with support bar 4, and another slide opening is slidably connected with adjustment axis 5；The two ends of second support 7 It is slidably connected respectively with support bar 4 and adjustment axis 5, two slide openings also is provided with second support 7 near two close end end, wherein one Individual slide opening is slidably connected with support bar 4, and another slide opening is slidably connected with adjustment axis 5；Described bobbin loader 1 is provided with control the The controlling organization that one support 6 and second support 7 are moved, the controlling organization is connected with adjustment axis 5.

The controlling organization includes at least one set of screw 8 and screw mandrel 9 is combined, and the screw mandrel 9 is rotatably connected on bobbin loader 1 Side, and screw mandrel 9 is parallel with adjustment axis 5, the axis of screw mandrel 9 and the axis of adjustment axis 5 are in same level, the screw 8 It is fixed in first support 6 or second support 7 or first support 6 and second support 7, described one end of screw mandrel 9 coordinates with screw 8, One end other end of screw mandrel 9 is provided with the first pinion 10, and the adjustment axis 5 is provided with the driving gear engaged with the first pinion 10 11, position-limit mechanism is provided between the driving gear 11 and bobbin loader 1.

The controlling organization includes four groups of screws 8 and screw mandrel 9 is combined；Two groups during four groups of screws 8 and screw mandrel 9 are combined are located at The side of bobbin loader 1, the remaining two groups opposite sides positioned at bobbin loader 1, and the axle rotated in the both sides of bobbin loader 1 along bobbin loader 1 Line is symmetrical；The screw 8 is fixed on respective in the homonymy first support 6 of bobbin loader 1 or second support 7, i.e., with first The screw 8 of the homonymy of support 6 is fixedly connected with first support 6, is fixed with the screw 8 of the homonymy of second support 7 with second support 7 Connection；It is equipped between the first pinion 10, the first adjacent pinion 10 and is connected by travelling gear 12 on the screw mandrel 9, And there is driving gear 11 at the two ends of adjustment axis 5, the driving gear 11 is engaged with the first adjacent pinion 10；Gear train Outside is equipped with outer cover, not only can also increase security with dust protection.

The outside of driving gear 11 of described one end of adjustment axis 5, which is provided with pinboard 13, bobbin loader 1, can typically each set unwrapping wire Damping mechanism, and pinboard 13 is generally located on the one end of adjustment axis 5 away from damping mechanism, after so setting so that line The center of gravity of plate rail 1 still can be located at bobbin loader 1 on the axis of rotation, so that vibrations and noise when reducing operation；It is described Pinboard 13 is mutually circumferential spacing with driving gear 11, and pinboard 13 is connected by bolt with driving gear 11, and pinboard 13 Axis and driving gear 11 axis on the same line；Turning for pinboard 13 can be rotated by being plugged with the pinboard 13 14；The side for having pinboard 13 on the bobbin loader 1 is provided with locating ring 15, and the internal diameter of the locating ring 15 is more than or equal to grafting The external diameter (this example is slightly over, or equal to) of disk 13, and the axis of locating ring 15 overlaps with the axis of pinboard 13, it is spacing Mechanism is located between locating ring 15 and pinboard 13.

The outer face of pinboard 13 is provided with the groove 16 in the outer peripheral face opening of pinboard 13, i.e. pinboard 13 away from main The end face of moving gear 11 is provided with groove 16, and groove 16 is in the outer peripheral face opening of pinboard 13；Slidably connected in groove 16 slotting Selling sheet 17, the outer face of pinboard 13 is provided with the pressing plate for pushing down plug blades 17；The described one end of locating ring 15 away from bobbin loader 1 Provided with end-tooth 18, described one end of plug blades 17 coordinates spacing with end-tooth 18, and specifically the one end of plug blades 17 is provided with limit convex Rise, the spacing preiection is located on end-tooth 18 in tooth paddy；Resetted between the other end of plug blades 17 and the inwall of groove 16 provided with first Spring 19, the specifically inwall of groove 16 are provided with counterbore, and the one end of (the first back-moving spring 19 is supported with plug blades 17 and closed, and first resets bullet The other end of spring 19 is located in counterbore；The outer face of the pinboard 13 is provided with spliced eye 20, the axis of spliced eye 20 and grafting The axis of disk 13 is overlapped, and the spliced eye 20 is stepped hole, and the aperture in the hole of the one end of 20 near line plate rail of spliced eye 1 is more than grafting The aperture in the hole of the other end of hole 20, the handle 14 is plugged in spliced eye 20.

The handle 14 includes shank 141, handle 142 and connecting rod 143, and the shank 141 passes through connecting rod 143 and handle Hand 142 is connected, and connecting rod 143 is Z-shaped structure, and the diameter parallel of axis and the handle 142 of shank 141, the shank The external diameter of 141 inserted terminals is equal to the aperture of another stomidium of spliced eye 20, the i.e. external diameter of the inserted terminal of shank 141 and is equal to spliced eye 20 The aperture of aperture, and the outer peripheral face of shank 141 be provided with the elongated slot 21 that extends along its length, the elongated slot 21 be hinged it is limited Gap is left in the bottom surface of position hook 22, positive stop hook 22 and elongated slot 21, and the one end of positive stop hook 22 is provided with barb, during free state, barb position In the outside of elongated slot 21, the other end of positive stop hook 22 also is understood as barb, positive stop hook 22 provided with the projection 23 with barb opposite direction The structure of similar Z-shaped is constituted with projection 23, one end that positive stop hook 22 has barb is located at the inserted terminal of shank 141, spacing The middle part of hook 22 is hinged in elongated slot 21, and the position between the barb of positive stop hook 22 and hinged place is provided with second back-moving spring 24, the bottom surface of the elongated slot 21 is provided with counterbore 25 and through hole 26, and counterbore 25 combines what is formed by screwed hole and sunk screw, this Sample, which is rotated, can just adjust the restoring force of second back-moving spring 24 after sunk screw, and the hinged place of positive stop hook 22 is located at counterbore 25 On position between through hole 26, described one end of second back-moving spring 24 is supported with positive stop hook 22 and closed, and second back-moving spring 24 is another End is located in counterbore 25, and described raised 23 are located in through hole 26；One end that the connecting rod 143 is connected with shank 141 is provided with week To spacer pin 27, the axis of circumferential spacer pin 27 and the diameter parallel of shank 141, the plug blades 17 are provided with and circumferential limit Position pin 27 coordinates spacing jack 28, and the inwall of the nearly spliced eye 20 of jack 28 is inclined-plane, and the circumferential spacer pin 27 is provided with The inclined-plane fitted with the inclined-plane of jack 28, the inclined-plane of circumferential spacer pin 27 is made up of the inclined-plane of two different gradients, near circumferential spacing The slope of the end of pin 27 is less than the gradient on another inclined-plane, after so setting so that insert jack in circumferential spacer pin 27 The speed that 28 early stage plug blades 17 are slided, so that plug blades 17 are quickly disengaged with end-tooth 18, and later stage latch The speed that piece 17 is slided is slower, and displacement is also shorter, so that the restoring force of second back-moving spring 24 first to smaller so that So that later stage circumference spacer pin 27 insertion is relatively easy to, and when circumferential spacer pin 27 is located in jack 28, the phase interaction on inclined-plane Under so that the one end of plug blades 17 is disengaged with end-tooth 18.

The bearing 3 is provided with reducing motor 29, and reducing motor 29 is connected by gear with bobbin loader 1.

Embodiment two

The controlling organization includes two groups of screws 8 and screw mandrel 9 is combined, and two groups of screw 8 is each attached in first support 6, And be equipped between the first pinion 10, the first pinion 10 and connected by travelling gear 12 on two groups of screw mandrel 9, the screw mandrel The axis of 9 axis, the axis of travelling gear 12 and adjustment axis 5 is at grade.The unilateral setting control of general bobbin loader 1 During mechanism, the another side of bobbin loader 1 can set corresponding counterweight, to control the center of gravity of bobbin loader 1.

Embodiment three

The controlling organization includes two groups of screws 8 and screw mandrel 9 is combined, and two groups of screw 8 is each attached in second support 7, And be equipped between the first pinion 10, the first pinion 10 and connected by travelling gear 12 on two groups of screw mandrel 9, the screw mandrel The axis of 9 axis, the axis of travelling gear 12 and adjustment axis 5 is at grade.

Operating principle so that the circumferential alignment receptacles 28 of spacer pin 27, then inserts shank 141 against spliced eye 20, It is rotatable pinboard 13 thereafter through handle 142, so as to rotate adjustment axis 5, and drives driving gear 11 to rotate, by rotates So that screw mandrel 9 is rotated, finally cause bracket slide, so as to realize the clamping to I-beam wheel 30 and release；After regulation terminates, pass through Finger presses projection 23 so that the step surface of barb and spliced eye 20 is disengaged, and can now extract shank 141.

Above example is only presently preferred embodiments of the present invention, and the present invention, which is not limited only to above example, also allows have other Structure change, it is all to change in rights to independence claimed range of the present invention, belong to the scope of the present invention.

Claims (8)

1. a kind of twisting wire rope rotation payingoff mechanism, it includes bobbin loader (1), base (2) and is fixed on two on base (2) Individual parallel bearing (3), the bobbin loader (1) is tower structure, and bobbin loader (1) is located between two parallel bearings (3), And the two ends of bobbin loader (1) are rotated with two bearings (3) be connected respectively, and I-beam wheel placement mechanism is provided with the bobbin loader (1), It is characterized in that：The I-beam wheel placement mechanism includes support bar (4) and adjustment axis (5), and the two ends of the support bar (4) are distinguished It is connected with the both sides of bobbin loader (1), the two ends of the adjustment axis (5) are rotated with the both sides of bobbin loader (1) respectively to be connected, and support Bar (4) is parallel with adjustment axis (5), and the support bar (4) is provided with the support for being used for placing I-beam wheel, and the support is divided into first Support (6) and second support (7), and first support (6) is parallel with second support (7), the two ends difference of the first support (6) It is slidably connected with support bar (4) and adjustment axis (5), the two ends of second support (7) are sliding with support bar (4) and adjustment axis (5) respectively Dynamic connection, described bobbin loader (1) is provided with control first support (6) or second support (7) or first support (6) and second The mobile controlling organization of frame (7), the controlling organization is connected with adjustment axis (5).

2. twisting wire rope according to claim 1 rotation payingoff mechanism, it is characterised in that：The controlling organization includes At least one set of screw (8) and screw mandrel (9) combination, the screw mandrel (9) are rotatably connected on the side of bobbin loader (1), and screw mandrel (9) with Adjustment axis (5) is parallel, and the screw (8) is fixed on first support (6) or second support (7) or first support (6) and second On frame (7), described screw mandrel (9) one end coordinates with screw (8), and screw mandrel (9) one end other end is provided with the first pinion (10), described Adjustment axis (5) is provided with the driving gear (11) engaged with the first pinion (10), the driving gear (11) and bobbin loader (1) Between be provided with position-limit mechanism.

3. twisting wire rope according to claim 2 rotation payingoff mechanism, it is characterised in that：The controlling organization includes Two groups of screws (8) and screw mandrel (9) combination, two groups of screw (8) are each attached in first support (6) or second support (7), and two It is equipped between the first pinion (10), the first pinion (10) and is connected by travelling gear (12) on the screw mandrel (9) of group, it is described The axis of the axis of screw mandrel (9), the axis of travelling gear (12) and adjustment axis (5) is at grade.

4. twisting wire rope according to claim 2 rotation payingoff mechanism, it is characterised in that：The controlling organization includes Four groups of screws (8) and screw mandrel (9) combination；Two groups of sides positioned at bobbin loader (1) in four groups of screws (8) and screw mandrel (9) combination, The remaining two groups opposite sides positioned at bobbin loader (1), and the axisymmetrical point rotated in bobbin loader (1) both sides along bobbin loader (1) Cloth；The screw (8) is fixed on respective in bobbin loader (1) homonymy first support (6) or second support (7), the screw mandrel (9) it is equipped between the first pinion (10), adjacent the first pinion (10) and is connected by travelling gear (12) on, and regulation There is driving gear (11) at the two ends of axle (5), and the driving gear (11) is engaged with adjacent the first pinion (10).

5. the twisting wire rope rotation payingoff mechanism according to claim 3 or 4, it is characterised in that：The adjustment axis (5) Pinboard (13) is provided with the outside of the driving gear (11) of one end, the pinboard (13) mutually circumferentially limits with driving gear (11) Position, and axis and the driving gear (11) of pinboard (13) axis on the same line；It is plugged with the pinboard (13) The handle (14) of pinboard (13) can be rotated；The side for having pinboard (13) on the bobbin loader (1) is provided with locating ring (15), The internal diameter of the locating ring (15) is more than or equal to the external diameter of pinboard (13), and the axis and pinboard (13) of locating ring (15) Axis is overlapped, and position-limit mechanism is located between locating ring (15) and pinboard (13).

6. twisting wire rope according to claim 5 rotation payingoff mechanism, it is characterised in that：The pinboard (13) is outside End face is provided with the groove (16) in pinboard (13) outer peripheral face opening, groove (16) and slidably connects plug blades (17), institute State the one end of locating ring (15) away from bobbin loader (1) and be provided with end-tooth (18), described plug blades (17) one end and end-tooth (18) Coordinate spacing, (the first back-moving spring (19), the pinboard are provided between plug blades (17) other end and groove (16) inwall (13) outer face is provided with spliced eye (20), and the axis of spliced eye (20) is overlapped with the axis of pinboard (13), the grafting Hole (20) be stepped hole, and the hole of spliced eye (20) near line plate rail (1) one end aperture be more than spliced eye (20) other end hole Aperture, the handle (14) is plugged in spliced eye (20).

7. twisting wire rope according to claim 6 rotation payingoff mechanism, it is characterised in that：The handle (14) includes Shank (141), handle (142) and connecting rod (143), the shank (141) are connected by connecting rod (143) with handle (142), And the diameter parallel of the axis of shank (141) and handle (142), the external diameter of shank (141) inserted terminal is equal to grafting The aperture of hole (20) another stomidium, and shank (141) outer peripheral face is provided with the elongated slot (21) extended along its length, the length Positive stop hook (22) is hinged with groove (21), positive stop hook (22) one end is provided with barb, and positive stop hook (22) other end is provided with anti-with barb The projection (23) in direction, one end that positive stop hook (22) has barb is located at the inserted terminal of shank (141), the middle part of positive stop hook (22) It is hinged in elongated slot (21), and the position between the barb of positive stop hook (22) and hinged place is provided with second back-moving spring (24), The bottom surface of the elongated slot (21) be provided with counterbore (25) and through hole (26), and positive stop hook (22) hinged place be located at counterbore (25) and On position between through hole (26), described second back-moving spring (24) one end is supported with positive stop hook (22) and closed, second back-moving spring (24) other end is located at counterbore (25), and the projection (23) is located in through hole (26)；The connecting rod (143) and shank (141) One end of connection is provided with circumferential spacer pin (27), and the plug blades (17) are provided with coordinates spacing insert with circumferential spacer pin (27) Hole (28), and the inwall of the nearly spliced eye (20) of jack (28) is inclined-plane, the circumferential spacer pin (27) is provided with and jack (28) The inclined-plane of inclined-plane laminating, when circumferential spacer pin (27) is interior positioned at jack (28), under the interaction on inclined-plane so that plug blades (17) one end is disengaged with end-tooth (18).

8. twisting wire rope according to claim 1 rotation payingoff mechanism, it is characterised in that：Set on the bearing (3) There is reducing motor (29), reducing motor (29) is connected by gear and bobbin loader (1).